TY - CONF A1 - Askar, Enis T1 - Sicherheitstechnische Fragestellungen im Zusammenhang mit Elektrolyseanlagen N2 - Im Vortrag werden aktuelle Entwicklungen bei verschiedenen Elektrolysetechnologien kurz vorgestellt. Dann werden für Elektrolyseanlagen spezifische Gefährdungen diskutiert, v.a. die im Zusammenhang mit den Eigenschaften der Gase Wasserstoff und Sauerstoff stehen. Dabei wird auch Bezug auf die Normung- und Regelsetzung genommen und Sicherheitskonzepte werden beispielhaft kurz vorgestellt. Abschließend wird auf Unfallereignisse im Zusammenhang mit der Elektrolyse eingegangen. T2 - BAM/UBA-Behördenerfahrungsaustausch CY - Berlin, Germany DA - 27.06.2022 KW - Explosionsschutz KW - Wasserstofferzeugung KW - Sauerstoff KW - Sicherheit PY - 2022 AN - OPUS4-55220 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Askar, Enis A1 - Grunewald, Thomas T1 - Experimentelle Untersuchung von Zündwahrscheinlichkeiten bei mechanischen Schlagvorgängen in wasserstoffhaltigen Atmosphären N2 - Im Projekt HySpark wird die Wirksamkeit mechanischer Schlagvorgänge beim Aufprall von unterschiedlichen Werkstoffen als Zündquelle für wasserstoffhaltige Atmosphären experimentell untersucht. Zum Einen wird die Zündwirksamkeit bei Wasserstoff/Luft-Gemischen in Abhängigkeit der Werkstoffpaarung untersucht. Dabei konnte v.a. festgestellt werden, dass bei Schlagvorgängen von Nicht-Eisen-Metallen mit verschiedenen Stahlsorten die wirksame Zündung vermieden werden kann. Jedoch können bei Schlagvorgängen mit Estrichbeton hohe Zündwahrscheinlichkeiten beobachtet werden. Zum anderen wird der Einfluss von Wasserstoffbeimischungen im Erdgasnetz auf die Zündwirksamkeit von mechanischen Schlägen untersucht. Bei Anteilen bis 25% Wasserstoff konnte bei den Versuchen kein Erhöhung der Zündwahrscheinlichkeit festgestellt werden. T2 - H2-Kolloquium des Kompetenzzentrums „H2Safety@BAM” CY - Online meeting DA - 04.07.2022 KW - Explosionsschutz KW - Zündquellen KW - Schlagfunken KW - Erdgas PY - 2022 AN - OPUS4-55224 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Segovia, J. J. A1 - Tuma, Dirk A1 - Lozano-Martín, D. A1 - Moreau, A. A1 - Martín, M. C. A1 - Vega-Maza, D. T1 - Speed of sound data and acoustic virial coefficients of two binary (N2 + H2) mixtures at temperatures between (260 and 350) K and at pressures between (0.5 and 20) MPa N2 - This work aims to address the technical concerns related to the thermodynamic characterization of gas mixtures blended with hydrogen for the implementation of hydrogen as a new energy vector. For this purpose, new experimental speed of sound measurements have been done in gaseous and supercritical phases of two binary mixtures of nitrogen and hydrogen using the most accurate technique available, i.e., the spherical acoustic resonator, yielding an experimental expanded (k = 2) uncertainty of only 220 parts in 106 (0.022%). The measurements cover the pressure range between (0.5 and 20) MPa, the temperature range between (260 and 350) K, and the composition range with a nominal mole percentage of hydrogen of (5 and 10) mol%, respectively. From the speed of sound data sets, thermophysical properties that are relevant for the characterization of the mixture, namely the second βa and third γa acoustic virial coefficients, are derived. These results are thoroughly compared and discussed with the established reference mixture models valid for mixtures of nitrogen and hydrogen, such as the AGA8-DC92 EoS, the GERG-2008 EoS, and the recently developed adaptation of the GERG-2008 EoS, here denoted GERG-H2_improved EoS. Special attention has been given to the effect of hydrogen concentration on those properties, showing that only the GERG-H2_improved EoS is consistent with the data sets within the experimental uncertainty in most measuring conditions. KW - Speed of sound KW - Acoustic resonance KW - Binary gas mixture PY - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-551482 SN - 0021-9614 VL - 171 SP - 1 EP - 13 PB - Elsevier B. V. CY - Amsterdam AN - OPUS4-55148 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Holtappels, Kai T1 - Wasserstoff - Energieträger der Zukunft N2 - Im Rahmen des internationalen Wissenschaftsfestivals, der Berlin Science Week 2021, hat die BAM in einem Beitrag das Kompetenzzentrum H2Safety@BAM, dessen Vision und die vier wissenschaftlichen Kompetenzfelder sowie den dort bearbeiteten Themen bzw. Projekten vorgestellt. T2 - Berlin Science Week 2021 CY - Berlin, Germany DA - 01.11.2021 KW - H2Safety@BAM KW - Materialeignung und -kompatibilität KW - Bauteilprüfung, -sicherheit und -zertifizierung KW - Prozess- und Anlagensicherheit KW - Sensorik, Analytik und Referenzmaterialien KW - Sicherheit KW - Vertrauen in Wasserstofftechnologien PY - 2021 AN - OPUS4-55136 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Holtappels, Kai T1 - Aufbau einer Testinfrastruktur für Wasserstoffsicherheit in Südbrandenburg N2 - Im Rahmen des 6. Lausitzer Netzwerktreffens DurcH2atmen hat die BAM das Kompetenzzentrum H2Safety sowie aktuell drei große Projekte zur Schaffung einer Testinfrastruktur auf dem BAM TTS vorgestellt. Es handelt sich hierbei um die vom BMWK geförderten Projekte ModuH2Pipe (Modulare Pipelineanlage zur Untersuchung sicherheitstechnischer Fragestellungen beim Transport von Wasserstoff und Wasserstoff/Erdgasgemischen in Pipeline) und QI Digital "Usecase" Wasserstofftankstelle" sowie den Aufbau einer Höchstdruckinfrastruktur für die Bereitstellung von 1000 bar Wasserstoff in einem 5 m³-Behälter inkl. Peripherie. T2 - Lausitzer Netzwerktreffen DurcH2atmen CY - Schipkau, Germany DA - 22.06.2022 KW - H2Safety@BAM KW - Testinfrastruktur KW - ModuH2Pipe KW - Modulare Pipelineanlage KW - QI Digital KW - Wasserstofftankstelle PY - 2022 AN - OPUS4-55137 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Holtappels, Kai T1 - Markthochlauf von Wasserstofftechnologien - Vertrauen durch Sicherheit N2 - Beim BAM-UBA-Behördenerfahrungsaustausch 2022 hat die BAM zu dem Schwerpunktthema Wasserstoff den von der Bundesregierung avisierten Markthochlauf und das Thema Vertrauen durch Sicherheit vorgestellt. Dabei wurde das Kompetenzzentrum H2Safety mit seinen derzeitigen Aktivitäten ebenso vorgestellt wie sicherheitstechnische Fragestellungen, die über die Wertschöpfungskette hinweg derzeit existieren. Dabei handelt es sich um Fragestellungen zur Materialeignung und -kompatibilität, Leckageüberwachung, Schutzkonzepte und Unfallszenarien. Darüber hinaus gibt es Themen, die keinen direkten Bezug zur Sicherheit haben, aber das Vertaruen in Wasserstofftechnologien deutlich fördern können. Neben Aus- und Weiterbildungskonzepten wurden auch die Themen Akzeptanz und Risikokommunikation sowie Normung und Standardisierung behandelt. T2 - BAM-UBA-Behördenerfahrungsaustausch 2022 CY - Berlin, Germany DA - 27.06.2022 KW - H2Safety@BAM KW - Markthochlauf KW - Vertrauen PY - 2022 AN - OPUS4-55138 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Sachse, René A1 - Hodoroaba, Vasile-Dan A1 - Kraehnert, R. A1 - Hertwig, Andreas T1 - Multilevel effective material approximation for modeling ellipsometric measurements on complex porous thin films N2 - Catalysts are important components in chemical processes because they lower the activation energy and thus determine the rate, efficiency and selectivity of a chemical reaction. This property plays an important role in many of today’s processes, including the electrochemical splitting of water. Due to the continuous development of catalyst materials, they are becoming more complex, which makes a reliable evaluation of physicochemical properties challenging even for modern analytical measurement techniques and industrial manufacturing. We present a fast, vacuum-free and non-destructive analytical approach using multi-sample spectroscopic ellipsometry to determine relevant material parameters such as film thickness, porosity and composition of mesoporous IrOx–TiOy films. Mesoporous IrOx–TiOy films were deposited on Si wafers by sol–gel synthesis, varying the composition of the mixed oxide films between 0 and 100 wt%Ir. The ellipsometric modeling is based on an anisotropic Bruggeman effective medium approximation (a-BEMA) to determine the film thickness and volume fraction of the material and pores. The volume fraction of the material was again modeled using a Bruggeman EMA to determine the chemical composition of the materials. The ellipsometric fitting results were compared with complementary methods, such as scanning electron microscopy (SEM), electron probe microanalysis (EPMA) as well as environmental ellipsometric porosimetry (EEP). KW - Electrochemical catalysts KW - Mixed metal oxide KW - Multi-sample analysis KW - Spectroscopic ellipsometry KW - Thin mesoporous films PY - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-551026 SN - 2192-8584 SN - 2192-8576 VL - 11 IS - 3-4 (Topical issue: Ellipsometry) SP - 137 EP - 147 PB - De Gruyter CY - Berlin AN - OPUS4-55102 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Maiwald, Michael A1 - Lubenau, U. T1 - Large-scale hydrogen storage in geological reservoirs: Current perspectives and requirements for metrology N2 - The course of the changeover of UGS from natural gas to hydrogen varies depending on the type of the underground gas storage (UGS). In caverns a changeover to high H2-contents can be achieved quickly, while pore storage tanks must be converted over long periods of time. The analytical requirements are correspondingly different. This information has been compiled through expert statement by underground storage operators. A significant number of new UGS is currently not expected. Public funds (project funding) are currently being raised for the conversion of caverns to hydrogen. In addition, investigations and evaluations of the material are currently being carried out at various storage facilities in order to determine the possibilities and costs of a conversion. H2 admixtures to natural gas, but also pure H2 caverns are considered. The bottleneck seems to be the availability of large volumes of hydrogen. The analytical requirements along with the different hydrogen qualities, which are currently discussed were compiled through expert discussions with underground storage operators and are at hand as early impact results. T2 - EEMUA Energy Transition Seminar CY - Rotterdam, Netherland DA - 23.06.2022 KW - Hydrogen Storage KW - Underground gas storage (UGS) KW - MefHySto KW - EMPIR PY - 2022 AN - OPUS4-55109 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Maiwald, Michael T1 - Sicherheit und Prozesskontrolle in der Wasserstoff-Wirtschaft: Anforderungen an Sensoren und Prozessanalytik N2 - Der Vortrag ist ein Impulsvortrag, der kurz in die Prozessketten der potentiellen Wasserstoffwirtschaft einführt. An vielen Stellen werden spezifische Sensoren benötigt, die die Prozess-Sicherheit und die Zuverlässigkeit von Qualitätsparametern gewährleisten. Es wird auch kurz auf die Forschungsföerderungslandschaft zu diesem Thema eingegangen. T2 - Sensorik für die Digitalisierung Chemische Produktionsanlagen – Wir bringen neue Projektideen auf dem Weg! CY - Frankfurt am Main, Germany DA - 13.06.2022 KW - Sensoren KW - Wasserstoff-Wirtschaft KW - Forschungslandschaft Wasserstoff KW - ProcessNet KW - Digitale Transformation PY - 2022 AN - OPUS4-55110 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Eberwein, Robert T1 - Systeme mit tiefkalt verflüssigten Gasen in Brandereignissen N2 - Die volumetrische Energiedichte eines Gases kann durch Verflüssigung erhöht wer-den. Diese findet statt, wenn das Gas unter den Siedepunkt abgekühlt wird. Verflüs-sigte Gase mit großer Bedeutung für die Energiewende sind verflüssigter Wasser-stoff (LH2) und verflüssigtes Erdgas (LNG), dessen Verflüssigung Temperaturen von unter -160 °C bedarf. Systeme zur Speicherung dieser verflüssigten Gase müssen in der Regel für Überdrücke ausgelegt sein und benötigen thermische Superisolierun-gen (TSI), um die tiefkalten Bedingungen über längere Zeit halten zu können und Verluste durch Boil-Off gering zu halten. TSI mit Vakuum und MLI oder Perlit sind für viele Anwendungen mit LNG und LH2 geeignet. Bei solchen Systemen handelt es sich in der Regel um doppelwandige Strukturen, bei denen die Innenwand mit dem tiefkalten Fluid in Kontakt steht. Die Lücke, zwischen der Innen- und der Außen-wand befindet sich unter Vakuumbedingungen und enthält zudem MLI oder Perlite. Diese Kombination von Isolationsmethoden ermöglicht es auf kleinstem Raum sehr gute thermische Isolationswirkung zu erreichen. Aus wirtschaftlicher Sicht sind die Systeme gut durchdacht. Das Wissen über das Verhalten dieser Systeme bei einem typischen Ereignis wie einem Brand ist jedoch begrenzt. Dieses Wissen ist aber not-wendig, um die Sicherheit der wachsenden Zahl von Anwendungen auf dem Markt bewerten zu können. T2 - H2-Kolloquium des Kompetenzzentrum „H2Safety@BAM” CY - Online meeting DA - 04.07.2022 KW - Tiefkalt KW - Verflüssigt KW - Isolation KW - Auslegungsüberschreitend PY - 2022 AN - OPUS4-55178 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - John, Sebastian A1 - Auster, Jürgen A1 - Widjaja, Martinus Putra A1 - Duffner, Eric A1 - Mair, Georg W. T1 - Current results of the DELFIN project N2 - As a contribution to the national hydrogen strategy, 3.5 years ago, the Delfin research project started with the aim of developing a cost- and material-optimized hydrogen tank design for automotive application. Under the patronage of the National Organization Hydrogen and Fuel Cell Technology (NOW), a consortium consisting of 9 research institutes, component suppliers, engineering service providers and automobile OEMs is processing a wide range of work packages. The focus of BAM research sets on impact testing and safety-related characterization of pressure vessels of different development stages. Furthermore, the implementation of nondestructive testing methods is applied. The presentation shows an overview of the BAM work packages and an extraction of the results generated so far. T2 - Wasserstoffkolloquium des Kompetenzzentrums H2Safety@BAM CY - Online meeting DA - 16.02.2022 KW - Delfin KW - Wasserstoff KW - Druckbehälter KW - Impact PY - 2022 AN - OPUS4-55348 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - John, Sebastian A1 - Jürgen, Auster A1 - Widjaja, Martinus Putra A1 - Duffner, Eric A1 - Mair, Georg W. T1 - Vorstellung NIP II FORSCHUNGSVORHABEN DELFIN N2 - As a contribution to the national hydrogen strategy, 3.5 years ago, the Delfin research project started with the aim of developing a cost- and material-optimized hydrogen tank design for automotive application. Under the patronage of the National Organization Hydrogen and Fuel Cell Technology (NOW), a consortium consisting of 9 research institutes, component suppliers, engineering service providers and automobile OEMs is processing a wide range of work packages. The focus of BAM research sets on impact testing and safety-related characterization of pressure vessels of different development stages. Furthermore, the implementation of nondestructive testing methods is applied. The presentation shows an overview of the BAM work packages and an extraction of the results generated so far. T2 - SAMPE Feierabendkolloqium CY - Online meeting DA - 15.06.2022 KW - Delfin KW - Wasserstoff KW - Druckbehälter KW - Impact PY - 2022 AN - OPUS4-55349 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Asna Ashari, Parsa A1 - Blind, K. ED - Jakobs, K. ED - Kim, D.-h. T1 - The Impact of Publications, Patents, and Standards on International Trade - The Case of Hydrogen N2 - Hydrogen as a clean energy carrier has received increased attention due to climate change and the need to introduce new, low-emissions technologies to the market. However, the drivers of increased hydrogen use have been barely explored. Therefore, this research paper investigates the impacts of publications, patents, and standards on international hydrogen trade, an established technology diffusion channel. In a fixed-effects (FE) regression model covering 37 countries between 1995 and 2020, we demonstrate that publications, patents, and standards are associated with increased levels of hydrogen exports and imports. Furthermore, we test the technology gap theory and explore the meaning of our empirical results for the hydrogen technological innovation system (TIS). Among others, we show that publications, patents, and standards can contribute to a more developed hydrogen TIS. T2 - 26th EURAS Annual Standardisation Conference – Standards for Digital Transformation: Blockchain and Innovation CY - Glasgow, Great Britain DA - 08.06.2022 KW - Hydrogen Trade KW - Publications KW - Patents KW - Standards KW - Technological Innovation System KW - Technology Gap Theory PY - 2022 SN - 978-3-95886-446-7 SP - 25 EP - 44 PB - Verlag Mainz CY - Mainz AN - OPUS4-55061 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Asna Ashari, Parsa A1 - Blind, K. T1 - The Impact of Publications, Patents, and Standards on International Trade - The Case of Hydrogen N2 - Hydrogen as a clean energy carrier has received increased attention due to climate change and the need to introduce new, low-emissions technologies to the market. However, the drivers of increased hydrogen use have been barely explored. Therefore, this research paper investigates the impacts of publications, patents, and standards on international hydrogen trade, an established technology diffusion channel. In a fixed-effects (FE) regression model covering 37 countries between 1995 and 2020, we demonstrate that publications, patents, and standards are associated with increased levels of hydrogen exports and imports. Furthermore, we test the technology gap theory and explore the meaning of our empirical results for the hydrogen technological innovation system (TIS). Among others, we show that publications, patents, and standards can contribute to a more developed hydrogen TIS. T2 - 26th EURAS Annual Standardisation Conference – Standards for Digital Transformation: Blockchain and Innovation CY - Glasgow, United Kingdom DA - 08.06.2022 KW - Hydrogen Trade KW - Publications KW - Patents KW - Standards KW - Technological Innovation System KW - Technology Gap Theory PY - 2022 AN - OPUS4-55062 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Neumann, Patrick P. A1 - Holtappels, Kai T1 - Overview of hydrogen safety & remaining challenges in a green economy and energy transition N2 - In this talk, general aspects of the safety and acceptance of hydrogen technologies were presented. How can trust in new technologies be built when past accidents led to myths and fairy tales? The presentation does away with general prejudices and shows that handling hydrogen is neither more unsafe nor safer than handling other fuel gases. The basis for the safe handling of hydrogen is always a risk analysis. T2 - 6th SAF€RA Symposium - Safety in the new economy and energy transition CY - Rome, Italy DA - 19.05.2022 KW - Sicherer Umgang KW - Sicherheit KW - Wasserstoff Hydrogen KW - Safety PY - 2022 AN - OPUS4-54925 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Eberwein, Robert T1 - Wasserstoff - Kryogene Anwendungen N2 - Wasserstoff wird als ein potenzieller alternativer Energieträger gesehen, mit dem die für 2050 gesetzten Klimaziele erreicht werden könnten. Der Transport von Wasserstoff ist mittels verschiedener Speichertechniken möglich, von denen der kryogene Transport mit den größten volumetrischen Energiedichten einhergeht. Hierdurch eignen sich diese Speicher besonders für die energieintensiven Verkehrsmittel im Land-, See- und Flugverkehr. Im Vortrag werden Speichertechniken, Gefahren im Umgang mit kryogenen Gasen sowie bisherige Störfälle dargestellt. Darauf aufbauend wird ein Teil der aktuellen Forschungsarbeit an der BAM vorgestellt, die die Sicherheit dieser Speicher unter außergewöhnlichen Belastungen adressiert. T2 - 26. Gefahrgutkongress Mecklenburg-Vorpommern CY - Rostock, Germany DA - 03.11.2022 KW - Wasserstoff KW - H2 KW - LNG KW - LH2 KW - Tank PY - 2022 AN - OPUS4-56181 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Nietzke, Jonathan A1 - Sobol, Oded T1 - Additive manufacturing for components in hydrogen technologies N2 - With the introduction of a hydrogen-based energy and national economy, safety-relevant components for hydrogen technologies are becoming increasingly important. Characteristic of hydrogen technologies are, for example, harsh environmental conditions such as cryogenic or high-pressure storage, corrosion issues in fuel cells and electrolyzers, turbines, and many more. Additive manufacturing of components is becoming increasingly important and irreplaceable for the production of complex technical systems. Using the case studies of burners for gas turbines and electrodes and membranes for polymer (PEMFC) and solid oxide (SOFC) fuel cells, this article shows the potential of additive manufacturing of components. At the same time, however, the challenge of considering divergent mechanical properties depending on the direction of assembly in a "hydrogen-compatible" manner is also highlighted. Finally, the challenges posed by additive manufacturing and hydrogen for materials testing are highlighted under scenarios that are as realistic as possible. T2 - MPA-Workshop Hydrogen CY - Online meeting DA - 10.11.2022 KW - Additive manufacturing KW - Hydrogen KW - Technologies KW - Overview KW - Component PY - 2022 AN - OPUS4-56233 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Nietzke, Jonathan A1 - Rhode, Michael A1 - Mente, Tobias A1 - Kannengießer, Thomas T1 - Experimental and numerical characterization of hydrogen diffusion in thick-walled submerged arc welded joint of S420G2+M offshore steel grade N2 - Offshore wind turbines are an important goal in national energy strategies worldwide. Foundation structures are manufactured from submerged arc welded (SAW) plates with thicknesses up to 200 mm. In that connection, high-strength steels like the S420G2+M are more and more applied offering the possibility for increased stability and load-bearing capacity of the foundations. These offshore steel grades can show a susceptibility for delayed hydrogen assisted cold cracking of the weld joints. For that purpose, a minimum waiting time (MWT) of up to 48 h (dependent on applied standards) is recommended before non-destructive testing is allowed and conducted. But this concept is based on older steel grades that have been used for three or more decades. Nowadays, the metallurgical improvements (clean steels, proper rolling, and heat treatment) of base materials and well as welding consumables must be anticipated. Hence, the MWT concept should be critically discussed as it is assumed to be very conservative. For that reason, the focus of this study was to investigate the diffusion behavior in S420G2+M steel and its multi-layer SAW joint. Electrochemical permeation experiments were carried at room temperature. Boundary conditions were anticipated in terms of using different sample thicknesses. From the experimental data, hydrogen diffusion coefficients and absorbed diffusible hydrogen concentrations had been calculated. It was shown that hydrogen diffusion in the base material is increased compared to the weld metal. In addition, the sample thickness had a significant on the calculated diffusion coefficients. The minimum and maximum diffusion coefficients had been used for numerical modelling of the hydrogen diffusion in the welding joint. It became clear that a MWT must be always regarded together with a critical initial diffusible hydrogen concentration for the evaluation of a possible delayed cracking as diffusion times were mostly > 48 h due to the thick plates. T2 - 4th International Conference on Metals and Hydrogen - Steely & Hydrogen 2022 CY - Ghent, Belgium DA - 11.10.2022 KW - Hydrogen KW - Submerged arc welding KW - Diffusion KW - Minimum waiting time KW - Electrochemical permeation PY - 2022 SP - 1 EP - 11 CY - Ghent, Belgium AN - OPUS4-56075 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Konert, Florian A1 - Nietzke, Jonathan A1 - Sobol, Oded A1 - Schütz, S. A1 - Böllinghaus, Thomas T1 - Application of an in-situ H2Test Method N2 - The degradation effect of hydrogen on the mechanical properties of steels is well known, but still not sufficiently understood. The fast and safe market ramp up of hydrogen technologies makes it evident to evaluate a wider understanding of this topic. In general it is often described as hydrogen embrittlement. Therefore it is desirable to achieve a test method which is able to provide material properties under hydrogen atmosphere in an easy way. Currently mechanical tests under hydrogen atmosphere are executed in autoclaves. For this technique complex hardware is needed, therefore tests are expensive and test capacities are only available in a small scale. The shown test method promises a trendsetting approach for reducing costs and machine time by using hollow specimen. T2 - 4th International Conference on Metals and Hydrogen - Steely & Hydrogen 2022 CY - Ghent, Belgium DA - 11.10.2022 KW - Hydrogen KW - Hollow specimen KW - In-situ KW - Test procedure PY - 2022 AN - OPUS4-56032 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Soruco Aloisio, Ricardo A1 - Maiwald, Michael T1 - Eine Infrastruktur für den digitalen Zwilling – Use Case H2-Tankstelle N2 - Im Rahmen von der BAM und anderen Partnern ins Leben gerufene Initiative „Digitale Qualitätsinfrastruktur“ ist der Fokus auf die Entwicklung von neuen Regelwerken und Zertifizierungsworkflows ausgerichtet. Dabei ist eine besondere Bedeutung dem Zusammenführen von Operational Technology (OT) und Informationstechnik (IT) beizumessen, wenn aktuelle Prozess- und Parameterdaten zuverlässig zur Verfügung gestellt werden sollen. In dem Use Case Wasserstofftankstelle werden digitale Abbilder erprobt, die u.a. der Kalibrierung von Sensoren, dem Nachweis über die Wasserstoffreinheit und der vorausschauenden Wartung dienen sollen. Großenteils der verfahrenstechnischen Bestandsanlagen, die sogenannten Brownfield-Anlagen, sind nach einem konservativen und hierarchischen Automatisierungskonzept ausgelegt. Hierbei können sämtliche Prozessdaten, besonders aus der Feldebene, einer oberen informationstechnische Ebene unzugänglich bleiben. Eine Brückentechnologie nach der NAMUR Open Architecture (NOA) soll möglichst viele Informationen und Daten aus der vorgegebenen Brownfield-Automatisierung sicher und rückwirkungsfrei zur Verfügung stellen. Zusätzliche Sensorik soll ebenso zu der Datenerweiterung beitragen und letztendlich den digitalen Zwilling, bzw. das digitale Abbild des verfahrenstechnischen Prozesses, ergänzen. Die Herausforderungen einer solchen Infrastruktur gelten vor allem einer universellen Kommunikationsschnittstelle und der Sicherheit. Darüber hinaus werden vorgeschlagene Normen und Empfehlungen untersucht und erprobt. T2 - Jahrestreffen der "Prozess-, Apparate- und Anlagentechnik" CY - Frankfurt am Main, Germany DA - 21.11.2022 KW - QI-Digital KW - Use-Case Wasserstofftankstelle KW - Automatisierung KW - Operational Technology KW - Digitaler Zwilling KW - NAMUR Open Architecture PY - 2022 AN - OPUS4-56402 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Rhode, Michael A1 - Nietzke, Jonathan A1 - Richter, Tim A1 - Mente, Tobias A1 - Mayr, P A1 - Nitsche, A T1 - Hydrogen effect on mechanical properties and cracking of creep‑resistant 9% Cr P92 steel and P91 weld metal N2 - Martensitic 9% Cr steels like P91 and P92 can show an increased susceptibility to delayed hydrogen-assisted cracking. The focus of this study was the microstructure and heat treatment efect on the mechanical properties of P92 base material and P91 multi-layer weld metal in both as-welded and post weld heat treated (PWHT) condition. Tensile tests with hydrogen free reference samples and electrochemically hydrogen charged samples were carried out; the mechanical properties were assessed and supported by detailed fractographic analysis. Finally, a hydrogen and microstructure-dependent fracture criterion is established. All investigated microstructures showed a hydrogen-infuenced degradation of the mechanical properties compared to the hydrogen-free reference samples. The as-welded martensitic P91 weld metal had the highest degree of degradation in the presence of hydrogen. The P91 PWHT weld metal and the P92 base material had comparable properties. From that point of view, a signifcantly increased risk for hydrogen-assisted cold cracking during welding fabrication of P91 weld joints must be considered before any heat treatment is conducted. T2 - IIW Annual Assembly, Meeting of Commission IX-C CY - Tokyo, Japan DA - 16.07.2022 KW - Creep-resisting materials KW - Welding KW - Hydrogen assisted cracking KW - Hydrogen embrittlement KW - Mechanical properties PY - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-564070 SN - 0043-2288 SP - 1 EP - 12 PB - Springer Nature CY - Basel (CH) AN - OPUS4-56407 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Flege, J. I. A1 - Holtappels, Kai T1 - BTU-BAM Graduate School “Trustworthy Hydrogen” N2 - Beim Online-Meeting des Wasserstoffnetzwerks Lausitz mit dem Titel "Wirtschaft trifft Wissenschaft und Forschung" wurde die BTU-BAM-Graduiertenschule Trustworthy Hydrogen vorgestellt. Es handelt sich um die erste Graduiertenschule in Deutschland, die sich mit der Vertrauenswürdigkeit von Wasserstoff beschäftigt und die einzigartigen Kompetenzen von BAM und BTU zur Ausbildung der nächsten Generation von interdisziplinären Wasserstoff-Wissenschaftlern bündelt. N2 - The BTU-BAM graduate school Trustworthy Hydrogen was presented at the online meeting of the Lausitz Hydrogen Network entitled "Business meets Science and Research". It is the first graduate school in Germany to focus on the trustworthiness of hydrogen and combines the unique competencies of BAM and BTU to train the next generation of interdisciplinary hydrogen scientists. T2 - Lausitzer Netzwerktreffen DurcH2atmen "Wirtschaft trifft Wissenschaft und Forschung" " CY - Online meeting DA - 22.11.2022 KW - H2Safety@BAM KW - Graduate School KW - Trustworthy Hydrogen KW - Graduiertenkolleg PY - 2022 AN - OPUS4-56443 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Eberwein, Robert A1 - Eberwein, Robert A1 - Scarponi, G. E. A1 - Dal Pozzo, Alessandro A1 - Otremba, Frank T1 - Systems With Cryogenic Liquefied Gases In Fire-Incidents N2 - The volumetric energy density of a gas can be increased by liquefaction, which occurs when the gas is cooled below the saturation point. Liquefied gases of great importance to the energy transition are Liquefied Hydrogen (LH2) and Liquefied Natural Gas (LNG), which can be liquefied at temperatures below 160°C. Systems for storing these gases typically must be overpressure resistant and require thermal super insulations (TSI) to hold cryogenic conditions and minimize boil-off losses from evaporation. TSI with vacuum and MLI or perlites are suitable for many applications involving LNG and LH2. Such systems are typically double-walled structures where the inner wall is in contact with the cryogenic liquefied gas. MLI or perlites are located in the gap between the inner and the outer wall, that is kept under vacuum conditions. This combination of insulations strongly reduces the heat transfer between the environment and the cryogenic liquefied gas. From an economic point of view the systems are well sophisticated. However, knowledge of the behavior of this kind of systems in a typical event such as a fire is limited, but necessary to evaluate the safety of the increasing number of applications. The objective of the research is to determine how TSI behaves at different fire temperatures during fire exposure and afterwards. Special attention is paid to changes in the heat flux, the material properties and vacuum state over time. For this purpose, thermogravimetric analysis (TGA) studies have been carried out. In addition, a test rig was developed that allows testing of TSI at temperatures up to 1000°C under realistic integration conditions and subsequent analysis of the TSI samples. In the test rig the double-wall with vacuum and MLI or perlites inside is simulated. The fire conditions are simulated on one side of the double-wall by adjustable electrical heating elements. This process allows the implementation of repeatable heat flows of up to 100 kW/m². On the other side of the double-wall, cold or cryogenic conditions are simulated with a heat exchanger through which water or the vapor of liquid nitrogen (approx. -196°C) flows. The heat exchanger is also used to determine the heat flux through the double-wall. Thus, the test rig allows thermal loading and performance analysis of TSI samples at the same time. Compared to tests with real cryogenic systems, tests with this experimental setup have the advantage that, first, the instrumentation is easier to realize, and a higher repeatability is ensured. Second, the local heat flow can be determined over time, and the sample of a TSI can be taken non-destructively and thus analyzed. Third, the tests are less risky as well as time+ and material intensive, so that more tests and variants can be investigated with the same budget. Preliminary results obtained considering several types of MLI under vacuum show that all observed typs of MLI can be damaged under strong thermal loading. The damages observed were outgassing, melting, shrinkage, cracking, lump formation, and concomitant local loss of the MLI's function as a radiation shield. However, the study also shows that a damage does not always have an extreme effect on the insulating performance. T2 - IMECE2022 CY - Columbus, Ohio, USA DA - 30.10.2022 KW - LH2 KW - LNG KW - Safety KW - Insulation KW - Tank PY - 2022 AN - OPUS4-56445 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Tuma, Dirk A1 - Lozano-Martín, D. A1 - Chamorro, C. R. A1 - Villamañán, M. A. A1 - Khanipour, Peyman A1 - Kipphardt, Heinrich T1 - High-pressure density data of hydrogen-containing natural gases for the extension of equation-of-state models N2 - This presentation reports new density data of hydrogen-containing natural gas mixtures between 250 and 350 K and up to pressures of 20 MPa. T2 - 11th International GAS Analysis Symposium & Exhibition CY - Paris, France DA - 17.05.2022 KW - Hydrogen-containing natural gas KW - Density data KW - Equation of state PY - 2022 AN - OPUS4-56433 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Villajos Collado, José Antonio T1 - Experimental volumetric hydrogen uptake determination at 77 K of commercially available metal-organic framework materials N2 - Storage is still limiting the implementation of hydrogen as an energy carrier to integrate the intermittent operation of renewable energy sources. Among different solutions to the currently used compressed or liquified hydrogen systems, physical adsorption at cryogenic temperature in porous materials is an attractive alternative due to its fast and reversible operation and the resulting reduction in storage pressure. The feasibility of cryoadsorption for hydrogen storage depends mainly on the performance of the used materials for the specific application, where metal-organic frameworks or MOFs are remarkable candidates. In this work, gravimetric and volumetric hydrogen uptakes at 77 K and up to 100 bar of commercially available MOFs were measured since these materials are made from relatively cheap and accessible building blocks. These materials also show relatively high porous properties and are currently near to large-scale production. The measuring device was calibrated at different room temperatures to calculate an average correction factor and standard deviation so that the correction deviation is included in the measurement error for better comparability with different measurements. The influence of measurement conditions was also studied, concluding that the available adsorbing area of material and the occupied volume of the sample are the most critical factors for a reproducible measurement, apart from the samples’ preparation before measurement. Finally, the actual volumetric storage density of the used powders was calculated by directly measuring their volume in the analysis cell, comparing that value with the maximum volumetric uptake considering the measured density of crystals. From this selection of commercial MOFs, the materials HKUST-1, PCN-250(Fe), MOF-177, and MOF-5 show true potential to fulfill a volumetric requirement of 40 g·L−1 on a material basis for hydrogen storage systems without further packing of the powders. KW - Hydrogen adsorption KW - Commercial metal-organic frameworks KW - Hydrogen uptake reproducibility KW - Volumetric uptake KW - Packing density PY - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-542215 SN - 2311-5629 VL - 8 IS - 1 SP - 1 EP - 14 PB - MDPI CY - Basel AN - OPUS4-54221 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Nietzke, Jonathan A1 - Richter, Tim T1 - Hydrogen diffusion and desorption characteristics of a CoCrFeMnNi high entropy and a CoCrNi medium entropy alloy N2 - High-entropy alloys (HEAs) are innovative high-performance materials that have attracted more and more research attention. HEAs are characterized by a solid solution of typically five equiatomic metallic elements. In addition, medium-entropy alloys (MEA, with three elements) are of interest and become more and more important. Depending on the alloy concept, HEAs and MEAs show exceptional mechanical properties, especially high-strength and ductility combinations at both cryogenic and elevated temperatures combined with excellent corrosion resistance. Future structural HEA/MEA components can be exposed to potential applications with hydrogen containing environments like high-temperature water in pressurized nuclear reactors or aerospace structures. Other potential applications could be in materials for vessel walls in the field of cryogenic and high-pressure hydrogen storage. So far, the susceptibility of HEAs/MEAs to hydrogen assisted cracking (if any) and the hydrogen diffusion is not investigated in detail yet and can limit or extend possible applications of HEA/MEA as structural materials. In our work, we focused on the hydrogen absorption, diffusion, and distribution in a HEA (CoCrFeMnNi the original Cantor-alloy) and a MEA (CoCrNi). Cathodic hydrogen charging was carried out for the hydrogen ingress, and thermal desorption analysis (TDA) revealed complex hydrogen trapping in both alloy types up to 300 °C. The absorbed total hydrogen concentrations were > 100 ppm for the HEA and > 40 ppm for MEA. In addition, the assessment of the peak deconvolution is not trivial and must consider both experimental and microstructure influences. T2 - 4th International Conference on Metals and Hydrogen - Steely & Hydrogen 2022 CY - Ghent, Belgium DA - 11.10.2022 KW - Hydrogen KW - High-entropy alloy KW - Multiple principal element alloy KW - Thermal desorption analysis KW - Diffusion PY - 2022 SP - 1 EP - 11 CY - Ghent, Belgium AN - OPUS4-56076 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Kipphardt, Heinrich A1 - Tuma, Dirk A1 - Khanipour, Peyman A1 - Maiwald, Michael T1 - Voll normal - Normen in der Gasanalytik N2 - In dieser Arbeit werden die Grundlagen der Normung, die Entstehung einer Norm und die für die Gasanalytik relevanten Normungsgremien kurz dargestellt. Dazu werden die wichtigsten Normen zur Gasanalytik entlang des analytischen Prozesses gruppiert und aufgeführt. Schließlich wird als Anwendungsbeispiel aus der eigenen Praxis der Prozess von der Herstellung bis zur Zertifizierung eines Kalibriergases beschrieben. KW - Zertifikat KW - Regel- und Messtechnik KW - Normung KW - Gasanalytik KW - Gasgualität KW - Gasreinheit PY - 2022 SN - 2366-9594 VL - 10 SP - 73 EP - 80 PB - Vulkan Verlag CY - Essen AN - OPUS4-56083 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - van der Veen, A. M H A1 - Zalewska, E. T. A1 - Kipphardt, Heinrich A1 - Beelen, R. R. A1 - Tuma, Dirk A1 - Maiwald, Michael A1 - Fükő, J. A1 - Büki, T. A1 - Szilágyi, Z. N. A1 - Beránek, J. A1 - Cieciora, D. A1 - Ochman, G. A1 - e.t al., T1 - Metrologia International Bureau of Weights and Measures (BIPM), find out more - KEY COMPARISON International comparison CCQM-K118 natural gas N2 - CCQM-K118 was an international key comparison on natural gas composition with two types of gases, i.e., a low calorific hydrogen-enriched natural gas and a high calorific LNG type of gas. There were 14 participating laboratories. The traveling standards (i.e., 14 mixtures each) were obtained from an external source and checked for homogeneity and stability before and after the participants' measurements at the two coordinating laboratories. The data evaluation was performed using a consensus value and a laboratory effect model. The results of the participants were benchmarked against a key comparison reference value computed from the largest consistent subset (LCS) of the submitted results, adjusted for the differences between the travelling standards. For the first time in a key comparison in gas analysis, the model included a term to account for excess variability in the LCS. Most of the participants reported one or a few (slightly) discrepant results. Partly this is due to the heterogeneity and heteroscedasticity of the datasets. In all, the results in this key comparison demonstrate the good comparability of the national measurement standards for natural gas composition maintained by the participating NMIs. Main text. To reach the main text of this paper, click on Final Report. Note that this text is that which appears in Appendix B of the BIPM key comparison database kcdb.bipm.org/. The final report has been peer-reviewed and approved for publication by the CCQM, according to the provisions of the CIPM Mutual Recognition Arrangement (MRA). To reach the main text of this paper, click on Final Report. Note that this text is that which appears in Appendix B of the BIPM key comparison database https://www.bipm.org/kcdb/. The final report has been peer-reviewed and approved for publication by the CCQM, according to the provisions of the CIPM Mutual Recognition Arrangement (CIPM MRA). KW - CCQM-K PY - 2022 U6 - https://doi.org/10.1088/0026-1394/59/1A/08017 SN - 0026-1394 VL - 59 IS - 1A PB - IOP Publishing LTD AN - OPUS4-56308 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Asna Ashari, Parsa A1 - Blind, K. A1 - Koch, Claudia T1 - Knowledge and technology transfer via publications, patents, standards: Exploring the hydrogen technological innovation system N2 - Clean technologies play a crucial role in reducing greenhouse gas emissions and protecting the climate. Hydrogen is a promising energy carrier and fuel that can be used in many applications. We explore the global hydrogen technological innovation system (TIS) by analyzing the three knowledge and technology transfer channels of publications, patents, and standards. Since the adoption of hydrogen technologies requires trust in their safety,this study specifically also focuses on hydrogen safety. Our results show that general and hydrogen safety research has increased significantly while patenting experienced stagnation. An analysis of the non-patent literature in safety patents shows little recognition of scientific publications. Similarly, publications are underrepresented in the analyzed 75 international hydrogen and fuel cell standards. This limited transfer of knowledge from published research to standards points to the necessity for greater involvement of researchers in standardization. We further derive implications for the hydrogen TIS and recommendations for a better and more impactful alignment of the three transfer channels. KW - Technological innovation system KW - Hydrogen safety KW - Knowledge and technology transfer KW - Publications KW - Patents KW - Standards PY - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-564250 SN - 0040-1625 VL - 187 SP - 1 EP - 14 PB - Elsevier Inc. AN - OPUS4-56425 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Tiebe, Carlo A1 - Maiwald, Michael A1 - Bresch, Sophie A1 - Prager, Jens A1 - Lugovtsova, Yevgeniya A1 - Schukar, Marcus A1 - Munzke, Dorit A1 - Duffner, Eric A1 - Eisermann, René A1 - Schoppa, André A1 - Szczepaniak, Mariusz A1 - Strohhäcker, J. A1 - Mair, Georg W. T1 - Sensoren und Analytik für Sicherheit und Prozesskontrolle in Wasserstofftechnologien N2 - Der Beitrag beinhaltet Themen vom H2Safety@BAM-Kompetenzfeld Sensorik, Analytik und zertifizierte Referenzmaterialien (SensRef) mit Fokus auf Mess- und Prüfverfahren mit verschiedenen Sensortechnologien und Ultraschallwellen: Metrologie zur Wasserstoffspeicherung - Euramet-Vorhaben "MefHySto", Erkennung von freigesetztem Wasserstoff sowie die Bestimmung des Wasserstoff-Luftverhälntisses mit Gassensoren, zerstörungsfreie Fehlstellenerkennung mit integriertem Zustandsüberwachungssystem basierend auf geführten Ultraschallwellen zur Lebensdauerüberwachung von Composite-Behältern (Wasserstoffspeicher) sowie faseroptische Sensorik zur Schadenfrüherkennung von Wasserstoffspeichern aufgrund erkennbarer Dehnungsänderungen an Druckbehältern. T2 - DVGW Kongress H2 Sicherheit CY - Online meeting DA - 23.11.2022 KW - H2Safety@BAM KW - SensRef KW - Faseroptische Sensorik KW - Gassensorik KW - Geführte Ultraschallwellen KW - Leckdetektion KW - Metrologie zur Wasserstoffspeicherung KW - Zerstörungsfreie Prüfung KW - Structural Health Monitoring (SHM) PY - 2022 AN - OPUS4-56683 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Fügetechnik für die neue Wasserstoffökonomie N2 - Die Herausforderungen für die Fügetechnikbranche, die sich durch die neuen Wasserstoff-Technologiefelder „Erzeugung“, „Speicherung“, „Transport“ und „Nutzung“ ergeben, sind sehr vielfältig. Der DVS-Bericht 373 gibt dazu einen tieferen Einblick. Der hier vorliegende Kurzbericht stellt dazu ausgewählte Praxisbeispiele, zugehörige Herausforderungen und sich ergebende Chancen vor. Fügetechnologien haben dabei wesentliche Bedeutung für das erfolgreiche Umsetzen und Herstellen der benötigten technischen Komponenten, wie anhand der Themenkomplexe „Wasserstoff-Pipelines“ und „additive Fertigung“ betrachtet wird. Zudem ergeben sich Herausforderungen für die notwendigen Regelwerke und Normen, die nahezu vollständig angepasst oder geschaffen werden müssen. KW - Wasserstoff KW - Fügetechnik KW - Studie KW - Werkstoffe KW - Schweißen PY - 2022 UR - https://www.schweissenundschneiden.de/artikel/fuegetechnik-fuer-die-neue-wasserstoffoekonomie SN - 0036-7184 VL - 74 IS - 3 SP - 142 EP - 144 PB - DVS Media GmbH CY - Düsseldorf AN - OPUS4-54563 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Maiwald, Michael A1 - Kipphardt, Heinrich A1 - Tuma, Dirk A1 - Khanipour, Peyman T1 - Sensors, Analytics and Certified Reference Materials safeguarding the quality infrastructure in the hydrogen economy N2 - The prerequisites for a successful energy transition and the economic use of hydrogen as a clean green energy carrier and for H2 readiness are a rapid market ramp-up and the establishment of the required value chains. Reliable quality and safety standards for innovative technologies are the prerequisite for ensuring supply security, for environmental compatibility and sustainable climate protection, for building trust in these technologies and thus enable product and process innovations. With the Competence Centre "H2Safety@BAM", BAM is creating the safety-related prere-quisites for the successful implementation of hydrogen technologies at national as well as European level. BAM uses decades of experience in dealing with hydrogen technologies to develop the necessary quality and safety standards. The presentation will draw a bow from the typical basic tasks of BAM in the field of competence "Sensors, analytics and certified reference materials", such as maintenance and dissemination of the national gas composition standards for calorific value determination as Designated Institute for Metrology in Chemistry within the framework of the Metre Convention, to the further development of measurement and sensor technology for these tasks. For the certification of reference materials, a mostly slow and time-consuming but solid reference analysis is common. With hydrogen and its special properties, completely new requirements are added. In addition, fast and simple online analysis is required for process control, for example to register quality changes, e.g., during load changes or refuelling processes. T2 - Indo-German International Conference on Metrology for the Deployment of Green Hydrogen and Renewable Fuels in India CY - Online meeting DA - 04.04.2022 KW - Quality Infrastructure KW - Gas Reference Material KW - Hydrogen KW - Energy Gases KW - Sensors KW - Hydrogen Storage Materials PY - 2022 UR - https://www.imeko-gh2fuels.ptb.de/ AN - OPUS4-54596 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Ziesche, R.F. A1 - Hack, J. A1 - Rasha, L. A1 - Maier, M. A1 - Tan, C. A1 - Heenan, T.M.M. A1 - Markötter, Henning A1 - Kardjilov, N. A1 - Manke, I. A1 - Kockelmann, W. A1 - Brett, D.J.L. A1 - Shearing, P.R. T1 - High-speed 4D neutron computed tomography for quantifying water dynamics in polymer electrolyte fuel cells N2 - In recent years, low-temperature polymer electrolyte fuel cells have become an increasingly important pillar in a zero-carbon strategy for curbing climate change, with their potential to power multiscale stationary and mobile applications. The performance improvement is a particular focus of research and engineering roadmaps, with water management being one of the major areas of interest for development. Appropriate characterisation tools for mapping the evolution, motion and removal of water are of high importance to tackle shortcomings. This article demonstrates the development of a 4D high-speed neutron imaging technique, which enables a quantitative analysis of the local water evolution. 4D visualisation allows the time-resolved studies of droplet formation in the flow fields and water quantification in various cell parts. Performance parameters for water management are identified that offer a method of cell classification, which will, in turn, support computer modelling and the engineering of next-generation flow field designs. KW - Neutron imaging KW - Tomography KW - Polymer electrolyte membrane fuel cell PY - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-545978 VL - 13 IS - 1 SP - 1616 PB - Nature Publishing Group UK CY - London AN - OPUS4-54597 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. A1 - Perez, Teresa A1 - Holtappels, Kai A1 - Sobol, Oded A1 - Maiwald, Michael T1 - Kompetenzzentrum H2SAFETY@BAM - Das Spektrum H2-Aktivitäten der BAM N2 - Der Vortrag stellt das Kompetenzzentrum H2Safety der BAM vor und zeigt Aspekte besonderer Kompetenz des Zentrums mit Blick auf das Kompetenzfeld TestCert. Beginnend mit dem H2-Unfall auf dem Tempelhofer Feld in 1894 wird dargestellt welche Bedeutung Sicherheitsfragen zu Wasserstoff für das Kompetenzzentrum H2Safety haben. Danach wird die Struktur und die Arbeitsschwerpunkte erläutert und die verantwortlichen Personen kurz vorgestellt. Das Kompetenzfeld TestCert wird vertieft erläutert und hier auf das Spektrum der wissenschaftlichen und technischen Dienstleistungen hingewiesen. Darauf aufbauend werden die statistischen Aspekte eines Markthochlaufes wie auch die der Streuung einer Population und deren Alterung dargelegt. Zuletzt kommt der Hinweis auf das Potential der Bewertung von Baumusterprüfkriterien mithilfe der Monte-Carlo-Simulation. T2 - BAM-DIN-IGV-DVFG -Jahresgespräch 2021 CY - Online meeting DA - 24.02.2021 KW - Wasserstoffspeicher KW - H2Safety@BAM KW - Lebensdauervorhersage KW - Monte-Carlo-Experiment KW - Sicherheit PY - 2021 AN - OPUS4-54615 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. T1 - Hydrogen as Energy carrier – Contributions to safety assessement of storage systems N2 - The introduction reflects the political background in Germany and worldwide concerning hydrogen as energy carrier. This leads to available hydrogen strategies and the reaction of BAM by launching the competence centre H2Safety@BAM. Fokus is set on the competence area TestCert, the special role of the division “Safety of Gas Storage Systems” there and its increasing success in research activities. The main part explains the needs for a risk-controlled market ramp-up concerning hydrogen products and appropriate measures being under development in division 3.5: risk control, tools for consequence estimation and limitation, probabilistic assessment of end of safe life, the efficiency assessment and optimization of current regulations, the structural health monitoring (SHM) with necessary improvement of measures for quality management in the digital world of safety assessment. Last but not least, the wide range of full-scale testing and simulation of worst-case scenarios is explained. T2 - Colloquium zu Antrittsvortrag Leitung Sicherheit von Gasspeichern CY - Online meeting DA - 20.08.2021 KW - H2Safety@BAM KW - Markthochlauf KW - Lebensdauervorhersage KW - statistische Bewertung KW - Risikosteuerung PY - 2021 AN - OPUS4-54617 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. T1 - Die BAM - mit einem aktuellen Aspekt der ZfP N2 - Die BAM wird kurz mit ihren Eckdaten als Ganzes vorgestellt und dann der Einstieg in die besonderen Möglichkeiten der Versuchsplattform "Wasserstofftankstelle" erläutert. Nach kurzen Vorstellung der Struktur der Tankstelle wird erläutert, wie drei Methoden der ZfP für das Structural Health Monitoring in Verbindung mit KI zur Anwendung kommen werden. T2 - Fachausschusssitzung Schallemissionsprüfung DGZfP CY - Online meeting DA - 10.03.2022 KW - 150 Jahre BAM KW - Versuchsplattform KW - H2-Tankstelle KW - Ultraschall KW - Schallemissionsanalyse KW - Optische Fasern KW - Künstliche Intelligenz PY - 2022 AN - OPUS4-54606 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. T1 - 1. Wasserstoffkolloquium H2 SAFETY@BAM N2 - Die Präsentation ist der Startschuss für die Wasserstoffkolloquien der BAM. Sie beginnt mit Adolf Martens und zeigt den Weg vom Foresight-Prozess Wasserstoff bis zum Kompetenzzentrum H2Safety@BAM. Es werden die Kompetenzfelder vorgestellt und die handelnden Personen. Dies leitet über zu den drei Vorträgen des Tages und den Vortragenden. T2 - 1st H2 Colloquium of the competence centre „H2 SAFETY@BAM” CY - Online-Meeting DA - 16.02.2022 KW - H2Safety@BAM KW - Foresight Prozess H2 KW - Wasserstoff Café KW - Project QI Digital: Quo vadis Use Case H2 Refuelling Station? KW - Current results of the DELFIN project KW - The upper consequence limit as a control instrument PY - 2022 AN - OPUS4-54607 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. A1 - Günzel, Stephan A1 - Bock, Robert T1 - The maximum acceptable consequence limit as a control instrument N2 - The presentation starts with the first agreement of making a national attempt for the introduction of a pV-limit for hydrogen transport. It explains aspects of the technical development, provides an impression of catastrophic incidents, and explains the difference between risk control and consequence limitation. Then the process of determining consequences and the result from the discussion at the UN-WG are explained. The next part summarises the approach for counting the number of impacted persons as a function of the model of pressure wave, the pressure peak, the limits of injured persons and the population density. Finally, the latest state of the discussion and the subsequent recommendations for a pV-value and the adequate phrases for explanation are introduced. T2 - 29th BAM-DIN-IGV-DVFG-Meeting CY - Online meeting DA - 23.02.2022 KW - Hydrogen KW - Pressure recepacles KW - Consequence limit KW - Risk control KW - Population density KW - Pressure wave PY - 2022 AN - OPUS4-54608 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. A1 - Duffner, Eric A1 - Holtappels, Kai A1 - Maiwald, Michael A1 - Sobol, Oded A1 - Perez, Teresa T1 - Aspekte der Bauteilprüfung, Bauteilsicherheit und Zulassung im Kompetenzzentrum H2SAFETY@BAM N2 - Der Vortrag zeigt den Weg des Themas Wasserstoff von Adolf Martens bis zum Kompetenzzentrum H2SafetyBAM, die zugehörigen Kompetenzfelder, deren Ziele und verantwortliche Personen. Der Hauptteil reflektiert den Aspekt des Markthochlaufes von Wasserstofftechnologien und zeigt einen Maßnahmenkatalog von der Risikosteuerung über die Konsequenzbegrenzung bis zu probabilistische Ansätzen in der Bewertung von Prüfergebnissen und der Wirkung von Mindestanforderungen. T2 - DVGW-Kongress H2-Sicherheit CY - Online meeting DA - 26.02.2022 KW - Wasserstoffspeicher KW - Markthochlauf KW - Monte-Carlo-Simulation KW - Druck-Volumen-Produkt KW - Alterung PY - 2022 AN - OPUS4-54609 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. T1 - Markthochlauf von Wasserstoff probabilistische Sicherheitsbewertung von Speichern und Normen N2 - Der Foliensatz beginnt mit den Erwartungen der EU zum Wasserstoffverbrauch und der Visualisierung, wie Risikosteuerung bei stark wachsender Technik funktionieren kann, und welchen zeitlichen Vorlauf man für die Einführung von neuen Zulassungsanforderungen benötigt. Der Begriff Sicherheit wird über den Risikobegriff definiert und am Beispiel quantifiziert. Danach werden verschiedene Werkzeuge vorgestellt, die dazu geeignet sind, die Risikosteuerung im Markthochlauf zu realisieren: Die statistische Bewertung von Stichproben, die probabilistische Bewertung von Populationen, die Lebensdauervorhersage von Populationen. Dies führt weiter zum Gedanken eines probabilistischen Zulassungsansatzes und zum Potential Monte-Carlo-Experimentes in der Bewertung der Wirkung von deterministischen Baumusterprüfkriterien. All dies sind Themen, die nach Meinung des Vortragenden Zukunftsprojekte der Normung sein sollten, um ein Werkzeug zu erhalten, das auch weitgehend ohne produktspezifische Erfahrung geeignet ist, Sicherheit in einer H2-Gesellschaft zu gewährleisten. T2 - Beirat des DIN-Normenausschusses Druckgasanlagen (NDG) CY - Online meeting DA - 23.02.2021 KW - Wasserstoffspeicher KW - Monte-Carlo-Experiment KW - Lebensdauervorhersage KW - Zuverlässigkeit KW - Streuung KW - Zulassungskriterium PY - 2021 AN - OPUS4-54610 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. T1 - Markthochlauf von Wasserstoff - probabilistische Sicherheitsbewertung von Speichern und Normen N2 - Der Foliensatz beginnt mit der Kurzvorstellung des Kompetenzzentrums H2Safety@BAM und weiteren Informationen zum Kompetenzfeld MatCom. Danach werden die Erwartungen der EU zum Wasserstoffverbrauch vorgestellt und visualisiert, wie Risikosteuerung bei stark wachsender Technik funktionieren kann, und welchen zeitlichen Vorlauf man für die Einführung von neuen Zulassungsanforderungen benötigt. Der Begriff Sicherheit wird über den Risikobegriff definiert und am Beispiel quantifiziert. Danach werden verschiedene Werkzeuge vorgestellt, die dazu geeignet sind, die Risikosteuerung im Markthochlauf zu realisieren: Die statistische Bewertung von Stichproben, die probabilistische Bewertung von Populationen, die Lebensdauervorhersage von Populationen. Dies führt weiter zum Gedanken eines probabilistischen Zulassungsansatzes und zum Potential Monte-Carlo-Experimentes in der Bewertung der Wirkung von deterministischen Baumusterprüfkriterien. All dies sind Themen, die nach Meinung des Vortragenden Zukunftsprojekte der Normung sein sollten, um ein Werkzeug zu erhalten, das auch weitgehend ohne produktspezifische Erfahrung geeignet ist, Sicherheit in einer H2-Gesellschaft zu gewährleisten. T2 - Beirat des DIN-Normenausschusses Materialprüfung (NMP) CY - Online meeting DA - 23.03.2021 KW - H2Safety@BAM KW - Monte-Carlo-Experiment KW - Lebensdauervorhersage KW - Statistische Bewertung KW - Risikosteuerung PY - 2021 AN - OPUS4-54613 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Bresch, Sophie A1 - Höhne, Patrick A1 - Mieller, Björn A1 - Koppert, Ralf A1 - Rabe, Torsten T1 - Commercial LTCC for thin film deposition N2 - Low-temperature co-fired ceramics (LTCC) are used to fabricate multilayer circuits which are robust in harsh environments. Thick-film technology is well established for the metallization of circuit boards and microsystems. For specific sensor applications, the combination of LTCC and thin-film technology is advantageous to reach higher structure resolutions. Due to the high roughness of as-fired LTCC surfaces compared with silicon-wafers, the deposition of low-defect- films with narrowly specified properties is challenging. There is spare literature about thin films on commercial LTCC comparing different material systems or sintering techniques. For developing thin film sensors on multilayer circuits it is crucial to identify thin-film-compatible commercial LTCC material as well as the crucial surface properties. In this work we evaluate the thin-film capability of different LTCC surfaces. The as-fired surfaces of free-sintered, constrained-sintered (sacrificial tape), and pressure-assisted sintered commercial LTCCs (DP951, CT708, CT800), as well as respective polished surfaces, were analyzed by tactile and optical roughness measurements and scanning electron microscopy. The thin-film capability of the LTCC surfaces was assessed by sheet resistance and temperature coefficient of resistance (TCR) of deposited Ni thin-film layers. Contrary to the expectations, no correlation between roughness and thin-film capability was found. Ni thin films on constrained sintered DP951 show the lowest sheet resistance and highest TCR within the experimental framework of the as-fired surfaces. The influence of surface morphology on the film properties is discussed. T2 - KERAMIK 2022 / 97. DKG-Jahrestagung CY - Online meeting DA - 7.3.2022 KW - Roughness KW - Hydrogen sensor KW - LTCC PY - 2022 AN - OPUS4-54436 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Fügetechnik für Wasserstofftechnologien: Ausgewählte Themen und Herausforderungen N2 - Die Präsentation fasst die Bedeutung der Fügetechnik für Wasserstofftechnologien im Rahmen der Arbeiten für einer Studie (DVS-Berichte Nr. 373) mit besonderer Berücksichtigung der Normung und Regelwerkssetzung zusammen. T2 - Sitzung des DIN-Gemeinschaftsarbeitsausschusses NA 092 00 05 GA, NAS/NMP: Zerstörende Prüfung von Schweißverbindungen CY - Online meeting DA - 10.03.2022 KW - Wasserstoff KW - Fügetechnik KW - Schweißen KW - Wasserstofftechnologien KW - Bedeutung PY - 2022 AN - OPUS4-54447 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Joining processes for components in hydrogen technologies: Current need and future importance N2 - This presentation gives an overview on the importance of joining processes for component fabrication in hydrogen technologies. For that reason, the current need and future research and developement activites are highlighted for the three technological fields: hydrogen storage, transport and use (in terms of the emerging field of additive manufacturing). Finally, some remarks are given for necessary changes in the standardization. T2 - IIW Intermediate Meeting, Comm. II-A "Welding Metallurgy" CY - Online meeting DA - 17.03.2022 KW - Hydrogen KW - Welding KW - Research KW - Review KW - Additive manufacturing PY - 2022 AN - OPUS4-54488 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Sachse, René A1 - Moor, Maëlle A1 - Kraehnert, Ralph A1 - Hodoroaba, Vasile-Dan A1 - Hertwig, Andreas T1 - Ellipsometry-based approach for the characterization of mesoporous thin films for H2 technologies N2 - Porous thin layer materials are gaining importance in different fields of technology and pose a challenge to the accurate determination of materials properties important for their function. In this work, we demonstrate a hybrid measurement technique using ellipsometry together with other independent methods for validation. Ellipsometry provides information about the porosity of different mesoporous films (PtRuNP/OMC = 45%; IrOx = 46%) as well as about the pore size (pore radius of ca. 5 nm for PtRuNP/OMC). In addition, the electronic structure of a material, such as intraband transitions of a mesoporous IrOx film, can be identified, which can be used to better understand the mechanisms of chemical processes. In addition, we show that ellipsometry can be used as a scalable imaging and visualization method for quality assurance in production. These require accurate and traceable measurements, with reference materials playing an important role that include porosity and other related properties. We show that our novel analytical methods are useful for improving analytical work in this entire field. KW - Porous materials KW - Electrolysis KW - Spectroscopic ellipsometry KW - Hybrid metrology measurement KW - Electron microscopy PY - 2021 U6 - https://doi.org/10.1002/adem.202101320 SP - 1 EP - 17 PB - Wiley-VCH AN - OPUS4-53960 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Duan, K. A1 - Zhu, L. A1 - Li, M. A1 - Xiao, L. A1 - Bevilacqua, N. A1 - Eifert, L. A1 - Manke, I. A1 - Markötter, Henning A1 - Zhang, R. A1 - Zeis, R. A1 - Sui, P. -C. T1 - Multiphase and Pore Scale Modeling on Catalyst Layer of High-Temperature Polymer Electrolyte Membrane Fuel Cell N2 - Phosphoric acid as the electrolyte in high-temperature polymer electrolyte membrane fuel cell plays an essential role in ist performance and lifetime. Maldistribution of phosphoric acid in the catalyst layer (CL) may result in performance degradation. In the present study, pore-scale simulations were carried out to investigate phosphoric acid’s multiphase flow in a cathode CL. A reconstructed CL model was built using focused ion beam-SEM images, where distributions of pore, carbon support, binder, and catalyst particles can be identified. The multi-relaxation time lattice Boltzmann method was employed to simulate phosphoric Acid invading and leaching from the membrane into the CL during the membrane electrode assembly fabrication process. The predicted redistribution of phosphoric acid indicates that phosphoric acid of low viscosity or low wettability is prone to leaching into the CL. The effective transport properties and the active electrochemical active surface area (ECSA) were computed using a pore-scale model. They were subsequently used in a macroscopic model to evaluate the cell performance. A parametric study shows that cell performance first increases with increasing phosphoric acid content due to the increase of ECSA. However, further increasing phosphoric acid content results in performance degradation due to mass transfer limitation caused by acid flooding. KW - Gas diffusion layers KW - Lattice Boltzmann simulation KW - Electrochemical impedance spectra KW - Phosphoric acid KW - HT-PEFC PY - 2021 U6 - https://doi.org/10.1149/1945-7111/abff03 VL - 168 IS - 5 SP - 054521 PB - IOP Science AN - OPUS4-53836 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Wu, Y. A1 - Lu, X. A1 - Cho, J.I.S. A1 - Rasha, L. A1 - Whiteley, M. A1 - Neville, T. P. A1 - Ziesche, R. A1 - Kardjilov, N. A1 - Markötter, Henning A1 - Manke, I. A1 - Zhang, X. A1 - Shearing, P. R. A1 - Brett, D. J. L. T1 - Multi-length scale characterization of compression on metal foam flow-field based fuel cells using X-ray computed tomography and neutron radiography N2 - The mechanical compression of metal foam flow-field based polymer electrolyte fuel cells (PEFCs) is critical in determining the interfacial contact resistance with gas diffusion layers (GDLs), reactant flow and water management. The distinct scale between the pore structure of metal foams and the entire flow-field warrant a multilength scale characterization that combines ex-situ tests of compressed metal foam samples and in-operando analysis of operating PEFCs using X-ray computed tomography (CT) and neutron radiography. An optimal ‘medium’ compression was found to deliver a peak power density of 853 mW/cm². The X-ray CT data indicates that the compression process significantly decreases the mean pore size and narrows the pore size distribution of metal foams. Simulation results suggest compressing metal foam increases the pressure drop and gas velocity, improving the convective liquid water removal. This is in agreement with the neutron imaging results that demonstrates an increase in the mass of accumulated liquid water with minimum compression compared to the medium and maximum compression cases. The results show that a balance between Ohmic resistance, water removal capacity and parasitic power is imperative for the optimal performance of metal foam based PEFCs. KW - Fuel cell KW - Compression effect KW - Metal foam microstructure KW - Neutron radiography KW - X-ray CT PY - 2021 U6 - https://doi.org/10.1016/j.enconman.2020.113785 VL - 239 SP - 10 EP - 113785 PB - Elsevier Ltd. AN - OPUS4-53842 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Orellana Pérez, Teresa T1 - European strategies, networks, projects, committees and initiatives & associations for promoting hydrogen safety and education N2 - This lecture shows an overview of cross-cutting topics whithin the dynamic sector of hydrogen technologies including European and other international strategies, legal and policy frameworks, networks and relevant stakeholders, research and demo-projects, regulations, codes & Standards as well as initiatives and associations concerning hydrogen safety and education. T2 - Joint European Summer School on Fuel Cell, Electrolyser and Battery Technologies JESS 2021 CY - Online meeting DA - 12.09.2021 KW - Hydrogen KW - Cross-cutting issues KW - Competence centre H2Safety@BAM PY - 2021 AN - OPUS4-54199 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Sreekala, L. A1 - Dey, P. A1 - Hickel, Tilmann A1 - Neugebauer, J. T1 - Unveiling nonmonotonic chemical trends in the solubility of H in complex Fe-Cr-Mn carbides by means of ab initio based approaches N2 - The microstructure of advanced high-strength steels often shows a sensitive dependence on alloying. For example, adding Cr to improve the corrosion resistance of medium-Mn steels also enhances the precipitation of carbides. The current study focuses on the behavior of H in such complex multicomponent carbides by employing different methodological strategies. We systematically analyze the impact of Cr, Mn, and Fe using density functional theory (DFT) for two prototype precipitate phases, M3C and M23C6, where M represents the metal sublattice. Our results show that the addition of these alloying elements yields strong nonmonotonic chemical trends for the H solubility. We identify magnetovolume effects as the origin for this behavior, which depend on the considered system, the sites occupied by H, and short- vs long-range interactions between H and the alloying elements. We further show that the H solubility is directly correlated with the occupation of its nearest-neighbor shells by Cr and Mn. Based on these insights, DFT data from H containing binary-metal carbides are used to design a ridge regression based model that predicts the solubility of H in the ternary-metal carbides (Fe-Cr-Mn-C). KW - Hydrogen KW - High-strength steel KW - Carbide KW - Ab initio KW - Complexity PY - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-542271 SN - 2475-9953 VL - 6 IS - 1 SP - 1 EP - 14 PB - American Physical Society (APS) CY - College Park, MD AN - OPUS4-54227 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Kehr, Torsten A1 - Günzel, Stephan A1 - Habib, Abdel Karim A1 - Mair, Georg W. A1 - Maiwald, Michael A1 - Prager, Jens A1 - Tiebe, Carlo T1 - Project QI-Digital - Quo vadis Use Case H2 Refueling Station? N2 - As a part of the QI-Digital cooperation project, BAM is setting up a hydrogen refuelling station research platform at the Test site for Technical Safety in Horstwalde. Based on this platform, BAM intends to develop, to test and to optimize new measurement techniques as well as data acquisition and processing methods for hydrogen refuelling stations and their periphery in close cooperation with partners from the quality infrastructure and industry. The presentation will introduce the hydrogen refuelling station use case and provide insights into the issues and research goals of the associated subprojects. T2 - H2-Colloquium of the Competence Centre „H2SAFETY@BAM” CY - Online meeting DA - 16.02.2022 KW - Hydrogen KW - Safety KW - QI-Digital PY - 2022 AN - OPUS4-54361 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Zhao, H. A1 - Chakraborty, Poulami A1 - Ponge, D. A1 - Hickel, Tilmann A1 - Sun, B. A1 - Wu, C.-H. A1 - Gault, B. A1 - Raabe, D. T1 - Hydrogen trapping and embrittlement in high-strength Al alloys N2 - Ever more stringent regulations on greenhouse gas emissions from transportation motivate efforts to revisit materials used for vehicles. High-strength aluminium alloys often used in aircrafts could help reduce the weight of automobiles, but are susceptible to environmental degradation. Hydrogen ‘embrittlement’ is often indicated as the main culprit; however, the exact mechanisms underpinning failure are not precisely known: atomic-scale analysis of H inside an alloy remains a challenge, and this prevents deploying alloy design strategies to enhance the durability of the materials. Here we performed near-atomic-scale analysis of H trapped in second-phase particles and at grain boundaries in a high-strength 7xxx Al alloy. We used these observations to guide atomistic ab initio calculations, which show that the co-segregation of alloying elements and H favours grain boundary decohesion, and the strong partitioning of H into the second-phase particles removes solute H from the matrix, hence preventing H embrittlement. Our insights further advance the mechanistic understanding of H-assisted embrittlement in Al alloys, emphasizing the role of H traps in minimizing cracking and guiding new alloy design. KW - Atomistic models KW - Hydrogen KW - Metals and alloys KW - Mechanical properties PY - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-543631 SN - 1476-4687 VL - 602 IS - 7897 SP - 437 EP - 441 PB - Nature Publ. Group CY - London AN - OPUS4-54363 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Konert, Florian A1 - Nietzke, Jonathan T1 - H2 Safety at BAM - Eine Kurzvorstellung N2 - Zusammenfassend wird dem Teilnehmerkreis, bestehend aus Industrievertretern, vorgestellt, welche Aktivitäten die BAM im Bereich Wasserstoff auszeichnen. Ein spezielles Augenmerk liegt hierbei auf dem Kompetenzfeld "MatCom". T2 - 8. SITZUNG DER „EXPERTENGRUPPE WASSERSTOFF“ (EG-H2) des IGV e.V. CY - Online meeting DA - 17.02.2022 KW - H2 KW - Wasserstoff KW - Materialkompatibilität KW - Werkstoffkompatibilität PY - 2022 AN - OPUS4-54367 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Frisch, M. A1 - Raza, M. H. A1 - Ye, M.-Y. A1 - Sachse, René A1 - Paul, B. A1 - Gunder, R. A1 - Pinna, N. A1 - Kraehnert, R. T1 - ALD-coated mesoporous iridium-titanium mixed oxides: Maximizing iridium utilization for an outstanding OER performance N2 - With the increasing production of renewable energy and concomitant depletion of fossil resources, the demand for efficient water splitting electrocatalysts continues to grow. Iridium (Ir) and iridium oxides (IrOₓ) are currently the most promising candidates for an efficient oxygen evolution reaction (OER) in acidic medium, which remains the bottleneck in water electrolysis. Yet, the extremely high costs for Ir hamper a widespread production of hydrogen (H₂) on an industrial scale. Herein, the authors report a concept for the synthesis of electrode coatings with template-controlled mesoporosity surface-modified with highly active Ir species. The improved utilization of noble metal species relies on the synthesis of soft-templated metal oxide supports and a subsequent shape-conformal deposition of Ir species via atomic layer deposition (ALD) at two different reaction temperatures. The study reveals that a minimum Ir content in the mesoporous titania-based support is mandatory to provide a sufficient electrical bulk conductivity. After ALD, a significantly enhanced OER activity results in dependency of the ALD cycle number and temperature. The most active developed electrocatalyst film achieves an outstanding mass-specific activity of 2622 mA mg(Ir)⁻¹ at 1.60 V(RHE) in a rotating-disc electrode (RDE) setup at 25 °C using 0.5 m H₂SO₄ as a supporting electrolyte. KW - Acidic oxygen evolution reaction KW - Atomic layer deposition KW - Electrocatalysis KW - Iridium oxide KW - Soft-templated mesoporous films PY - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-542651 SN - 2196-7350 SP - 1 EP - 11 PB - Wiley-VCH CY - Weinheim AN - OPUS4-54265 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Askar, Enis A1 - Holtappels, Kai T1 - Fire and explosion safety for hydrogen technologies N2 - The presentation gives an overview about the research and testing activities of H2Safety@bam in the field of process and plant safety. T2 - HYDROGENIUS BAM Joint Hydrogen Symposium CY - Online meeting DA - 06.07.2021 KW - Explosion protection KW - LH2 KW - Jet-fires KW - Test area PY - 2021 AN - OPUS4-53720 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Askar, Enis T1 - Sicherheitstechnische Eigenschaften von Erdgas/Wasserstoff-Gemischen - Auswirkungen auf den Explosionsschutz N2 - Hinsichtlich ihrer sicherheitstechnischen Kenngrößen (STK) unterscheiden sich Wasserstoff und Erdgas zum Teil stark. Im Vortrag werden verschiedene STK von Erdgas/Wasserstoff-Gemischen im Abhängigkeit des Wasserstoffanteils vorgestellt und die Auswirkung der Beimischung von Wasserstoff zum Erdgas auf die Wirksamkeit von Explosionsschutzmaßnahmen erläutert. T2 - DVGW-Kongress 2021 "Gasinfrastruktur für Erdgas-H2-Gemische" CY - Online meeting DA - 07.10.2021 KW - Explosionsschutz KW - Explosionsgrenzen KW - Zündenergie KW - Power to Gas KW - Erdgasnetz KW - Zündquellen PY - 2021 AN - OPUS4-53725 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Rhode, Michael A1 - Richter, Tim A1 - Mente, Tobias A1 - Mayr, P. A1 - Nitsche, A. T1 - Thickness and microstructure effect on hydrogen diffusion in creep‑resistant 9% Cr P92 steel and P91 weld metal N2 - Martensitic 9% Cr steels like P91 and P92 show susceptibility to delayed hydrogen assisted cracking depending on their microstructure. In that connection, effective hydrogen diffusion coefficients are used to assess the possible time-delay. Limited data on room temperature diffusion coefficients reported in literature vary widely by several orders of magnitude (mostly attributed to variation in microstructure). Especially P91 weld metal diffusion coefficients are rare so far. For that reason, electrochemical permeation experiments had been conducted using P92 base metal and P91 weld metal (in as-welded and heat-treated condition) with different thicknesses. From the results obtained, diffusion coefficients were calculated using to different methods, time-lag, and inflection point. Results show that, despite microstructural effects, the sample thickness must be considered as it influences the calculated diffusion coefficients. Finally, the comparison of calculated and measured hydrogen concentrations (determined by carrier gas hot extraction) enables the identification of realistic diffusion coefficients. KW - Creep-resistant steel KW - Diffusion KW - Hydrogen assisted cracking KW - Welding KW - Electrochemical permeation PY - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-540645 SN - 0043-2288 SP - 1 EP - 16 PB - Springer Nature Switzerland AG AN - OPUS4-54064 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Tiebe, Carlo T1 - Sensors for safety and process control in hydrogen technologies N2 - Sensor systems are widely used in hydrogen technologies. The lecture presents requirements and properties of sensor systems and shows application examples of these technologies for safety and process control for hydrogen technologies. The focus is on gas sensors as well as sensors for pressure, temperature and gas flow. These systems are applied, among other things, for monitoring and control of operating conditions, indication of hazardous conditions and triggering of alarms. T2 - Joint European Summer School 2021 on Fuel Cell, Electrolyser, and Battery Technologies CY - Online meeting DA - 12.09.2021 KW - Sensor KW - Safety KW - Process control KW - Hydrogen technologies PY - 2021 AN - OPUS4-54131 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Tiebe, Carlo A1 - Melzer, Michael T1 - Sensors for safety and process control in hydrogen technologies - Part II - Seminar about the expression of uncertainty in measurement N2 - The determination of the measurement uncertainty of quantitative and qualitative results is an important quality management tool, for example to describe measuring equipment, procedures, measurement results and the quality of products. The lecture presents the process description for the determination of the measurement uncertainty according to GUM, the determination of uncertainties in qualitative measurement results and the application of the measurement uncertainty for conformity assessment. T2 - Joint European Summer School 2021 on Fuel Cell, Electrolyser, and Battery Technologies CY - Online meeting DA - 12.09.2021 KW - Quality management tool KW - Measurement uncertainty KW - Quantiative results KW - Qualitative results KW - Conformity assessment PY - 2021 AN - OPUS4-54132 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Tiebe, Carlo A1 - Maiwald, Michael A1 - Rabe, Torsten A1 - Prager, Jens A1 - Lugovtsova, Yevgeniya A1 - Schukar, Marcus A1 - Munzke, Dorit A1 - Duffner, Eric A1 - Eisermann, René A1 - Schoppa, André A1 - Szczepaniak, Mariusz A1 - Strohhäcker, J. A1 - Mair, Georg W. T1 - Prüf- und Messverfahren mit verschiedenen Sensortechnologien und Ultraschallwellen N2 - Der Vortrag zum Mess- und Prüfverfahren mit verschiedenen Sensortechnologien und Ultraschallwellen beinhaltet die Themen: Metrologie zur Wasserstoffspeicherung - Euramet-Vorhaben "MefHySto", Erkennung von freigesetztem Wasserstoff sowie die Bestimmung des Wasserstoff-Luftverhälntisses mit Gassensoren, zerstörungsfreie Fehlstellenerkennung mit integriertem Zustandsüberwachungssystem basierend auf geführten Ultraschallwellen zur Lebensdauerüberwachung von Composite-Behältern (Wasserstoffspeicher) sowie faseroptische Sensorik zur Schadenfrüherkennung von Wasserstoffspeichern aufgrund erkennbarer Dehnungsänderungen an Druckbehältern. T2 - DVGW Kongress H2 Sicherheit CY - Online meeting DA - 28.09.2021 KW - Leckdetektion KW - Metrologie zur Wasserstoffspeicherung KW - Gassensorik KW - Structural Health Monitoring (SHM) KW - Geführte Ultraschallwellen KW - Faseroptische Sensorik KW - Zerstörungsfreie Prüfung PY - 2021 AN - OPUS4-54136 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Tiebe, Carlo T1 - Introduction of H2Safety@BAM N2 - This contribution for the Open Forum of the 8th HSN Symposium introduces the SensRef activities of the Competence Centre H2Safety@BAM. T2 - 8. HSN-Symposium - HybridSensorNet e. V. CY - Online meeting DA - 11.11.2021 KW - H2Safety@BAM KW - SensRef KW - Hydrogen PY - 2021 AN - OPUS4-54137 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Tiebe, Carlo A1 - Maiwald, Michael A1 - Schukar, Marcus T1 - Beiträge der Prozessanalytik und Sensorik zur Sicherheit in Wasserstofftechnologien N2 - Intelligent sensor systems, certified reference materials and instrumental analytical-chemical methods contribute to safety and functionality in hydrogen technologies. This article gives a brief overview of SensRef activities in the Competence Centre H2Safety@BAM on the issues: Analytical methods for the determination of hydrogen purity, certified reference materials as measurement standards with regard to gas quality (primary calibrators) of BAM, test methods for gas sensor systems to detect hydrogen in air as well as the application of fibre-optic sensor systems to monitor the expansion and ageing behaviour of composite containers in hydrogen technologies. T2 - Berlin Brandenburger Optik-Tag "Einsatz von Sensorik und Mikroelektronik in der Wasserstoffwirtschaft" CY - Online meeting DA - 29.11.2021 KW - H2Safety@BAM KW - SensRef KW - Gas analysis KW - Gas purity KW - Fibre-optic sensors KW - Sensor response KW - Certified reference materials PY - 2021 AN - OPUS4-54138 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kannengießer, Thomas A1 - Schaupp, Thomas T1 - Wasserstoffunterstützte Kaltrissbildung in Schweißnähten hochfester Stahlgüten - Anforderungen an die Prüfung N2 - Die Vortrag gibt einen Überblick, warum Kaltrissprüfung von geschweißten Stählen ständig weiterentwickelt werden muss. Am Beispiel des Implant- und Tekken-Tests werden die Einsatz- u. Anwendungsgrenzen bewertet. Zu berücksichtigen ist, dass beim Schweißen eine äußere mechan. Beanspruchung durch bauteilspezifische Steifigkeitsverhältnisse wirksam ist. Zusätzlich werden weiterführende Prüfverfahren zur Bestimmung der Wasserstoffkonzentration und -diffusion in Schweißnähten vorgestellt, wie die Trägergasheißextraktion (TGHE) für die Ermittlung der Wasserstoffkonzentration (ISO 3690) oder Hochtemperaturdiffusionskoeffizienten. Diese Werte sind für die schweißtechnische Praxis von großer Bedeutung, um Haltezeiten z.B. für das Wasserstoffarmglühen abzuleiten. T2 - Tagung Werkstoffprüfung 2021 CY - Online meeting DA - 02.12.2021 KW - Wasserstoff KW - Kaltrissprüfung KW - Schweißen KW - Stahl KW - Hochfest PY - 2021 AN - OPUS4-53902 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Asna Ashari, Parsa A1 - Blind, K. ED - Jakobs, K. T1 - An Analysis of the Three Knowledge and Technology Transfer Channels: Publications, Patents, Standards – The Case of Hydrogen Technology N2 - Climate change and the need to reduce greenhouse gas emissions pose tremendous challenges to policymakers, the economy, and society. In this context, the development of clean, low-emission technologies plays a crucial role in mitigating the negative impact of fossil fuels on the climate. Hydrogen is a promising energy carrier and fuel that, thanks to its versatility, can be used in many applications. However, the adoption of hydrogen technology requires sufficient trust in its safety. To proxy the development of hydrogen safety innovations, we provide an analysis along the three knowledge and technology transfer channels of publications, patents, and standards. Our results show that research on hydrogen safety has increased significantly in the last decades, with hydrogen safety patents experiencing a general upward trend between 1980 and 2020, just recently decreasing. However, an analysis of almost 100 international hydrogen and fuel cell standards shows only a small number of references to scientific publications. This apparently limited transfer of knowledge from publications points to the need to optimize the coordination of the three knowledge and technology transfer channels for the future development of hydrogen technology. Based on the exploration of this gap, we recommend that research on the three channels for hydrogen be intensified and that the impact of hydrogen safety technology research and development on their diffusion be investigated. T2 - 25th EURAS Annual Standardisation Conference – Standardisation and Innovation CY - Aachen, Germany DA - 05.09.2021 KW - Hydrogen KW - Fuel Cells KW - Knowledge and Technology Transfer KW - Publications KW - Patents KW - Standards KW - Safety PY - 2021 SN - 978-3-95886-421-4 SP - 1 EP - 20 CY - Mainz AN - OPUS4-53912 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kannengießer, Thomas A1 - Schaupp, Thomas ED - Brockmann, S. ED - Krupp, U. T1 - Wasserstoffunterstützte Kaltrissbildung in Schweißnähten hochfester Stahlgüten - Anforderungen an die Prüfung N2 - Wasserstoff kann eine Rissbildung u.U. auch noch nach Tagen in der Schweißnaht bewirken. Dabei stellen höherfeste Stähle etablierte Kaltrissprüftests vor Herausforderungen. Generell nimmt die zur Rissvermeidung tolerierbare Wasserstoffkonzentration mit zunehmender Festigkeit der Werkstoffe ab. Zudem verändern weiterentwickelte Schweißverfahren die Nahtgeometrie und Wärmeeinbringung und die Ausbildung risskritischer Mikrostrukturen (z.B. Wärmeeinflusszone). Am Beispiel des Implant- und Tekken-Tests werden die Einsatz- u. Anwendungsgrenzen bewertet. Zu berücksichtigen ist, dass beim Schweißen eine äußere mechan. Beanspruchung durch bauteilspezifische Steifigkeitsverhältnisse wirksam ist. Zusätzlich werden weiterführende Prüfverfahren zur Bestimmung der Wasserstoffkonzentration und -diffusion in Schweißnähten vorgestellt, wie die Trägergasheißextraktion (TGHE) für die Ermittlung der Wasserstoffkonzentration (ISO 3690) oder Hochtemperaturdiffusionskoeffizienten. Diese Werte sind für die schweißtechnische Praxis von großer Bedeutung, um Haltezeiten z.B. für das Wasserstoffarmglühen abzuleiten. T2 - Tagung Werkstoffprüfung 2021 CY - Online meeting DA - 02.12.2021 KW - Wasserstoff KW - Kaltrissprüfung KW - Schweißen KW - Stahl KW - Hochfest PY - 2021 SN - 978-3-941269-98-9 SP - 15 EP - 20 PB - Stahlinstitut VDEh CY - Düsseldorf AN - OPUS4-53900 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Sachse, René A1 - Pflüger, Mika A1 - Velasco-Vélez, Juan-Jesús A1 - Sahre, Mario A1 - Radnik, Jörg A1 - Bernicke, Michael A1 - Bernsmeier, Denis A1 - Hodoroaba, Vasile-Dan A1 - Krumrey, Michael A1 - Strasser, Peter A1 - Kraehnert, Ralph A1 - Hertwig, Andreas T1 - Operando electrochemical spectroscopic ellipsometry: Material properties of highly active mesoporous IrOx films revealed under realistic OER conditions N2 - Hydrogen production via water electrolysis will be an essential cornerstone in development of sustainable, fossil-free fuel and chemical production on a global scale. The activity and stability of each catalyst is highly dependent on the properties of the coating, i.e., phase composition, crystallinity, accessible surface area, and many other factors. The key to developing improved catalysts is a better understanding of the relationships between their performance, stability, and physicochemical properties. However, these relationships can be complex and are also strongly influenced by the reaction environment. Therefore, operando analysis of the catalyst material during catalysis at realistic potentials and current densities is highly desirable. However, many analytical techniques cannot be applied in liquid environments at realistic potentials and current densities. We propose environmental ellipsometric analysis in a dedicated electrochemical flow cell as a method to evaluate gas evolution reactions operando under realistic working conditions. Figure 1 illustrates schematically the developed technique. Key factors to success are highly active model-type catalysts, a suitable sample environment, and a deep understanding of the appropriate model development, as well as concise cross validation with numerous other analytical techniques. The method was developed and validated by analyzing a calcination series (300 – 600 °C) of mesoporous templated IrOx films ex-situ and operando under oxygen evolution reaction (OER) conditions. The employed environmental electrochemical spectroscopic ellipsometric (ECSE) analysis revealed during OER the change of optical and electronic properties, i.e. the dielectric functions, resistivity and band-to-band transitions (p-d band transitions). Film thickness and porosity were validated by means of scanning electron microscopy (SEM), X-ray reflectometry (XRR) or ellipsometric porosimetry (EP), electrical and electronic properties by means of conductivity measurements, X-ray photoelectron spectroscopy (XPS) or UV-Vis-NIR absorption spectroscopy. The electronic structures of the catalysts from valence electron energy loss spectra (VEELS) derived from ε1 and ε2 from SE measurements reveal a direct correlation with electrochemical activities in OER. In the presentation reversible and irreversible potential-dependent changes of the catalyst properties during operation will be discussed along with the dynamics of gas formation, transport and dissolution at different potentials. T2 - 11th Workshop Ellipsometry (WSE 11) CY - Steyr, Austria DA - 06.09.2021 KW - Ectrocatalysis KW - Mesoporous iridium oxide films KW - Non-destructive operando analysis KW - Oxygen evolution reaction KW - Spectroscopic ellipsometry PY - 2021 AN - OPUS4-53915 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Sachse, René A1 - Pflüger, Mika A1 - Velasco Vélez, Juan Jesús A1 - Sahre, Mario A1 - Radnik, Jörg A1 - Bernicke, Michael A1 - Bernsmeier, Denis A1 - Hodoroaba, Vasile-Dan A1 - Krumrey, Michael A1 - Strasser, Peter A1 - Kraehnert, Ralph A1 - Hertwig, Andreas T1 - Operando electrochemical spectroscopic ellipsometry: Material properties of highly active mesoporous IrO IrOxfilms revealed under realistic OER conditions N2 - In the face of rising energy demand and the impending climate change the development of a sustainable, fossil-free fuel and chemical production is of global importance. One possible goal is the development of electrochemical conversion processes using catalysts. Porous materials play an important role in such energy applications. The activity and stability of each catalyst is highly dependent on the properties of the coating, i.e., phase composition, crystallinity, accessible surface area, and many other factors. The key to the development of improved catalysts is a better understanding of the relations between their performance, stability and physico-chemical properties. However, the complex morphology of such catalysts constitutes a challenge even for modern analytical techniques. Spectroscopic ellipsometry (SE) is a versatile method for studying material properties by using appropriate models (e.g., film thickness, optical and electronic properties). Ellipsometric models need to be validated in order to produce accurate results. In a first step, the model for the ellipsometric fit studies of a calcination series of mesoporous iridium oxide films (300 – 600 °C) was investigated and validated with respect to their material properties.[4] The information on electronic structure of the catalysts shows a direct correlation with electrochemical activities. The development of an environmental electrochemical cell offers the possibility of investigations under operando conditions. Thus, changes in optical and electronic properties can be induced and monitored during the electrocatalytic oxygen evolution reaction. T2 - 9th International Conference on Spectroscopic Ellipsometry CY - Beijing, China DA - 22.05.2022 KW - Mesoporous iridium oxide films KW - Non-destructive operando analysis KW - Oxygen evolution reaction KW - Spectroscopic ellipsometry PY - 2022 AN - OPUS4-54915 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Sobol, Oded A1 - Konert, Florian A1 - Nietzke, Jonathan A1 - Valverde Laks, Enrico T1 - Influence of Hydrogen Uptake and Diffusion in Structural Components in the Field of Renewable Energy N2 - Great efforts are invested worldwide in the development of efficient electrolysis processes, fuel cells technologies and hydrogen transport and storage infrastructures. This includes the exploitation of existing gas-grid infrastructure for the injection of hydrogen. Considering transport and storage facilities, the utilization of gaseous hydrogen can be divided into two main groups which are differentiating in the pressure regime. Fueling stations are operating in high pressure (>800 bar) and high purity and therefore use austenitic stainless steels in their compression systems. On the other hand, existing gas infrastructure where the natural gas is transported across long distances is usually operating with up to 300 bar. In this case the pipe-systems consist of several steel classes, mainly low alloyed steels in which the surface quality and the gas mixture are strongly varying. Even though ingress of hydrogen can lead to catastrophic failures in all steels, its exact impact on the mechanical properties, as well as its interaction with the surface, microstructure and lattice and the underlying mechanisms remain unclear. Therefore, research on the impact of gaseous hydrogen in pressure vessels and pipes has clearly an integral part on the path to safe and sustainable use of the different components along the different chains. This becomes even more relevant considering the influence of impurities in the gas, e.g. sulfur and with the introduction of new production technologies, such as additive manufacturing, into the market. Determination of these interactions and impact that might lead to the degradation of the properties can allow a safe use of steels in present and future hydrogen-based energy applications. The following contribution gives an overview of the problem and introduction to the conventional and innovative tools used and developed nowadays to analyze it. For this purpose, materials were loaded with hydrogen by electrochemical means and under high pressure and elevated temperatures. The results presented provide an invaluable insight into the impact of hydrogen on the integrity of selected steels used in the two mentioned above applications. This work is part of an ongoing research in which mechanical, chemical, structural, and microstructural analyses tools are combined in-situ and ex-situ. T2 - MPA 46th Seminar: Additive Manufacturing, Hydrogen, Energy, Integrity CY - Leinfelden-Echterdingen, Germany DA - 12.10.2021 KW - Hydrogen Embrittlement KW - Hydrogen assisted cracking KW - Gaseous hydrogen PY - 2021 AN - OPUS4-53598 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Sobol, Oded A1 - Nietzke, Jonathank A1 - Konert, Florian A1 - Valverde Laks, Enrico T1 - Metallic materials for the transport and storage of hydrogen N2 - Um die Absorption von Wasserstoff und dessen Verhalten in den Werkstoffen beim Einsatz unter Druck-H2 sowie die H- abhängigen Materialeigenschaften zu definieren, entwickelt die BAM mit ihrer langjährigen Erfahrung adäquate Prüfkonzepte, die einsatzrelevante Bedingungen und reale Beanspruchungen (Temperatur, Wasserstoff und mech. Beanspruchung) hierarchisch berücksichtigen. Der Vortrag gibt eine Einführung in das Thema von wasserstoffunterstützen Materialschäden durch die Problematik der Einspeisung von Wasserstoff in bestehende Erdgasnetze. Ferner wird auf die Hochdruck-Infrastruktur (sowie H2-Tankstellen) und die Entwicklung von Prüfkonzepten für die Gasinfrastruktur unter Druckwasserstoffbeaufschlagung eingegangen. T2 - Die Deutsche Physikalische Gesellschaft (DPG): Veranstaltung der Arbeitsgruppe Senior Expert Netzwerk CY - Berlin, Germany DA - 20.10.2021 KW - Hydrogen Embrittlement KW - Hydrogen assisted cracking KW - Gaseous hydrogen KW - Time-of-Flight Mass Spectrometry KW - Tensile test PY - 2021 UR - https://www.dpg-physik.de/veranstaltungen/2021/mhb-agsen-2021-10-20 AN - OPUS4-53599 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Broichert, C. A1 - Klingenhof, M. A1 - Frisch, M. A1 - Dresp, S. A1 - Kubo, N.M. A1 - Artz, J. A1 - Radnik, Jörg A1 - Palkovits, S. A1 - Beine, A.K. A1 - Strasser, P. A1 - Palkovits, R. T1 - Particle size-controlled synthesis of highperformance MnCo-based materials for alkaline OER at fluctuating potentials N2 - For the large-scale generation of hydrogen via water electrolysis the design of long term stable and active catalysts for the oxygen evolution reaction (OER) remains a key challenge. Most catalysts suffer from severe structural corrosion that becomes even more pronounced at fluctuating potentials. Herein, MnCo based cubic particles were prepared via a hydrothermal approach, in which the edge length of the micron-sized particles can be controlled by changing the pH value of the precursor solution. The cubes are composed of varying amounts of MnCo2O4, CoCO3 and a mixed (Mn/Co)CO3 phase. Structure–activity relationships were deduced revealing a volcano-type behavior for the intrinsic OER activity and fraction of spinel oxide phase. A low overpotential of 0.37 V at 10 mA cm−2 and a stability of more than 25 h was achieved in 1.0 M KOH using a rotating disc electrode (RDE) setup. The best performing catalyst material was successfully tested under dynamic process conditions for 9.5 h and shows a superior catalytic activity as anode for the Overall water splitting in an electrolyser setup in 1.0 M KOH at 333 K compared to a reference NiCo-spinel catalyst. KW - Water electrolysis KW - Oxygen evolution reaction KW - Structure activity relationships PY - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-536050 SN - 2044-4753 VL - 11 IS - 12 SP - 7278 EP - 7286 PB - Royal Society of Chemistry AN - OPUS4-53605 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - John, Sebastian A1 - Widjaja, Martinu A1 - Mair, Georg W. T1 - Modalanalyse als Werkzeug zur Lebensdauerabschätzung bei Composite-Druckbehältern N2 - Hochbeanspruchte Bauteile wie Druckbehälter bergen im Falle eines Versagens ein erhebliches Gefährdungspotential für Mensch und Umgebung. Trotz der Auslegung mit hohen Sicherheitsfaktoren kommt es durch die hauptsächlich bei mobilen Anwendungen eingesetzten Leichtbauwerkstoffe und Materialkombinationen zu komplexen Degradations- und Schädigungsvorgängen, welche unter ungünstigen Umständen zu einem frühzeitigen Versagen führen können. Die hier vorgestellten Untersuchungen beziehen sich auf Typ IV-Gasspeicher, die als Wasserstofftanks in KFZ zur Anwendung kommen. Durch den Einsatz eines Messverfahrens auf Basis einer experimentellen Modalanalyse (EMA) sollen Schädigungs- und Degradationsgrad künftig zerstörungsfrei erfasst und auch einsatzbegleitend überwacht werden können. T2 - DAGA 2021 - 47. Jahrestagung für Akustik CY - Wien, Österreich DA - 15.08.2021 KW - Impact KW - Modalanalyse KW - Druckbehälter PY - 2021 VL - 47 SP - 1202 EP - 1205 AN - OPUS4-53626 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Richter, Tim A1 - Mente, Tobias A1 - Mayr, P. A1 - Nitsche, A. T1 - Thickness and microstructure effect on hydrogen diffusion in creep-resistant 9 % Cr P92 steel and P91 weld metal N2 - Martensitic 9 %-Cr steels like P91 and P92 show susceptibility to delayed hydrogen assisted cracking depending on their microstructure. In that connection, effective hydrogen diffusion coefficients are used to assess the possible time-delay. The small number of available diffusion coefficients varies already at room temperature by several orders of magnitude (mostly regarded as result of present microstructure). Especially P91 weld metal diffusion coefficients are rare so far. For that reason, electrochemical permeation experiments had been conducted using P92 base metal and P91 weld metal (in as-welded and heat-treated condition) with different thicknesses. The diffusion coefficients are calculated by two methods (time-lag and inflection point method) were performed. The results show that, despite of microstructural effects, the sample thickness must be considered as it influences the calculated diffusion coefficients. Finally, the comparison of calculated and measured hydrogen concentrations (determined by carrier gas hot extraction) enables the identification of realistic diffusion coefficients. T2 - IIW Annual Assembly, Meeting of Commission IX-C CY - Online meeting DA - 15.07.2021 KW - Creep-resistant steel KW - Diffusion KW - Electrochemical permeation KW - Hydrogen KW - Welding PY - 2021 AN - OPUS4-53048 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Mente, Tobias T1 - Hydrogen embrittlement of steels N2 - Hydrogen assisted cracking of metals is a serious issue in the safety of components, espcially in case of welding. The current presentation gives an overview on specialized testing procedures at Department 9 including the quantitative determination of hydrogen. T2 - HYDROGENIUS BAM Joint Hydrogen Symposium CY - Online meeting DA - 06.07.2021 KW - Hydrogen KW - Embrittlement KW - Degradation KW - Carrier gas hot extraction KW - Welding PY - 2021 AN - OPUS4-53049 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Schönhals, Andreas A1 - Szymoniak, Paulina A1 - Kolmangadi, Mohamed Aejaz A1 - Böhning, Martin A1 - Zamponi, M. A1 - Frick, B. A1 - Appel, M. A1 - Günther, G. A1 - Russina, M. A1 - Alentiev, D. A1 - Bermeshev, M. A1 - Zorn, R. T1 - Microscopic dynamics of highly permeable super glassy polynorbornenes revealed by quasielastic neutron scattering N2 - The molecular dynamics of addition-type poly(tricyclononenes) with Si-substituted bulky side groups has been investigated by a combination of neutron time-of-flight and neutron backscattering spectroscopy methods on a time scale from 0.1 ps to ca. 3 ns. The investigated poly(tricyclononenes) PTCNSi1 and PTCNSi2g both bear a high microporosity which makes them promising candidates for active separation layers for gas separation membranes. At least for larger gas molecules it is assumed that the pathways for diffusion require an enlargement of pre-existing micropores in terms of an activated zone. A low temperature relaxation process was found for both polymers by the performed neutron scattering experiments. This process was assigned to the methyl group rotation. It was analysed in terms of a jump diffusion in a three-fold potential. The analysis of the dependence of the elastic incoherent structure factor on the scattering vector yields the number of methyl groups which might be immobilized. For PTCNSi1 (3 methyl groups in the monomeric unit) it was found that all methyl groups take part in the methyl group rotation whereas for PTCNSi2g (6 methyl groups in monomeric unit) a considerable number of methyl groups are blocked in their rotation. This immobilization of methyl groups is due to the sterically demanding arrangement of the methyl groups in PTCNSi2g. This conclusion is further supported by the result that the activation energy for the methyl group rotation is three times higher for PTCNSi2g than that of PTCNSi1. KW - Highly permeably polynorbornenes KW - Polymers of intrinsic microporosity KW - Gas separation membranes KW - Quasielastic neutron scattering PY - 2021 U6 - https://doi.org/10.1016/j.memsci.2021.119972 SN - 0376-7388 VL - 642 PB - Elesevier B.V. AN - OPUS4-53508 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Widjaja, Martinus Putra A1 - Moosavi, Robabeh A1 - John, Sebastian A1 - Schumacher, David A1 - Grunwald, Marcel A1 - Auster, Jürgen A1 - Szczepaniak, Marius A1 - Mair, Georg W. A1 - Waske, Anja T1 - Impact damage evaluation of hydrogen composite pressure vessels by analysing computed tomography images N2 - The objective of this work is to find a method that describes the degree of damage from an impact experiment. This experiment was performed on Composite Pressure Vessels (CPV) in order to find the correlation of impact damage to the residual burst pressure. Computed Tomography (CT) approach was used to capture the before and after impact condition of the CPVs. The Wasserstein function was used to calculate how much the after impact image has differed from the original one. In the end, a good correlation was obtained to the residual burst pressure. T2 - HyFiSyn Conference CY - Online meeting DA - 15.09.2021 KW - Hydrogen KW - Composite pressure vessel KW - Carbon fibre KW - Burst test KW - Image analysis KW - Computed tomography (CT) PY - 2021 SP - 31 EP - 32 AN - OPUS4-53494 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Widjaja, Martinus Putra A1 - Moosavi, R. A1 - John, Sebastian A1 - Schumacher, David A1 - Grunwald, Marcel A1 - Auster, Jürgen A1 - Szczepaniak, Marius A1 - Mair, Georg W. A1 - Waske, Anja T1 - Impact damage evaluation of hydrogen composite pressure vessels by analysing computed tomography images N2 - The objective of this work is to find a method that describes the degree of damage from an impact experiment. This experiment was performed on Composite Pressure Vessels (CPV) in order to find the correlation of impact damage to the residual burst pressure. Computed Tomography (CT) approach was used to capture the before and after impact condition of the CPVs. The Wasserstein function was used to calculate how much the after impact image has differed from the original one. In the end, a good correlation was obtained to the residual burst pressure. The smaller the Wasserstein distance is, the higher the residual burst pressure would be and vice versa. T2 - HyFiSyn Conference CY - Online meeting DA - 15.09.2021 KW - Hydrogen KW - Composite pressure vessel KW - Carbon fibre KW - Burst test KW - Image analysis KW - Computed tomography (CT) PY - 2021 AN - OPUS4-53496 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - RPRT A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Fügetechnik für die neue Wasserstoffökonomie – Werkstoffe, Schweißtechnologien, Perspektiven – N2 - Die Studie gibt einen Überblick über die Aspekte der Fügetechnik und ihrer Bedeutung in Wasserstofftechnologien. Dazu werden die Grundlagen der Technologiefelder Wasserstofferzeugung, -speicherung, -transport und -nutzung vorgestellt und der Stand der Technik der fügetechnischen Fertigung von Komponenten in Wasserstofftechnologien zusammengefasst. Dabei werden nicht nur exklusiv Metalle betrachtet. Anhand repräsentativer Beispiele aus der Praxis, Forschung und Entwicklung wird die Bedeutung der Fügetechnik in Wasserstofftechnologien klar herausgestellt und mögliche Perspektiven für die Zukunft abgeleitet. Hier ist ersichtlich, dass Fügetechnologien wesentliche Bedeutung für die erfolgreiche Umsetzung von technischen Komponenten der Wasserstofftechnologien haben, von der Erzeugung bis zur Anwendung. Aus gesamtwirtschaftlicher Sicht umfassen die Schwerpunkte bzw. Trends der Fügetechnik dabei: die Erstellung neuer Infrastruktur für Wasserstoffspeicherung und -transport sowie die sichere Umnutzung der bestehenden Erdgasinfrastruktur. Bei der Wasserstoffanwendung wird die effiziente massentaugliche Produktion von Brennstoffzellen immer wichtiger. Es ist zudem klar ersichtlich, dass die additive Fertigung bereits jetzt ein hohes Potential für Komponenten von Wasserstofftechnologien besitzen und dieses wachsen wird. Aus den perspektivischen Anwendungen ergeben sich zudem Herausforderungen und Forschungsbedarfe für die notwendigen nationalen und internationalen Regelwerke und technischen Normen. Schwerpunktmäßig sind hierbei die bereits bestehenden Empfehlungen und kodifizierten Regeln vollständig zu adaptieren und in die Aus- und Weiterbildung von fügetechnischem Fachpersonal einzubetten. KW - Fügetechnik KW - Wasserstoff KW - Werkstoffe KW - Prozesse KW - Perspektiven PY - 2021 UR - https://www.dvs-media.eu/de/neuerscheinungen/4425/dvs-studie-zur-fuegetechnik-fuer-die-neue-wasserstoffoekonomie-werkstoffe-schweisstechnologien-perspektiven SN - 978-3-96144-157-0 SN - 978-3-96144-158-7 VL - 373 SP - 1 EP - 59 PB - DVS Media GmbH CY - Düsseldorf AN - OPUS4-53498 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - RPRT A1 - Maiwald, Michael A1 - Villajos Collado, José Antonio T1 - Metal-organic framework compounds as hydrogen storage materials to enhance the safety, capacity, and efficiency of hydrogen refueling stations N2 - Gas adsorption is based on physical properties between gases and solid materials, enriching the surface with packed gas molecules with a higher density than in the bulk phase. For using this mechanism as a gas storage strategy, highly porous materials are necessary since large surfaces in small volumes can provide the storage system with a higher density than the gas phase. In the case of hydrogen gas, the interaction forces with solid surfaces are generally low at room temperature but can increase considerably at low operating temperatures. As a counterpart, the storage pressure is considerably lower than that necessary by traditional gas compression. Amongst ultra-porous adsorbent materials for hydrogen cryoadsorption, metal-organic frameworks (MOFs) are a group of remarkable solids made from metallic nodes linked by organic molecules exhibiting a wide variety of composition, geometry, porous properties, and chemical functionality. The scientific community focused in the last years on enhancing both the specific area of materials and the interaction energy to extend the storage properties of cryoadsorption to ambient-temperature and use it as hydrogen storage mechanisms in vehicles. However, the found difficulty in achieving ultra-porous structures with high-enough interaction energies decreased this research interest in the last years. However, for a stationary application like hydrogen refueling stations, where space and weight are not such limits as in vehicles, cryoadsorption can still be considered a feasible candidate for hydrogen storage. Cryoadsorption is the only fast and fully reversible approach to store hydrogen at similar density values as compressed gas. Cryogenic operation is a technological challenge, but first, liquid nitrogen is cheap, and second, it is less energy-demanding than hydrogen liquefaction, which is indeed considered as feasible for transportation and storage. Cryoadsorption involves lower pressure than compressed gas, increasing safety in the storage facilities, but additional research on the construction materials properties is necessary to better understand their behavior in contact with hydrogen at cryogenic temperatures. However, the knowledge of all these mechanisms is important to identify the improvement opportunities based on, probably, the interphase between different solutions. To achieve the set project goals, this internal research report describes the work packages realised within the framework of the project. KW - Metal-organic frameworks (MOFs) KW - Hydrogen Storage KW - Reversible Hydrogen Storage KW - Hydrogen Fuelling Stations KW - Croyo-starage KW - High-pressure volumetric analyzer (HPVA) PY - 2021 SP - 1 EP - 48 CY - Berlin AN - OPUS4-53582 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Joining Processes in Hydrogen Technologies - Current need and future R&D activites, a review N2 - This study gives an overview on the important field of joining processes for component fabrication in hydrogen technologies. For that reason, the current need and future research and developement activites are highlighted for the different technological field of hydrogen generation, storage, transport and use. In addition, the emerging field of additive manufacturing is included. Finally, some remarks are given for necessary changes in the standardization and its challenges. T2 - 46th Seminar - Additive Manufacturing, Hydrogen, Energy, Integrity CY - Online meeting DA - 12.10.2021 KW - Hydrogen KW - Joining process KW - Welding KW - Review KW - Research and Development PY - 2021 AN - OPUS4-53554 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Bevilacqua, N. A1 - Asset, T. A1 - Schmid, M. A. A1 - Markötter, Henning A1 - Manke, I. A1 - Atanassov, P. A1 - Zeis, R. T1 - Impact of catalyst layer morphology on the operation of high temperature PEM fuel cells N2 - Electrochemical impedance spectroscopy (EIS) is a well-established method to analyze a polymer electrolyte membrane fuel cell (PEMFC). However, without further data processing, the impedance spectrum yields only qualitative insight into the mechanism and individual contribution of transport, kinetics, and ohmic losses to the overall fuel cell limitations. The distribution of relaxation times (DRT) method allows quantifying each of these polarization losses and evaluates their contribution to a given electrocatalyst's depreciated performances. We coupled this method with a detailed morphology study to investigate the impact of the 3D-structure on the processes occurring inside a high-temperature polymer electrolyte membrane fuel cell (HT-PEMFC). We tested a platinum catalyst (Pt/C), a platinum-cobalt alloy catalyst (Pt3Co/C), and a platinum group metal-free iron-nitrogen-carbon (Fe–N–C) catalyst. We found that the hampered mass transport in the latter is mainly responsible for its low performance in the MEA (along with its decreased intrinsic performances for the ORR reaction). The better performance of the alloy catalyst can be explained by both improved mass transport and a lower ORR resistance. Furthermore, single-cell tests show that the catalyst layer morphology influences the distribution of phosphoric acid during conditioning. KW - High-temperature polymer electrolyte membrane fuel cell KW - Platinum-free catalyst KW - Mass transport KW - Oxygen reduction reaction KW - Distribution of relaxation times analysis PY - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-520917 VL - 7 SP - 100042 PB - Elsevier Ltd. AN - OPUS4-52091 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Richter, Tim A1 - Mente, Tobias A1 - Mayr, P. A1 - Nitsche, A. T1 - Thickness and microstructure effect on hydrogen diffusion in creep-resistant 9 % Cr P92 steel and P91 weld metal N2 - Martensitic 9 %-Cr steels like P91 and P92 show susceptibility to delayed hydrogen assisted cracking depending on their microstructure. In that connection, effective hydrogen diffusion coefficients are used to assess the possible time-delay. The small number of available diffusion coefficients varies already at room temperature by several orders of magnitude (mostly regarded as result of present microstructure). Especially P91 weld metal diffusion coefficients are rare so far. For that reason, electrochemical permeation experiments had been conducted using P92 base metal and P91 weld metal (in as-welded and heat-treated condition) with different thicknesses. The diffusion coefficients are calculated by two methods (time-lag and inflection point method) were performed. The results show that, despite of microstructural effects, the sample thickness must be considered as it influences the calculated diffusion coefficients. Finally, the comparison of calculated and measured hydrogen concentrations (determined by carrier gas hot extraction) enables the identification of realistic diffusion coefficients. T2 - IIW Intermediate Meeting, Comm. IX-C "Welding of creep and heat-resistant materials" CY - Online meeting DA - 08.03.2021 KW - Hydrogen KW - Welding KW - Diffusion KW - Creep-resistant steel KW - Electrochemical permeation PY - 2021 AN - OPUS4-52239 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Fügetechnik in Wasserstofftechnologien - Forschungsbedarf für die Branche (Kurzversion) N2 - Die Studie gibt einen kurzen Überblick über die jetzige Bedeutung der Fügetechnik in Wasserstofftechnologien und über zukünftige Forschungsbedarfe für die Branche in den einzelnen Technologiefeldern Wasserstofferzeugung, -speicherung, -transport und -nutzung. Fügetechnologien haben dabei wesentliche Bedeutung für die erfolgreiche Umsetzung von technischen Komponenten der Wasserstofftechnologien. Die Schwerpunkte bzw. Forschungsbedarfe ergeben sich bspw. durch die Erstellung neuer Infrastruktur für Wasserstoffspeicherung und -transport sowie durch Umnutzung der bestehenden Erdgasinfrastruktur. Bei der Wasserstofferzeugung und -anwendung wird z.B. die Entwicklung effiziente Massenproduktionsmethoden von Elektrolyseuren und Brennstoffzellen einen wichtigen Meilenstein bilden und laserbasierte Fügetechnologien sind hier zum Teil schon etabliert. Die additive Fertigung nimmt dabei eine Querschnittsposition ein und besitzt hohes Anwendungspotential für die Zukunft z.B. für die Fertigung von Komponenten in Gasturbinen. Aus den technischen Fragestellungen und Forschungsbedarfen ergeben sich zudem Herausforderungen für die notwendige Neu- und Weiterentwicklung von technischen Regelwerken und Normen und den Eingang in die Aus- und Weiterbildung von fügetechnischem Fachpersonal. T2 - DVS Congress 2021 CY - Online meeting DA - 14.09.2021 KW - Wasserstoff KW - Fügetechnik KW - Forschung KW - Werkstoff KW - Bedarf PY - 2021 SN - 978-3-96144-146-4 VL - 371 SP - 612 EP - 624 PB - DVS Media GmbH CY - Düsseldorf AN - OPUS4-53370 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Sobol, Oded A1 - Nietzke, Jonathan A1 - Konert, Florian A1 - Valverde Laks, Enrico T1 - Challenges with metallic materials in H 2 technologies N2 - Increasing environmental problems with conventional energy technology are stimulating the demand for alternative energy solutions. With air quality reaching catastrophic levels in large cities worldwide, Fuel Cell Electric Vehicles offer the ideal combination of clean power with the amenities of electric drives. Hydrogen use on vehicles, nevertheless, also raises some issues about safe handling. As fuel cells and hydrogen applications, including vehicles, approach technological maturity, developing their business cases becomes crucial in introducing them to the consumer markets. The Joint European Summer School JESS 2021 addresses these issues by offering high quality graduate level courses on selected topics of vehicle technology, innovation & business development, safe handling of hydrogen, and modelling. This series of summer schools has been ongoing since 2004 and targets an audience of university students (MSc and PhD levels) and post-doctoral researchers. We also welcome more experienced researchers and engineers wishing to expand their general knowledge, for instance, to suit a newly acquired position or collect credits for Continuous Professional Development (CPD). The course content is tailored to the needs of a diverse audience: newcomers to the field, experienced students, and young professionals working at the forefront of fuel cell and hydrogen applications. T2 - Joint european summer school (JESS) CY - Online meeting DA - 06.09.2021 KW - Hydrogen Embrittlement KW - Hydrogen assisted cracking KW - Gaseous hydrogen PY - 2021 UR - https://www.jess-summerschool.eu/Week-2 SP - 1 EP - 41 AN - OPUS4-53402 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Habib, Abdel Karim A1 - Beyer, M. T1 - P2X: From production to application Safety issues around hydrogen N2 - For hazard Assessment purposes we need models to predict what would happen in case of an accident. The challenge in hazard assessment consists not only in choosing the right model, but beforehand to define the correct scenario. For hydrogen applications the validity of the models has to be checked, as well as the kind of scenario to assume for accidental releases of hydrogen. Open questions on these topics will be adressed and the newly founded competecne centre for Hydrogen Saftey at BAM will be presented. T2 - VDMA Webinar P2X: From production to application CY - Online Meeting DA - 18.05.2021 KW - Hydrogen KW - Hasard assessment KW - Modeling PY - 2021 AN - OPUS4-52678 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Sachse, René A1 - Pflüger, Mika A1 - Velasco-Vélez, Juan-Jesús A1 - Sahre, Mario A1 - Radnik, Jörg A1 - Bernicke, Michael A1 - Bernsmeier, Denis A1 - Hodoroaba, Vasile-Dan A1 - Krumrey, Michael A1 - Strasser, Peter A1 - Hertwig, Andreas A1 - Kraehnert, Ralph T1 - Operando electrochemical spectroscopic ellipsometry: Material properties of highly active mesoporous IrO IrOxfilms revealed under realistic OER conditions N2 - Rising energy demand and the impending climate change require the development of a sustainable, fossil-free fuel and chemical production on a global scale. Hydrogen production via water electrolysis will be a fundamental cornerstone in this endeavor. The activity and stability of respective electrode coatings strongly depends on the coating's properties, i.e. phase composition, crystallinity, electrical conductivity, accessible surface, wettability and many other factors. The key to the development of improved catalysts is a better understanding of the relations between their performance, stability and physicochemical properties. However, those relations can be complex, and are strongly influenced also by the reaction environment. Hence, operando analysis of the catalyst material during catalysis at realistic potentials and current densities is highly desirable. Yet, many analytical techniques cannot be applied in liquid environments at realistic potentials and current densities. We propose environmental ellipsometric analysis in a dedicated electrochemical flow cell as a new method to evaluate gas evolution reactions operando under realistic working conditions. Figure 1 illustrates schematically the developed technique. Key factors to success are highly active model-type catalysts with template-controlled porosity, a suitable sample environment, a deep understanding of the spectroscopic method and respective model development, as well as concise cross validation with numerous other analytical techniques. The method was developed and validated by analyzing a calcination series (300 - 600°C) of mesoporous templated IrOx films ex-situ and operando under oxygen evolution reaction (OER) conditions. The employed environmental electrochemical spectroscopic ellipsometric analysis (ECSE) revealed during OER the change of optical and electronic properties, i.e. the dielectric functions (real ε1 and imaginary part ε2), electrical and electronic properties such as resistivity (ρ) and band-to-band transitions (p-d band transitions). Film thickness and porosity were validated by means of scanning electron microscopy (SEM), X-ray reflectometry (XRR) or ellipsometric porosimetry (EP), electrical and electronic properties by means of conductivity measurements, X-ray photoelectron spectroscopy (XPS) or UV-Vis-NIR absorption spectroscopy. The electronic structures of the catalysts from valence electron energy loss spectra (VEELS) derived from the real (ε1) and imaginary part (ε2) of the dielectric function from SE measurements reveal a direct correlation with electrochemical activities in OER. In the presentation reversible and irreversible potential-dependent changes of the catalyst properties during operation will be discussed along with the dynamics of gas formation, transport and dissolution at different potentials. T2 - 54. Jahrestreffen deutscher Katalytiker CY - Online meeting DA - 16.03.2021 KW - Spectroscopic ellipsometry KW - Electrocatalysis KW - Oxygen evolution reaction KW - Mesoporous iridium oxide films KW - Non-destructive operando analysis PY - 2021 AN - OPUS4-52928 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Sachse, René A1 - Pflüger, Mika A1 - Velasco-Vélez, Juan-Jesús A1 - Sahre, Mario A1 - Radnik, Jörg A1 - Bernicke, Michael A1 - Bernsmeier, Denis A1 - Hodoroaba, Vasile-Dan A1 - Krumrey, Michael A1 - Strasser, Peter A1 - Hertwig, Andreas A1 - Kraehnert, Ralph T1 - Operando electrochemical spectroscopic ellipsometry: Material properties of highly active mesoporous IrO IrOxfilms revealed under realistic OER conditions N2 - Rising energy demand and the impending climate change require the development of a sustainable, fossil-free fuel and chemical production on a global scale. Hydrogen production via water electrolysis will be a fundamental cornerstone in this endeavor. The activity and stability of respective electrode coatings strongly depends on the coating's properties, i.e. phase composition, crystallinity, electrical conductivity, accessible surface, wettability and many other factors. The key to the development of improved catalysts is a better understanding of the relations between their performance, stability and physicochemical properties. However, those relations can be complex, and are strongly influenced also by the reaction environment. Hence, operando analysis of the catalyst material during catalysis at realistic potentials and current densities is highly desirable. Yet, many analytical techniques cannot be applied in liquid environments at realistic potentials and current densities. We propose environmental ellipsometric analysis in a dedicated electrochemical flow cell as a new method to evaluate gas evolution reactions operando under realistic working conditions. Figure 1 illustrates schematically the developed technique. Key factors to success are highly active model-type catalysts with template-controlled porosity, a suitable sample environment, a deep understanding of the spectroscopic method and respective model development, as well as concise cross validation with numerous other analytical techniques. The method was developed and validated by analyzing a calcination series (300 - 600°C) of mesoporous templated IrOx films ex-situ and operando under oxygen evolution reaction (OER) conditions. The employed environmental electrochemical spectroscopic ellipsometric analysis (ECSE) revealed during OER the change of optical and electronic properties, i.e. the dielectric functions (real ε1 and imaginary part ε2), electrical and electronic properties such as resistivity (ρ) and band-to-band transitions (p-d band transitions). Film thickness and porosity were validated by means of scanning electron microscopy (SEM), X-ray reflectometry (XRR) or ellipsometric porosimetry (EP), electrical and electronic properties by means of conductivity measurements, X-ray photoelectron spectroscopy (XPS) or UV-Vis-NIR absorption spectroscopy. The electronic structures of the catalysts from valence electron energy loss spectra (VEELS) derived from the real (ε1) and imaginary part (ε2) of the dielectric function from SE measurements reveal a direct correlation with electrochemical activities in OER. In the presentation reversible and irreversible potential-dependent changes of the catalyst properties during operation will be discussed along with the dynamics of gas formation, transport and dissolution T2 - E MRS 2021 SPRING MEETING CY - Online meeting DA - 31.05.2021 KW - Spectroscopic ellipsometry KW - Ectrocatalysis KW - Oxygen evolution reaction KW - Mesoporous iridium oxide films KW - Non-destructive operando analysis PY - 2021 AN - OPUS4-52929 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Villajos Collado, José Antonio A1 - Zimathies, Annett A1 - Prinz, Carsten T1 - A fast procedure for the estimation of the hydrogen storage capacity by cryoadsorption of metalorganic framework materials from their available porous properties N2 - In order to identify the best porous materials for the cryogenic physisorption of hydrogen, high-throughput calculations are performed starting, i.e., from the collected information in crystallographic databases. However, these calculations, like molecular simulations, require specific training and significant computational cost. Herein, a relatively simple procedure is proposed to estimate and compare hydrogen uptakes at 77 K and pressure values from 40 bar starting from the porous properties of MOF materials, without involving simulation tools. This procedure uses definitions for adsorption and considers the adsorbed phase as an incompressible fluid whose pressure-density change is that for the liquid phase at 19 K. For the 7000 structures from the CoRE MOF database, the average error of the predictions is only of 1% from reference values at 100 bar, with an SD of ±8%. This accuracy is lower than that from simulation tools, but involving lower computational cost and training. KW - Metal-organic frameworks KW - MOF databases KW - Hydrogen cryostorage KW - Supercritical adsorption KW - Absolute adsorption KW - Uptake estimation PY - 2021 U6 - https://doi.org/10.1016/j.ijhydene.2020.10.265 SN - 0360-3199 VL - 46 SP - 29323 EP - 29331 PB - Elsevier CY - Oxford AN - OPUS4-53133 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Quackatz, Lukas A1 - Griesche, Axel A1 - Kannengießer, Thomas T1 - Measurement of hydrogen concentration in steels by laser-induced breakdown spectroscopy (LIBS) N2 - Current efforts to achieve lightweight construction and the required reduction in CO2 emissions and an increase in energy and resource efficiency call for the increasing use of high-strength fine-grain structural steels. However, as the strength of higher-strength fine-grain structural steels increases, so do the associated joining challenges. Particular attention must be paid to hydrogen-assisted cold cracking. The influence of hydrogen reveals itself less in the strength but has a significant effect on the deformability [1, 2]. The degradation of the material properties can lead to zero ductility, where the values of the yield strengths coincide with the tensile strengths. Laser-induced breakdown spectroscopy (LIBS) is a spectroscopic technique that can be used to determine elemental compositions without pre-treatment of the samples. Short, high-energy laser pulses ablate a small volume (< 0.1 mm3) of the examined material and ionize it to form a plasma. The decaying plasma emits element-specific light. This light is spectroscopically analysed and allows to detect qualitatively the present elements and to quantify them with help of a standardization routine. The simple experimental set-up and the fast, nearly non-destructive analysis procedure characterize the LIBS analysis. The LIBS method allows a time and spatially resolved in situ measurement of steel components in use. Even low hydrogen concentrations (~ 1 wt.-ppm) in steel can be measured with the LIBS method and can be quantified with help of certified reference materials. The results are compared with results gained with the well-established carrier gas hot extraction method. T2 - MaterialsWeek 2021 CY - Online Meeting DA - 07.09.2021 KW - LIBS KW - Hydrogen KW - Stainless steel KW - Diffusion PY - 2021 AN - OPUS4-53234 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Asna Ashari, Parsa A1 - Blind, K. T1 - Knowledge and Technology Transfer via Publications, Patents, and Standards - The Case of Hydrogen Technology N2 - Climate change and the need to reduce greenhouse gas emissions pose tremendous challenges to policymakers, the economy, and society. In this context, the development of clean, low-emission technologies plays a crucial role in mitigating the negative impact of fossil fuels on the climate. Hydrogen is a promising energy carrier and fuel that, thanks to its versatility, can be used in many applications. However, the adoption of hydrogen technology requires sufficient trust in its safety. To proxy the development of hydrogen safety innovations, we provide an analysis along the three knowledge and technology transfer channels of publications, patents, and standards. Our results show that research on hydrogen safety has increased significantly in the last decades, with hydrogen safety patents experiencing a general upward trend between 1980 and 2020, just recently decreasing. However, an analysis of almost 100 international hydrogen and fuel cell standards shows only a small number of references to scientific publications. This apparently limited transfer of knowledge from publications points to the need to optimize the coordination of the three knowledge and technology transfer channels for the future development of hydrogen technology. Based on the exploration of this gap, we recommend that research on the three channels for hydrogen be intensified and that the impact of hydrogen safety technology research and development on their diffusion be investigated. T2 - European Policy for Intellectual Property 2021 Conference - IP and the Future of Innovation CY - Online meeting DA - 08.09.2021 KW - Hydrogen and fuel cell technology KW - Hydrogen safety KW - Knowledge and technology transfer KW - Publications KW - Patents KW - Standards PY - 2021 AN - OPUS4-53239 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - John, Sebastian A1 - Widjaja, Martinus A1 - Mair, Georg W. T1 - Modalanalyse als Werkzeug zur Lebensdauerabschätzung bei Composite-Druckbehältern N2 - Hochbeanspruchte Bauteile wie Druckbehälter bergen im Falle eines Versagens ein erhebliches Gefährdungspotential für Mensch und Umgebung. Trotz der Auslegung mit hohen Sicherheitsfaktoren kommt es durch die hauptsächlich bei mobilen Anwendungen eingesetzten Leichtbauwerkstoffe und Materialkombinationen zu komplexen Degradationsvorgängen, welche unter ungünstigen Umständen zu einem frühzeitigen Versagen führen können. Am Beispiel eines hybriden Typ III-Behälters, bestehend aus Metall und Faser-Verbund-Kunststoffen, wird demonstriert, wie sich Änderungen des lebensdauerbestimmenden Eigenspannungszustandes auf eine sichere Gebrauchsdauer auswirken. Zur Erfassung dieser Eigenspannungsänderungen wird ein zerstörungsfreier Ansatz auf Grundlage einer experimentellen Modalanalyse vorgestellt. Die daraus gewonnen Daten fließen unmittelbar in ein erarbeitetes Betriebsfestigkeitsmodell ein. Abschließend werden die generierten Modellergebnisse mit experimentell ermittelten Lebensdauern verglichen und bewertet. T2 - DAGA 2021 CY - Vienna, Austria DA - 15.08.2021 KW - Modalanalyse KW - Delfin KW - Wasserstoff KW - Impact KW - Druckbehälter KW - Gasspeicher PY - 2021 AN - OPUS4-53224 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. T1 - Relevante Entwicklungen zu Speichern für Gase als Energieträger N2 - Es werden die Zusammenhänge des Druckvolumenprodukts und der Konsequenz bei Druckgasen insbesondere für Wasserstoff dargestellt. Entsprechend werden Stellungnahmen zu verschiedenen Normungsprojekten abgeleitet und perspektivische Entwicklungen mit dem resultierenden Bedarf in der Normung dargestellt. Außerdem wird am Beispiel ein Problem in der praktischen Beurteilung von Speicherpopulationen für Batteriefahrzeuge diskutiert. T2 - 26. BAM-DIN-IGV-DVFG-Gespräch 2019 CY - Berlin, Germany DA - 27.02.2019 KW - Wasserstoffspeicher KW - Konsequenzbegrenzung KW - Normung KW - Druck-Volumen-Produkt KW - Katastrophe KW - Akzeptanz PY - 2019 AN - OPUS4-53145 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. A1 - Duffner, Eric A1 - Thomas, Sebastian T1 - Bergungsdruckgefäße - Vorschlag zur Definition von Druckgefäßen N2 - Es wird plastisch dargestellt, mit welcher Intention und welchem Ziel Deutschland in die Juni Sitzung des UN ECOSOC SubCom TDG gehen wird, um ein Druckvolumenbegrenzung für Druckgefäße zu erreichen. T2 - BAM-DIN-IGV-DVFG-Jahresgespräch 2020 CY - Berlin, Germany DA - 27.02.2020 KW - Bergungsdruckgefäß KW - Konsequenzbegrenzung KW - Volumenbegrenzung KW - Druck-Volumen-Produkt KW - UN-Modellvorschriften KW - Akzeptanz PY - 2020 AN - OPUS4-53146 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. A1 - Thomas, Sebastian T1 - Consequences of the reduced minimum burst pressure on the production surveillance N2 - First the acceptance rates resulting from the analysis of different minimum burst ratios and standards are displayed and explained. Especially the problems resulting from a further reduction if the minimum burst ratio are shown. For a better understanding of these results the process of analysing the acceptance rate is explained in detail. This contains the alleged contradiction between safety of samples due to its scatter while the rejected sample provides a higher mean strength. Then the importance of batch testing is explained and leads to the recommendation to have a strong interaction between provided mean strength and requested maximum of production scatter. T2 - 8 th WG on rev GTR 13 CY - Online meeting DA - 02.03.2020 KW - Minimum burst ratio KW - Production scatter KW - Mean burst pressure KW - Batch testing KW - Acceptance rate PY - 2020 AN - OPUS4-53147 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. A1 - Bock, Robert T1 - Burst strength and its scatter as key points of safety N2 - Based on the preliminary presentations in this task force it is repeated how a basic population scatters and its degradation influences properties statistically. There is a remainder on the issue of accepting borderline populations due to the minimum burst ratio requirement. Then it is explained in detail how the analysis of minimum requirements by a Monte-Carlo-simulation works. The result with respect to the further reduced minimum burst ratio of 2.0 is summarised and means a two-step approach of two scatter levels requiring two different minimum burst ratios. The methods for evaluating batch tests are analysed. A proposal for integration a statistical analysis is described in detail. Finally, the positive effect of proof testing is shown and its dependence from the real ageing is shown. This ends in the recommendation to have a stronger and quantitative look on real ageing and to follow the 2 proposed sets of criteria for a safe usage of hydrogen storage systems. T2 - 10th IWG on rev GTR 13 CY - Online meeting DA - 28.06.2021 KW - Basic population KW - Minimum burst ratio KW - Monte-Carlo-simulation KW - Borderline population KW - Batch test KW - Proof test KW - Ageing PY - 2021 UR - https://wiki.unece.org/download/attachments/128419731/GTR13-10-08%20BAM%20GTR%2013-2%20scatter%20criteria%20for%20min%20burst%202021-06-25.pdf?api=v2 AN - OPUS4-53149 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. A1 - Holtappels, Kai A1 - Maiwald, Michael A1 - Sobol, Oded A1 - Orellana Pérez, Teresa T1 - Aspekte der Bauteilprüfung, Bauteilsicherheit und Zulassung im Kompetenzzentrum H2Safety N2 - Der Vortrag stellt das Kompetenzzentrum H2Safety der BAM vor und zeigt Aspekte besonderer Kompetenz des Zentrums mit Blick auf das Kompetenzfeld TestCert. Beginnend mit dem H2-Unfall auf dem Tempelhofer Feld in 1894 wird dargestellt welche Bedeutung Sicherheitsfragen zu Wasserstoff für das Kompetenzzentrum H2Safety haben. Danach wird die Struktur und die Arbeitsschwerpunkte erläutert und die verantwortlichen Personen kurz vorgestellt. Das Kompetenzfeld TestCert wird vertieft erläutert und hier insbesondere auf Sicherheitsaspekte des Markthochlaufes hingewiesen. Darauf aufbauend werden die statistischen Aspekte eines Markthochlaufes wie auch die der Streuung einer Population und deren Alterung dargelegt. Zuletzt kommt der Hinweis auf das Potential der Bewertung von Baumusterprüfkriterien mithilfe der Monte-Carlo-Simulation. T2 - DVGW Kongress "H2 Sicherheit" CY - Online meeting DA - 27.01.2021 KW - H2Safety@BAM KW - Markthochlauf KW - Sicherheit KW - Zuverlässigkeit KW - Alterung KW - Zulassungskriterium PY - 2021 AN - OPUS4-53152 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. T1 - Markthochlauf von Wasserstoff - Vertrauen durch probabilistische Sicherheitsbewertung der H2-Speicher N2 - Der Vortrag beginnt mit dem erwarteten Bedarf an Wasserstoff und der Frage der Risikosteuerung bei stattfindender Marktdurchsetzung. Dem gegenüber ist an einem Beispiel der Prozess der Regelsetzung gestellt, was die Notwendigkeit pro-aktiven Handelns zeigt. Es wird über die risikobasierte Definition von Sicherheit gezeigt, welche Bedeutung die Erfassung der Fertigungsstreuung hat und wie die quantitative Erfassung und Bewertung aussehen könnte. Zuletzt wird über den Aspekt der Alterung auf das Potential probabilistischer Zulassungsansätze verwiesen und aufgezeigt, wie die Wirkung von Vorschriften nach dem probabilistischen Sicherheitskriterium bewertet und optimiert werden kann. T2 - 9. HYPOS-Dialog: Grüner Wasserstoff, aber sicher! (Uni Magdeburg) CY - Magdeburg, Germany DA - 11.09.2020 KW - Wasserstoffspeicher KW - Monte-Carlo-Experiment KW - Lebensdauervorhersage KW - Statistische Bewertung KW - Sicherheit KW - Population PY - 2020 AN - OPUS4-53154 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. A1 - Maiwald, Michael A1 - Orellana Pérez, Teresa A1 - Sobol, Oded A1 - Holtappels, Kai T1 - BAM - Bundesanstalt für Materialforschung und -prüfung: Hydrogen - Safety in Technology and Chemistry N2 - The presentation starts with some key figures about BAM. Then it introduces BAM's competence centre H2Safety@BAM and shows aspects of special competence of the centre. It closes with information about the engagement of BAM in European research projects on hydrogen and a reference to our bilingual paper about our hydrogen strategy. T2 - 27th Hydrogen Europe Research General Assembly CY - Online meeting DA - 02.07.2020 KW - Material properties and compatibility KW - Component testing KW - Safety assessment KW - Approval KW - Sensors KW - Inspection KW - Gas behaviour KW - Safe handling PY - 2020 AN - OPUS4-53155 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Rhode, Michael A1 - Richter, Tim A1 - Schröpfer, Dirk A1 - Manzoni, Anna Maria A1 - Schneider, M. A1 - Laplanche, G. T1 - Welding of high-entropy alloys and compositionally complex alloys - an overview N2 - High-entropy alloys (HEAs) and compositionally complex alloys (CCAs) represent new classes of materials containing five or more alloying elements (concentration of each element ranging from 5 to 35 at. %). In the present study, HEAs are defined as single-phase solid solutions; CCAs contain at least two phases. The alloy concept of HEAs/CCAs is fundamentally different from most conventional alloys and promises interesting properties for industrial applications (e.g., to overcome the strength-ductility trade-off). To date, little attention has been paid to the weldability of HEAs/CCAs encompassing effects on the welding metallurgy. It remains open whether welding of HEAs/CCAs may lead to the formation of brittle intermetallics and promote elemental segregation at crystalline defects. The effect on the weld joint properties (strength, corrosion resistance) must be investigated. The weld metal and heat-affected zone in conventional alloys are characterized by non-equilibrium microstructural evolutions that most probably occur in HEAs/CCAs. The corresponding weldability has not yet been studied in detail in the literature, and the existing information is not documented in a comprehensive way. Therefore, this study summarizes the most important results on the welding of HEAs/CCAs and their weld joint properties, classified by HEA/CCA type (focused on CoCrFeMnNi and AlxCoCrCuyFeNi system) and welding process. KW - High-entropy alloy KW - Compositionally complex alloy KW - Welding KW - Properties KW - Review PY - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-527068 SP - 1 EP - 15 PB - Springer Nature AN - OPUS4-52706 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Koerdt, Andrea A1 - Annie, Biwen A1 - Rene, Hesse A1 - Askar, Enis A1 - Ji Zheng, Yao A1 - Sobol, Oded A1 - Kunte, Hans-Jörg T1 - The impact and potential of halophilic microorganisms on alternative fuels N2 - As more industrial interests focusing on using salt caverns and repurposed gas or petroleum reservoirs for alternative fuel storage, i.e. CO2/H2, the question raises whether microorganisms may impact the infrastructure, gas purity and storage condition over time. Environments with high salinity (> 1.5 Meq of NaCl) are resided by halophiles (salt-loving microorganisms). To compensate for the intensive osmotic stress, they have resorted to two main adaptation strategies: 1) production of compatible solutes and 2) accumulation of intracellular KCl. Microbial community analysis of several high salinity environments revealed a number of recurring genera, including Halomonas and Halanaerobium. However, the impact of halophiles on the overall integrity and stability of the storage facilities remain largely unknown. To evaluate the suitability and stability of saline storage facilities, several model halophilic microorganisms, such as members of Halomonas, will be selected as testing subjects. First, the impact of halophiles on the infrastructure will be determined using an integrative approach by combining a number of techniques, including electrochemistry, TOF-SIMS, SEM/FIB/EDS and FIB-TEM. Second, the abilities of halophiles to alter the fuel composition (i.e. increase/decrease the fractions of H2) will be monitored using gas chromatography by growing them under high pressure. As a result of climate change and the accompanying mandatory shift to renewable energy resources, microorganisms will continue to play an important role in the energy sector, both to their benefit and detriment. Thus, it is important to achieve a certain level of understanding regarding the activities and mechanisms of halophiles prior to large-scaled excursions. T2 - ISMOS-8 CY - Online meeting DA - 07.06.2021 KW - Microbiologically influenced corrosion KW - Hydrogen KW - Gas storage KW - Contamination PY - 2021 AN - OPUS4-52891 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Asna Ashari, Parsa A1 - Blind, K. T1 - An Analysis of the Three Knowledge and Technology Transfer Channels: Publications, Patents, Standards – The Case of Hydrogen Technology N2 - Climate change and the need to reduce greenhouse gas emissions pose tremendous challenges to policymakers, the economy, and society. In this context, the development of clean, low-emission technologies plays a crucial role in mitigating the negative impact of fossil fuels on the climate. Hydrogen is a promising energy carrier and fuel that, thanks to its versatility, can be used in many applications. However, the adoption of hydrogen technology requires sufficient trust in its safety. To proxy the development of hydrogen safety innovations, we provide an analysis along the three knowledge and technology transfer channels of publications, patents, and standards. Our results show that research on hydrogen safety has increased significantly in the last decades, with hydrogen safety patents experiencing a general upward trend between 1980 and 2020, just recently decreasing. However, an analysis of almost 100 international hydrogen and fuel cell standards shows only a small number of references to scientific publications. This apparently limited transfer of knowledge from publications points to the need to optimize the coordination of the three knowledge and technology transfer channels for the future development of hydrogen technology. Based on the exploration of this gap, we recommend that research on the three channels for hydrogen be intensified and that the impact of hydrogen safety technology research and development on their diffusion be investigated. T2 - 25th EURAS Annual Standardisation Conference – Standardisation and Innovation CY - Online meeting DA - 06.09.2021 KW - Hydrogen Standards KW - Fuel Cells KW - Knowledge and Technology Transfer KW - Publications KW - Patents KW - Standards KW - Safety PY - 2021 AN - OPUS4-53215 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Richter, Tim A1 - Rhode, Michael A1 - Nietzke, Jonathan A1 - Wilhelm, Eugen A1 - Mente, Tobias A1 - Kannengießer, Thomas T1 - Characterization of Hydrogen Diffusion in a Thick-walled Submerged Arc Multi-Layer Weld Joint N2 - The energy production of the future will be dominated by CO2-emission free techniques like wind turbines and become essential in scope of the planned hydrogen economy. As onshore installation capacity is limited, the in-crease of the number of offshore wind turbines (OWT) is a major goal. In that connection, the OWTs continuously increase in size and weight and demand adequate foundations concepts like monopiles or tripods. These compo-nents are typically manufactured from welded mild steel plates with thickness up to 200 mm. The predominant welding technique is submerged arc welding (SAW) with up to five wires. In accordance with the standards, the occurrence of delayed hydrogen assisted cracking is anticipated by either a hydrogen removal heat treatment (HRHT) or a so-called minimum waiting time (MWT) before non-destructive testing (NDT) of the respective weld joint is allowed. The reason for the MWT is the necessary time for the hydrogen diffusion at ambient temperature due the high plate thickness. Both the effectiveness of a HRHT at elevated temperatures or the MWT at ambient temperature can be estimated by calculation of the diffusion time. This time depends on reliable hydrogen diffu-sion coefficients and these are rare in literature. For that reason, this study presents the hydrogen diffusion coef-ficients obtained from a multi-layer SAW joint of an offshore steel grade. Two different experimental techniques were used to identify the respective diffusion behavior: (1) hydrogen desorption experiments with a carrier gas hot extraction analyzer at elevated temperatures for the characterization of a HRHT and (2) the electrochemical permeation technique at ambient temperature for the characterization of an MWT. From both experiments, the respective diffusion coefficients were calculated. The obtained DCs are different from those reported in literature, i.e., the duration or applicability of a HRHT or MWT must be critically discussed. T2 - European Congress and Exhibition on Advanced Materials and Process - Euromat 2021 CY - Online meeting DA - 13.09.2021 KW - Welding KW - Offshore KW - Wind turbine KW - Hydrogen KW - Cracking PY - 2021 AN - OPUS4-53296 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Kannengießer, Thomas A1 - Rhode, Michael T1 - Fügetechnik in Wasserstofftechnologien - Forschungsbedarf für die Branche N2 - Die Studie gibt einen kurzen Überblick über die jetzige Bedeutung der Fügetechnik in Wasserstofftechnologien und über zukünftige Forschungsbedarfe für die Branche in den einzelnen Technologiefeldern Wasserstofferzeu-gung, -speicherung, -transport und -nutzung. Fügetechnologien haben dabei wesentliche Bedeutung für die er-folgreiche Umsetzung von technischen Komponenten der Wasserstofftechnologien. Die Schwerpunkte bzw. For-schungsbedarfe ergeben sich bspw. durch die Erstellung neuer Infrastruktur für Wasserstoffspeicherung und -transport sowie durch Umnutzung der bestehenden Erdgasinfrastruktur. Bei der Wasserstofferzeugung und -anwendung wird z.B. die Entwicklung effiziente Massenproduktionsmethoden von Elektrolyseuren und Brennstoff-zellen einen wichtigen Meilenstein bilden und laserbasierte Fügetechnologien sind hier zum Teil schon etabliert. Die additive Fertigung nimmt dabei eine Querschnittsposition ein und besitzt hohes Anwendungspotential für die Zukunft z.B. für die Fertigung von Komponenten in Gasturbinen. Aus den technischen Fragestellungen und For-schungsbedarfen ergeben sich zudem Herausforderungen für die notwendige Neu- und Weiterentwicklung von technischen Regelwerken und Normen und den Eingang in die Aus- und Weiterbildung von fügetechnischem Fachpersonal. T2 - DVS Congress 2021 CY - Essen, Germany DA - 14.09.2021 KW - Wasserstoff KW - Fügetechnik KW - Forschung KW - Technologie PY - 2021 AN - OPUS4-53321 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Drexler, A A1 - Konert, Florian A1 - Sobol, Oded A1 - Rhode, Michael A1 - Domitner, J A1 - Sommitsch, C A1 - Boellinghaus, Thomas T1 - Enhanced gaseous hydrogen solubility in ferritic and martensitic steels at low temperatures N2 - Metals that are exposed to high pressure hydrogen gas may undergo detrimental failure by embrittlement. Understanding the mechanisms and driving forces of hydrogen absorption on the surface of metals is crucial for avoiding hydrogen embrittlement. In this study, the effect of stress-enhanced gaseous hydrogen uptake in bulk metals is investigated in detail. For that purpose, a generalized form of Sievert's law is derived from thermodynamic potentials considering the effect of microstructural trapping sites and multiaxial stresses. This new equation is parametrized and verified using experimental data for carbon steels, which were charged under gaseous hydrogen atmosphere at pressures up to 1000 bar. The role of microstructural trapping sites on the parameter identification is critically discussed. KW - Hydrogen KW - Thermodynamic modelling KW - Pressure-dependent solubility KW - Steel KW - Trapping PY - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-559307 SN - 0360-3199 VL - 47 IS - 93 SP - 39639 EP - 39653 PB - Elsevier Ltd. AN - OPUS4-55930 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Radnik, Jörg T1 - ToF-SIMS at advanced materials - from nano to energy N2 - The basic principles of ToF-SIMS will be explained. Examples of the use of ToF-SIMS for the investigation of titania and core-shell nanoplastic will be given. Furhtermore, 3d reconstruction is explained for nanoparticle research and energy-related materials. T2 - BUA Summer School Mass Spectrometry CY - Berlin, Germany DA - 04.10.2022 KW - ToF-SIMS KW - Nanomaterials KW - Imaging PY - 2022 AN - OPUS4-55897 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Nietzke, Jonathan A1 - Sobol, Oded A1 - Konert, Florian A1 - Böllinghaus, Thomas A1 - Rhode, Michael T1 - Stainless Steels and Hydrogen Applications N2 - The contribution was presented at the Stainless Steel World Conference 2022. The presentation shows the influence of hydrogen on the mechanical properties of steel. Some test methods are shown and selected results are presented. T2 - Stainless Steel World Conference 2022 CY - Maastricht, Netherlands DA - 27.09.2022 KW - Gaseous hydrogen KW - Hydrogen Embrittlement KW - Hydrogen assisted cracking KW - SSRT PY - 2022 AN - OPUS4-55913 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Maiwald, Michael A1 - Askar, Enis A1 - Günzel, Stephan A1 - Holtappels, Kai A1 - Mair, Georg W. A1 - Orellana Pérez, Teresa A1 - Sobol, Oded A1 - Tiebe, Carlo T1 - Competence Centre H2Safety@BAM – Safeguarding the Quality Infrastructure in the Hydrogen Economy N2 - Hydrogen is a central component of the energy transition and the European Green Deal for a climate-neutral Europe. To achieve the goals defined for 2050, the EU and the German government have developed a framework for action and are making long-term investments in research, development, and the rapid implementation of innovative hydrogen technologies. With the Competence Centre "H2Safety@BAM", BAM is creating the safety-related prerequisites for the successful implementation of hydrogen technologies at national as well as European level. To this end, BAM conducts research, testing and consulting in a holistic and inter-disciplinary manner under one roof – in the Competence Centre H2Safety@BAM. The activities of the competence centre focus on ensuring the safety of infra-structures, plants, and processes as well as innovative hydrogen transport and storage systems based on digital quality testing and the experimental testing of components and systems. It thus creates the prerequisites for the implementation and adaptation of legal framework conditions as well as for standardization. Closely related to this are investigations into the properties and compatibility of metallic materials and polymers as well as friction systems for the safe operation of components, plants, processes, and systems. This interdisciplinary and holistic approach is complemented by the development of gas analytics and suitable sensors, online measurements of gas properties in process control, test scenarios under real conditions as well as impact assessments of accidents and risk assessments and risk management systems derived from them. With its portfolio of tasks and competences, BAM builds trust in the safety and reliability of technical system solutions for hydrogen. T2 - 772. WE-Heraeus-Seminar - Metrology and Process Safety for Hydrogen Technologies & Applications CY - Bad Honnef, Germany DA - 10.10.2022 KW - H2Safety@BAM KW - Hydrogen KW - Competence Center KW - Hydrogen Strategy KW - Green Deal KW - Safety KW - Risk Assessment KW - Quality Infrastructure PY - 2022 UR - https://www.we-heraeus-stiftung.de/veranstaltungen/metrology-and-process-safety-for-hydrogen-technologies-and-applications/ AN - OPUS4-55986 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Nietzke, Jonathan A1 - Rhode, Michael A1 - Richter, Tim T1 - Hydrogen diffusion and desorption characteristics of a CoCrFeMnNi high entropy and a CoCrNi medium entropy alloy N2 - Future structural components made of the novel high-entropy (HEA) or medium-entropy alloys (MEA) components can be potentially exposed to hydrogen containing environments like high-temperature water in pressurized nuclear reactors or aerospace structures. Further applications are vessels wall materials for cryogenic or high-pressure hydrogen storage. So far, the susceptibility of HEA/MEAs to hydrogen assisted cracking (if any) and the hydrogen diffusion is not investigated in detail yet and can limit or extend possible applications of HEA/MEA as structural materials. In our work, we focused on the hydrogen absorption, diffusion, and distribution in a HEA (Co20Cr20Fe20Mn20Ni20, the original Cantor-alloy) and a MEA (Co33.3Cr33.3Ni33.3). Conventional cathodic hydrogen charging was carried out for the hydrogen ingress in the materials. Thermal desorption analysis (TDA) via carrier gas hot extraction with coupled mass spectrometry revealed complex hydrogen trapping in both alloy types up to 300 °C. The absorbed total hydrogen concentrations were ≥ 70 ppm for the HEA and approximately 40 ppm for the MEA-type. Although both materials have different chemical composition, the TDA spectra were comparable. In addition, it was shown that the consideration of the sample geometry is an important influence on the sample temperature. It decreases the effective applied heating rate, which must be anticipated for each hydrogen peak after deconvolution of the spectra. This increases the activation energy and shifts the peak to lower temperatures. As a result, microstructure effects can be separated from experimental boundary conditions like the concentration gradient due to the charging process and later thermal activation. T2 - 4th International Conference on Metals and Hydrogen - Steely & Hydrogen 2022 CY - Ghent, Belgium DA - 11.10.2022 KW - High-entropy alloy KW - Diffusion KW - Hydrogen KW - Thermal desorption analysis KW - Trapping PY - 2022 AN - OPUS4-56007 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Nietzke, Jonathan A1 - Konert, Florian A1 - Rhode, Michael A1 - Mente, Tobias A1 - Kannengießer, Thomas T1 - Experimental and numerical characterization of hydrogen diffusion in thick-walled submerged arc welded joint of S420G2+M offshore steel grade N2 - Offshore wind turbines are an important goal in national energy strategies worldwide. Foundation structures are manufactured from submerged arc welded (SAW) plates with thicknesses up to 200 mm. In that connection, high-strength steels like the S420G2+M are more and more applied offering the possibility for increased stability and load-bearing capacity of the foundations. These offshore steel grades can show a susceptibility for delayed hydrogen assisted cold cracking of the weld joints. For that purpose, a minimum waiting time (MWT) of up to 48 h (dependent on applied standards) is recommended before non-destructive testing is allowed and conducted. But this concept is based on older steel grades that have been used for three or more decades. Nowadays, the metallurgical improvements (clean steels, proper rolling, and heat treatment) of base materials and well as welding consumables must be anticipated. Hence, the MWT concept should be critically discussed as it is assumed to be very conservative. For that reason, the focus of this study was to investigate the diffusion behavior in S420G2+M steel and its multi-layer SAW joint. Electrochemical permeation experiments were carried at room temperature. Boundary conditions were anticipated in terms of using different sample thicknesses. From the experimental data, hydrogen diffusion coefficients and absorbed diffusible hydrogen concentrations had been calculated. It was shown that hydrogen diffusion in the base material is increased compared to the weld metal. In addition, the sample thickness had a significant on the calculated diffusion coefficients. The minimum and maximum diffusion coefficients had been used for numerical modelling of the hydrogen diffusion in the welding joint. It became clear that a MWT must be always regarded together with a critical initial diffusible hydrogen concentration for the evaluation of a possible delayed cracking as diffusion times were mostly > 48 h due to the thick plates. T2 - 4th International Conference on Metals and Hydrogen - Steely & Hydrogen 2022 CY - Ghent, Belgium DA - 11.10.2022 KW - Hydrogen KW - Submerged arc welding KW - Minimum Waiting Time KW - Cold Cracking KW - Offshore steel grade PY - 2022 AN - OPUS4-56008 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Maiwald, Michael T1 - Metrologie für fortschrittliche Wasserstoffspeicherlösungen – Das EU-Projekt MefHySto T1 - Metrology for advanced hydrogen storage solutions – The EU project MefHySto N2 - Das europäische Projekt MefHySto befasst sich mit dem Bedarf an großmaßstäblichen Energiespeichern, die für eine Umstellung der Energieversorgung auf erneuerbare Energien erforderlich sind. Eine solche Speicherung ist entscheidend, um Energie zu Spitzenzeiten zu liefern, wenn die erneuerbaren Energiequellen schwanken. Eine mögliche Lösung für die Energiespeicherung ist der großtechnische Einsatz von Wasserstoff. Die messtechnische Rückführbarkeit in der Energieinfrastruktur für die Wasserstoffspeicherung ist dann von entscheidender Bedeutung und eine bessere Kenntnis der chemischen und physikalischen Eigenschaften von Wasserstoff sowie rückführbare Messungen und validierte Techniken unverzichtbar. N2 - The European project MefHySto addresses the need of large-scale energy storage, which is required for a shift to renewable energy supply. Such storage is mandatory to supply energy at peak times when renewable sources fluctuate. A possible solution for energy storage is large-scale use of hydrogen. Metrological traceability in the energy infrastructure for hydrogen storage is then crucial and a better knowledge of the chemical and physical properties of hydrogen as well as traceable measurements and validated techniques are indispensable. KW - Wasserstoff KW - Wasserstoffspeicher KW - Infrastruktur KW - Metrologie KW - PEM-Wasserelektrolyse KW - Rückverstromung KW - Lastwechsel KW - Wasserstoff-Qualität PY - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-556451 UR - https://gwf-gas.de/forschung-entwicklung/metrologie-fuer-fortschrittliche-wasserstoffspeicherloesungen-das-eu-projekt-mefhysto/ SN - 2366-9594 VL - 163 IS - 9 SP - 38 EP - 45 PB - Vulkan Verlag CY - Essen AN - OPUS4-55645 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Solberg, S. A1 - Zimmermann, P. A1 - Wilhelmsen, Ø. A1 - Lamb, J. A1 - Bock, Robert A1 - Burheim, O. T1 - Heat to Hydrogen by Reverse Electrodialysis—Using a Non-Equilibrium Thermodynamics Model to Evaluate Hydrogen Production Concepts Utilising Waste Heat N2 - The reverse electrodialysis heat engine (REDHE) is a promising salinity gradient energy technology, capable of producing hydrogen with an input of waste heat at temperatures below 100 °C. A salinity gradient drives water electrolysis in the reverse electrodialysis (RED) cell, and spent solutions are regenerated using waste heat in a precipitation or evaporation unit. This work presents a non-equilibrium thermodynamics model for the RED cell, and the hydrogen production is investigated for KCl/water solutions. The results show that the evaporation concept requires 40 times less waste heat and produces three times more hydrogen than the precipitation concept. With commercial evaporation technology, a system efficiency of 2% is obtained, with a hydrogen production rate of 0.38 gH2 m−2h−1 and a waste heat requirement of 1.7 kWh g−1H2. The water transference coefficient and the salt diffusion coefficient are identified as membrane properties with a large negative impact on hydrogen production and system efficiency. Each unit of the water transference coefficient in the range tw=[0–10] causes a −7 mV decrease in unit cell electric potential, and a −0.3% decrease in system efficiency. Increasing the membrane salt diffusion coefficient from 10−12 to 10−11 leads to the system efficiency decreasing from 2% to 0.6% KW - Non-equilibrium thermodynamics KW - Hydrogen KW - Waste heat KW - RED PY - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-556677 VL - 15 IS - 16 SP - 6011 PB - MDPI AN - OPUS4-55667 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. A1 - Bock, Robert A1 - Günzel, Stephan A1 - Gesell, Stephan T1 - Monte-Carlo-Analysis of Minimum Burst Requirements for Composite Cylinders for Hydrogen Service N2 - For achieving Net Zero-aims hydrogen is an indispensable component, probably the main component. For the usage of hydrogen, a wide acceptance is necessary, which requires trust in hydrogen based on absence of major incidents resulting from a high safety level. Burst tests stand for a type of testing that is used in every test standard and regulation as one of the key issues for ensuring safety in use. The central role of burst and proof test is grown to historical reasons for steam engines and steel vessels but - with respect for composite pressure vessels (CPVs) - not due an extraordinary depth of outcomes. Its importance results from the relatively simple test process with relatively low costs and gets its importance by running of the different test variations in parallel. In relevant test und production standards (as e. g. ECE R134) the burst test is used in at least 4 different meanings. There is the burst test on a) new CPVs and some others b) for determining the residual strength subsequent to various simulations of ageing effects. Both are performed during the approval process on a pre-series. Then there is c) the batch testing during the CPVs production and finally d) the 100% proof testing, which means to stop the burst test at a certain pressure level. These different aspects of burst tests are analysed and compared with respect to its importance for the resulting safety of the populations of CPVs in service based on experienced test results and Monte-Carlo simulations. As main criterial for this the expected failure rate in a probabilistic meaning is used. This finally ends up with recommendations for relevant RC&S especially with respect to GTR 13. T2 - 9th International Conference on Hydrogen Safety CY - Online meeting DA - 21.09.2021 KW - Hydrogen KW - Burst test KW - Composite pressure vessels KW - Net zero KW - Monte-Carlo-Analysis PY - 2021 SP - 133 EP - 146 PB - IGEM AN - OPUS4-55668 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Kardjilov, N. A1 - Hilger, A. A1 - Markötter, Henning A1 - Griesche, Axel A1 - Woracek, R. A1 - Heubner, F. A1 - Röntzsch, L. A1 - Grosse, M. A1 - Manke, I. A1 - Banhart, J. T1 - Quantification of hydrogen in metals applying neutron imaging techniques N2 - Hydrogen interaction with metals is well known to have severe detrimental effects on their mechanical properties. The use of modern high-strength steels, which are attractive to improve fuel economy by reducing weight as well as candidates for H storage cylinders and other components, is currently being severely limited by the fact that the presence of H can cause embrittlement of the material. In addition to steel, several other metals and alloys used in the nuclear industry, like Ti and Zr, are susceptible to H degradation through hydride formation and subsequent cracking. Microstructure-specific H mapping has been recognized as the most important challenge on the pathway towards a better understanding of the nature of H embrittlement in metallic alloys as well as the development of H storage solutions based on metal hydrides. Unfortunately, the characterization of H interactions with metals is an extremely challenging task and neutron-based techniques are of exceptional importance in this matter because – contrary to X-rays and electrons – thermal and cold neutrons interact strongly with the H nuclei, while the neutron beam is only weakly attenuated by the relevant metallic materials. Therefore, hydrogen distributions can be measured and quantified even in 3D by tomographic methods. Here we present several neutron imaging investigations of embrittlement and cracking in Fe and Zr based metal alloys and optimization studies of hydrogen storage systems containing metal hydrides as an active substance. The advantages and the limitations of the experimental methods as well as the attempts for hydrogen quantification will be discussed in detail. T2 - M&M 2022 Annual Meeting (Microscopy & Microanalysis) CY - Portland, Oregon, USA DA - 31.07.2022 KW - Neutron imaging techniques KW - Hydrogen in metals PY - 2022 U6 - https://doi.org/10.1017/S1431927622006638 AN - OPUS4-55716 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Kluge, Martin A1 - Habib, Abdel Karim A1 - van Wingerden, K. T1 - Consequences of exposing cryogenic storage vessels containing liquid hydrogen to a fire load N2 - Experiments have been performed to determine whether a storage vessel containing LH2 and caught in a fire engulfing the vessel can result in a BLEVE (Boiling Liquid Expanding Vapour Explosion) and if so its effects. The tests were performed at the Test Site Technical Safety of the Bundesanstalt für Materialforschung und –prüfung (BAM) in Horstwalde, Germany. Three tests were performed using double-walled vacuum insulated vessels of 1 m3 volume. The cylindrical Vessels differed in orientation (horizontal or vertical) and the insulation material used (perlite or multi-layer insulation (MLI)). The degree of filling of the vessels was approximately 35-40 % in each of the tests performed. The fire load was provided by a propane fed burner positioned under the storage vessel and designed to give a homogeneous fire load. The conditions in the vessel (temperatures and pressure) as well as external effects (heat radiation, blast waves, flame ball development and fragmentation) were measured. All vessels were equipped with K-type thermocouples at several locations: inside the inner vessel in the gas phase and the liquid phase, on the inner and outer side of the inner vessel and on the inner and outer side of the outer vessel. The pressure inside the inner vessel (both in liquid, as a level indicator, and gaseous phase), and in the space between the inner and outer vessels (vacuum pressure) was measured. Bolometers were used to measure the heat radiation generated by both the propane fire and that generated by a possible fireball/BLEVE. To measure blast generated by the vessel burst/BLEVEs blast pencils were positioned at three locations in two directions. Weather conditions were monitored at two weather stations. Further several cameras were used to monitor the events: normal cameras, infrared (IR)-cameras, high-speed cameras also on board of a drone. Two of these vessels, a horizontal and a vertical vessel both insulated with perlite withstood the fire loading for 1 hour 20 minutes and 4 hours respectively without catastrophic failure. A horizontal vessel insulated with MLI failed by bursting after 1 hour and 6 minutes resulting in a fireball, fragments, and blast waves. T2 - 14th International Symposium on Hazards, Prevention, and Mitigation of Industrial Explosions (ISHPMIE) CY - Braunschweig, Germany DA - 11.07.2022 KW - Liquid Hydrogen KW - LH2 KW - BLEVE KW - Cryogenic Tank PY - 2022 AN - OPUS4-55355 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Habib, Abdel Karim A1 - Kluge, Martin A1 - van Wingerden, K. T1 - Experimental investigation of the consequences of release of liquified hydrogen onto and under water N2 - Large-scale experiments have been performed to investigate the possible consequences of realistic amounts of liquified hydrogen (LH2) encountering water. The tests were performed at the Test Site Technical Safety of the Bundesanstalt für Materialforschung und –prüfung (BAM) in Horstwalde, Germany. The experiments aimed at investigating that upon contact with water, the evaporation rate of LH2 can be that high that physical explosions or even rapid phase transitions (RPTs), could occur. RPTs can generate air and underwater blast pressures which could damage adjacent plant or structures (which has been demonstrated when releasing LNG). The tests were performed in a 10 m x 10 x 1.5 m basin filled with water. LH2 releases with mass flows ranging from approximately 0.25 kg/s to approximately 0.8 kg/s were established releasing directly from a trailer carrying LH2. The LH2 was released through a 46 m long flexible double vacuum insulated transfer line (inner diameter 39 mm). The releases occurred from a height of 50 cm above the water surface pointing downwards, 30 cm under the water surface pointing downwards and 30 cm under the water surface pointing along the water surface. The release system allowed for an initial phase to release flashed LH2 into the air before redirecting the flow towards the water surface for liquid release. A thermocouple inserted near the nozzle is used to indicate the presence of LH2 at the nozzle. The nozzle could be moved up and downwards relative to the water surface and also moved into the water. The release system was purged with helium before starting a release. A mouthpiece at the end of the release line as well as a manually operated valve at the trailer were used to vary the release rate. The temperature of the water and the air was measured at multiple locations. The temperature of the air was also measured at H2 concentration probe locations. In addition, the temperature in the filling line was measured (1 at the outlet and 1 further down into the filling line). The pressure in the filling line was also measured at 3 locations, one located directly at the outlet. The release rate was determined based on the weight loss rate of the road tanker. To this end the trailer was placed onto load cells. Special blast pressure sensors were used to measure the shock waves generated by the rapid evaporation or other phenomena both in the water and in the air. At several locations the gas concentration development in time was measured. Heat radiation was measured at 3 distances from the point of release. High speed, Infra-Red (IR) cameras and normal cameras were used to record events and to follow the gas cloud behaviour in time. This includes cameras mounted on a drone and an underwater camera. Two weather stations were used to measure wind speed, wind direction, temperature and humidity during all tests performed. All investigated release configurations resulted in a very chaotic LH2-water mixing zone, causing considerable evaporation and resulting in minor over pressures. The main phenomenon observed was an ignition of the released gas cloud, resulting in significant blast wave overpressures and heat radiation to the surroundings. The ignition occurred in all under-water releases and in about 90 % of the releases above the water surface. The location of the ignition occurred in free air at some distance from the instrumentation and release location. T2 - 14th International Symposium on Hazards, Prevention, and Mitigation of Industrial Explosions (ISHPMIE) CY - Braunschweig, Germany DA - 11.07.2022 KW - Liquid Hydrogen KW - LH2 KW - RPT KW - Rapid Phase Transition KW - Release PY - 2022 AN - OPUS4-55356 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Richter, Tim A1 - Rhode, Michael A1 - Nietzke, Jonathan A1 - Mente, Tobias A1 - Mayr, P. A1 - Nitsche, A. T1 - Hydrogen embrittlement and mechanical properties of 9 % Cr P92 steel and P91 weld metal N2 - Martensitic 9 %-Cr steels like P91 and P92 can show an increased susceptibility to delayed hydrogen assisted cracking. The focus of this study was the microstructure and heat treatment effect on the mechanical properties of P92 base material and P91 multi-layer weld metal in both as-welded and post weld heat treated (PWHT) condition. Tensile tests with hydrogen free reference samples and electrochemically hydrogen charged samples were carried out, the mechanical properties were assessed and supported by dedicated fractographic analysis. In addition, hydrogen and microstructure dependent fracture criteria were calculated. All investigated microstructures showed a hydrogen influenced degradation of the mechanical properties compared to the hydrogen free reference samples. In that connection, the as welded martensitic P91 weld metal had the highest degree of degradation in presence of hydrogen. The P91 PWHT weld metal and the P92 base material had comparable properties. From that point of view, a significantly increased risk for hydrogen assisted cold cracking during welding fabrication of P91 weld joints must be considered before any heat treatment is conducted. T2 - IIW Annual Assembly, Meeting of Commission IX-C CY - Tokyo, Japan DA - 21.07.2022 KW - Creep-resistant steel KW - Mechanical properties KW - Hydrogen assisted cracking KW - Weld joint KW - Degradation PY - 2022 AN - OPUS4-55462 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Holtappels, Kai T1 - Overview of Hydrogen Safety and remaining challenges N2 - Die Konrad-Adenauer-Stiftung und die Delegation der Deutschen Wirtschaft in Nigeria führt eine "Nigeria Hydrogen Future Webinar Series" durch. Die vierte Veranstaltung wurde unter dem Titel "Safe and Sustainable Hydrogen Production in Nigeria" durchgeführt. Die BAM bzw. das Kompetenzzentrum H2Safety@BAM wurde eingeladen, einen Übersichtsvortrag zur Wasserstoffsicherheit und zukünftigen Herausforderungen mit Blick auf sicherheitstechnische Fragestellungen zu halten. Der Vortrag bildete neben zwei weiteren Vorträgen der Kern des Webinbars. N2 - The Konrad Adenauer Foundation and the Delegation of German Business in Nigeria is conducting a "Nigeria Hydrogen Future Webinar Series". The fourth event was held under the title "Safe and Sustainable Hydrogen Production in Nigeria". BAM respectively the Competence Centre H2Safety@BAM was invited to present an overview lecture on hydrogen safety and future challenges with regard to safety-related issues. The lecture formed the core of the webinbar along with two other presentations. T2 - 4th Nigeria Hydrogen Future Webinar Series CY - Online meeting DA - 27.07.2022 KW - H2Safety@BAM KW - Safety challenges KW - Hydrogen safety PY - 2022 AN - OPUS4-55393 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Nattuveettil, Keerthana A1 - Brunner, Nanine A1 - Tiebe, Carlo A1 - Melzer, Michael A1 - Johann, Sergej A1 - Neumann, Patrick P. A1 - Bartholmai, Matthias T1 - Einsatz von Sensortechnologien an einer Wasserstofftankstelle als Beitrag zur digitalen Qualitätsinfrastruktur T1 - Use of sensor technologies at hydrogen test platform as a part of QI Digital N2 - Die Optimierung und Validierung des digitalen Wasserstofftankstellenmanagements mit Sensortechnologien ist das übergeordnete Ziel des Teilprojekts Digitale Qualitätsinfrastruktur mit Sensortechnologien (QIST) am Use Case H2, im Rahmen der digitalen Qualitätsinfrastruktur (QI digital[1]). Hierfür sollen u.a. Sensornetzwerke mit digital-gestützten Auswertungsstrategien intelligent gestaltet werden (Stichwort KI bzw. digitaler Zwilling). Verschiedene, sich ergänzende Sensoren, Systemkomponenten und KI-Methoden stehen als Bausteine intelligenter Sensorsysteme zur Verfügung, mit dem Zweck, die physikalischen und chemischen Parameter an und in Anlagen umfassend und effizient zu überwachen sowie Fehlfunktionen zuverlässig zu detektieren und zu interpretieren, Abbildung 1. Konkrete Arbeitsschritte sind, nach dem Aufbau der Versuchsplattform „Wasserstofftankstelle“, die Instrumentierung von Sensorik und deren digitale Integration in das Tankstellenmanagementsystem sowie die Validierung im Realbetrieb. Die somit erzielten Messergebisse sowie die Messunsicherheiten, Historien und Verfahren werden in digitaler Form aufbereitet, gespeichert und fortlaufend in die KI-basierte Datenauswertung einbezogen, inkl. der Anbindung an die metrologische Rückführungskette. Ziele sind: • Einführung eines neuen messtechnischen Ansatzes und eines digitalen Zwillings für den Anwendungsfall "Wasserstofftankstelle" auf Basis der H2-Sensorik sowie der Zustandsgrößen Druck und Temperatur • Qualitätssicherung durch Applikationen zuverlässiger Gassensorik, Manometer und Thermometer sowie KI-Methoden zur Prozesskontrolle und Detektion von Fehlfunktionen • Nutzung von digitalen Kalibrierscheinen (DCCs) insbesondere für die Messgröße Temperatur zur Realisierung der metrologischen Rückführung in einer digitalen Qualitätsinfrastruktur T2 - Sensorik für die Digitalisierung chemischer Produktionsanlagen CY - Frankfurt a. M., Germany DA - 13.06.2022 KW - QI Digital KW - H2Safety@BAM KW - Wasserstoff KW - Hydrogen KW - Sensorik KW - Digitalisierung KW - Digitalisation PY - 2022 AN - OPUS4-55399 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - van Wingerden, K. A1 - Kluge, Martin A1 - Habib, Abdel Karim A1 - Ustolin, F. A1 - Paltrinieri, N. T1 - Medium scale tests to investigate the possibility and effects of BLEVEs of storage vessels containing liquified hydrogen N2 - Experiments have been performed to determine the consequences of a storage vessel containing liquified hydrogen (LH2) is engulfed by a fire. The tests were performed at the Test Site Technical Safety of the Bundesanstalt für Materialforschung und –prüfung (BAM) in Germany within a research cooperation between BAM and Gexcon as part of the SH2IFT program. Three tests were performed using double-walled vacuum insulated vessels of 1 m3 volume varying the orientation of the vessel and the effect of the insulation material used (perlite or multi-layer insulation (MLI)). The degree of filling of the vessel was approximately 35 % in each of the tests performed. The fire load was provided by a propane fed burner positioned under the storage vessel and designed to give a homogeneous fire load. In one of the tests a rupture of the storage vessel occurred causing a blast, a fireball and fragments. Apart from measuring these consequences, the conditions in the vessel (e.g. temperatures and pressure) during the heating process were monitored in all three tests. The work described was undertaken as part of the project Safe Hydrogen fuel handling and Use for Efficient Implementation (SH2IFT). T2 - 17th EFCE International Symposium on Loss Prevention and Safety Promotion in Process Industries CY - Prague, Czech Republic DA - 05.06.2022 KW - Liquid hydrogen KW - LH2 KW - BLEVE KW - Cryogenic tank PY - 2022 AN - OPUS4-55321 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - van Wingerden, K. A1 - Kluge, Martin A1 - Habib, Abdel Karim A1 - Skarvag, H. L. A1 - Ustolin, F. A1 - Paltrinieri, N. A1 - Odsaeter, L. H. T1 - Experimental investigation into the consequences of release of liquified hydrogen onto and under water N2 - Large-scale experiments have been performed to investigate the possible consequences of realistic amounts of liquified hydrogen (LH2) encountering water. The experiments aimed at simulating an accidental release of LH2 onto water, for instance during the fuelling of a ship. For liquified natural gas (LNG), it has been demonstrated that physical explosions may occur when it is spilled onto water. These phenomena are referred as rapid phase transitions (RPTs). It cannot be excluded that RPTs are also possible in the case of LH2. The tests were performed at the Test Site Technical Safety of the Bundesanstalt für Materialforschung und –prüfung (BAM) in Horstwalde, Germany. The tests were performed in a 10 m x 10 x 1.5 m basin filled with water. LH2 releases of up to about 1 kg/s were established releasing directly from a trailer carrying LH2. The releases occurred from a height of 50 cm above the water surface pointing downwards, 30 cm under the water surface pointing downwards and 30 cm under the water surface pointed along the water surface. All release configurations resulted in a very chaotic LH2-water mixing zone, causing considerable evaporation and resulting in minor over pressures. No RPTs were observed. The main phenomenon to be observed is, however, an ignition of the released gas cloud resulting in significant blast wave overpressures and heat radiation to the surroundings. The ignition occurred in all under-water releases and in about 90 % of the releases above the water surface. T2 - 17th EFCE International Symposium on Loss Prevention and Safety Promotion in Process Industries CY - Prague, Czech Republic DA - 05.06.2022 KW - Liquid Hydrogen KW - LH2 KW - RPT KW - Rapid phase transition KW - Release PY - 2022 AN - OPUS4-55322 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - van Wingerden, K. A1 - Kluge, Martin A1 - Habib, Abdel Karim A1 - Ustolin, F. A1 - Paltrinieri, N. ED - Pierucci, S. ED - Klemes, J. J. T1 - Medium-scale tests to investigate the possibility and effects of BLEVEs of storage vessels containing liquified hydrogen N2 - Experiments have been performed to determine the consequences of a storage vessel containing liquified hydrogen (LH2) is engulfed by a fire. The tests were performed at the Test Site Technical Safety of the Bundesanstalt für Materialforschung und –prüfung (BAM) in Germany within a research cooperation between BAM and Gexcon as part of the SH2IFT program. Three tests were performed using double-walled vacuum insulated vessels of 1 m3 volume varying the orientation of the vessel and the effect of the insulation material used (perlite or multi-layer insulation (MLI)). The degree of filling of the vessel was approximately 35 % in each of the tests performed. The fire load was provided by a propane fed burner positioned under the storage vessel and designed to give a homogeneous fire load. In one of the tests a rupture of the storage vessel occurred causing a blast, a fireball and fragments. Apart from measuring these consequences, the conditions in the vessel (e.g. temperatures and pressure) during the heating process were monitored in all three tests. The work described was undertaken as part of the project Safe Hydrogen fuel handling and Use for Efficient Implementation (SH2IFT). T2 - 17th EFCE International Symposium on Loss Prevention and Safety Promotion in Process Industries CY - Prague, Czech Republic DA - 05.06.2022 KW - Liquid hydrogen KW - LH2 KW - BLEVE KW - Cryogenic tank PY - 2022 U6 - https://doi.org/10.3303/CET2290092 SN - 2283-9216 VL - 90 SP - 547 EP - 552 PB - AIDIC CY - Milano AN - OPUS4-55323 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - van Wingerden, K. A1 - Kluge, Martin A1 - Habib, Abdel Karim A1 - Skarsvag, H. L. A1 - Ustolin, F. A1 - Paltrinieri, N. A1 - Odsaeter, L. H. ED - Pierucci, S. ED - Klemes, J. J. T1 - Experimental Investigation into the Consequences of Release of Liquified Hydrogen onto and under Water N2 - Large-scale experiments have been performed to investigate the possible consequences of realistic amounts of liquified hydrogen (LH2) encountering water. The experiments aimed at simulating an accidental release of LH2 onto water, for instance during the fuelling of a ship. For liquified natural gas (LNG), it has been demonstrated that physical explosions may occur when it is spilled onto water. These phenomena are referred as rapid phase transitions (RPTs). It cannot be excluded that RPTs are also possible in the case of LH2. The tests were performed at the Test Site Technical Safety of the Bundesanstalt für Materialforschung und –prüfung (BAM) in Horstwalde, Germany. The tests were performed in a 10 m x 10 x 1.5 m basin filled with water. LH2 releases of up to about 1 kg/s were established releasing directly from a trailer carrying LH2. The releases occurred from a height of 50 cm above the water surface pointing downwards, 30 cm under the water surface pointing downwards and 30 cm under the water surface pointed along the water surface. All release configurations resulted in a very chaotic LH2-water mixing zone, causing considerable evaporation and resulting in minor over pressures. No RPTs were observed. The main phenomenon to be observed is, however, an ignition of the released gas cloud resulting in significant blast wave overpressures and heat radiation to the surroundings. The ignition occurred in all under-water releases and in about 90 % of the releases above the water surface. T2 - 17th EFCE International Symposium on Loss Prevention and Safety Promotion in Process Industries CY - Prague, Czech Rebpublic DA - 05.06.2022 KW - Liquid Hydrogen KW - LH2 KW - Release KW - RPT KW - Rapid Phase Transition PY - 2022 U6 - https://doi.org/10.3303/CET2290091 SN - 2283-9216 VL - 90 SP - 541 EP - 546 PB - AIDIC CY - Milano AN - OPUS4-55324 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Rautenberg, Max A1 - Bhattacharya, Biswajit A1 - Witt, Julia A1 - Jain, Mohit A1 - Emmerling, Franziska T1 - In situ time-resolved monitoring of mixed-ligand metal–organic framework mechanosynthesis N2 - The mechanism of mixed-ligand metal–organic framework (MOF) formation, and the possible role of intermediate single-ligand metal complexes during mechanosynthesis, have not been explored yet. For the first time, we report here in situ real-time monitoring of the mechanochemical formation mechanism of mixed-ligand MOFs. Our results show that binary phases can act as intermediates or competing products in one-pot and stepwise synthesis. KW - Mechanochemistry KW - Metal-organic-frameworks KW - In situ X-ray diffraction KW - Mixed-ligand MOFs PY - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-558167 SP - 1 EP - 4 PB - Royal Society of Chemistry AN - OPUS4-55816 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Sobol, Oded A1 - Nietzke, Jonathan A1 - Konert, Florian A1 - Rhode, Michael A1 - Mente, Tobias A1 - Askar, Enis T1 - Challenges with metallic materials in hydrogen technologies N2 - The contribution was presented in the Joint European Summer School in Athens as part of several contributions from BAM in the field of hydrogen safety. These presentations are given in order to provide an overview about the activities of BAM as part of the competence center H2Safety@BAM T2 - JOINT EUROPEAN SUMMER SCHOOL (JESS) CY - Athens, Greece DA - 12.09.2022 KW - Gaseous hydrogen KW - Hydrogen Embrittlement KW - Hydrogen assisted cracking PY - 2022 AN - OPUS4-55822 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Schweißen im Wasserstoffanlagen- und Behälterbau - Eine Kurzübersicht N2 - Wasserstoff erfüllt die zentrale Rolle für die Umwandlung der bisherigen fossil-basierten Energieerzeugung und -nutzung auf eine dekarbonisierte, nachhaltige Form. Dazu muss der Wasserstoff erzeugt, gespeichert, transportiert werden, bevor er wieder der Nutzung zugeführt wird. Hierzu sind entlang der gesamtem Prozesskette Wasserstofftechnologien notwendig, die einen sicheren Betrieb erfordern. Hierbei kommt dem schweißtechnischen Anlagen- und Behälterbau wesentliche Bedeutung zu, insbesondere (aber nicht ausschließlich) für Speicherung und Transport des Wasserstoffes. Der vorliegende Beitrag gibt einen kurzen Überblick, wo und wie die konventionelle Schweißtechnik hierzu wichtige Beiträge leistet. Die additive Fertigung, also das „Drucken“ von Bauteilen wird dabei zunehmend wichtiger, entlang der gesamtem Prozesskette der Wasserstofftechnologien. Gleichwohl darf nicht unterschätzt werden, dass auch wesentlicher Bedarf an der Erweiterung und teilweiser Neufassung von bestehenden Regel- und Normenwerken besteht. T2 - 51. Sondertagung "Schweißen im Behälter- und Anlagenbau" CY - Munich, Germany DA - 01.03.2023 KW - Wasserstoff KW - Anlagenbau KW - Schweißen KW - Studie KW - Pipeline PY - 2023 SN - 978-3-96144-219-5 VL - 387 SP - 83 EP - 88 PB - DVS Media GmbH CY - Düsseldorf AN - OPUS4-57075 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Schweißen im Wasserstoffanlagen- und Behälterbau - Eine Kurzübersicht N2 - Wasserstoff erfüllt die zentrale Rolle für die Umwandlung der bisherigen fossil-basierten Energieerzeugung und -nutzung auf eine dekarbonisierte, nachhaltige Form. Dazu muss der Wasserstoff erzeugt, gespeichert, transportiert werden, bevor er wieder der Nutzung zugeführt wird. Hierzu sind entlang der gesamtem Prozesskette Wasserstofftechnologien notwendig, die einen sicheren Betrieb erfordern. Hierbei kommt dem schweißtechnischen Anlagen- und Behälterbau wesentliche Bedeutung zu, insbesondere (aber nicht ausschließlich) für Speicherung und Transport des Wasserstoffes. Der vorliegende Beitrag gibt einen kurzen Überblick, wo und wie die konventionelle Schweißtechnik hierzu wichtige Beiträge leistet. Die additive Fertigung, also das „Drucken“ von Bauteilen wird dabei zunehmend wichtiger, entlang der gesamtem Prozesskette der Wasserstofftechnologien. Gleichwohl darf nicht unterschätzt werden, dass auch wesentlicher Bedarf an der Erweiterung und teilweiser Neufassung von bestehenden Regel- und Normenwerken besteht. T2 - 51. Sondertagung "Schweißen im Behälter- und Anlagenbau" CY - Munich, Germany DA - 28.02.2023 KW - Wasserstoff KW - Fügetechnik KW - Schweißen KW - Studie PY - 2023 AN - OPUS4-57076 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Czeskleba, Denis A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Kurzvorstellung des Projektes "H2SuD / Wasserstoff und Schweißen Einfluss des Schweißens auf die Wasserstoffaufnahme und Degradation im Betrieb befindlicher H2 Gasleitungen" N2 - Die Wasserstoffinfrastruktur ist eine zentraler Bestandteil der erfolgreichen Umsetzung der wasserstoffbasierten Energiewende. Dabei bilden Ferngasleitungen quasi das "Rückgrat" der Transportinfrastruktur großer Gasmengen. Dabei müssen unter Umständen Reparaturen an den Pipelines durchgeführt werden. Dabei ist in der Erdgasinfrastruktur das Schweißen an in Betrieb befindlichen (d.h. von Gas durchflossenen) Pipelines Stand der Technik. Es ist jedoch vollkommen offen, inwieweit diese Technik auf die reine Wasserstoffpipelines übertragbar sind. Hierzu leistet das Projekt H2SuD wichtige Beiträge zur Aufklärung des Einfluss eines Reparaturschweißprozesses auf die Wasserstoffaufnahme und Degradation im Betrieb befindlicher H2 Gasleitungen. T2 - Sitzung des FA1 "Schweißmetallurgie" der Forschungsvereinigung Schweißen und verwandte Verfahren des DVS e.V. CY - Aachen, Germany DA - 22.02.2023 KW - Wasserstoff KW - Pipeline KW - Reparatur KW - Schweißen KW - Ferngasleitung PY - 2023 AN - OPUS4-57087 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Kromm, Arne A1 - Rhode, Michael A1 - Nietzke, Jonathan A1 - Konert, Florian A1 - Sobol, Oded T1 - Die Hohlzugprobentechnik - Eine neue Methodik zur Untersuchung der Materialverträglichkeit unter Wasserstoffeinfluss N2 - Die schädigende Wirkung von Wasserstoff auf die mechanischen Eigenschaften von Stählen ist zwar bekannt, aber noch immer nicht ausreichend erforscht. Die schnelle und sichere Markteinführung von Wasserstofftechnologien macht es erforderlich, dieses Thema genauer zu untersuchen. Im Allgemeinen wird dies oft als Wasserstoffversprödung bezeichnet. Daher ist es wünschenswert, eine Prüfmethode zu entwickeln, die auf einfache Weise die Materialeigenschaften unter Wasserstoffatmosphäre ermitteln kann. Derzeit werden mechanische Prüfungen unter Wasserstoffatmosphäre in Autoklaven durchgeführt. Für diese Technik ist eine aufwendige Hardware erforderlich, daher sind die Prüfungen teuer und die Prüfkapazitäten nur in geringem Umfang verfügbar. Die hier vorgestellte Prüfmethode verspricht einen zukunftsweisenden Ansatz zur Reduzierung von Kosten und Bearbeitungszeiten durch die Verwendung von Hohlkörpern, d.h. die Probe selbst stellt den Autoklav dar. T2 - Sitzung des DIN-Gemeinschaftsarbeitsausschusses NA 092 00 05 GA, NAS/NMP: Zerstörende Prüfung von Schweißverbindungen CY - Berlin, Germany DA - 15.03.2023 KW - Prüfung KW - Wasserstoff KW - Probengeometrie KW - Hochdruck PY - 2023 AN - OPUS4-57168 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Kromm, Arne A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Kurzvorstellung des Projektes H2SuD / Wasserstoff und Schweißen Einfluss des Schweißens auf die Wasserstoffaufnahme und Degradation im Betrieb befindlicher H2 Gasleitungen N2 - Die Wasserstoffinfrastruktur ist eine zentraler Bestandteil der erfolgreichen Umsetzung der wasserstoffbasierten Energiewende. Dabei bilden Ferngasleitungen quasi das "Rückgrat" der Transportinfrastruktur großer Gasmengen. Dabei müssen unter Umständen Reparaturen an den Pipelines durchgeführt werden. Dabei ist in der Erdgasinfrastruktur das Schweißen an in Betrieb befindlichen (d.h. von Gas durchflossenen) Pipelines Stand der Technik. Es ist jedoch vollkommen offen, inwieweit diese Technik auf die reine Wasserstoffpipelines übertragbar sind. Hierzu leistet das Projekt H2SuD wichtige Beiträge zur Aufklärung des Einfluss eines Reparaturschweißprozesses auf die Wasserstoffaufnahme und Degradation im Betrieb befindlicher H2 Gasleitungen. T2 - Sitzung des DIN-Gemeinschaftsarbeitsausschusses NA 092 00 05 GA, NAS/NMP: Zerstörende Prüfung von Schweißverbindungen CY - Berlin, Germany DA - 15.03.2023 KW - Wasserstoff KW - Pipeline KW - Reparatur KW - Schweißen PY - 2023 AN - OPUS4-57169 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Konert, Florian A1 - Nietzke, Jonathan A1 - Sobol, Oded T1 - Die Hohlzugprobentechnik als Methodik zur Untersuchung der Materialverträglichkeit N2 - Die Hohlzugprobentechnik wird als Methodik zur Untersuchung der Materialverträglichkeit von metallischen Werkstoffen in Wasserstoffatmosphäre erläutert. T2 - Workshop Wasserstoffverträglichkeit CY - Bonn, Germany DA - 2.3.2023 KW - Wasserstoff KW - Hohlzugprobe KW - Materialkompatibilität KW - SSRT PY - 2023 AN - OPUS4-57171 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Askar, Enis A1 - Günzel, Stephan A1 - Holtappels, Kai A1 - Mair, Georg W. A1 - Maiwald, Michael A1 - Orellana Pérez, Teresa A1 - Sobol, Oded A1 - Tiebe, Carlo T1 - Challenges for hydrogen technologies - Activities of H2Safety@BAM N2 - In this presentation the drivers for the rise of hydrogen technologies are outlined and main challenges for the market ramp-up are shown. Finally, the activities and capabilities of the competence center H2Safety@BAM are characterized and some of the current projects at BAM adressing the main challenges for hydrogen technologies are presented focussing on the hydrogen transport and infrastructure. T2 - Wasserstoff-Dialog - Stakeholder-Konferenz des Wasserstoff-Kompass CY - Berlin, Germany DA - 10.10.2022 KW - Hydrogen strategy KW - ModuH2Pipe KW - Hydrogen transport KW - Hydrogen infrastructure KW - Liquid hydrogen (LH2) PY - 2022 AN - OPUS4-57065 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Askar, Enis T1 - Hydrogen safety - Explosion protection for hydrogen applications N2 - In this lecture the safety related properties of hydrogen and hydrogen mixtures and explosion protection measures are shown and compared with other fuel gases. Measures for primary explosion protection (avoiding flammable mixtures), secondary explosion protection (avoiding ignition sources) and constructive explosion protection (mitigating the consequences of explosions) when handling hydrogen and hydrogen mixtures are presented. The Joint European Summer School JESS 2022 addresses these issues by offering high quality graduate level courses on selected topics of vehicle technology, innovation & business development, safe handling of hydrogen, and modelling. The course content is tailored to the needs of a diverse audience: newcomers to the field, experienced students, and young professionals working at the forefront of fuel cell and hydrogen applications. T2 - Joint European Summer School (JESS) on Fuel Cell, Electrolyser and Battery Technologies CY - Athens, Greece DA - 11.09.2022 KW - Ignition source KW - ATEX KW - Explosion limits KW - Hazardous areas KW - Hydrogen accidents KW - Detonation PY - 2022 AN - OPUS4-57066 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Askar, Enis A1 - Günzel, Stephan A1 - Holtappels, Kai A1 - Kluge, Martin A1 - Mair, Georg W. A1 - Maiwald, Michael A1 - Orellana Pérez, Teresa A1 - Sobol, Oded A1 - Tiebe, Carlo A1 - Woitzek, Andreas T1 - H2Safety@BAM - Overview of hydrogen research activities N2 - In this presentation the capabilities and different research activities at BAM in the field of hydrogen safety are outlined. A deep dive focussing the transport of hydrogen in pipelines adressing issues on material compatibility, gas quality and test methods is presented. Another deep dive is presented focussing on safety aspects of liquid hydrogen adressing issues of rapid phase transition (RPT) and Boiling liquid expanding vapour explosion (BLEVE). Finally a brief overview on other safety related research activities is given. T2 - Research priorities workshop of IA HySafe 2022 CY - Quebec, Canada DA - 21.11.2022 KW - Hydrogen safety KW - Hydrogen transport in pipelines KW - Liquid hydrogen (LH2) KW - Hydrogen quality KW - Explosion protection PY - 2022 AN - OPUS4-57067 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Holtappels, Kai T1 - Competence Centre H2Safety@BAM N2 - Deutschland hat mit verschiedenen Ländern Energiepartnerschaften geschlossen, darunter auch mit Japan. Im Rahmen des 3. Treffens der Wasserstoff-Arbeitsgruppe wurde das strategische Vorgehen beider Länder zu Entwicklungen von Wasserstoffrichtlinien, Zertifizierung und Sicherheit vorgestellt und diskutiert. Die BAM hat in einem Vortrag wichtige Themen aus dem Bereich der Sicherheitsforschung sowie zu sicherheitstechnischen Fragestellungen über die Wertschöpfungskette vorgestellt. Außerdem wurde das Arbeitsprogramm und ausgewählte Projekte des Kompetenzzentrums H2Safety@BAM vorgestellt. N2 - Germany has concluded energy partnerships with various countries, including Japan. During the 3rd meeting of the Hydrogen Working Group, the strategic approach of both countries on developments of hydrogen guidelines, certification and safety was presented and discussed. BAM gave a presentation on important topics in the field of safety research and on safety-related issues along the value chain. Furthermore, the work program and selected projects of the competence center H2Safety@BAM were presented. T2 - 3rd Meeting of the Hydrogen Working Group - Japanese-German Energy Partnership CY - Berlin, Germany DA - 27.02.2023 KW - Hydrogen KW - Japanese-German energy partnership KW - Safety KW - H2Safety@BAM PY - 2023 AN - OPUS4-57126 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Giese, Marcel A1 - Czeskleba, Denis A1 - Nietzke, Jonathan A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Investigation of the influence of PWHT heating rate and global stress conditions on the stress relief cracking mechanism of CrMoV steel SAW joints N2 - This presentation summarizes the latest research results of the influence of the post weld heat treatment (PWHT) rate and the global mechanical stress conditions on the stress relief cracking (SRC) susceptibility of low-alloyed and creep-resistant CrMoV steel submerged arc weld joints. It was found that a certain effect of very low heating rates could be confirmed. In addition, the interlinking of SRC susceptibility increasing effects during the PWHT and the ex-post indentification in metallographic cross-section via microstructure characterization is very complex. T2 - IIW Intermediate meeting of Commission II-A CY - Garching, Germany DA - 06.03.2023 KW - Creep-resistant steel KW - Submerged arc welding KW - Stress relief cracking KW - Heating rate KW - Microstructure characterization PY - 2023 AN - OPUS4-57116 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Holtappels, Kai T1 - Hydrogen - Safety of Energy Carriers N2 - Eine sichere Versorgung mit Energie stellt für moderne Industriegesellschaften eine elementare Grundvoraussetzung dar. Inwieweit in Deutschland die Energiewende im Sinne von zum Beispiel Energiepolitik, Förderung aber auch gesellschaftlicher Entwicklung gestaltet wird, wurde im Rahmen der 12. Wildauer Wissenschaftswoche diskutiert. Die BAM hat einen Beitrag zum Thema Sicherheit von Energieträgern beigetragen und das Kompetenzzentrum H2Safety@BAM vorgestellt. N2 - A safe supply of energy is a fundamental prerequisite for modern industrial societies. The extent to which the energy turnaround is being shaped in Germany in terms of, for example, energy policy, promotion, but also social development was discussed during the 12th Wildau Science Week. BAM contributed to the topic of safety of energy sources and presented the competence center H2Safety@BAM. T2 - 12. Wildauer Wissenschaftswoche CY - Wildau, Germany DA - 27.02.2023 KW - Hydrogen KW - Safety KW - H2Safety@BAM PY - 2023 AN - OPUS4-57125 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. T1 - Gase als Energieträger - Aktivitäten der BAM mit Wirkung auf die Gaseindustrie N2 - Zunächst werden die aus der Themenfeldstruktur der BAM resultierenden Änderungen im Auftreten der BAM vorgestellt und erläutert, wie diese für die Antragsteller zu verstehen sind. Danach werden die Zielsetzung der GGRn 021 und 022 und deren inhaltlicher Ansatz vorgestellt und auch erläutert, welche Interaktion mit dem Distribtionsverkehr von gasförmigen Energeiträgern besteht. Zuletzt wird dargelegt, welches Optimierungspotential hinter dem Ansatz in den GGRn steckt. T2 - Jährlicher Austausch zwischen der BAM und DIN, IGV und DVFG CY - IGV-Sitz in Berlin-Mitte, Germany DA - 21.02.2018 KW - BAM-Gefahrgutregel KW - Composite-Druckgefäße KW - Wasserstoff KW - Lebensdauerüberwachung KW - Prüffristenfestlegung PY - 2018 AN - OPUS4-45462 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. T1 - Prüfung der Wirksamkeit von Normen mithilfe der Monte-Carlo-Simulation N2 - Der Vortrag gibt zunächst einen Überblick über die Disziplinen, die in der BAM bzgl. Druckgefäßpüfung verfügbar sind. Außerdem ist zusammengestellt, mit welchen Vh-Beteiligungen und daraus resultierenden Lösungsansätzen die BAM jeweils zeitnah auf Änderungen im Recht, die die Aufgabe als zuständige Behörde betrafen, reagiert hat. Danach wird in die Festigkeitskennwerte und deren Simulation mithilfe der Monte-Carlo-Simulation eingeführt und der Unterschied zwischen Überlebenswahrscheinlichkeit und Akzeptanzrate erläutert. Darauf aufbauend wird gezeigt, wie die Akzeptanzrate grenzwertig zuverlässiger Grundgesamtheiten einer Prüfvorschrift ermittelt werden kann. Zuletzt wird gezeigt, dass ein solcher Ansatz ein Optimierungspotential für Wasserstoff-Trailerflaschen eröffnet, sofern er konsequent angewendet wird. T2 - Jährlicher Austausch zwischen der BAM und DIN, IGV und DVFG CY - IGV-Sitz in Berlin-Mitte, Germany DA - 21.02.2018 KW - Wasserstoff KW - Akzeptanzrate KW - GTR 13 KW - Überlebenswahrscheinlichkeit KW - Berstfestigkeit KW - Sample Performance Chart PY - 2018 AN - OPUS4-45465 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Schröder, Volkmar T1 - Sicherheitstechnische Eigenschaften von Erdgas-Wasserstoff-Gemischen - Auswirkungen auf den Explosionsschutz N2 - Im Beitrag werden die sicherheitstechnischen Eigenschaften von Wasserstoff diskutiert. Die Einspeisung von Wasserstoff ins Erdgasnetz wird im Hinblick auf mögliche Gefahren im Explosionsschutz durch die Veränderung von sicherheitstechnischen Kenngrößen unter Prozessbedingungen betrachtet. T2 - DVGW-Seminar "Gasinfrastruktur für Erdgas-H2-Gemische" CY - Bremen, Germany DA - 03.09.2020 KW - Wasserstoff KW - Explosionsschutz KW - Sicherheitstechnische Eigenschaften KW - Erdgasinfrastruktur PY - 2020 AN - OPUS4-51288 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Orellana Pérez, Teresa A1 - Mair, Georg W. A1 - Holtappels, Kai A1 - Maiwald, Michael A1 - Sobol, Oded T1 - Die Wasserstoffstrategie der BAM; Kompetenzzentrum H 2 safety@bam N2 - Das Thema Wasserstoff ist an der BAM seit mehr als hundert Jahren aktuell und steht auch gegenwärtig im Zentrum zahlreicher Forschungs- und Kooperationsaktivitäten. Mit der aktuellen Wasserstoff-Strategie der BAM werden wichtige Voraussetzungen dafür geschaffen, dass der Markthochlauf gelingt und die technische Sicherheit und Überwachung der Infrastrukturen und Anlagen gewährleistet ist – von der Erzeugung, über den Transport bis zur Speicherung und Bereitstellung von Wasserstoff als Energieträger der Zukunft. T2 - 1st Digital AK PostDocs Meeting CY - Online meeting DA - 01.10.2020 KW - Kompetenzzentrum H2Safety@BAM KW - Wasserstoff KW - Wasserstoffstrategie PY - 2020 AN - OPUS4-51371 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Wetzel, Annica A1 - Oczan, Ozlem A1 - Nietzke, Jonathan A1 - Richter, Tim A1 - Schröpfer, Dirk T1 - Hydrogen diffusion and local Volta potential in high- and medium-entropy alloys N2 - High-entropy alloys (HEAs) are characterized by a solid solution of minimum five and medium-entropy alloys (MEAs) of minimum three principal alloying elements in equiatomic proportions. They show exceptional application properties, such as high-strength and ductility or corrosion resistance. Future HEA/MEA-components could be exposed to hydrogen containing environments like vessels for cryogenic or high-pressure storage where the hydrogen absorption and diffusion in these materials is of interest. In our study, we investigated the HEA Co20Cr20Fe20Mn20Ni20 and the MEA Co33.3Cr33.3Ni33.3. For hydrogen ingress, cathodic charging was applied and diffusion kinetic was measured by high-resolution thermal desorption spectros-copy using different heating rates up to 0.250 K/s. Peak deconvolution resulted in high-temperature desorption peaks and hydrogen trapping above 280 °C. A total hydrogen concentration > 40 ppm was identified for the MEA and > 100 ppm for HEA. This indicates two important effects: (1) delayed hydrogen diffusion and (2) considerable amount of trapped hydrogen that must be anticipated for hydrogen assisted cracking phenomenon. Local electrochemical Volta potential maps had been measured for the hydrogen free condition by means of high-resolution Scanning Kelvin Probe Force Microscopy (SKPFM). T2 - Symposium on Materials and Joining Technology CY - Online meeting DA - 07.09.2020 KW - Hydrogen KW - High-entropy alloy KW - Diffusion KW - Scanning kelvin probe force microscopy KW - Corrosion PY - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-511684 VL - 882 SP - 1 EP - 15 PB - IOP Publishing CY - Bristol AN - OPUS4-51168 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - GEN A1 - Perk, M. A1 - Großwig, S. A1 - Pfeiffer, T. A1 - Rembe, M. A1 - den Hartogh, M. A1 - Weege, S. A1 - Krebber, Katerina A1 - Dijk, H. L. T1 - Faseroptische Leckage-Ortung zum Nachweis von Undichtheiten in Bohrlochkomplettierungen N2 - Im Rahmen der Integritätsbe­wertung einer zementierten 13 3/8" Rohrtour einer Sole-Produktionsbohrung wurden erstmals 2018 zeitgleich faserop­tische Temperaturmessungen (DTS) und faseroptische Akustikmessungen (DAS) durchgeführt und ausgewertet. Dazu wurde die Bohrung zeitweise mit Stick­stoff bespannt und wieder entlastet. T2 - DGMK/ÖGEW-Frühjahrstagung 2020 CY - Celle, Germany DA - 15.​04.​2020 KW - Kavernenspeicher KW - Verteilte faseroptische akustische Sensorik KW - Wasserstoffspeicher PY - 2020 N1 - Die DGMK/ÖGEW Frühjahrstagung 2020 wurde abgesagt, der Tagungsband aber trotzdem veröffentlicht. - The DGMK/ÖGEW Frühjahrstagung 2020 was cancelled, the proceedings were published nevertheless. VL - 136 IS - 4 SP - 25 EP - 26 PB - DVV Media Group CY - Hamburg AN - OPUS4-50783 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Röhsler, Andreas A1 - Sobol, Oded A1 - Hänninen, H. A1 - Böllinghaus, Thomas T1 - In-situ ToF-SIMS analyses of deuterium re-distribution in austenitic steel AISI 304L under mechanical load N2 - Hydrocarbons fuel our economy. Furthermore, intermediate goods and consumer products are often hydrocarbon-based. Beside all the progress they made possible, hydrogen-containing substances can have severe detrimental effects on materials exposed to them. Hydrogen-assisted failure of iron alloys has been recognised more than a century ago. The present study aims to providing further insight into the degradation of the austenitic stainless steel AISI 304L (EN 1.4307) exposed to hydrogen. To this end, samples were electrochemically charged with the hydrogen isotope deuterium (2H, D) and analysed by scanning electron microscopy (SEM), electron back-scatter diffraction (EBSD) and time-of-flight secondary ion mass spectrometry (ToF-SIMS). It was found that deuterium caused a phase transformation from the original γ austenite into ε- and α’-martensite. Despite their low solubility for hydrogen, viz. deuterium, the newly formed phases showed high deuterium concentration which was attributed to the increased density of traps. Information about the behaviour of deuterium in the material subjected to external mechanical load was gathered. A four-point-bending device was developed for this purpose. This allowed to analyse in-situ pre-charged samples in the ToF-SIMS during the application of external mechanical load. The results indicate a movement of deuterium towards the regions of highest stress. KW - ToF-SIMS KW - Hydrogen KW - Deuterium KW - AISI 304L KW - EBSD PY - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-505142 VL - 10 IS - 1 SP - 3611 PB - Nature AN - OPUS4-50514 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Rhode, Michael A1 - Richter, Tim A1 - Mayr, P. A1 - Nitsche, A. A1 - Mente, Tobias A1 - Böllinghaus, Thomas T1 - Hydrogen diffusion in creep-resistant 9% Cr P91 multi-layer weld metal N2 - Welded components of P91 9% Cr steel demand for careful welding fabrication with necessary post weld heat treatment (PWHT). Before the PWHT, a hydrogen removal heat treatment is necessary for avoidance of hydrogen assisted cracking (HAC). In this context, the microstructure and temperature-dependent hydrogen diffusion is important, and reliable diffusion coefficients of P91 weld metal are rare. For that reason, the diffusion behavior of P91 multi-layer weld metal was investigated for as-welded (AW) and PWHT condition by electrochemical permeation experiments at room temperature and carrier gas hot extraction (CGHE) from 100 to 400 °C. Hydrogen diffusion coefficients were calculated, and the corresponding hydrogen concentration was measured. It was ascertained that both heat treatment conditions show significant differences. At room temperature the AW condition showed significant hydrogen trapping expressed by to seven times lower diffusion coefficients. A preferred diffusion direction was found in perpendicular direction expressed by high permeability. The CGHE experiments revealed lower diffusion coefficients for the AW condition up to 400 °C. In this context, a hydrogen concentration of approximately 21 ml/100 g was still trapped at 100 °C. For that reason, a certain HAC susceptibility of as-welded P91 weld metal cannot be excluded, and hydrogen removal should be done before PWHT. KW - Creep resisting materials KW - Diffusion KW - Hydrogen KW - Weld metal KW - Post weld heat treatment KW - Microstructure PY - 2020 U6 - https://doi.org/10.1007/s40194-019-00828-8 SN - 0043-2288 VL - 64 IS - 2 SP - 267 EP - 281 PB - Springer AN - OPUS4-50471 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Richter, T. A1 - Mayr, P. A1 - Nitsche, A. A1 - Mente, Tobias A1 - Böllinghaus, Thomas T1 - Hydrogen diffusion in creep-resistant 9%-Cr P91 steel weld metal N2 - 9 %-Cr steel P91 is widely used in power plants due to the excellent creep-resistance. Components of this steel are typically welded and demand for careful welding fabrication, whereas a so-called post weld heat treatment (PWHT), must be conducted to increase the toughness and decrease the hardness of the martensitic as-welded (AW) microstructure. Before the PWHT, a hydrogen removal (or dehydrogenation) heat treatment is necessary as hardened AW martensitic microstructure is generally prone to delayed hydrogen assisted cracking (HAC). The microstructure and temperature dependent hydrogen diffusion is an important issue as it determines how long a potential crack-critical hydrogen concentration could remain in the microstructure. In this context, reliable hydrogen diffusion coefficients of P91 weld metal are rare. Hence, the diffusion behavior of P91 multi-layer weld metal was investigated in two different microstructure conditions: AW and further PWHT (760 °C for 4 h). Two different experimental techniques were used to cover a wide range of hydrogen diffusion temperatures: the electrochemical permeation technique (PT) at room temperature and the carrier gas hot extraction (CGHE) for a temperature range from 100 to 400 °C. From both techniques typical hydrogen diffusion coefficients were calculated and the corresponding hydrogen concentration was measured. It was ascertained that both heat treatment conditions show significant differences in hydrogen diffusivity. The biggest deviations were identified for room temperature. In this case, the AW condition shows significant hydrogen trapping and up to seven times lower diffusion coefficients. Additionally, PT investigations showed a preferred diffusion direction of hydrogen in the weld metal expressed by the diffusion coefficients and the permeability for both heat treatment conditions. The CGHE generally revealed lower diffusion coefficients for the AW microstructure up to 200 °C. In addition, the AW condition showed hydrogen concentrations up to 50 ml/100 g (considering electrochemical charging). Nonetheless, this hydrogen was not permanently (reversibly) trapped. Nonetheless, this temperature is approximately 100 °C below recommended dehydrogenation heat treatment (DHT). This has two main consequences: (I) in case of welding is interrupted or no DHT is conducted, a HAC susceptibility of hardened martensitic P91 weld metal cannot be excluded and (II) DHT can be conducted at temperatures around 200 °C below the recommended temperatures. T2 - IIW Annual Assembly, Meeting of Commission IX-C "Creep and heat resistant welds" CY - Bratislava, Slovakia DA - 07.07.2019 KW - Hydrogen KW - Diffusion KW - Weld metal KW - Microstructure KW - Post weld heat treatment PY - 2019 AN - OPUS4-48449 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - GEN A1 - Jacobasch, Stefan A1 - Duffner, Eric A1 - Goedecke, Thomas A1 - Portella, Pedro Dolabella A1 - Mair, Georg W. A1 - Schendler, Thomas A1 - Gradt, Thomas A1 - Askar, Enis A1 - Bartholmai, Matthias A1 - Schröder, Volkmar A1 - Maiwald, Michael A1 - Holtappels, Kai A1 - Tschirschwitz, Rico A1 - Neumann, Patrick P. T1 - Unser Beitrag zum Thema Wasserstoff N2 - Die BAM ist nahezu über die gesamte Wertschöpfungskette hinweg wissenschaftlich tätig. Von der sicheren und effizienten Wasserstofferzeugung (POWER-to-GAS), über die (Zwischen-)Speicherung von Wasserstoff in Druckgasspeichern bis hin zum Transport bspw. mittels Trailerfahrzeug zum Endverbraucher. Komplettiert werden die Aktivitäten der BAM durch die sicherheitstechnische Beurteilung von wasserstoffhaltigen Gasgemischen, die Verträglichkeitsbewertung von Werkstoffen bis hin zur Detektion von Wasserstoffkonzentrationen über geeignete Sensorik, auch mittels ferngesteuerter Messdrohnen (sog. UAV-Drohnen). Zudem untersucht die BAM proaktiv Schadensrisiken und Unfallszenarien für die Sicherheitsbetrachtung, um mögliche Schwachstellen aufzeigen und potenzielle Gefährdungen erkennen zu können. KW - Wasserstoff KW - Wasserstofferzeugung KW - Energiespeicherung KW - Gasdetektion KW - Risikoanalyse KW - Power-to-Gas KW - Explosionsschutz KW - Tribologie KW - Druckgasspeicher KW - Glasspeicher KW - Gassensorik KW - Mini-UAV PY - 2019 SP - 1 CY - Berlin AN - OPUS4-47960 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - John, Sebastian A1 - Duffner, Eric A1 - Mair, Georg W. A1 - Moosavi, Robabeh A1 - Auster, Jürgen T1 - Delfin - Statusbericht zum 4.HJM N2 - Präsentation über den Fortschritt der BAM zum Vorhaben Delfin, welches sich mit der Entwicklung und Schädigungsneigung von Composite-Wasserstoffbehältern für den Anwendungsfall KFZ beschäftigt T2 - 4. Halbjahresmeeting zum Vorhaben Delfin CY - Online meeting DA - 21.10.2020 KW - Wasserstoff KW - Impact KW - Druckbehälter PY - 2020 AN - OPUS4-51495 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Holtappels, Kai A1 - Orellana Pérez, Teresa A1 - Mair, Georg W. A1 - Maiwald, Michael A1 - Sobol, Oded T1 - Hydrogen - Trust through safety N2 - In den Virtual Talks der DECHEMA wurden allgemeine Aspekte der Sicherheit und Akzeptanz von Wasserstofftechnologien vorgestellt. Wie kann Vertrauen in neue Technologien geschaffen werden, wenn Unfälle aus der Vergangenheit zu Mythen und Märchen führten? Der Vortrag räumt mit allgemeinen Vorurteilen auf und zeigt, dass der Umgang mit Wasserstoff weder unsicherer, noch sicherer ist als der Umgang mit anderen Brenngasen. Basis für den sicheren Umgang mit Wasserstoff ist immer eine Risikoanalyse. N2 - In the DECHEMA Virtual Talks, general aspects of the safety and acceptance of hydrogen technologies were presented. How can trust in new technologies be built when past accidents led to myths and fairy tales? The presentation does away with general prejudices and shows that handling hydrogen is neither more unsafe nor safer than handling other fuel gases. The basis for the safe handling of hydrogen is always a risk analysis. T2 - DECHEMA Virtual Talks CY - Online meeting DA - 23.11.2020 KW - Hydrogen KW - Wasserstoff KW - Safety KW - Sicherer Umgang KW - Sicherheit PY - 2020 AN - OPUS4-52082 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Tiebe, Carlo A1 - Maiwald, Michael A1 - Majewski, J. A1 - Rabe, Torsten A1 - Prager, Jens A1 - Lugovtsova, Yevgeniya A1 - Schukar, Marcus A1 - Szczepaniak, Mariusz A1 - Munzke, Dorit A1 - Duffner, Eric A1 - Eisermann, René A1 - Schoppa, André A1 - Strohhäcker, J. A1 - Mair, Georg W. T1 - Mess- und Prüfverfahren mit Sensorik N2 - Mess- und prüftechnische Verfahren sind zur Prozesskontrolle und Sicherheitsüberwachung in Wasserstofftechnologien von hoher Bedeutung. Typische Anwendungsgebiete von Sensoren sind Sicherheitsüberwachung, Leckdetektion und Prozesskontrolle. In diesem Beitrag werden Themen zur Erkennung von freigesetztem Wasserstoff sowie die Bestimmung des Wasserstoff-Luftverhältnisses mit Gassensoren, Fehlstellenerkennung mit geführten Ultraschallwellen zur Lebensdauerüberwachung (Structural Health Monitoring) von Wasserstoffspeichern sowie der Einsatz faseroptischer Sensoren zur Überwachung des Dehnungs- und Alterungsverhaltens sowie zur Schadensfrüherkennung von Wasserstoffspeichern vorgestellt. T2 - DVGW Kongress H2 Sicherheit CY - Online meeting DA - 27.01.2021 KW - Metrologie KW - Gassensoren KW - Structural Health Monitoring KW - Faseroptische Sensoren KW - Wasserstoff PY - 2021 AN - OPUS4-52141 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Perk, M. A1 - Großwig, S. A1 - Pfeiffer, T. A1 - Rembe, M. A1 - den Hartogh, M. A1 - Weege, S. A1 - Krebber, Katerina A1 - Dijk, H. L. T1 - Faseroptische Leckage-Ortung zum Nachweis von Undichtheiten in Bohrlochkomplettierungen N2 - Im Rahmen der Integritätsbewertung einer zementierten 13 3/8" Rohrtour einer Sole-Produktionsbohrung wurden erstmals 2018 zeitgleich faseroptische Temperaturmessungen (DTS, Distributed Temperature Sensing) und faseroptische Akustikmessungen (DAS, Distributed Acoustic Sensing) durchgeführt und ausgewertet. Dazu wurde die Bohrung zeitweise mit Stickstoff bespannt und wieder entlastet. Durch die Bespannung der Bohrung mit Stickstoff in Kombination mit dem Herunterdrücken des Stickstoff-Sole-Spiegels unter den Rohrschuh der 13 3/8" Rohrtour, konnte Stickstoff aus der Kavernenbohrung durch eine Leckagestelle in die Zementation übertreten und dort ein Stickstoff-Reservoir bilden. Bei der anschließenden Stickstoffentlastung erfolgte der Wiederanstieg des Stickstoff-Sole-Spiegels deutlich schneller als die Entleerung des in der Zementation angelegten Stickstoff-Reservoirs. Der dadurch entstandene Druckgradient hatte zur Folge, dass an der Leckagestelle der Stickstoff aus der Zementation in die aufsteigende Sole in Form von Bläschen eingetreten und dort aufgestiegen ist. Dieser Übertritt der Stickstoffbläschen war sowohl mit der Entstehung eines akustischen Geräusches als auch mit einer Temperaturänderung verbunden, welche mit der DAS- und DTS-Technik nachgewiesen werden konnten. Um die Ergebnisse bzgl. ihres physikalischen Hintergrundes zu überprüfen und basierend auf einer mathematisch-physikalischen Grundlage eine nachvollziehbare Interpretation der Messergebnisse zu ermöglichen, wurde ein numerisches Simulationsmodell der gekoppelten Festkörper- und Druckakustik für die Bohrung aufgebaut. Das Modell berücksichtigt die Geologie und die Komplettierung der Kavernenbohrung. Nach Identifikation der Schallquelle konnte mit dem Modell die Ausbreitung des Schalldrucks in der Bohrung erfolgreich nachgestellt werden. Um dieses Verfahren einer simultanen DAS-DTS-Messung in eine feldtaugliche Version zu überführen, läuft seit November 2019 ein breit angelegtes und vom BMWi gefördertes ZIM-Kooperationsprojekt zwischen der Bundesanstalt für Materialforschung und -prüfung (BAM), der IAB Weimar gGmbH, der GESO GmbH & Co. Projekt KG, der DEEP.KBB GmbH sowie der Rembe Consulting PartG mbB. Durch die Messdatenkopplung und den Wegfall der bewegungsbedingten Nachteile einer Messsonde werden präzisere Ergebnisse zur Bewertung der Bohrlochintegrität erwartet. Das Ziel ist, mit Hilfe der noch zu entwickelnden einfachen und robusten Technik, quantitative Aussagen über die Zustände im verrohrten Bohrloch direkt am Messplatz treffen zu können, wobei ein Fokus auf Detektierung und Quantifizierung von Kleinstleckagen liegt. Im Rahmen dieses Forschungsprojektes kommt neben numerischen Berechnungen auch ein geplanter Bohrlochsimulator zum Einsatz, mit dem umfangreiche Untersuchungen zur Ermittlung der Grenzparameter und Detektionsschwellen durchgeführt werden sollen. T2 - DGMK/ÖGEW-Frühjahrstagung 2020 CY - Celle, Germany DA - 15.​04.​2020 KW - Kavernenspeicher KW - Verteilte faseroptische akustische Sensorik KW - Wasserstoffspeicher PY - 2020 UR - https://dgmk.egnyte.com/fl/k3KJMqKMSb#folder-link/ SN - 978-3-947716-04-3 SN - 1433-9013 N1 - Die DGMK/ÖGEW Frühjahrstagung 2020 wurde abgesagt, der Tagungsband aber trotzdem veröffentlicht. - The DGMK/ÖGEW Frühjahrstagung 2020 was cancelled, the proceedings were published nevertheless. VL - DGMK-Tagungsbericht 2020-1 SP - 106 EP - 121 PB - DGMK - Deutsche Wissenschaftliche Gesellschaft für Erdöl, Erdgas und Kohle CY - Hamburg AN - OPUS4-52159 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Schröpfer, Dirk A1 - Kromm, Arne A1 - Lausch, Thomas A1 - Rhode, Michael A1 - Wimpory, R. C. A1 - Kannengießer, Thomas T1 - Influence of welding stresses on relief cracking during heat treatment of a creep-resistant 13CrMoV steel: Part III - Assessment of residual stresses from small-scale to real component welds N2 - For higher operational temperatures and pressures required in petrochemical plants, the modified 13CrMoV9-10 steel was developed providing high resistance against creep and compressed hydrogen. Extreme care during the welding procedure is necessary for this steel, attributed to low toughness, high strength in as-welded state, and increased susceptibility to stress relief cracking (SRC) during post-weld heat treatment (PWHT). Previous research of SRC in creep-resistant steels discussed mainly thermal and metallurgical factors. Few previous findings addressed the influences of welding procedure on crack formation during PWHT considering real-life manufacturing conditions. These investigations focus on effects of welding heat control on stresses during welding and subsequent PWHT operations close to realistic restraint and heat dissipation conditions using a special 3D testing facility, which was presented in parts I and II of this contribution. Part III addresses investigations on residual stress evolution affecting crack formation and discusses the transferability of results from large-scale testing to laboratory-scale. Experiments with test set-ups at different scales under diverse rigidity conditions and an assessment of the residual stresses of the weld-specimens using X-ray (surface near) and neutron diffraction analysis (bulk) were performed. This study aims to provide a way of investigating the SRC behaviour considering component-specific residual stresses via small-scale testing concepts instead of expensive weld mock-ups. KW - Welding KW - Creep-resistant steel KW - Residual stresses KW - Post-weld heat treatment KW - Stress relief cracking PY - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-524403 SN - 1878-6669 VL - 65 SP - 1671 EP - 1685 PB - Springer CY - Berlin AN - OPUS4-52440 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Mohseninia, A A1 - Eppler, M A1 - Kartouzian, D A1 - Markötter, Henning A1 - Kardjilov, N A1 - Wilhelm, F A1 - Scholta, J A1 - Manke, I T1 - PTFE Content in Catalyst Layers and Microporous Layers: Effect on Performance and Water Distribution in Polymer Electrolyte Membrane Fuel Cells N2 - This work describes the effects of catalyst layers (CLs) consisting of hydrophobic PTFE on the performance and water management of PEM fuel cells. Catalyst inks with various PTFE contents were coated on Nafion membranes and characterized using contact angle measurements, SEX-EDX, and mercury porosimetry. Fuel cell tests and electrochemical impedance spectroscopy (EIS) were conducted under varying operating conditions for the prepared materials. At dry conditions, CLs with 5 wt.% PTFE were advantageous for cell performance due to improved membrane hydration, whereas under humid conditions and high air flow rates CLs with 10 wt.% PTFE improved the performance in high current density region. Higher PTFE contents (⩾20 wt.%) increased the mass transport resistance due to reduced porosity of the CLs structure. Operando neutron radiography was utilized to study the effects of hydrophobicity gradients within CLs and cathode microporous layer (MPLC) on liquid water distribution. More hydrophobic CLs increased the water content in adjacent layers and improved performance, especially at dry conditions. MPLC with higher PTFE contents increased the overall liquid water within the CLs and GDLs and escalated the water transfer to the anode side. Furthermore, the role of back-diffusion transport mechanism on water distribution was identified for the investigated cells. KW - Neutron imaging KW - Polymer Electrolyte Membrane Fuel Cell KW - Catalyst Layer KW - Microporous Layer KW - Water Distribution PY - 2021 U6 - https://doi.org/10.1149/1945-7111/abec53 VL - 168 IS - 3 SP - 034509 PB - IOP Science AN - OPUS4-52402 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Maiwald, Michael A1 - Kipphardt, Heinrich A1 - Khanipour, Peyman A1 - Tuma, Dirk T1 - Messverfahren für Wasserstoff: Qualität durch Zertifizierung – Standortvorteile in Deutschland N2 - Die Veranstaltungsreihe "Neue Märkte erschließen – mit Normen und Standards hoch hinaus", die vom DIN gemeinsam mit der NOW GmbH organisiert wird, richtets sich vorwiegend an KMUs. Fokus der Veranstaltung sind Messverfahren für Wasserstoff. Der Beitrag der BAM führt sehr kurz die Rolle nationaler und internationaler Normung sowie weltweiter Metrologie im Rahmen der Meterkonvention bezüglich analytischer Qualitätssicherung und Zertifizierung von Gasen und Referenzmaterialien ein. Es werden aktuelle Beispiele für die Qualitätssicherung von Wasserstoff, mögliche dazu notwendige Ausrüstung und weiterführende Literaturquellen vorgestellt. T2 - Neue Märkte erschließen – mit Normen und Standards hoch hinaus CY - Online meeting DA - 18.03.2021 KW - Wasserstoff KW - Normung KW - Standortvorteil KW - Analytik KW - Wasserstoffanalytik KW - Wasserstoff Referenzmaterial KW - Gasanalytik PY - 2021 AN - OPUS4-52296 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. A1 - Günzel, Stephan T1 - Der sichere Wasserstofftransport - Eine Rechtsänderung in der Vorschau N2 - Das Bundesverkehrsministerium hat seit 2008 in drei Stufen jeweils auf Vorschlag der BAM einen Antrag zur Einführung bzw. Regulierung von Bergungsdruckgefäßen bei den Vereinten Nationen eingebracht. Die Anträge führten jeweils nach der Delegation in eine Arbeitsgruppe unter der Leitung des Vortragenden zu neuen Vorschriften im internationalen Gefahrguttransportrecht. Zuletzt hat das UN-Subcommittee der Experten für den Transport gefährlicher Güter der Einführung einer Druck-Volumen-Begrenzung für Druckgefäße zugestimmt. Mit dieser Begrenzung wurde die bisherige Volumenbegrenzung für Bergungsdruckgefäße ersetzt, wodurch nun das Spektrum der Bergungsdruckgefäße gestaltet werden kann, das notwendig wäre, um defekte Druckgefäße transportieren zu können. Das zentrale Kriterium für die Begrenzung des Druck-Volumen-Produktes (pV) fand bereits in den Landverkehrsvorschriften ADR/RID bis zu ihrer Neustrukturierung auch als Konsequenzmaß Verwendung. Damit soll sichergestellt werden, dass sich aus Wasserstofftransporten in Druckgefäßen keine Konsequenz entwickeln kann, die nach den Kriterien für stationäre Anlagen, einer Katastrophe gleichkommen würde. Hierzu hatte eine Arbeitsgruppe der Vereinten Nationen seit 2020 auf Vorschlag der BAM eine Kette aufeinander aufbauende Kriterien diskutiert, die im Vortrag vorgestellt werden: Einfluss der Druckwellen auf den menschlichen Körper (ohne Splitterwirkung oder Umsetzung der chemischen Energie) – Zusammenhang von Druckwelle und Fläche – Druckwellenberechnung – Bevölkerungsdichte – Grenzwerte für eine Katastrophe – resultierendes pV-Produkt. Das Ergebnis wurde mit herausragenden Großunfällen und Katastrophen aus dem Gefahrguttransport und Gefahrstoffbereich verglichen. Außerdem wurden noch die Effekte des Temperatureinflusses auf den maximalen Betriebsdruck diskutiert. Zuletzt wurde bei den UN darauf hingewiesen, dass mit Blick auf die Auswirkungsbetrachtung der Wassersoff das Gas mit den geringsten Konsequenzen bei gegeben Druk-Volumen-Produkt ist, was zu restriktiveren Obergrenzen für z.B. Erdgas führen könnte. Als letzter Punkt im Vortrag wird erläutert, dass in den kommenden UN-Sitzungen über nachfolgende Änderungen im Recht, wie z.B. der Kennzeichnung des pV-Produktes, diskutiert werden wird. Außerdem muss ein neuer Einstieg für die bei ISO in der Normung befindliche Umschließungen mit einem größeren pV-Produkt gefunden werden, wozu aber Transportland-spezifische Risikoanalysen in Verbindung mit massiven Fahrwegsbeschränkungen zu erwarten sind. T2 - 32. Erfahrungsaustausch für Gefahrgutbeauftragte (ERFA-T) des IGV CY - Berlin, Germany DA - 08.11.2023 KW - pV-Produkt KW - Quantitative Risikoanalyse KW - Konsequenzbegrenzung KW - Katastrophe KW - Druckgefäße PY - 2023 AN - OPUS4-58832 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Tehranchi, Ali A1 - Chakraborty, Poulami A1 - López Freixes, Martí A1 - McEniry, Eunan J. A1 - Gault, Baptiste A1 - Hickel, Tilmann A1 - Neugebauer, Jörg T1 - Tailoring negative pressure by crystal defects: Microcrack induced hydride formation in Al alloys N2 - Climate change motivates the search for non-carbon-emitting energy generation and storage solutions. Metal hydrides show promising characteristics for this purpose. They can be further stabilized by tailoring the negative pressure of microstructural and structural defects. Using systematic ab initio and atomistic simulations, we demonstrate that an enhancement in the formation of hydrides at the negatively pressurized tip region of the microcrack is feasible by increasing the mechanical tensile load on the specimen. The theoretical predictions have been used to reassess and interpret atom probe tomography experiments for a high-strength 7XXX-aluminium alloy that show a substantial enhancement of hydrogen concentration at structural defects near a stress-corrosion crack tip. These results contain important implications for enhancing the capability of metals as H-storage materials. KW - Physics and Astronomy (miscellaneous) KW - Hydrogen storage KW - Ab initio Simulation KW - Microcracks PY - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-587878 SN - 2475-9953 VL - 7 IS - 10 SP - 105401-1 EP - 105401-12 PB - American Physical Society (APS) AN - OPUS4-58787 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Jaunich, Matthias A1 - Kömmling, Anja A1 - Zaghdoudi, Maha T1 - Ageing under Hydrogen: effects on O-ring seals N2 - In this work we present results for three typical sealing materials (EPDM, HNBR, FKM) after up to 100 days ageing at high temperature under hydrogen. To allow for a better evaluation of the occurring changes the results are compared with effects of ageing in air on the material properties. Despite the common assumption that ageing under hydrogen atmosphere is expected to be less severe for the material in com-parison to air ageing, this is not seen for every material. T2 - Technomer 2023 CY - Chemnitz, Germany DA - 09.11.2023 KW - Hydrogen KW - Ageing KW - Seal KW - Compression set PY - 2023 AN - OPUS4-58818 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Bhattacharya, Biswajit A1 - Akhmetova, Irina A1 - Rautenberg, Max A1 - Emmerling, Franziska T1 - Mechanochemical synthesis of phosphonate-based proton conducting metal organic frameworks and hydrogen-bonded metal phosphonates N2 - Proton exchange membrane fuel cells (PEMFCs) are one of the most promising alternative green energy technologies that deliver high energy density without CO2 emissions. The proton conductivity of proton exchange membranes (PEM) contributes to the overall efficiency of a PEMFC. Materials being used as PEMs must exhibit high proton conductivity at the working conditions of the targeted PEMFC. To date, Nafion and Nafion-like polymers with acidic functionality are widely used as membrane materials due to their high proton conductivity in the range of 10-1 to 10-2 Scm-1 at higher relative humidity. However, these materials suffer from high costs, hazardous production process, and poor performance at high temperatures, limiting their versatility. In this context, crystalline porous materials are recognized as promising proton conductors for the proton exchange membrane (PEM) in fuel cell technology, owing to their tunable framework structure. However, it is still challenging bulk synthesis for real-world applications of these materials. Herein, we present mechanochemical gram-scale synthesis of series of mixed ligand metal organic frameworks (MOFs) and metal hydrogen‐bonded organic frameworks (MHOFs) using phenylene diphosphonic acid and 1-hydroxyethylidene-1,1-diphosphonic acid with different bipyridyl type of ligands, respectively. In all cases, the existence of extensive hydrogen bonds with amphiprotic uncoordinated phosphonate hydroxyl and oxygen atoms, the frameworks exhibited high proton conductivity. The study demonstrates the potential of green mechanosynthesis for preparations of framework-based proton conducting materials in bulk scale for green energy generation. T2 - 4th International Conference on Phosphonate Chemistry, Science and Technology, ICOPHOS-4 CY - Crete, Greece DA - 02.10.2023 KW - Proton exchange membrane fuel cells KW - Metal organic frameworks KW - Proton conducting materials PY - 2023 AN - OPUS4-58837 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. A1 - Duffner, Eric A1 - Günzel, Stephan T1 - Die Zukunft der Betriebsüberwachung von Gasspeichern aus Composite N2 - Im Vortrag wird zunächst erläutert, dass auch im Fall der Wasserstoffversorgung die Schadensanalyse, -vermeidung und die wiederkehrende Prüfung von Speichern in engem Zusammenhang stehen. Der Wasserstofftransport in Deutschland hat bereits deutlich zugenommen und wird in den nächsten Jahren weiter erheblich zunehmen. Dies führt zu einem stärkeren Fokus auf die wirtschaftlichen Aspekte im Transport und der wiederkehrenden Prüfung. Letztere droht, ohne neue technische Ansätze zum Flaschenhals in der Verfügbarkeit vorhandener Transportkapazitäten zu werden. Das gegenwärtige System der Wasserdruckprüfung bis zum sog. Prüfdruck mit Innen- und Außenbesichtigung etc., die im Normalfall alle 5 Jahre durchzuführen ist, führt zu jeweils etwa 8 Wochen Stillstand. Das Aufwendige dabei sind die Trocknungs- und Spülprozesse, die notwendig sind, um wieder entsprechend reinen Wasserstoff abfüllen zu können. Auf Basis der BAM GGR‘n 021 und 022 lässt sich beim Nachweis entsprechender, probabilistischer Restzuverlässigkeiten diese Frist in Deutschland auf 10 Jahre ausdehnen. Diesen Weg sind in den letzten Jahren viele Betreiber gegangen. Mit Blick auf die derzeit fast exponentielle Zunahme von Transporteinheiten kann auch diese Verlängerung der Prüffristen das Problem nicht lösen. Auch das Umschwenken von hydraulischer, auf die heute bereits genehmigungsfähige Gasdruckprüfung bis zum Prüfdruck bringt zwar eine Verkürzung der Stillstandzeiten, erfordert aber erhebliches Investment in Schutzmaßnahmen. Als hinreichend zielführendes Konzept für Transporteinheiten mit vielen Elementen wird im Vortrag eine Mischung aus probabilistischem Ansatz und zerstörungsfreien Prüfungen erläutert und bzgl. Aufwand und Nutzen im Vergleich zu den üblichen Verfahren visualisiert. Voraussetzung für diesen vorgestellten Ansatz sind die Weiterentwicklung und Qualifizierung der Schallemissionsanalyse als Ersatz für die derzeitig zerstörenden Prüfungen und auch eine durchgängig digitale Lebenslaufakte, die eine lückenlose Zuordnung von Baumusterprüfung, Herstellungslos, Betreiber und Betriebsdaten erlaubt. Für Transporteinheiten mit wenigen, sehr großen Elementen wird dagegen das sog. Online-Monitoring mit fest installierter und permanent messender Technik gesehen. Für die Anwendung beider Lösungsansätze sind umfangreiche Änderungen im Recht erforderlich. T2 - 49. VDI-Jahrestagung Schadensanalyse 2023: Schadensprävention bei Druckwasserstoff und Schadensprävention für Kunststoff- und Elastomerprodukte CY - Würzburg, Germany DA - 18.10.2023 KW - ATR Anerkanntes Technisches Regelwerk KW - Probabilistik KW - Zerstörungsfreie Prüfung KW - Online-Monitoring KW - Schallemissionsanalyse KW - Gasdruckprüfung PY - 2023 AN - OPUS4-58838 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Kipphardt, Heinrich T1 - Introduction to Metrology in Chemistry N2 - Measurements are an important fundament of natural science in general and of chemical analysis in particular. Metrology is the science (and art) of performing measurements. The basic concepts and terms of metrology and their practical implementation are introduced. The very special peculiarities of chemical measurements that are absent in physical measurements are discussed. T2 - 7th PhD Seminar of the German Working Group for Analytical Spectroscopy (DAAS) in the GDCh Division of Analytical Chemistry CY - Berlin, Germany DA - 15.11.2023 KW - Metrology KW - Chemical Analysis PY - 2023 AN - OPUS4-58868 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Heimann, Jan A1 - Mustapha, S. A1 - Yilmaz, Bengisu A1 - Prager, Jens T1 - Guided Waves Propagation in Composite Overwrapped Pressure Vessel N2 - The application of composite overwrapped pressure vessels (COPV) to store hydrogen and other compressed gases, especially when operating at high pressures, imposed the need for an innovative and reliable approach to ensure the safe operation of the system. Continuous structural health monitoring (SHM) based on ultrasonic guided waves (GWs) is a promising approach due to the ability of the wave to propagate for long distances and go around complex structures, moreover the high sensitivity to various failure modes such as delamination, matrix cracking and debonding. In this study, we scrutinize the behavior of (GWs) within the COPV using a network of PZT elements that are used for excitation and sensing. A laser doppler vibrometer (LDV) was also used to scan the surface of the vessel in various directions. L(0,1) and L(0,2) were observed in the captured signal. The L(0,2) appeared to be a dominant mode in the COPV and was capable of propagating along the entire length and maintaining a good signal-to-noise ratio. The L(0,2) mode maintained the same phase velocity when it is captured at various excitation angles (0, 45, and 90 degrees). The reduced effect of the orthotropy of the materials on the propagating waves is an important result as it will reduce the complexity in data processing when performing damage identification. T2 - European Conference on Non-Destructive Testing (ECNDT) CY - Lisbon, Portugal DA - 03.07.2023 KW - Structural Health Monitoring KW - Guided Waves KW - Composite Overwrapped Pressure Vessel KW - Laser Doppler Vibrometer KW - Sensor Placement PY - 2023 AN - OPUS4-58873 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Hickel, Tilmann A1 - Tehranchi, A. A1 - Neugebauer, J. T1 - Hydrogen enhances cross-slip of dislocations in the vicinity of grain boundaries N2 - Extensive experimental observations indicate the presence of nano-voids and the increase of free volume along the grain boundaries in hydrogen contaminated metals. This rate-dependent phenomenon motivates theoretical investigations of the underlying mechanisms. Here, a hydrogen enhanced cross-slip (HECS) mechanism in the close vicinity of the grain boundaries is demonstrated by direct molecular dynamics simulations. To this end, the interaction of the screw dislocations with a variety of symmetric tilt grain boundaries in H-charged and H-free bicrystalline nickel specimens is examined. The presence of segregated hydrogen atoms at the grain boundaries induces a stress field in their vicinity, and thus the barrier for cross-slip of screw dislocations considerably decreases. The enhanced crossslip of dislocations facilitates the formation of jogs. These jogs can form vacancies during the glide process. This mechanism shows nano-scale evidence of enhanced vacancy formation and subsequent increase in the free volume along the grain boundaries in the presence of H. This increase of the free-volume along the grain boundary dmaages the material and induce further embrittlement in addition to the direct effect of hydrogen in decreasing the fracture energy. T2 - International hydrogen conference 2023 CY - Park City, Utah, USA DA - 17.09.2023 KW - Atomistic model KW - Hydrogen embrittlement KW - Dislocation cross slip KW - Hydrogen enhanced vacancy formation PY - 2023 AN - OPUS4-58850 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Hickel, Tilmann A1 - Tehranchi, A. A1 - Chakraborty, P. A1 - Lopez Freixes, M. A1 - Zhao, H. A1 - Gault, B. A1 - Neugebauer, J. T1 - Defect-hydrogen interaction in Al alloys: Challenges and benefits revealed by ab initio calculations N2 - Climate change motivates the search for light-weight materials for transportation and energy storage solutions. As one of the challenges, the deleterious effect of hydrogen on the mechanical properties of metallic alloys is known to reduce the applicability of metallic alloys, motivating the characterization and simulation of hydrogen-defect interactions in these materials. In this work, the interaction of hydrogen with planar defects in aluminium has been investigated by means of ab initio simulations. On the one hand, two distinct types of GBs have been considered – the Σ11(113) [011] with a close-packed interface structure and the Σ5(210) [001] with a more open interface structure – in order to reveal the mechanisms governing the H segregation energetics. The investigations are afterwards extended to the impact of solutes in the Al alloy. Two scenarios are compared: Their segregation to the grain boundaries and their binding in precipitates. We therewith gained insights into the role of the solute size on the structural and chemical embrittlement in absence and presence of hydrogen. A thermodynamic assessment of the impact of solutes onto H chemisorption in the interfacial vicinity is provided by performing a high-throughput analysis for potential alloying candidates. The identified trends of the solute-H interactions are used to examine the relative importance of changes in hydrogen enhanced decohesion as a thermodynamic effect. On the other hand, the interaction of hydrogen with defects can be beneficial for the formation of metal hydrides. To enhance the formation and stability of such often highly volatile hydrides we have consider a novel concept: tailoring and employing the negative pressure of microstructural and structural defects to enhance H solubility and thus hydride formation. Using systematic ab initio and atomistic simulations, we demonstrate that an enhancement in the formation of hydrides at the negatively pressurized crack tip region is feasible by increasing the mechanical tensile load on the specimen. The theoretical predictions have been used to reassess and interpret atom probe tomography experiments for a high-strength 7XXX-aluminium alloy that show a substantial enhancement of hydrogen concentration at structural defects near a stress-corrosion crack tip. Based on these insights we derive strategies for enhancing the capability of metals as H-storage materials. T2 - International hydrogen conference 2023 CY - Park City, Utah, USA DA - 17.09.2023 KW - Ab initio simulations KW - Hydrogen embrittlement KW - Grain boundaries KW - Hydride formation PY - 2023 AN - OPUS4-58851 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael T1 - Fügetechnik in Wasserstofftechnologien: Erzeugung, Transport, Speicherung, Nutzung N2 - Der Vortrag gibt einen kurzen Überblick über die Bedeutung der Fügetechnik in Wasserstofftechnologien und über zukünftige FuE-Bereiche. Fügetechnologien haben dabei wesentliche Bedeutung für die Umsetzung von technischen Komponenten der Wasserstofftechnologien. Forschungsschwerpunkte ergeben sich insbesondere für die Erzeugung und den Transport des Wasserstoffs. T2 - Vortragsreihe des DVS Bezirksverbandes Berlin CY - Berlin, Germany DA - 22.02.2023 KW - Wasserstoff KW - Fügetechnik KW - Forschung KW - Review PY - 2023 AN - OPUS4-57040 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg A1 - Günzel, Stephan T1 - Entwicklungen rings um Gase als Energieträger N2 - Dr. Mair erläutert, welcher Anwuchs an H2-Bedarf zu erwarten ist, wo er weltweit erzeugt werden könnte und in welcher Form auf grünem Wasserstoff basierende Energieträger transportiert werden können. Es wird deutlich, dass das Transportaufkommen von H2 erheblich anwachsen wird und dass sich alle Seiten, die Regelsetzer und die Industrie darauf vorbereiten müssen. Danach wird mit Blick auf die Normungsroadmap H2 des DIN der probabilistische Ansatz mit seinem Potenzial, Normen und Vorschriften in ihrer Wirkung zu simulieren und zu bewerten kurz vorgestellt. Der dritte Block des Vortrages beginnt mit der Definition von Sicherheit, zeigt kurz das mikromechanische Prinzip der Alterung von Composite und greift dann ein Thema auf, dass Dr. Mair bereits 2018 und 2019 in dieser Runde dargelegt hat: Der Aufwand für die klassische Wiederkehrende Prüfung ist enorm und bringt nur wenig Erkenntnis. Es werden graphisch das 5-Jahres 100%-Prooftesting, der Ansatz nach GGR 022 mit seiner zerstörend geprüften Stichprobe und der mögliche Ansatz für eine ergebnisgesteuerte Stichprobenprüfung auf ZfP-Basis miteinander verglichen. Die Unterschiede im Aufwand-zu-Nutzen-Verhältnis sind enorm. Dabei ist der aufwändigste Ansatz zudem der mit der geringsten Erkenntnistiefe. Jeder Ansatz, der von einer 100%-Prüfung in einem maximalen Zeitrahmen von 10 Jahren abweicht, also z.B. der Verzicht auf eine 100%-Prüfung während des Betriebes, würde eine Änderung des Regelwerkes erfordern, die zeitnah angestoßen werden müsste. Da es sich hierbei primär um eine Ressourcenoptimierung und nicht um eine Verbesserung der Sicherheit handelt, liegt der Ball bei den Verbänden. Als eine Idee für das Herangehen mit einer Begrenzung auf Druckgefäße, die nach der EN 17339 zulassungsfähig sind (fest montiert, H2 und nur CFK), verweist Dr. Mair auf die SV 674 in Verbindung mit 6.2.3.5.3/.4 ADR/RID. Bei dem absehbaren Anwachsen des Bestandes an H2-Batteriefahrzeugen, ist hier nicht nur ein Optimierungsaspekt, sondern auch ein Kapazitätsproblem in der wiederkehrenden Prüfung zu lösen. Es würde aber auch ein Mehrwert für die Sicherheit entstehen. T2 - 30. BAM-DIN-IGV-DVFG Treffen CY - Berlin, Germany DA - 22.02.2023 KW - Wasserstoffspeicher KW - Markthochlauf KW - Sicherheit KW - Wiederkehrende Prüfung KW - Schallemissionsanalyse PY - 2023 AN - OPUS4-57041 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. A1 - Perez, Teresa T1 - Competence centre H2Safety@BAM N2 - Dr Mair presents the competence centre “H2Safety@BAM”. He starts with a spectacular hydrogen accident on the Tempelhofer Feld (Berlin) in 1894, comes to the foundation of the competence centre in the context of the hydrogen strategies of Germany and the EU and explains their safety-focused orientation in order to create and maintain confidence in hydrogen technologies. Beyond the long-term changes in energy supply, in Sept. 2022 there are enormous cost leaps in gas supply, which puts hydrogen as an energy carrier in a different light. Based on this, he presents the structure of the Competence Centre with its 5 competence areas and the corresponding contact persons. This is underpinned by a slide on each of the work packages in the fields of competence. At the end of the presentation, he explains the focus of the competence area "Component Testing, Component Safety and Approval", for which he is responsible. This is the question of cost reduction by using the whole potential of digitalisation in connection with the safety surveillance of the storage systems. The run of a fully digital system is of great importance for both, for the hydrogen supply of large consumers via road and rail and for storage systems in stationary plants. A robust and well-thought-out digitalisation in all levels of documentation will lead to a new quality in monitoring safety porperties, integration of new components and cost reduction. T2 - TÜV Rheinland H2-Safety-Day für Berlin und Brandenburg CY - Dahlewitz, Germany DA - 22.09.2022 KW - H2Safety@BAM KW - Market Rump Up KW - Safety KW - Reliabillity KW - Hydrogen Supply PY - 2022 AN - OPUS4-56983 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. A1 - Günzel, Stephan A1 - Askar, Enis T1 - Mit „Knallgas“ in die Zukunft? Sicherheit von Wasserstoff – Von der Herstellung bis zur Nutzung N2 - Der Vortrag gibt eine Antwort auf die Frage: „Ist der Umgang mit Wasserstoff so sicher, dass wir unsere Zukunft darauf aufbauen können?“ Dr. Mair stellt das Kompetenzzentraum H2Safety@BAM vor. Er beginnt mit dem spektakulären Wasserstoff-Unfall auf dem Tempelhofer Feld aus dem Jahr 1894, kommt zur Gründung des Kompetenzzentrums im Kontext der Wasserstoffstrategien Deutschlands und der EU und erläutert deren sicherheitsfokussierte Ausrichtung, um Vertrauen in Wasserstofftechnologien zu schaffen und zu bewahren. Danach werden die physikalischen Eigenschaften von Wasserstoff im Vergleich zu Methan (Erdgas) vorgestellt. Dies leitet über zur Betrachtung des Hindenburg-Unfall sin Lakehurst 1937. Im nächsten Abschnitt werden der weltweite Bedarf an H2, sein Importbedarf aus deutscher Sicht, das weltweite Erzeugungspotential und der Transportaufwand der üblichen H2-Derivate dargelegt. Die zentrale Frage ist die nach der Sicherheit von Wasserstoff als Ergebnis der bisher ergriffenen Maßnahmen. Es werden wenige der immer wieder geschehenden Unfälle im Transport von Energieträgern vorgestellt, was zur Erkenntnis führt, dass, um die Sicherheit objektiv beurteilen zu können, der Risikobegriff herangezogen werden muss. Das Risiko basiert auf der Konsequenz und der Häufigkeit eines Ereignisses. Mit Blick auf den bereits erkennbaren Markhochlauf wird dargelegt, wie eine Risikosteuerung in Abhängigkeit der Produkte im Transport funktionieren kann. Hierzu muss beachtet werden, dass jede Eigenschaft streut. Damit sind auch die Zuverlässigkeit jedes einzelnen Speichers, des gesamten Bestandes an Gasspeichern, im Neuzustand und erst recht mit zunehmendem Alter einer Streuung unterworfen, die aktuell nur über Stichproben abgeschätzt werden kann. Es wird an Beispielen aufgezeigt, welche Prüftechniken und Beurteilungsmethoden die BAM zur Sicherheitsbeurteilung von Transportspeichern und sogar Tankstellen einsetzt und weiterentwickelt. Dies führt zu einem Petitum für probabilistische Betrachtungsweisen von Produktsicherheit mit Blick auf die Qualität der Rechtsvorschriften, der Produktdesigns und der Herstellung von Produkten für die Wasserstoffanwendung. T2 - Tagung Hoffnungsträger Wasserstoff - Chancen, Hürden, Risiken CY - Wittenberg, Germany DA - 20.10.2022 KW - Wasserstoffspeicher KW - Markthochlauf KW - Sicherheit KW - H2Safety@BAM.de KW - Risikosteuerung PY - 2022 AN - OPUS4-56985 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Lozano-Martín, D. A1 - Tuma, Dirk A1 - Kipphardt, Heinrich A1 - Khanipour, Peyman A1 - Chamorro, C. R. T1 - Thermodynamic characterization of the (H2 + C3H8) system significant for the hydrogen economy: Experimental (p, rho, T) determination and equation-of-state modelling N2 - For the gradual introduction of hydrogen in the energy market, the study of the properties of mixtures of hydrogen with typical components of natural gas (NG) and liquefied petroleum gas (LPG) is of great importance. This work aims to provide accurate experimental (p, rho, T) data for three hydrogen-propane mixtures with nominal compositions (amount of substance, mol/mol) of (0.95 H2 + 0.05 C3H8), (0.90 H2 + 0.10 C3H8), and (0.83 H2 + 0.17 C3H8), at temperatures of 250, 275, 300, 325, 350, and 375 K, and pressures up to 20 MPa. A single-sinker densimeter was used to determine the density of the mixtures. Experimental density data were compared to the densities calculated from two reference equations of state: the GERG-2008 and the AGA8-DC92. Relative deviations from the GERG-2008 EoS are systematically larger than those from the AGA8-DC92. They are within the ±0.5% band for the mixture with 5% of propane, but deviations are higher than 0.5% for the mixtures with 10% and 17% of propane, especially at low temperatures and high pressures. Finally, the sets of new experimental data have been processed by the application of two different statistical equations of state: the virial equation of state, through the second and third virial coefficients, B(T, x) and C(T, x), and the PC-SAFT equation of state. KW - Hydrogen-containing gas mixture KW - Density data KW - Equation of state KW - Virial coefficients PY - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-570056 SN - 0360-3199 VL - 48 IS - 23 SP - 8645 EP - 8667 PB - Elsevier B. V. CY - Amsterdam AN - OPUS4-57005 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Balderas-Xicohtencatl, R. A1 - Villajos Collado, José Antonio A1 - Casabán, J. A1 - Wong, D. A1 - Maiwald, Michael A1 - Hirscher, M. T1 - ZIF‑8 Pellets as a Robust Material for Hydrogen Cryo-Adsorption Tanks N2 - Cryoadsorption on the inner surface of porous materials is a promising solution for safe, fast, and reversible hydrogen storage. Within the class of highly porous metal−organic frameworks, zeolitic imidazolate frameworks (ZIFs) show high thermal, chemical, and mechanical stability. In this study, we selected ZIF-8 synthesized mechanochemically by twin-screw extrusion as powder and pellets. The hydrogen storage capacity at 77 K and up to 100 bar has been analyzed in two laboratories applying three different measurement setups showing a high reproducibility. Pelletizing ZIF-8 increases the packing density close to the corresponding value for a single crystal without loss of porosity, resulting in an improved volumetric hydrogen storage capacity close to the upper limit for a single crystal. The high volumetric uptake combined with a low and constant heat of adsorption provides ca. 31 g of usable hydrogen per liter of pellet assuming a temperature−pressure swing adsorption process between 77 K − 100 bar and 117 K − 5 bar. Cycling experiments do not indicate any degradation in storage capacity. The excellent stability during preparation, handling, and operation of ZIF-8 pellets demonstrates its potential as a robust adsorbent material for technical application in pilot- and full-scale adsorption vessel prototypes. KW - Hydrogen adsorption storage KW - Metal−organic frameworks KW - ZIF-8 KW - Cryoadsorption KW - Hydrogen Storage KW - MefHySto PY - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-569473 SN - 2574-0962 SP - 1 EP - 8 PB - ACS Publications CY - Washington DC AN - OPUS4-56947 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Gook, Sergej A1 - El-Batahgy, Abdel-Monem A1 - Gumenyuk, Andrey A1 - Biegler, Max A1 - Rethmeier, Michael T1 - Application of Hybrid Laser Arc Welding for Construction of LNG Tanks Made of Thick Cryogenic 9% Ni Steel Plates N2 - Hybrid laser-arc welding (HLAW) was applied for butt welding of 14.5 mm thick plates of ferritic cryogenic steel X8Ni9 containing 9% Ni, which is used for manufacturing storage and transport facilities of liquefied natural gas (LNG). The weld seam formation and the achievable metallurgical and mechanical properties of the hybrid welds were investigated experimentally for two types of filler wire, an austenitic wire dissimilar to the base metal (BM) and an experimentally produced matching ferritic wire. Safe penetration and uniform distribution of the austenitic filler metal in the narrow hybrid weld could only be achieved in the upper, arcdominated part of the weld. The pronounced heterogeneous distribution of the austenitic filler metal in the middle part and in the root area of the weld could not ensure sufficient notched impact toughness of the weld metal (WM). As a result, a decrease in the impact energy down to 17±3 J was observed, which is below the acceptance level of ≥34 J for cryogenic applications. In contrast, the use of a matching ferritic filler wire resulted in satisfactory impact energy of the hybrid welds of up to 134±52 J at the concerned cryogenic temperature of -196 °C. The obtained results contribute to an important and remarkable conversion in automated manufacturing of LNG facilities. In other words, the results will help to develop a new laser-based welding technology, where both quality and productivity are considered.The efficiency of the developed welding process has been demonstrated by manufacturing a prototype where a segment of the inner wall of large size LNG storage tank was constructed. In this concern, hybrid laser arc welding was conducted in both horizontal (2G) and vertical (3G) positions as a simulation to the actual onsite manufacturing. The prototype was fabricated twice where its quality was confirmed based on non-destructive and destructive examinations. KW - Hardness KW - Hybrid Laser arc Welding KW - 9% Ni Steel KW - Fusion zone size KW - Microstructure KW - Tensile Strength KW - Impact Absorbed Energy PY - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-586080 SP - 1 EP - 22 PB - Springer Nature AN - OPUS4-58608 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mente, Tobias A1 - Rhode, Michael A1 - Nietzke, Jonathan A1 - Konert, Florian A1 - Sobol, Oded A1 - Böllinghaus, Thomas A1 - Merz, Benjamin A1 - Holtappels, Kai T1 - Schadensprävention durch Werkstoff- und Komponentenprüfung unter Druckwasserstoff N2 - Historischer Schadensfall Wasserstoff-Gasflaschen von A. Martens aus dem Jahr 1894 .Prüfung von Hohlzugproben unter Druckwasserstoff - Herausforderungen und Umsetzung. T2 - Forum Schadenverhütung der Arbeitsgemeinschaft Berlin Brandenburg (AGS) in Kooperation mit der AGBB Berlin e.V. CY - Berlin, Germany DA - 12.10.2023 KW - Hohlzugprobe KW - Wasserstoff PY - 2023 AN - OPUS4-58623 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mente, Tobias A1 - Rhode, Michael A1 - Nietzke, Jonathan A1 - Konert, Florian A1 - Sobol, Oded A1 - Böllinghaus, Thomas A1 - Merz, Benjamin A1 - Holtappels, Kai T1 - Schadensprävention durch Werkstoff- und Komponentenprüfung unter Druckwasserstoff N2 - Historischer Schadensfall Wasserstoff-Gasflaschen von A. Martens aus dem Jahr 1894 / Kurzvorstellung H2Safety und ModuH2Pipe / Prüfung von Hohlzugproben unter Druckwasserstoff T2 - 49. VDI-Jahrestagung Schadensanalyse - Schadensprävention bei Druckwasserstoff und Schadensprävention für Kunststoff- und Elastomerprodukte CY - Würzburg, Germany DA - 18.10.2023 KW - Hohlzugprobe KW - Wasserstoff KW - H2Safety@BAM KW - MatCom KW - ModuH2Pipe@BAM PY - 2023 AN - OPUS4-58624 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Reinsch, Stefan A1 - Welter, T. A1 - Müller, Ralf A1 - Deubener, J. T1 - Hydrogen Permeability of Tectosilicate Glasses for Tank Barrier Liners N2 - The permeation of hydrogen gas was studied in meta-aluminous (tectosilicate) glass powders of Li2O×Al2O3×SiO2 (LAS), Na2O×Al2O3×SiO2 (NAS) and MgO×Al2O3×SiO2 (MAS) systems by pressure loading and vacuum extraction in the temperatures range 210–310 °C. With this method, both the solubility S and the diffusivity D were determined, while the permeability was given by the product SD. For all glasses, S was found to decrease with temperature, while D increased. Since the activation energy of diffusion of H2 molecules exceeded that of dissolution, permeation increased slightly with temperature. When extrapolated to standard conditions (25 °C), the permeability of tectosilicate glasses was found to be only 10-22–10-24 mol H2 (m s Pa)-1, which is 8–10 magnitudes lower than most polymers. Thin glass liners of these compositions are expected to be the most effective barrier for tanks of pressurised hydrogen. KW - Hydrogen permeation KW - Aluminosilicate glasses KW - Hydrogen storage tank KW - Glass liner PY - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-587284 VL - 1 SP - 1 EP - 11 AN - OPUS4-58728 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kromm, Arne A1 - Mente, Tobias A1 - Brackrock, Daniel A1 - Kannengießer, Thomas T1 - Component test for the assessment of hydrogen assisted cracking susceptibility of thick-walled submerged arc welded offshore steels N2 - Offshore wind turbines (OWT) are a key factor of the sustainable energy generation of tomorrow. The continuously increasing installation depths and weight of the OWTs require suitable foundation concepts like monopiles or tripods. Typically, mild steels like the S420ML are used with plate thicknesses up to several hundreds of mm causing high restraints in the weld joints. Due to the large plate thickness, submerged arc welding (SAW) with multiple wires is the state-of-the-art welding procedure. As a result of the very high stiffness of the construction, a certain susceptibility for time-delayed hydrogen-assisted cracking (HAC) may occur. The evaluation of crack susceptibility is very complex due to the component size and stiffness of real offshore structures. For this purpose, a near-component test geometry was developed to transfer the real stiffness conditions to laboratory (i.e., workshop) scale. The investigated mock-up, weighing 350 kg, comprised heavy plates (thickness 50 mm, seam length 1,000 m) joined by a 22-pass submerged arc weld. Additional stiffeners simulated the effect of high restraint or shrinkage restraint of the weld. Extreme scenarios of hydrogen absorption during welding were simulated via the use of welding fluxes in dry (HD < 5 ml/100g Fe) and moisture condition (HD > 15 ml/100g Fe). The residual stresses were determined by a robot X-ray diffractometer. Areas of critical tensile residual stress (at the level of the yield strength) were found in the weld metal and heat affected zone. To identify possible delayed cracking, the welds were tested by phased array ultrasonic testing (PAUT) after 48 h. Summarized, no significant occurrence of HAC was detected, indicating the high crack resistance of the welded joint, i.e., a suitable combination of base material, welding consumable and welding parameters. T2 - AJP 2023: 3rd International Conference on Advanced Joining Processes 2023 CY - Braga, Portugal DA - 19.10.2023 KW - Hydrogen assisted cracking KW - Submerged arc welding KW - Component test KW - NDT KW - Waiting time PY - 2023 AN - OPUS4-58672 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Joining technologies for hydrogen components: current need and future perspectives N2 - The study provides an overview of the aspects of joining and its importance in manufacturing of components for the more and more important field of hydrogen as key factor for the energy transition to a decarburized future. To this end, the fundamentals of the technology fields of hydrogen production, storage, transport, and application are presented and the state of the art of manufacturing of components for hydrogen technologies by joining is summarized. Based on representative examples from practice, research and development, the importance of joining technology in hydrogen technologies is clearly highlighted and perspectives for the future are derived. From a macroeconomic perspective, the focal points, or trends of joining technologies here include: the erection of new infrastructure for hydrogen storage and transport, and the safe conversion of existing natural gas infrastructure and its challenges for welded materials. In addition, we show the problems that are anticipated with in-service repair welding of hydrogen pipelines. In hydrogen applications, the efficient mass production of fuel cells and electrolysers is becoming increasingly important. For that reason, the importance of additive manufacturing is highlighted. Finally, the challenges for technical regulations and standardization by using hydrogen are shown. T2 - AJP 2023: 3rd International Conference on Advanced Joining Processes 2023 CY - Braga, Portugal DA - 19.10.2023 KW - Hydrogen KW - Infractstructure KW - Joining KW - Welding KW - Research PY - 2023 AN - OPUS4-58674 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Nietzke, Jonathan A1 - Steurer, Florian T1 - Diffusion in high-pressure hydrogen charged multi-principal element alloys CoCrFeMnNi and CoCrNi vs. AISI 316L N2 - Multi-principal element alloys (MPEAs) are innovative materials that have attracted extensive research attention within the last decade. MPEAs are characterized by a solid solution of equiatomic metallic elements. Depending on the number of elements, they are also referred as high entropy alloys (HEAs with n ≥ 4 elements like CoCrFeMnNi) and medium-entropy alloys (MEA with n = 3 elements CoCrNi). Depending on the alloy concept, MPEAs show exceptional properties in terms of mechanical performance or corrosion resistance at extreme environments. In that connection, hydrogen and its challenges for the most metallic materials gets more and more important. MPEAs are candidate materials for the substitution of conventional materials like austenitic stainless steels e.g., at very high-pressure up to 1000 bar. Those pressures are typically reached in valves or compressors for refueling of tanks with operational pressure of 700 bar. So far, the susceptibility of HEA/MEAs to hydrogen assisted cracking (if any) and the especially the underlying hydrogen uptake and diffusion was not within the scientific scope and not investigated in detail yet. For that reason, we focused on the hydrogen absorption the characterization of the hydrogen diffusion and trapping at elevated temperatures in a CoCrFeMnNi-HEA (each element with 20 at.-%) and CoCrNi-MEA, each element with 33.3 at.-%). As reference grade, the commercially available austenitic stainless steel AISI 316L was investigated. High-pressure hydrogen charging was conducted at different pressures in autoclave environment with maximum value of 1,000 bar. Thermal desorption analysis (TDA) via carrier gas hot extraction with coupled mass spectrometry was used with a max. heating rate of 0.5 K/s up to 650 °C. The measured desorption spectra of the different samples were deconvoluted into a defined number of individual peaks. The individually calculated peak temperatures allowed the definition of activation energies for predominant trap sites in the respective materials as well as the percentage share of the totally absorbed hydrogen concentration. The results present for the first time the complex interaction of both MPEAs and high-pressure hydrogen charging. A deconvolution of four peaks was selected and a main desorption peak was identified the dominant hydrogen trap containing the biggest share of the absorbed hydrogen concentration. The chemical composition an austenitic phase of both MPEAs is responsible for delayed hydrogen diffusion and strong, but mostly reversible, trapping. The comparison with the 316L samples showed significantly higher activation energies in the MPEAs, whereas hydrogen was also trapped at very high extraction temperatures. The absorbed maximum hydrogen concentration at 1,000 bar was 130 ppm for the CoCrFeMnNi-HEA, 50 ppm for the CoCrNi-MEA and 80 ppm for the 316L. It is interesting that the CoCrFeMnNi-HEA has obviously a way higher trapping capability compared to the conventional austenitic 316L, which could be a major advantage in terms of resistance to hydrogen assisted cracking. T2 - 47th MPA-Seminar CY - Stuttgart, Germany DA - 10.10.2023 KW - High-entropy alloy KW - Hydrogen KW - Diffusion KW - Thermal desorption analysis KW - Multiple-principal element alloy PY - 2023 AN - OPUS4-58675 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Czeskleba, Denis A1 - Kannengießer, Thomas A1 - Mente, Tobias T1 - Reliable hydrogen determination in metallic materials and their weld joints: Parameters and challenges N2 - In the course of tomorrow's hydrogen-based energy transition, the construction of the corresponding infrastructure will play a central role. The majority of materials used to date are typically welded for component fabrication. In that context, steels are widely applied and can be prone to hydrogen embrittlement. This includes the classical delayed cold cracking during welding processing as well as embrittlement phenomena during operation. For the evaluation of any hydrogen effect on, for example, the mechanical properties of a welded metallic material, the hydrogen content must be precisely determined. In the case of welds, for example, according to ISO 3690, this is the isothermal carrier gas hot extraction (CGHE). CGHE is based on accelerated hydrogen degassing due to thermal activation of hydrogen at elevated temperatures. In addition to the pure quantification of hydrogen, thermal desorption analysis (TDA) with varied heating rates can be used to determine and evaluate the bonding state at microstructural defects in the material. For both techniques, experimental and measurement influences have to be considered, which have a great effect on the result. For CGHE, for example, ISO 3690 suggests different sample geometries as well as minimum extraction times. The present study summarizes results and experiences of numerous investigations with different sample temperatures and geometries (ISO 3690 type B and cylindrical TDA samples) regarding: the influence of the sample surface (polished/welded), measurement accuracies depending on the sample volume as well as the insufficient monitoring of the effect of the PI controller on the extraction temperature. In particular, a deviating extraction temperature to the set temperature, can significantly falsify the measurement results. Based on the results, methods are shown to quickly reach the desired extraction temperature without having to physically interfere with the measurement equipment. This serves to substantially improve the reliability of hydrogen measurement through increased signal stability and accelerated hydrogen desorption. In general, an independent temperature measurement with dummy samples for the selected heating procedure is advisable to exclude possible unwanted temperature influences already before the measurement. In addition (and way more important), the methods described can be transferred directly to industrial applications. T2 - 47th MPA-Seminar CY - Stuttgart, Germany DA - 10.10.2023 KW - Hydrogen assisted cracking KW - Carrier gas hot extraction KW - Welding KW - ISO 3690 KW - Metals PY - 2023 AN - OPUS4-58677 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Charmi, Amir A1 - Beinlich, Lukas A1 - Barzegar, Mohsen A1 - Bulling, Jannis A1 - Lugovtsova, Yevgeniya A1 - Yilmaz, Bengisu T1 - Closing the gap between simulation and experiment using autoencoders N2 - Structural Health Monitoring (SHM) mittels geführter Ultraschallwellen ermöglicht eine kontinuierliche Überwachung komplexer Bauteile und liefert umfangreiche Informationen über deren strukturelle Integrität. Die aufgezeichneten Signale sind jedoch komplex und werden daher zunehmend mittels KI verarbeitet, um Anomalien in der Systemintegrität automatisch zu erkennen. Eine Herausforderung dabei ist jedoch das Trainieren solcher KI-Modelle, da dafür große Mengen an Trainingsdaten inklusive diverser Schadensfälle benötigt werden, um eine hohe Genauigkeit und Zuverlässigkeit zu gewährleisten. Experimentelle Generierung dieser Daten ist wegen des enormen Zeit- und Kostenaufwands nicht möglich. Eine Alternative hierfür bieten die numerischen Simulationen, da dadurch Trainingsdaten für beliebige Anzahl an Schadenskonfigurationen erzeugt werden können. Das Hauptproblem dabei ist jedoch die Abweichung zwischen den experimentellen und simulierten Daten (durch z.B. Abweichungen bei der Geometrie, Randbedingungen oder Materialparameter). Um diese Abweichungen zu reduzieren bzw. zu eliminieren, wird ein KI-Modell mit einer Autoencoder-Decoder Architektur vorgestellt, die mittels eines Experiments kalibriert werden kann und anschließend in der Lage ist, die Genauigkeit der Simulationsergebnisse nachträglich zu erhöhen. T2 - 28. DEGA-Workshop „Physikalische Akustik“ - Maschinelles Lernen in der physikalischen Akustik CY - Bad Honnef, Germany DA - 19.10.2023 KW - KI KW - SHM KW - Simulation KW - Geführte Ultraschallwellen PY - 2023 AN - OPUS4-58686 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Eberwein, Robert A1 - Hajhariri, Aliasghar A1 - Camplese, Davide A1 - Scarponi, Giordano Emrys A1 - Cozzani, Valerio A1 - Otremba, Frank T1 - A comparative study on insulation materials in tanks for the storage of cryogenic fluids in fire incidents N2 - Liquefied Hydrogen (LH2) or Liquefied Natural Gas (LNG) establish themselves as important energy carriers in the transport sector. Its storage requires tanks with Thermal Super Insulations (TSI) to keep the transported fluid cold. TSI has proven itself in various applications over a long time, but not in the land transport sector, where accidents involving collisions, fires, and their combination are to be expected. The focus of this study is to investigate the behavior of different types of TSI when exposed to a heat source that represents a fire. Therefore, a High-Temperature Thermal Vacuum Chamber (HTTVC) was used that allows the thermal loading of thermal insulation material in a vacuum and measuring the heat flow through the TSI in parallel. Within this study, 5 samples were tested regarding 3 different types of MLI, rock wool, and perlites. The thermal exposure caused different effects on the samples. In practice, this can be connected to the rapid release of flammable gases as well as a Boiling Liquid Expanding Vapour Explosion (BLEVE). These results are relevant for the evaluation of accident scenarios, the improvement of TSI, and the development of emergency measures. T2 - IMECE 2023 CY - New Orleans, Louisiana, USA DA - 29.10.2023 KW - LH2 KW - LNG KW - Fire PY - 2023 SP - 1 EP - 7 AN - OPUS4-58768 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Otremba, Frank A1 - Eberwein, Robert A1 - Hajhariri, Aliasghar A1 - Camplese, Davide A1 - Scarponi, Giordano Emrys A1 - Cozzani, Valerio T1 - Systems with Cryogenic Liquefied Gases in Fire Incidents N2 - Liquefied Hydrogen (LH2) or Liquefied Natural Gas (LNG) establish themselves as important energy carriers in the transport sector. Its storage requires tanks with Thermal Super Insulations (TSI) to keep the transported fluid cold. TSI has proven itself in various applications over a long time, but not in the land transport sector, where accidents involving collisions, fires, and their combination are to be expected. The focus of this study is to investigate the behavior of different types of TSI when exposed to a heat source that represents a fire. Therefore, a High- Temperature Thermal Vacuum Chamber (HTTVC) was used that allows the thermal loading of thermal insulation material in a vacuum and measuring the heat flow through the TSI in parallel. Within this study, 5 samples were tested regarding 3 different types of MLI, rock wool, and perlites. The thermal exposure caused different effects on the samples. In practice, this can be connected to the rapid release of flammable gases as well as a Boiling Liquid Expanding Vapour Explosion (BLEVE). These results are relevant for the evaluation of accident scenarios, the improvement of TSI, and the development of emergency measures. T2 - IMECE 2023 CY - New Orleans, Louisiana, USA DA - 29.10.2023 KW - LH2 KW - LNG KW - Fire PY - 2023 AN - OPUS4-58769 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Nietzke, Jonathan A1 - Konert, Florian A1 - Poka, Konstantin A1 - Merz, Benjamin A1 - Sobol, Oded A1 - Böllinghaus, Thomas T1 - Performance of Conventional and Additive Manufactured Austenitic Stainless Steels under Gaseous Hydrogen Environment using in-situ Hollow Specimen Technique N2 - Hydrogen and its derivatives (e.g. ammonia) are considered as a suitable energy carrier in the future supply of renewable energy. Hydrogen transportation systems require pipes, valves and fittings, among other components. In this sense, austenitic stainless steels are commonly used structural materials for pure hydrogen applications. Stable austenitic alloys, like AISI 316L, are often assumed to be practically unsusceptible to hydrogen embrittlement. At the same time, a number of studies show the influence of hydrogen even in 316L under some circumstances. Some other studies state that this embrittlement could be avoided by using steel grades with a higher nickel equivalent which contributes to a more stable austenitic phase. Nonetheless, 316L is widely used in hydrogen atmospheres since many years because of lower costs and positive practical experience. For these reasons, not only 316L but also 304 could be further utilized by identifying the exact constraints. With increasing demand for components regarding hydrogen applications, additive manufacturing technologies are getting increasingly important complementary to conventional manufacturing. In the context of additive manufacturing, 316L is a common material as well. The manufacturing process offers great advantages due to higher freedoms in design and the possibility for customized components in small batches. For example, valves with improved flow characteristics and reduced component weight can be produced. Nevertheless, there is still lack of experience and experimental results concerning additively manufactured parts under hydrogen service. Therefore, the influence on the material properties for additively manufactured parts in hydrogen environments needs to be further investigated. In the present work, slow strain rate testing (SSRT) has been applied using hollow specimens. This testing procedure allows to perform practicable and faster in-situ tests in comparison to tests in autoclaves and investigate the influence of hydrogen on the mechanical properties. Conventional AISI 304 and 316L specimens as well as additively manufactured 316L specimens were tested at room temperature and a pressure of 200 bar. Elongation at fracture and relative reduction of area (RRA) have been used to evaluate the influence of hydrogen. It is shown that the influence of hydrogen is more pronounced in 304 than in 316L. Furthermore, potentially influencing factors such as surface roughness, microstructure and porosity are discussed. T2 - International Hydrogen Conference CY - Park City, Utah, USA DA - 17.09.2023 KW - Hydrogen KW - Hollow Specimen Technique KW - Additive Manufacturing KW - Austenitic Steels PY - 2023 AN - OPUS4-58776 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Drexler, A.-K. A1 - Konert, Florian A1 - Nietzke, Jonathan A1 - Hodžić, E. A1 - Pastore, S. A1 - Domitner, J. A1 - Rhode, Michael A1 - Sommitsch, C. A1 - Böllinghaus, Thomas T1 - Effect of Tensile Loading and Temperature on the Hydrogen Solubility of Steels at High Gas Pressure N2 - The hydrogen solubility in ferritic and martensitic steels is affected by hydrostatic stress, pressure, and temperature. In general, compressive stresses decrease but tensile stresses increase the hydrogen solubility. This important aspect must be considered when qualifying materials for high‐pressure hydrogen applications (e.g., for pipelines or tanks) by using autoclave systems. In this work, a pressure equivalent for compensating the effect of compressive stresses on the hydrogen solubility inside of closed autoclaves is proposed to achieve solubilities that are equivalent to those in pipelines and tanks subjected to tensile stresses. Moreover, it is shown that the temperature effect becomes critical at low temperatures (e.g., under cryogenic conditions for storing liquid hydrogen). Trapping of hydrogen in the microstructure can increase the hydrogen solubility with decreasing temperature, having a solubility minimum at about room temperature. To demonstrate this effect, the generalized law of the hydrogen solubility is parameterized for different steels using measured contents of gaseous hydrogen. The constant parameter sets are verified and critically discussed with respect to the high‐pressure hydrogen experiments. KW - Hydrogen KW - Solubility KW - Temperature KW - Tensile loading KW - Analytical calculation PY - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-586701 SN - 1611-3683 SP - 1 EP - 9 PB - Wiley AN - OPUS4-58670 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Fügetechnik in Wasserstofftechnologien: Prozesse und Perspektiven N2 - Der Vortrag gibt einen tiefen Überblick über die Bedeutung der Füge- und Schweißtechnik in Wasserstofftechnologien. Dazu gliedert sich der Vortrag in die Komplexe H2-Erzeugung, Speicherung, Transport, Anwendung auf und gibt jeweils repräsentative Industriebeispiele für den heutigen Anwendungsstand. Insbesondere werden hier Fertigungstechnologien für Brennstoffzellen vorgestellt, sowie Herausforderungen beim Reparaturschweißen von Wasserstoffpipelines. Zeitgleich wird in einem eigenen Kapitel die Bedeutung der additiven Fertigung ebenso erläutert, wie die aktuellen und umfassenden Tätigkeiten auf dem Gebiet der Normung zu H2-Technologien. T2 - Vortragsreihe der VDI-Ortsgruppe Magdeburg CY - Magdeburg, Germany DA - 23.10.2023 KW - Wasserstofftechnologien KW - Fügetechnik KW - Pipelines KW - Additive Fertigung KW - Normung PY - 2023 AN - OPUS4-58671 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Koerdt, Andrea T1 - Wasserstofflagerung in unterirdischen geologischen Formationen und potenzielle Risiken durch Mikroorganismen N2 - Bei dem Vortrag werden die potentiellen mikrobiologischen Einflüsse im Falle der Lagerung von Wasserstofflagerung in unterirdischen geologischen Formationen vorgestellt, die Zusammenarbeit mit internen und auch externen Partnern. Der Fokus liegt dabei auf UGF; anaerobe Umgebungen, Sulfate reduzierenden Bakterien, methanogenen Archaea, weiterleitenden Systeme und die Kombination der Untersuchung abiotisch/biotische T2 - VDI-Schadensanalyse (49) CY - Würzburg, Germany DA - 17.10.2023 KW - MIC KW - Wasserstofflagerung KW - Unterirdische Speicher KW - Kontamination von H2 KW - H2-Abbau KW - Mikroorganismen KW - Biotische/abiotische Faktoren PY - 2023 AN - OPUS4-58645 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Kipphardt, Heinrich A1 - Maiwald, Michael T1 - MefHySto - Metrology for Advanced Hydrogen Storage Solutions N2 - An overview on the almost completed EMPIR-MefHySto-Project is given. T2 - Workshop on Green Hydrogen CY - Montevideo, Uruguay DA - 12.10.2023 KW - MefHySto KW - Hydrogen storage KW - Metrology PY - 2023 AN - OPUS4-58650 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Charmi, Amir A1 - Mustapha, Samir A1 - Yilmaz, Bengisu A1 - Heimann, Jan A1 - Prager, Jens T1 - A Machine Learning Based-Guided Wave Approach for Damage Detection and Assessment in Composite Overwrapped Pressure Vessels N2 - The applications of composite overwrapped pressure vessels (COPVs) in extreme conditions, such as storing hydrogen gases at very high pressure, impose new requirements related to the system's integrity and safety. The development of a structural health monitoring (SHM) system that allows for continuous monitoring of the COPVs provides rich information about the structural integrity of the component. Furthermore, the collected data can be used for different purposes such as increasing the periodic inspection intervals, providing a remaining lifetime prognosis, and also ensuring optimal operating conditions. Ultimately this information can be complementary to the development of the envisioned digital twin of the monitored COPVs. Guided waves (GWs) are preferred to be used in continuous SHM given their ability to travel in complex structures for long distances. However, obtained GW signals are complex and require advanced processing techniques. Machine learning (ML) is increasingly utilized as the main part of the processing pipeline to automatically detect anomalies in the system's integrity. Hence, in this study, we are scrutinizing the potential of using ML to provide continuous monitoring of COPVs based on ultrasonic GW data. Data is collected from a network of sensors consisting of fifteen Piezoelectric (PZT) wafers that were surface mounted on the COPV. Two ML algorithms are used in the automated evaluation procedure (i) a long short-term memory (LSTM) autoencoder for anomaly detection (defects/impact), and (ii) a convolutional neural network (CNN) model for feature extraction and classification of the artificial damage sizes and locations. Additional data augmentation steps are introduced such as modification and addition of random noise to original signals to enhance the model's robustness to uncertainties. Overall, it was shown that the ML algorithms used were able to detect and classify the simulated damage with high accuracy. T2 - European Conference on Non-Destructive Testing (ECNDT) CY - Lisbon, Portugal DA - 03.07.2023 KW - Guided waves KW - Structural Health Monitoring KW - Machine learning KW - Damage localization KW - COPV PY - 2023 AN - OPUS4-58687 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Tiebe, Carlo A1 - Maiwald, Michael A1 - Prager, Jens A1 - Lugovtsova, Yevgeniya A1 - Schukar, Marcus A1 - Strohhäcker, J. A1 - Bresch, Sophie T1 - Sensoren und Analytik für Sicherheit und Prozesskontrolle in Wasserstofftechnologien N2 - Der Beitrag behandelt verschiedene Themen aus dem H2Safety@BAM-Kompetenzfeld Sensorik, Analytik und zertifizierte Referenzmaterialien (SensRef) mit Schwerpunkt auf Mess- und Prüfverfahren, die verschiedene Analyseverfahren, Sensortechnologien und Ultraschallwellen nutzen. Ein Teil davon ist das Euramet-Vorhaben "MefHySto" zur Metrologie der Wasserstoffspeicherung. Des Weiteren werden Verfahren zur Erkennung von freigesetztem Wasserstoff und zur Bestimmung des Wasserstoff-Luftverhältnisses mithilfe von Gassensoren behandelt. Ein weiterer Aspekt ist die zerstörungsfreie Fehlstellenerkennung mit einem integrierten Zustandsüberwachungssystem, das auf geführten Ultraschallwellen basiert und zur Überwachung der Lebensdauer von Composite-Behältern (Wasserstoffspeicher) dient. Zudem wird die Anwendung faseroptischer Sensorik zur Schadenfrüherkennung an Wasserstoffspeichern diskutiert. Dabei werden erkennbare Dehnungsänderungen an Druckbehältern als Indikatoren genutzt. T2 - DVGW-Kongress "H2 Sicherheit" CY - Online meeting DA - 15.03.2023 KW - Faseroptische Sensorik KW - Gassensorik KW - Geführte Ultraschallwellen KW - Leckdetektion KW - Metrologie zur Wasserstoffspeicherung KW - Structural Health Monitoring (SHM) KW - Zerstörungsfreie Prüfung KW - SensRef KW - H2Safety@BAM PY - 2023 AN - OPUS4-57529 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Tiebe, Carlo T1 - Sensors for safety and process control in hydrogen technologies N2 - This tutorial provides an overview of the utilization of sensor systems in hydrogen technologies. It discusses the necessary criteria and characteristics of sensor systems, and also demonstrates practical applications of these technologies in terms of safety and process control. Emphasis is placed on various types of sensors such as gas sensors, pressure sensors, temperature sensors, and gas flow sensors. These systems find application in monitoring and regulating operational parameters, detecting potentially dangerous situations, and activating alarm systems. T2 - Sensor and Measurement Science International - SMSI 2023 CY - Nuremberg, Germany DA - 08.05.2023 KW - H2Safety@BAM KW - SensRef KW - Hydrogen KW - Gas sensor KW - Functional safety KW - Uncertainty KW - QI-Digital PY - 2023 AN - OPUS4-57532 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - THES A1 - Steppan, Enrico T1 - Zur Analyse der Eigenschaftsdegradation und des Bindungsverhaltens von Wasserstoff in höherfesten Feinkornbaustählen N2 - Der Stahlbedarf in Deutschland wird maßgeblich neben dem Automobilsektor vom Maschinenbau und allgemeinen Bauwesen geprägt. In diesen Segmenten werden qualitativ hochwertige Stähle mit höchsten Ansprüchen an Festigkeit, Verformungsfähigkeit, schweißtechnische Verarbeitung und sicherheitsrelevante Aspekte gestellt. Wichtige Vertreter, welche diesen Ansprüchen gerecht werden, sind die heutigen modernen höherfesten FKB. Aus der Entwicklung dieser Stähle kristallisierten sich in den letzten Jahrzehnten verschiedene Legierungskonzepte und Herstellungsrouten heraus. Dem liegt neben essentiellen Eigenschaften, z.B. Streck- und Zugfestigkeit, noch weitere Anforderungen, bspw. Kaltumformbarkeit, Kerbschlagzähigkeit und Verschleißfestigkeit, zugrunde. Zunehmend werden im genormten Bereich mit Streckgrenzen bis 700 MPa neben den vergüteten Stählen (Q) auch thermomechanische Stähle (M) eingesetzt. Ein immerwährender paralleler Begleiter während der Stahlherstellung und -verarbeitung ist Wasserstoff. Wasserstoff wird in den nächsten Jahren als Schlüsselelement für eine nachhaltige Energiewirtschaft angesehen. Aus heutiger Sicht ist Wasserstoff ein Hoffnungsträger für eine klimafreundliche Energiewirtschaft und zukunftsfähige Industrie. Forschung und Industrie arbeiten intensiv an der Erschließung und Weiterentwicklung des enormen Potentials, um eine höhere Nutzbarkeit zu erreichen. Die Gründe liegen zum einen darin, dass Wasserstoff als Brennstoff unproblematisch (Umweltverträglichkeit und Verfügbarkeit) ist und zum anderen ein hervorragender Energieträger ist. Wasserstoff ist durch seine gebundene Form erst nach dem Lösen aus chemischen Verbindungen zugänglich. Dies geschieht für eine Nutzbarmachung in einer zukunftsfähigen Energiewirtschaft gezielt. Demgegenüber stehen Prozesse, wodurch Wasserstoff aus seiner chemischen Verbindung gelöst wird und aufgrund seiner Größe bzw. geringsten Atommasse von Werkstoffen aufgenommen wird. Damit verbunden interagiert der aufgenommene Wasserstoff mit dem Gefüge und kann zu einer negativen Beeinflussung der Eigenschaften des Werkstoffs führen. Wasserstoff kann Degradationsprozesse in Stählen verursachen, die sich insbesondere auf die mechanischen Eigenschaften auswirken. Diese Mechanismen können wasserstoffunterstützte Risse in höherfesten Stählen während der Herstellung oder im industriellen Einsatz verursachen. Elektrochemisch beladene Zugproben zeigen ein unterschiedliches Degradationsverhalten in ihren Eigenschaften. Die vorliegende Arbeit beschreibt die Wechselwirkungen zwischen Wasserstoff und Gitterdefekten in unterschiedlichen mikrolegierten Systemen und wärmebeeinflussten Zonen in den schweißbaren Feinkornbaustählen. Die Ergebnisse zeigen eine klare Abhängigkeit zwischen Mikrolegierung und Herstellungsprozess dieser Stahlsorten, respektive ihrer simulierten wärmebeeinflussten Bereiche. N2 - In addition to the automotive sector, demand for steel in Germany is dominated by mechanical engineering and general construction. These segments demand high-quality steels with the highest requirements in terms of strength, formability, welding processing and safety aspects. Important representatives that meet these requirements are today's more modern high-strength FKB. In the development of these steels, various alloying concepts and production routes have crystallized in recent decades. In addition to essential properties, e.g. yield and tensile strength, this is also based on other requirements, e.g. cold formability, notched impact strength and wear resistance. Increasingly, thermomechanical steels (M) are being used in addition to quenched and tempered steels (Q) in the standardized range with yield strengths up to 700 MPa. An ever-present parallel companion during steel production and processing is hydrogen. Hydrogen is seen as a key element for a sustainable energy economy in the coming years. From today's perspective, hydrogen is a beacon of hope for a climate-friendly energy economy and sustainable industry. Research and industry are working intensively on tapping and further developing the enormous potential in order to achieve greater usability. The reasons are, on the one hand, that hydrogen is unproblematic as a fuel (environmental compatibility and availability) and, on the other hand, that it is an excellent energy carrier. Due to its bonded form, hydrogen is only accessible after dissolution from chemical compounds. This is done in a targeted manner for utilization in a sustainable energy economy. In contrast, there are processes by which hydrogen is released from its chemical compound and absorbed by materials due to its size or lowest atomic mass. In connection with this, the absorbed hydrogen interacts with the microstructure and can lead to a negative influence on the properties of the material. Hydrogen can cause degradation processes in steels that affect mechanical properties in particular. These mechanisms can cause hydrogen-assisted cracking in higher strength steels during fabrication or in industrial use. Electrochemically loaded tensile specimens show different degradation behavior in their properties. The present work describes the interactions between hydrogen and lattice defects in different microalloyed systems and heat affected zones in the weldable fine grain structural steels. The results show a clear dependence between microalloying and manufacturing process of these steels, respectively their simulated heat affected zones. T3 - BAM Dissertationsreihe - 172 KW - Höherfeste Feinkornbaustähle KW - Wasserstoffdegradation KW - Wasserstoffdiffusion KW - Wasserstoffbindungsverhalten KW - Kaltriss und Schweißen KW - High strength fine grained structural steels KW - Hydrogen degradation KW - Hydrogen diffusion KW - Hydrogen trapping KW - Cold cracking and welding PY - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-579412 SN - 1613-4249 VL - 172 SP - 1 EP - 266 PB - Eigenverlag CY - Berlin AN - OPUS4-57941 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Holtappels, Kai T1 - Offene Fragestellungen bei der Sicherheit von H2-Anwendungen aus Sicht der BAM N2 - Um die Energiewende voranzubringen, wird neben dem Ausbau der Erneuerbaren Energien ein schneller Markthochlauf bei Wasserstoff-Erzeugung, Transport und Anwendung angestrebt. Dieser Markthochlauf geht derzeit insbesondere einher mit Fragen der Wirtschaftlichkeit und der Umsetzung einer Serienfertigung von Elektrolyseuren. Bei Fragen der Sicherheit wird üblicherweise auf das bestehende Regelwerk verwiesen. Da der Umgang mit Wasserstoff und die Technologien zur Wasserstoff- Erzeugung nicht neu sind, geht man davon aus, dass durch die Einhaltung der bestehenden Regelwerke die Anlagen ausreichend sicher sind. Aber ist das wirklich so? Decken die bestehenden technischen Regelwerke alle derzeitigen Entwicklungen im Zusammenhang mit der Wasserstofferzeugung und -nutzung in allen notwendigen Facetten ab, um die Sicherheit zu gewährleisten? Der Experten-Workshop soll die Möglichkeit bieten, sich über die Sicherheit bei Wasserstofferzeugung und -nutzung auszutauschen sowie offene Fragestellungen und Lücken im Regelwerk zu identifizieren. Hierzu sind sowohl Impulsvorträge als auch ein offener Austausch mit allen Teilnehmenden geplant. T2 - GRS-Online-Workshop Wasserstoffsicherheit CY - Online meeting DA - 06.07.2023 KW - H2Safety@BAM KW - Wasserstoffsicherheit KW - Regelwerke PY - 2023 AN - OPUS4-57908 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Scarponi, G. A1 - Eberwein, Robert A1 - Otremba, Frank A1 - Cozzani, V. T1 - Modelling the response of LH2 tanks equipment with Multi Layer Insulation to fire exposure N2 - Hydrogen is among the most promising candidates to replace fossil fuels in the energy transition. Hydrogen-powered vehicles are already a reality, and their number is foreseen to increase considerably in the next decade. Among the possible solutions to store hydrogen in such vehicles, cryogenic tanks equipped with multi-layer insulation (MLI) appear to be one of the most effective to ensure high volumetric energy density. A potential loss of integrity of this kind of storage equipment might lead to severe consequences due to high flammability of hydrogen. This might occur, for instance, as a consequence of the exposure to an external source of heat such as a fire following a car accident. Real scale fire test results suggest that the super insulating performance of MLI systems may undergo severe degradation when this is subjected to high temperature, leaving the tank almost unprotected and leading to failure in a relatively short time. Characterizing this kind of accident scenario is crucial to ensure a safe design of storage tanks for Hydrogen-powered vehicles. This presentation provides an overview of the ongoing research work on modelling MLI LH2 tanks exposed to fire. Lumped and computational fluid dynamic based models are presented, highlighting current gaps. The relevance of taking MLI degradation into account when simulating the pressure increase due to external fire exposure is here demonstrated through the analysis case studies. T2 - H2-Kolloquium CY - Online meeting DA - 21.06.2023 KW - LH2 KW - Cold KW - MLI PY - 2023 AN - OPUS4-57878 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Zekhnini, Khalid A1 - Ebell, Gino A1 - Burkert, Andreas T1 - Corrosion at metallic offshore constructions – Bundesanstalt für Materialforschung und -prüfung (BAM) N2 - In the maritime context of offshore operation, corrosion, in combination with the materials used, poses a particular challenge to ensure safe operation over long indefinite periods and to minimise susceptibility to failure. Until today, only a few corrosion protection systems have proven themselves for the interaction of efficiency, installation, and maintenance in the offshore sector. In addition, available corrosion test methods sometimes have major deficits about conclusions of the durability. Therefore, there is more research and development needed. The flagship project H2Mare of the Federal Ministry of Education and Research aims to enable the production of green hydrogen and PtX products at high seas. Research is being driven forward by the partners in four individual projects, where BAM is involved in two. In PtX-Wind, major kinds of corrosion attacks at offshore constructions are characterized and investigated, and suitable corrosion protection measures determined. In TransferWind, attention focusses on transferring scientific results into standardization. This poster at the H2Mare Conference 2023 presents an overview of the investigation methods and contribution of the department “Corrosion and Corrosion Protection”. T2 - H2Mare Conference 2023 CY - Frankfurt/Main, Germany DA - 12.06.2023 KW - Atmospheric Corrosion KW - Sea Water KW - Corrosion Testing KW - Offshore KW - Laboratory Container KW - Corrosion protecting system PY - 2023 AN - OPUS4-57838 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Asna Ashari, Parsa A1 - Weiss, Daniel A1 - Blind, Knut T1 - Fuel-cell Vehicles in Relation to Electric and Internal Combustion Engine Vehicles – An Analysis of Technology Relations based on Publications, Patents, Standards N2 - This presentation was held at the EURAS 2023 Conference in Aachen. Against the backdrop of the sustainability transition of economies worldwide, decarbonizing road traffic is high on the agenda. This has focused the interest of policymakers and automobile manufacturers on sustainable, zero-emission powertrain technologies. Among these technologies, hydrogen fuel cell (FC) vehicles have a positive climate impact, given that their hydrogen is produced from renewable energy. However, FC vehicles have not yet gained significant market shares. Therefore, based on the technological innovation systems (TIS) approach, this study analyzes how FC vehicles are influenced by EVs and internal combustion engine (ICE) vehicles as their context structures. To operationalize the technology relations between our focal FC-TIS and its context structures, we use the sum of international publications, patents filed at the European Patent Office, and international ISO and IEC standards as indicators for each technology. Our results show that the FC-TIS is dominated by its context structures, especially regarding commercially relevant patents and international standards. Therefore, we conclude that the FC-TIS is in its formative life-cycle phase and identify the need for intensified patenting and standardization in relation to the competing EVs and ICE vehicles. T2 - 27th EURAS Annual Standardisation Conference - (Responsible) Standardisation for Smart Systems CY - Aachen, Germany DA - 28.06.2023 KW - Technological innovation system (TIS) KW - Technology interaction KW - Fuel cell vehicles KW - Publications KW - Patents KW - Standards PY - 2023 AN - OPUS4-57841 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Asna Ashari, Parsa A1 - Weiss, D. A1 - Blind, K. ED - Jakobs, K. T1 - Fuel-cell Vehicles in Relation to Electric and Internal Combustion Engine Vehicles – An Analysis of Technology Relations based on Publications, Patents, Standards N2 - Against the backdrop of the sustainability transition of economies worldwide, decarbonizing road traffic is high on the agenda. This has focused the interest of policymakers and automobile manufacturers on sustainable, zero-emission powertrain technologies. Among these technologies, hydrogen fuel cell (FC) vehicles have a positive climate impact, given that their hydrogen is produced from renewable energy. However, FC vehicles have not yet gained significant market shares. Therefore, based on the technological innovation systems (TIS) approach, this study analyzes how FC vehicles are influenced by EVs and internal combustion engine (ICE) vehicles as their context structures. To operationalize the technology relations between our focal FC-TIS and its context structures, we use the sum of international publications, patents filed at the European Patent Office, and international ISO and IEC standards as indicators for each technology. Our results show that the FC-TIS is dominated by its context structures, especially regarding commercially relevant patents and international standards. Therefore, we conclude that the FC-TIS is in its formative life-cycle phase and identify the need for intensified patenting and standardization in relation to the competing EVs and ICE vehicles. T2 - 27th EURAS Annual Standardisation Conference & 12th International Conference on Standardisation and Innovation in Information Technology (SIIT) - (Responsible) Standardisation for Smart Systems CY - Aachen, Germany DA - 28.06.2023 KW - Fuel cell vehicles KW - Patents KW - Publications KW - Standards KW - Technological innovation system (TIS) KW - Technology interaction PY - 2023 SN - 978-3-95886-491-7 SP - 1 EP - 20 PB - Verlagshaus Mainz CY - Aachen AN - OPUS4-57870 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Dopffel, N. A1 - An-Stepec, B. A. A1 - de Rezende, J. A1 - Machado de Sousa, D. A1 - Koerdt, Andrea T1 - Microbiology of Underground Hydrogen Storage N2 - Climate change is becoming one of the greatest challenges facing our society, particularly due to the continued use of fossil fuels. The steadily increasing demand for energy and the continuously growing world population will further intensify these challenges. The development of renewable energies is therefore of central importance. The 2020 EU Energy Roadmap aims to increase the share of renewable energies (gross energy consumption) to 55% by 2050. Hydrogen (H2) has the highest potential to become the primary renewable energy source. It is envisioned that by 2050 up to 24% of the total energy demand of Europe is to be ensured by H2. However, a decisive disadvantage of the climate friendly alternatives is the massive containment demand, which needs to be highly secure, cost efficient and easily extractable. Underground geological formations (UGF) represent a seemingly optimal alternative to meet the rapidly increasing storage demand. In this context, many studies are currently underway to determine the feasibility and risks of UGF. However, little or no consideration is being given to microbiology. Therefore, in this Research Topic we will focus on achieving a greater understanding of the impact microorganisms exert on UGF, with a particular emphasis on interdisciplinary studies. As many subsurface microbial communities can use H2 as an electron donor, production of seemingly undesirable metabolic byproducts, such as hydrogen sulfide, methane, and acids, are also to be expected. However, the rate of the H2 conversion by the microorganisms, how their metabolic activities impact the UGF on a short-term and long-term scale, the extent of damages microorganisms exert on the infrastructure, or potential use of microorganisms to enhance UGF are just a few questions that require urgent research to assess the role of microorganisms in this new anthropogenic use of the subsurface environment. These and many questions can be addressed in this article collection. In particular, understanding microbial community changes and activity rates will help assess operational and environmental risks, develop mitigation strategies and provide new insights on life under extreme conditions (i.e., pressure, salinity). In this Research Topic, the editorial team particularly welcomes Original Research, Hypothesis and Theory, Method, and Review manuscripts that deal with the latest advances in microbiology in formations that are planned or currently prepared for hydrogen storage, from both fundamental and practical points of view. The ultimate objective is to promote a deeper understanding into the sustainability of UGF and generate interdisciplinary research involving microbiologists, reservoir engineers, geologists, chemists, physicists. The topics of interest include, but are not limited to: • Microbial diversity in different underground hydrogen storage sites or formations currently being considered for hydrogen storage • Mechanism and impact of microbial growth under high H2 pressure • Potential role of microorganisms in the short-term and long-term storage of hydrogen • Potential influences of microorganisms on the hydrogen storage infrastructure systems, e.g., microbiologically influenced corrosion, biofilm growth • Hydrogen-solid-microorganism interactions, including the influence of microbial growth on UGF geological parameters • Mechanism and modelling of microbial impact on hydrogen storage UGF relevant for this Research Topic include porous media, salt caverns, deep aquifers, hard rock caverns and depleted oil/gas reservoirs. KW - Biodeterioration and biodegradation KW - Geology KW - Anaerobic pathways KW - Microbial simulation, KW - Hydrogen storage PY - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-579042 SN - 2296-598X VL - 11 SP - 1 EP - 3 PB - Frontiers CY - Frontiers in Energy Research AN - OPUS4-57904 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg W. A1 - Günzel, Stephan A1 - Bock, Robert A1 - Prager, Jens A1 - Kehr, Torsten T1 - Aspekte einer digitalen Lebenslaufakte (Impulsvortrag) N2 - Durch Einsatz neuer Technologien im Transport von komprimiertem Wasserstoff konnte eine Verdreifachung des Nutzlastverhältnisses erreicht werden. Diese neuen Speicher auf den Transportfahrzeugen müssten aber anders auf ihre Sicherheit überprüft werden, als dies heute gefordert wird. Mit dem Markthochlauf Wasserstoff vervielfacht sich zudem die Anzahl der Transporteinheiten. Da sich im Zuge der neuen H2-Transportfahrzeuge aber auch die Anzahl der einzelnen Speicher pro Fahrzeug etwa verzwanzigfacht hat, kommen die Kapazitäten für die erforderliche wiederkehrende Prüfung an ihre Grenzen. Dies könnte evtl. durch eine entsprechende Erhöhung der Prüfkapazitäten gelöst werden. Da dies aber weder praktisch machbar ist noch technisch wirklich sinnvoll, müssen alternative Ansätze z.B. durch digital erfasste zerstörungsfreie Prüfkonzepte gesucht werden. Hierzu bedarf es aber einer Lebenslaufakte, die beginnend von der Definition einer Bauweise über die Baumusterprüfung, Zulassung, Herstellung, erstmalige Prüfung, Verwendung und wiederkehrenden oder begleitenden Prüfungen bis zum Verschrotten alle Daten erfassen und verwalten kann. Eine solche Lebenslaufakte könnte auch als eine Art digitaler Produktpass (DPP) verstanden werden. T2 - QI-digital Forum 2023 CY - Berlin, Germany DA - 10.10.2023 KW - Wasserstoffspeicher KW - Lebenslaufakte KW - Digitaler Produktpass DPP KW - Wiederkehrende Prüfung KW - Lebensdauerüberwachung PY - 2023 AN - OPUS4-58559 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Bock, Robert A1 - Mair, Georg A1 - Tiebe, Carlo A1 - Melzer, Michael A1 - Klaus, Christian A1 - Nattuveettil, Keerthana A1 - Engel, Thomas A1 - Prager, Jens T1 - Eine digitale QI für technische Anlagen: Beispiel Wasserstofftankstelle (H2) N2 - Mit der Initiative QI-Digital werden völlig neue Perspektiven für das Sicherheitsmanagement und die Qualitätssicherung technischer Anlagen erschaffen. Unsere Forschung im Kontext einer Wasserstofftankstelle zeigt, wie digitale Innovationen und Verfahren die Herausforderungen effizienter und verlässlicher Qualitätssicherung für komplexe Anlagen bewältigen können. In diesem Vortrag werden Potentiale und Beispiele der digitalen QI für technische Anlagen demonstriert und diskutiert: Moderne Anlagenüberwachung mit digitalen Zwillingen und KI sowie Kalibriermanagement mithilfe digitaler Kalibrierscheine und elektronischem Siegel. T2 - 2. QI Digital Forum CY - Berlin, Germany DA - 10.10.2023 KW - Wasserstoff KW - Sensorik KW - Qualitätsinfrastruktur KW - Digitalisierung KW - Druckspeicher KW - Verwaltungsschale PY - 2023 AN - OPUS4-58599 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Tuma, Dirk A1 - Kipphardt, Heinrich A1 - Khanipour, P. T1 - Preparation and Analysis of Trace Compounds in Hydrogen in the ppm and Sub-ppm Region Relevant for Applications N2 - ISO 14687 defines threshold limits for expectable impurities in hydrogen that is assigned for use in polymer electrolyte membrane (PEM) fuel cells. This work describes the establishment of the traceability of some selected impurities by preparation and analysis of reference gases with the lowest possible uncertainty in composition. Primary reference gases were produced by the gravimetric method according to ISO 6142-1 and the analysis was carried out by operating measurement protocols according to ISO 12963 on two customized trace GC analysers. T2 - ANAKON 2023 CY - Vienna, Austria DA - 11.04.2023 KW - Hydrogen analysis KW - Gravimetric preparation KW - Gas chromatography PY - 2023 AN - OPUS4-57329 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Sobol, Oded A1 - Nietzke, Jonathan A1 - Konert, Florian A1 - Mente, Tobias A1 - Freitas, Tomás A1 - Krzysch, Zephanja A1 - Michael, Thomas A1 - Askar, Enis T1 - Challenges with metallic materials for the transport and storage of hydrogen N2 - The following presentation provides an overview on some of the challenges with metallic materials used as structural materials in the energy sector for the transport and storage of hydrogen. The presentation contains explanations about the methodologies utilized to characterize the susceptibility of these materials for hydrogen. T2 - Materials and Quality Assurance CY - Bergheim, Germany DA - 10.05.2023 KW - Hollow specimen KW - Slow strain tensile tests KW - Hydrogen assisted cracking PY - 2023 AN - OPUS4-57515 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Camplese, D. A1 - Chianese, C. A1 - Scarponi, G. E. A1 - Eberwein, Robert A1 - Otremba, Frank A1 - Cozzani, V. T1 - Analysis of high temperature degradation of multi-layer insulation (MLI) systems for liquid hydrogen storage tanks N2 - The interest in hydrogen-based green energy is increasing worldwide, and the same is true for hydrogen-powered vehicles. Among the possible solutions to store hydrogen in such vehicles, cryogenic tanks equipped with multi-layer insulation (MLI) are the most promising to increase the amount of energy stored per unit volume. However, MLI is affected by severe deterioration when exposed to an external source of heat such as a fire following a car accident, leaving the tank unprotected and leading to failure in a relatively short time. In this work, a one-dimensional model to evaluate MLI thermal degradation when a liquid hydrogen tank is exposed to fire is presented. The relevance of taking MLI degradation into account when simulating the pressure increase due to external fire exposure is here demonstrated through the analysis of several case studies. The results show that MLI systems performance depletes within a few minutes of exposure to hydrocarbon poolfire. T2 - ICheaP 16 CY - Naples, Italy DA - 21.05.2023 KW - LH2 KW - MLI KW - Fire KW - Tank PY - 2023 AN - OPUS4-57553 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Schalau, Bernd A1 - Schalau, Sebastian T1 - Wasserstoff-Freisetzungen aus Ausbläsern N2 - Mit zunehmender Produktion und Einsatz von Wasserstoff kommt immer mehr die Frage auf, inwieweit etablierte Freistrahlmodelle geeignet sind die Freisetzung von Wasserstoff aus Ausbläsern ausreichend genau zu berechnen, um darauf aufbauend Aussagen zum Explosionsschutz treffen zu können. Ein Vergleich mit experimentellen Untersuchungen zeigt, dass die Berechnungen von Modellen, die z.B. für Erdgas geeignete sind, für sehr leichte Gase größere Abweichungen ergeben können. Es sind daher Modifikationen für das Integralmodell von Schatzmann und das empirische Modell von Chen/Rodi entwickelt und mit experimentellen Untersuchungen verglichen worden. Bei einer verzögerten Zündung der Wasserstoff-Gaswolke sind bei experimentellen Untersuchungen relevante Explosionsüberdrücke gemessen worden, die bei einer Gefährdungsbeurteilung berücksichtigt werden sollten. Hierfür ist ein Berechnungsansatz in Verbindung mit dem Multi-Energy-Modell entwickelt worden. KW - Wasserstoff KW - Gasausbreitung KW - Gaswolkenexplosion PY - 2023 SN - 2191-0073 VL - 13 IS - 5-6 SP - 24 EP - 29 PB - VDI Fachmedien CY - Düsseldorf AN - OPUS4-57576 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Schalau, Bernd A1 - Schalau, S. T1 - Wasserstoff-Freisetzungen aus Ausbläsern N2 - Mit zunehmender Produktion und Einsatz von Wasserstoff kommt immer mehr die Frage auf, inwieweit etablierte Freistrahlmodelle geeignet sind die Freisetzung von Wasserstoff aus Ausbläsern ausreichend genau zu berechnen, um darauf aufbauend Aussagen zum Explosionsschutz treffen zu können. Ein Vergleich mit experimentellen Untersuchungen zeigt, dass die Berechnungen von Modellen, die z.B. für Erdgas geeignete sind, für sehr leichte Gase größere Abweichungen ergeben können. Es sind daher Modifikationen für das Integralmodell von Schatzmann und das empirische Modell von Chen/Rodi entwickelt und mit experimentellen Untersuchungen verglichen worden. Bei einer verzögerten Zündung der Wasserstoff-Gaswolke sind bei experimentellen Untersuchungen relevante Explosionsüberdrücke gemessen worden, die bei einer Gefährdungsbeurteilung berücksichtigt werden sollten. Hierfür ist ein Berechnungsansatz in Verbindung mit dem Multi-Energy-Modell entwickelt worden. T2 - DECHEMA-Fachgruppe Auswirkungen von Stoff-und Energiefreisetzungen CY - Frankfurt am Main, Germany DA - 27.04.2023 KW - Wasserstoff KW - Gasausbreitung KW - Gaswolkenexplosion PY - 2023 AN - OPUS4-57577 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Camplese, D. A1 - Chianese, C. A1 - Scarponi, G. A1 - Eberwein, Robert A1 - Otremba, Frank A1 - Cozzani, V. T1 - Analysis of high temperature degradation of multi-layer insulation (MLI) systems for liquid hydrogen storage tanks N2 - The interest in hydrogen-based green energy is increasing worldwide, and the same is true for hydrogen-powered vehicles. Among the possible solutions to store hydrogen in such vehicles, cryogenic tanks equipped with multi-layer insulation (MLI) are the most promising to increase the amount of energy stored per unit volume. However, MLI is affected by severe deterioration when exposed to an external source of heat such as a fire following a car accident, leaving the tank unprotected and leading to failure in a relatively short time. In this work, a one-dimensional model to evaluate MLI thermal degradation when a liquid hydrogen tank is exposed to fire is presented. The relevance of taking MLI degradation into account when simulating the pressure increase due to external fire exposure is here demonstrated through the analysis of several case studies. The results show that MLI systems performance depletes within a few minutes of exposure to hydrocarbon poolfire. T2 - ICheaP 16 CY - Naples, Italy DA - 21.05.2023 KW - LH2 KW - MLI KW - Tiefkalt KW - Fire KW - Tank PY - 2023 SN - 2283-9216 VL - 2023 SP - 1 EP - 6 PB - AIDIC Servizi S.r.l. AN - OPUS4-57584 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Maiwald, Michael A1 - Soruco Aloisio, Ricardo A1 - Meyer, Klas A1 - Klaus, Christian T1 - Auf dem Weg zu einer digitalen Qualitätsinfrastruktur - Eine Labor-Testplattform für die Integration von Sensoren und Messgeräten N2 - Um die internationale Spitzenposition deutscher Unternehmen der Prozessindustrie auch in Zukunft sicher zu stellen, müssen die Unternehmen ihre Prozesse und Geschäftsabläufe digitalisieren und gemeinsam mit der Forschung innovative neue Methoden, Apparate, Anlagen, Sensoren und Automatisierungstechnik sowie Datenkonzepte entwickeln. All dies erfordert den Aufbau neuer Fähigkeiten, Investition in Talente, interdisziplinäre Kommunikation zwischen verschiedenen Personen und Abteilungen und eine Bereitschaft zur Veränderung. KW - QI-Digital KW - Wasserstofftankstelle KW - IT-OT-Testplattform KW - Prozessindustrie PY - 2023 VL - 67 IS - 9 SP - 20 EP - 23 PB - Wiley-VCH CY - Weinheim AN - OPUS4-58461 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Askar, Enis A1 - Grunewald, Thomas T1 - Experimental Study on the ignition of hydrogen containing atmospheres by mechanical impacts N2 - In this presentation the results of the Project HySpark are shown. Mechanical impacts are among the important possible ignition sources to be considered in explosion protection. Hydrogen is particularly prone to be ignited by mechanical impacts compared to natural gas. The effectivity of mechanical impacts as ignition source is dependent from different parameters. In this work the effectivity of impacts as an ignition source for hydrogen containing atmospheres was studied experimentally depending on the inhomogeneous material pairing of the impact. Moreover it was studied, how the effectivity of mechanical impacts as ignition source changes when hydrogen is added to natural gas. T2 - International Conference on Hydrogen Safety (ICHS) 2023 CY - Quebec City, Canada DA - 19.09.2023 KW - Explosion protection KW - Ignition sources KW - Natural gas KW - Safety KW - Mechanical sparks PY - 2023 AN - OPUS4-58514 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Askar, Enis A1 - Grunewald, Thomas T1 - Experimental Study on the ignition of hydrogen containing atmospheres by mechanical impacts N2 - Mechanical friction, impact or abrasion is one of the ignition sources that must be avoided in hazardous zones with explosive atmospheres. The effectiveness of mechanical impacts as ignition source is dependent from several parameters including the minimum ignition energy of the explosive atmosphere, the properties of the material pairing, the kinetic impact energy or the impact velocity. By now there is no standard procedure to determine the effectiveness of mechanical impacts as ignition source. In this work the effectiveness of mechanical impacts with defined and reproducible kinetic impact energy as ignition source for hydrogen containing atmospheres was studied systematically in dependence from the inhomogeneous material pairing considering materials with practical relevance like stainless steel, low alloy steel, concrete, and non-iron-metals. It was found that ignition can be avoided, if non-iron metals are used in combination with different metallic materials, but in combination with concrete even the impact of non-iron-metals can be an effective ignition source if the kinetic impact energy is not further limited. Moreover, the consequence of hydrogen admixture to natural gas on the effectiveness of mechanical impacts as ignition source was studied. In many cases ignition of atmospheres containing natural gas by mechanical impacts is rather unlikely. No influence could be observed for admixtures up to 25% hydrogen and even more. The results are mainly relevant in the context of repurposing the natural gas grid or adding hydrogen to the natural gas grid. T2 - International Conference on Hydrogen Safety (ICHS) 2023 CY - Quebec City, Canada DA - 19.09.2023 KW - Explosion protection KW - Hydrogen transport in pipelines KW - ATEX KW - Hazardous areas KW - Mechanical sparks KW - Ignition source PY - 2023 SN - 979-12-210-4274-0 SP - 82 EP - 93 AN - OPUS4-58515 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Sauermoser-Yri, M. A1 - Veldurthi, N. A1 - Wölfle, C. H. A1 - Svartvatn, P. J. A1 - Flo Hoem, S. O. A1 - Lid, M. J. A1 - Bock, Robert A1 - Palko, J. A1 - Torgersen, J. T1 - On the porosity-dependent permeability and conductivity of triply periodic minimal surface based porous media N2 - With the fast development in the field of additive manufacturing, triply periodic minimal surface (TPMS) based porous media have recently found many uses in mechanical property tuning. However, there is still a lack of understanding in their porosity-dependent permeability and electrical as well as thermal conductivity. Here, we perform finite volume simulations on the solid and void domains of the Schoen gyroid (SG), Schwarz primitive (SP) and Schwarz primitive beam (SPB) TPMS with porosities between 63% and 88% in Ansys Fluent. A simple cubic lattice (CL) of equivalent porosity served as reference. The SPB and CL showed up to one order of magnitude higher permeabilities than the SG and SP. However, SG and SP have about 1.3 and 2.6 times the electrical and thermal conductivity of SPB and CL, respectively. Furthermore, the properties of SPB and CL are largely affected by the surface area density, whereas tortuosity variation does not impact permeability and conductivity to a major extent. Finally, empirical relations are adapted to describe the presented data and thus, they may enable future designers of TPMS based porous structures to fine-tune the geometries according to the requirements on permeability and electrical as well as thermal conductivity. KW - Metals and Alloys KW - Surfaces, Coatings and Films KW - Biomaterials KW - Ceramics and Composites PY - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-585250 SN - 2238-7854 VL - 27 SP - 585 EP - 599 PB - Elsevier B.V. AN - OPUS4-58525 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Eiben, Mario T1 - Die Aufgaben der BAM als zuständige Behörde im Gefahrgutbereich in Deutschland N2 - Die BAM ist zuständige Behörde in Deutschland für bestimmte Aufgaben im Gefahrgutbereich, die u. a. in § 8 der Gefahrgutverordnung Straße, Eisenbahn und Binnenschifffahrt (GGVSEB) und § 12 der Gefahrgutverordnung See (GGVSee) aufgeführt sind und hauptsächlich von den Abteilungen 2 und 3 wahrgenommen werden. So ist die BAM bspw. die in Deutschland für die Zulassung von Verpackungen und Tanks oder auch die Einstufung bestimmter gefährlicher Güter zuständige Stelle. Die BAM arbeitet des Weiteren als Kompetenzbehörde national und international in den entsprechenden Gremien mit und berät das BMDV in der Rechtsfortentwicklung der internationalen Vorschriften für den Gefahrguttransport. Dies geschieht u. a. durch die Mitarbeit im Ständigen Ausschuss Gefahrgutbeförderung (AGGB) des Gefahrgut-Verkehrs-Beirats beim BMDV und den zugehörigen Arbeitsgruppen, oder auch das Erstellen von Anträgen für Rechtsänderungen in den internationalen Vorschriften der Vereinten Nationen (UN) bzw. der Wirtschaftskommission für Europa der UN (UNECE) im Auftrag des BMDV. Die Beratung der betroffenen Wirtschaft und die Normungsarbeit sind weitere wichtige Themen. Die Expertise der BAM wird insbesondere durch Forschung im Gefahrgutbereich erhalten und weiter ausgebaut. Im Rahmen des Vortrags werden drei Forschungsbereiche vorgestellt, von denen zwei für die Energiewende von großer Bedeutung sind. T2 - 10. Deutsche Gefahrgut-Sicherheitstage CY - Nürburg, Germany DA - 13.09.2023 KW - Gefahrgut KW - Zuständige Behörde KW - Transport gefährlicher Güter KW - Gremienarbeit KW - Normung KW - Forschung KW - Gesetzliche Aufgaben PY - 2023 AN - OPUS4-58350 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Melzer, Michael A1 - Nattuveettil, Keerthana T1 - Digital Calibration Certificates: Transforming Efficiency and Safety in Hydrogen Refuelling Station N2 - Digital Certificates have emerged as a pivotal element in automation and digitalisation. This presentation highlights the added value of a digitalised metrology, its impact on the workflows on the calibration service providing and receiving side as well as their significance in enhancing the quality infrastructure. An overview of digital calibration certificates (DCC) for temperature sensors, including their structure and role in establishing trust in hydrogen refuelling stations (HRS), will be discussed. Additionally, it explores the impact of DCC on optimising efficiency in the hydrogen refuelling process. Exploring the paradigm shift brought about by Industry 4.0, where machines possess the ability to autonomously interpret digital certificate data, leads to streamlined safety checks and reduced human intervention. We will discuss how automated verification of machine-readable certificates contributes to maintaining and elevating safety standards over human-readable certificates. Furthermore, we will take a deep dive into the application of DCCs in HRS, showcasing how they enhance operational efficiency, accuracy, and maintenance by enabling real-time monitoring and adjustment of process data. By exploring the interdependent relationship between digital certificates, machine-readable environments, and HRS optimisation, this presentation will provide valuable insights into harnessing cutting-edge technologies to create a safer, more efficient, and technologically empowered hydrogen refuelling process. T2 - H2Safety@BAM : Hydrogen Colloquium CY - Online meeting DA - 06.09.2023 KW - Digital Calibration Certificate KW - Digitalization KW - Digital Traceability KW - QI-Digital KW - Hydrogen Infrastructure PY - 2023 UR - https://www.bam.de/Content/DE/Standardartikel/Themen/Energie/Wasserstoff/wasserstoff.html AN - OPUS4-58353 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Konert, Florian A1 - Campari, A. T1 - Evaluation of the tensile properties of X65 pipeline steel in compressed gaseous hydrogen using hollow specimens N2 - Hydrogen has great potential into the decarbonization process of the energy and transport sectors, thus helping to mitigate the urgent issue of global warming. It can be sustainably produced through water electrolysis with potentially zero emissions, and efficiently used in fuel cell systems. Despite its environmental advantages, hydrogen is an extremely flammable substance and its interaction with most metallic materials could result in their mechanical properties degradation to an extent that could make them inherently unsafe. Extensive material testing under realistic operating conditions is required to determine the criteria under which hydrogen-induced damage is to be expected. In-situ slow strain rate tensile (SSRT) test is an option that allow the quantification of the behavior of metals in hydrogenated environments. The standardized procedure for testing in-situ the pressurized gaseous hydrogen effect on metals consists of the utilization of an autoclave as a containment volume. Testing inside an autoclave is difficult, expensive, and time-consuming, and requires specialized equipment and trained personnel. A relatively recent method to circumvent these issues and provide affordable and reliable test results consists in using hollow specimens as the gas containment volume, thus applying the hydrogen pressure inside rather than outside the specimen. This experimental setup allows us to minimize the volume of hydrogen and perform the tests safely and effectively. This study focuses on the evaluation of tensile properties of X65 pipeline steel, which was in vervice for natural gas transport, tested in a high-pressure hydrogen environment using hollow specimens. A constant nominal strain rate of 1ꞏ10-6 s-1 is applied. Tests are performed with different manufacturing techniques for the drilling process, which results in difeerent surface conditions. The effect of the roughness on the HE was investigated. For the evaluation the effect on the reduced area at fracture (RA) and the elongation loss were determined. Further fractographic analysis were performed. In this way, this study provides insights on the applicability of novel, reliable, and safer testing method which can be used to assess HE, particularly in relation with hydrogen-induced loss of ductility in metallic material. T2 - ICSI 2023 | 5th International Conference on Structural Integrity CY - Funchal, Portugal DA - 29.8.2023 KW - Hydrogen KW - Hollow-specimen KW - SSRT KW - Ferritic steel KW - Hydrogen embrittlement PY - 2023 AN - OPUS4-58141 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Askar, Enis A1 - Holtappels, Kai T1 - Competence centre h2safety@bam N2 - In this presentation the current focus areas of the competence centre H2Safety@BAM are shown. The fields of competence include “Material properties and compatibility”, “Process and plant safety”, “Component testing, component safety and approval” as well as “Sensors, analytics and certified reference Materials. Moreover, the cross-cutting activities regarding “Education and training” and the testing possibilities and planed test facilities at the Test Site for Technical Safety (BAM TTS) are presented. T2 - VDMA P2X4A: P2X Technik-Treffen CY - Online meeting DA - 14.09.2023 KW - Hydrogen KW - Test area hydrogen safety KW - ModuH2Pipe PY - 2023 AN - OPUS4-58333 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Erxleben, Kjell A1 - Rhode, Michael A1 - Kaiser, Sebastian A1 - Kannengießer, Thomas T1 - Repair welding of in service hydrogen pipelines N2 - In the course of tomorrow's hydrogen-based energy transition, the construction of the corresponding infrastructure will play a central role. In that context, large diameter long-distance transmission pipelines for hydrogen will be the backbone in the European Union with service pressures from 70 to 90 bar (e.g., depending on national regulations). It is a major goal to rededicate the existing LNG infrastructure despite the necessity of new pipelines. From that point of view repairing of such transmissions pipelines via welding can be necessary. For the LNG infrastructure, it is state of the art that repair welding is conducted at pipelines under service, i.e., the LNG is still flowing as pressurized gas in the steel pipes. The reason is that a shut-down of large diameter pipelines is not so easy or sometimes impossible. In fact, as long no oxygen enters the pipeline, there would be any combustion or (in the worst case) explosion. At the moment, it is entirely open if current repair welding procedures for LNG pipelines can be transferred to pure hydrogen pipelines. In opposite to LNG, hydrogen can be way easier absorbed to the pipeline steels and diffuses through the material. If it accumulates in susceptible regions, i.e., in the welded joint, hydrogen assisted embrittlement could occur. The planned welding procedure requires a so-called preheating and maintenance of the weld joint of up to 300°C for several hours. This temperature is way higher compared to the typical service temperature of max. 40 to 50°C at operational pressures of 100 bar. In accordance to API 941, these low-alloyed pipeline steels are subjected to short-term service loads, which they are not designed for. For that reason, a collaborative project between BAM and DVGW (German Association for Gas and Water professions) was initiated in 2022 to answer the following questions by experiments and numerical simulation of: (1) How many hydrogen is additionally absorbed during the heating of the material to max. 300°C under remaining operational pressures? (2) Is the hydrogen concentration sufficient to reach a critical condition? (3) Which material and weld microstructure is the most susceptible? (4) Is there a significant difference in the repair welding behavior of LNG pipelines that had been already in use for long-term? (5) Which welding parameters and joint dimensions must be ensured for safe repair welding repair of typical pipelines? For that reason, the present study gives an overview on the current practice in repair welding of in-service pipelines, the industrial importance of this topic for the hydrogen-based energy transition and summarizes first results. T2 - Eurocorr 2023 - The European Corrosion Congress CY - Brussels, Belgium DA - 27.08.2023 KW - Hydrogen KW - Repair Welding KW - Pipeline KW - In-service KW - High-pressure PY - 2023 AN - OPUS4-58334 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Erxleben, Kjell A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Hydrogen determination in welded metallic materials: Necessity and challenges N2 - In the course of tomorrow's hydrogen-based energy transition, the construction of the corresponding infrastructure will play a central role. The majority of materials used to date are typically welded for component fabrication. In that context, steels are widely applied and can be prone to hydrogen embrittlement. For the evaluation of any hydrogen effect on, for example, the mechanical properties of a welded metallic material, the hydrogen content must be precisely determined. According to ISO 3690, carrier gas hot extraction (CGHE) can be used. In addition to the pure quantification of hydrogen, thermal desorption analysis (TDA) with varied heating rates can be used to determine and evaluate the bonding state at microstructural defects in the material. For both techniques, experimental and measurement influences have to be considered, which have a great effect on the result. For CGHE, for example, ISO 3690 suggests different sample geometries as well as minimum extraction times. The present study summarizes results and experiences of numerous investigations with different sample temperatures and geometries (ISO 3690 type B and cylindrical TDA samples) regarding: the influence of the sample surface (polished/welded), measurement accuracies depending on the sample volume. In particular, a deviating extraction temperature to the set temperature, can significantly falsify the measurement results. Based on the results, methods are shown to quickly reach the desired extraction temperature without having to physically interfere with the measurement equipment. This serves to substantially improve the reliability of hydrogen measurement through increased signal stability and accelerated hydrogen desorption. In general, an independent temperature measurement with dummy samples for the selected heating procedure is advisable to exclude possible unwanted temperature influences already before the measurement. In addition (and way more important), the methods described can be transferred directly to industrial applications. T2 - Eurocorr 2023 - The European Corrosion Congress CY - Brussels, Belgium DA - 27.08.2023 KW - Hydrogen KW - Carrier gas hot extraction KW - Welding KW - ISO 3690 KW - Measurement PY - 2023 AN - OPUS4-58305 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kannengießer, Thomas A1 - Mente, Tobias T1 - Zuverlässige Wasserstoffbestimmung in Metallen und ihren Schweißverbindungen: Parameter, Einflüsse, Grenzen N2 - Im Zuge der wasserstoffbasierten Energiewirtschaft von morgen, kommt der Errichtung der dementsprechenden Infrastruktur die zentrale Rolle zu. Der überwiegende Teil bisher eingesetzter und meist geschweißter Werkstoffe, wie Stähle, kann unter bestimmten Bedingungen zur Wasserstoffversprödung neigen. Dies umfasst die klassische verzögerte Kaltrissbildung während der Schweißverarbeitung als auch Versprödungsphänomene während des Betriebs. Für die Bewertung eines jeden Wasserstoffeffektes auf bspw. die mechanischen Eigenschaften eines geschweißten metallischen Werkstoffes, muss der Wasserstoffgehalt präzise bestimmt werden, Im Fall von Schweißnähten ist die beispielsweise nach der ISO 3690, die klassische isotherme Trägergas-Heißextraktion (TGHE). Die TGHE basiert dabei auf der beschleunigten Wasserstoffentgasung aufgrund der thermischen Aktivierung des Wasserstoffs bei erhöhten Temperaturen. Neben der reinen Quantifizierung des Wasserstoffs, kann über die thermische Desorptionsanalyse (TDA) mit variierten Heizraten, der Bindungszustand an mikrostrukturellen Defekten im Material festgestellt und bewertet werden. Für beide Techniken sind experimentelle und messtechnische Einflüsse zu beachten, die großen Effekt auf das Ergebnis haben. Für die TGHE schlägt die ISO 3690 schlägt beispielswiese verschiedene Probengeometrien sowie Mindestextraktionszeiten vor. Die vorliegende Studie fasst Ergebnisse und Erfahrungen zahlreicher Untersuchungen an der Bundesanstalt für Materialforschung und -prüfung (BAM) mit unterschiedlichen Probentemperaturen und Geometrien (ISO 3690 Typ B und zylindrische TDA-Proben) zusammen hinsichtlich: Einfluss der Probenoberfläche (poliert/geschweißt), Messgenauigkeiten in Abhängigkeit des Probenvolumens sowie die unzureichende Überwachung des Effektes des PI-Reglers auf die Extraktionstemperatur. Insbesondere eine abweichende Extraktionstemperatur zur eingestellten Temperatur, kann die Messergebnisse wesentlich verfälschen. Basierend auf den Ergebnissen werden Methoden aufgezeigt, um schnell die gewünschte Extraktionstemperatur zu erreichen, ohne physisch in das Messequipment eingreifen zu müssen. Dies dient der wesentlichen Verbesserung der Zuverlässigkeit der Wasserstoffmessung durch erhöhte Signalstabilität und beschleunigte Wasserstoffdesorption. Im Allgemeinen ist eine unabhängige Temperaturmessung mit Dummy-Proben für die gewählte Heizprozedur angeraten, um mögliche unerwünschte Temperatureinflüsse bereits vor der Messung auszuschließen. Die beschriebenen Methoden können ohne großen Aufwand direkt in die industrielle Anwendung überführt werden. T2 - DVS Congress 2023 CY - Essen, Germany DA - 11.09.2023 KW - Wasserstoff KW - Messung KW - Trägergasheißextraktion KW - ISO 3690 KW - Schweißverbindung PY - 2023 AN - OPUS4-58307 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kannengießer, Thomas A1 - Mente, Tobias T1 - Zuverlässige Wasserstoff Bestimmung in Metallen und ihren Schweißverbindungen: Parameter, Einflüsse, Grenzen N2 - Im Zuge der wasserstoffbasierten Energiewirtschaft von morgen, kommt der Errichtung der dementsprechenden Infrastruktur die zentrale Rolle zu. Der überwiegende Teil bisher eingesetzter und meist geschweißter Werkstoffe, wie Stähle, kann unter bestimmten Bedingungen zur Wasserstoffversprödung neigen. Dies umfasst die klassische verzögerte Kaltrissbildung während der Schweißverarbeitung als auch Versprödungsphänomene während des Betriebs. Für die Bewertung eines jeden Wasserstoffeffektes auf bspw. die mechanischen Eigenschaften eines geschweißten metallischen Werkstoffes, muss der Wasserstoffgehalt präzise bestimmt werden, Im Fall von Schweißnähten ist die beispielsweise nach der ISO 3690, die klassische isotherme Trägergas-Heißextraktion (TGHE). Die TGHE basiert dabei auf der beschleunigten Wasserstoffentgasung aufgrund der thermischen Aktivierung des Wasserstoffs bei erhöhten Temperaturen. Neben der reinen Quantifizierung des Wasserstoffs, kann über die thermische Desorptionsanalyse (TDA) mit variierten Heizraten, der Bindungszustand an mikrostrukturellen Defekten im Material festgestellt und bewertet werden. Für beide Techniken sind experimentelle und messtechnische Einflüsse zu beachten, die großen Effekt auf das Ergebnis haben. Für die TGHE schlägt die ISO 3690 schlägt beispielswiese verschiedene Probengeometrien sowie Mindestextraktionszeiten vor. Die vorliegende Studie fasst Ergebnisse und Erfahrungen zahlreicher Untersuchungen an der Bundesanstalt für Materialforschung und -prüfung (BAM) mit unterschiedlichen Probentemperaturen und Geometrien (ISO 3690 Typ B und zylindrische TDA-Proben) zusammen hinsichtlich: Einfluss der Probenoberfläche (poliert/geschweißt), Messgenauigkeiten in Abhängigkeit des Probenvolumens sowie die unzureichende Überwachung des Effektes des PI-Reglers auf die Extraktionstemperatur. Insbesondere eine abweichende Extraktionstemperatur zur eingestellten Temperatur, kann die Messergebnisse wesentlich verfälschen. Basierend auf den Ergebnissen werden Methoden aufgezeigt, um schnell die gewünschte Extraktionstemperatur zu erreichen, ohne physisch in das Messequipment eingreifen zu müssen. Dies dient der wesentlichen Verbesserung der Zuverlässigkeit der Wasserstoffmessung durch erhöhte Signalstabilität und beschleunigte Wasserstoffdesorption. Im Allgemeinen ist eine unabhängige Temperaturmessung mit Dummy-Proben für die gewählte Heizprozedur angeraten, um mögliche unerwünschte Temperatureinflüsse bereits vor der Messung auszuschließen. Die beschriebenen Methoden können ohne großen Aufwand direkt in die industrielle Anwendung überführt werden. T2 - DVS Congress 2023 CY - Essen, Germany DA - 11.09.2023 KW - Wasserstoff KW - Schweißen KW - Forschung KW - ISO 3690 PY - 2023 SN - 978-3-96144-230-0 VL - 389 SP - 435 EP - 442 PB - DVS Media GmbH CY - Düsseldorf AN - OPUS4-58309 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Holtappels, Kai A1 - Mair, Georg A1 - Kluge, Martin A1 - Habib, Abdel Karim T1 - Safety Aspects for Hydrogen Technologies - H2Safety@BAM N2 - Hydrogen is a central component of the energy transition and the European Green Deal for a climate-neutral Europe. To be able to achieve the targets defined by 2045, the EU and the German government have drafted a framework for action and are making long-term investments in research, development and the rapid implementation of innovative hydrogen technologies. The conditions for a successful energy transition and the economic use of green hydrogen as a clean energy carrier are Hydrogen readiness and a rapid market ramp-up, as well as the establishment of the necessary value chains in the national and European framework. Reliable quality and safety standards are the prerequisite for ensuring safety of supply and environmental compatibility and for creating trust in these technologies. BAM has bundled its expertise in the field of hydrogen technologies into a competence center H2Safety@BAM to create confidence in the technology and to support the hydrogen strategies of the German government and the EU. The topic of hydrogen has been current at BAM for more than one hundred years and is also currently the focus of numerous research and cooperation activities. The competence centre H2Safety@BAM and its vision of “We build trust in hydrogen technologies” will be presented with its many safety-related topics, which can be found throughout the entire hydrogen value chain. Two deep dives will present the results on projects dealing with the design-to-cost issue of classical pressurized gas storage containments and the consequences of the release of liquid hydrogen, which will be roughly compared to the release of ammonia. T2 - 25. Kalorimetrietage CY - Braunschweig, Germany DA - 31.05.2023 KW - H2Safety@BAM KW - Safety KW - Hydrogen KW - Gas cylinders KW - DELFIN KW - LH2 KW - Hydrogen release KW - Rapid phase transition KW - Consequences KW - Cyro storage tanks PY - 2023 AN - OPUS4-57629 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Holtappels, Kai A1 - Patzelt, Anne-Katrin A1 - Orellana Pérez, Teresa T1 - Education and Training Activities of the Competence Centre H2Safety@BAM N2 - Green hydrogen is seen as a cornerstone of the energy transition and decarbonization efforts of industry, transportation and the utilities sectors. The binding goal of the EU and Germany to reduce net zero carbon emissions by 2045 will substantially increase the demand for green hydrogen as an important carbon-free substitute for fossil fuels. The World Energy Council expects an annual demand of 60 million tons (equivalent 2.000 TWh) hydrogen and its derivatives (especially ammonia and methanol) in the EU until 2050. lt is estimated that the EU can produce less than half of its needed hydrogen by 2050, and will need to import the rest. African coastal countries therefore have the opportunity to become net exporters of their carbon-free regenerative energy in the form of hydrogen and its derivatives and to enable better economic growth and generate wealth on the African continent. The large-scale production, transport and storage of green hydrogen will require large investments in the development of knowledge and training, logistics and capital goods - for both the EU and African countries. BAM is already facing the lack of skilled workers and hydrogen experts. By bundling its expertise in the field of hydrogen technologies into a competence center H2Safety@BAM to create confidence in the technology The topic of hydrogen has been current at BAM for more than one hundred years and is also currently the focus of numerous research and cooperation activities. In order to transfer its expertise in this field BAM developed a number of education activities. The centre of all activities is the Graduate School “Trustworthy Hydrogen”, established in 2022 together with the BTU Cottbus. In the presentation all activities and especially those of the graduate school and details of the cooperation with the University of Namibia are shown. T2 - German-African Green Hydrogen Forum CY - Bernburg (Saale), Germany DA - 23.05.2023 KW - H2Safety@BAM KW - Graduate School KW - Trustworthy Hydrogen KW - Education KW - Skilled workers PY - 2023 AN - OPUS4-57633 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Asna Ashari, Parsa A1 - Oh, H.-C. A1 - Koch, Claudia T1 - Drivers and Barriers to the Adoption of Hydrogen Technologies in Germany and the Republic of Korea - A Multidimensional Stakeholder Analysis N2 - This presentation was held at the Eu-SPRI 2023 Conference and provides a comparative analysis of the hydrogen economies in Germany and the Republic of Korea, highlighting similarities and differences. Thereupon, the presentation delves into the requirements for the development of a hydrogen economy, including recommendations for policymaking. T2 - The Eu-SPRI Annual Conference 2023 CY - Brighton, UK DA - 14.06.2023 KW - Country comparison KW - Hydrogen economy KW - Technological innovation system KW - Multidimensional hydrogen technology adoption PY - 2023 AN - OPUS4-57716 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Popiela, Bartosz T1 - Influence of manufacturing process related residual stresses in wound composite material on the operational safety of H2 pressure vessels: PhD Topic Introduction N2 - Short introduction of the PhD Topic 5 in the BTU-BAM Graduate School "Trustworthy Hydrogen". Description of the objectives, deliverables and expected added value of the thesis. T2 - Introduction Week - BTU-BAM Graduate School "Trustworthy Hydrogen" CY - Berlin, Germany DA - 16.01.2023 KW - Residual stress KW - Composite KW - Pressure vessel KW - Hydrogen PY - 2023 AN - OPUS4-56882 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Asna Ashari, Parsa A1 - Oh, H. A1 - Koch, Claudia T1 - Drivers and Barriers to the Adoption of Hydrogen Technologies in Germany and the Republic of Korea - A Multidimensional Stakeholder Analysis N2 - The presentation provides a comparative analysis of the hydrogen economies in Germany and the Republic of Korea, highlighting similarities and differences. Thereupon, the presentation delves into the requirements for the development of a hydrogen economy, including the political and regulatory framework. T2 - Colloquium of the Research Institute for Sustainability (RIFS) Helmholtz Centre Potsdam - Research Group "Geopolitics of Transitions in Energy and Industry" CY - Online meeting DA - 05.06.2023 KW - Hydrogen economy KW - Technological innovation system KW - Country comparison PY - 2023 AN - OPUS4-57606 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Lu, Xin T1 - Introduction to group 8.6 N2 - A brief introduction of group 8.6 and the research work on the application of fiber sensing. T2 - DIU Besuch CY - Berlin, Germany DA - 05.05.2023 KW - Structural health monitoring KW - Distributed fiber sensing KW - Distributed acoustic sensing KW - Practical application PY - 2023 AN - OPUS4-57430 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Bresch, Sophie A1 - Höhne, Patrick A1 - Lindemann, Franziska A1 - Koppert, Ralf A1 - Mieller, Björn T1 - Chemical resistance of commercial LTCC against thin film etching media N2 - Low-temperature co-fired ceramics (LTCC) are used to fabricate robust multilayer circuits. Typically, thick-film technology is applied for metallization. For specific sensor applications, thin films are deposited directly on the as-fired LTCC-surface. These deposited thin films are structured either by lift-off or by etching. The latter is less error-prone and thus preferred in industry provided the selected materials allow it. 200 nm Ni-thin films were deposited on three different commercial constrained-sintered LTCC (CT708, CT800 and DP951) by electron beam physical vapour deposition. The thin-films were structured by covering corresponding sections with a UV-curable photo resisn and subsequent etching of the uncovered surface, leaving behind the desired structure. The etched Ni-thin film showed high difference in failure rate and sheet resistance regarding the used LTCC-material. DP951 had the lowest sheet resistance and no failure, whereas the CT800 had a failure rate of 40 %. The LTCC with high failure rate showed a strong chemical attack by the used etching medium. To address this phenomenon, the chemical resistance of the three different commercial LTCC (CT708, CT800 and DP951) against four different commonly used etching media (sulphuric acid, phosphoric acid, aqua regia, and hydrofluoric acid) is investigated. The dissolved ions are analyzed by ICP-OES to correlate the LTCC-composition and its chemical resistance. T2 - KERAMIK 2023 / 98. DKG-Jahrestagung CY - Jena, Germany DA - 27.03.2023 KW - Glass-ceramics KW - Hydrogen sensors KW - Acids PY - 2023 AN - OPUS4-57273 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Askar, Enis T1 - KIC Start 2022 H2 Safety - Explosion Protection N2 - This is a digital lecture on Explosion Protection for Hydrogen Applications. It was designed in context with the project "KICstartH2 Accelerating Sustainable Hydrogen Uptake Through Innovation and Education" and integrated in a teaching module of the University of Birmingham. It is divided in five parts: Introduction, Avoiding Explosive Mixtures, Avoiding Ignition Sources, Mitigation of Consequences and Summary & Comparison. T2 - KICStartH2 Lecture at the University of Birmingham CY - Online meeting DA - 31.10.2022 KW - Safety Related Properties KW - Ignition KW - Hydrogen Safety KW - Explosive Mixtures KW - Fuel Gases PY - 2022 AN - OPUS4-57278 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Holtappels, Kai A1 - Woitzek, Andreas A1 - Mair, Georg T1 - Competence Centre H2Safety@BAM - We build trust in hydrogen technologies N2 - Der Beraterkreis Gase wird regelmäßig von der Berufsgenossenschaft Rohstoffe und chemische Industrie, Bereich Prävention, organisiert. Die Veranstaltung dient dem Austausch zwischen Wissenschaft und Wirtschaft zu aktuellen sicherheitstechnischen Fragestellungen rund um Sauerstoff und Wasserstoff. In diesem Zusammenhang hat die BAM einen Überblick über ihre verschiedenen Aktivitäten des Kompetenzzentrums H2Safety@BAM vorgestellt, die sich in der gesamten Wasserstoffwertschöpfungskette wiederfinden. Darüber hinaus wurden die Planungen für den Ausbau der Prüfinfrastruktur auf dem Testgelände Technische Sicherheit der BAM vorgestellt. Es wurden auch die Ergebnisse des Projekts DELFIN zur Sicherheit von Druckgasspeichern, den Freisetzungsuntersuchungen von Flüssigwasserstoff sowie die Unterfeuerung entsprechender Kryospeicher und die Planungen zum Projekt ModuH2Pipe@BAM präsentiert. Den Abschluss bildeten die aktuellen Empfehlungen des Forschungsnetzwerkes Wasserstoff. N2 - The Gases Advisory Group is organized regularly by the Prevention Division of the German Employer's Liability Insurance Association for Raw Materials and the Chemical Industry. The event serves as an exchange between science and industry on current safety-related issues concerning oxygen and hydrogen. In this context, BAM presented an overview of its various activities of the competence center H2Safety@BAM, which are reflected in the entire hydrogen value chain. In addition, the plans for the expansion of the test infrastructure at BAM's Technical Safety Test Site were presented. The results of the DELFIN project on the safety of pressurized gas storage tanks, the release tests of liquid hydrogen as well as the underfiring of corresponding cryogenic storage tanks and the plans for the ModuH2Pipe@BAM project were also presented. The presentation concluded with the current recommendations of the Hydrogen Research Network. T2 - BG RCI Beraterkreis Gase CY - Berlin, Germany DA - 25.04.2023 KW - Berufsgenossenschaft KW - Sicherheit von Wasserstofftechnologien KW - H2Safety@BAM KW - modulare Pipelineanlage PY - 2023 AN - OPUS4-57398 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Fügetechnik in Wasserstofftechnologien Ein aktueller Überblick N2 - Der Vortrag gibt einen kurzen Überblick über die Bedeutung der Fügetechnik in Wasserstofftechnologien und über zukünftige Herausforderungen. Fügetechnologien, insbesondere die Schweißtechnik, haben dabei wesentliche Bedeutung für die Umsetzung von technischen Komponenten der Wasserstofftechnologien. Forschungsschwerpunkte ergeben sich insbesondere für die Erzeugung und den Transport des Wasserstoffs. T2 - Vortragsreihe des DVS Bezirksverbandes Mannheim-Ludwigshafen CY - Online meeting DA - 27.04.2023 KW - Wasserstoff KW - Schweißen KW - Studie PY - 2023 AN - OPUS4-57411 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Eberwein, Robert T1 - Systems for the storage of cryogenic liquefied gases N2 - Liquefied Hydrogen (LH2) or Liquefied Natural Gas (LNG) establish themselves as important energy carriers in the transport sector. Its storage requires tanks with Thermal Super Insulations (TSI) to keep the transported fluid cold. The presentation includes 2 main topics of the department. First TSI has proven itself in various applications over a long time, but not in the land transport sector, where accidents involving collisions, fires, and their combination are to be expected. To analyze fire scenarios a High-Temperature Thermal Vacuum Chamber (HTTVC) was developed that allows the thermal loading of thermal insulation material in a vacuum and measuring the heat flow through the TSI in parallel. Within this chamber, 5 samples were tested regarding 3 different types of MLI, rock wool, and perlites. In the presentation, the results are presented. Second, the studying of accident scenarios enables the improvement of thermal superinsulation and to find novel insulation concepts. This is necessary for LH2 large-scale storages, for which state-of-the-art solutions are not suitable. Within the presentation, a novel insulation concept will be presented. T2 - Specialist Meeting - Threats to HAZMAT Pressure Vessels and BLEVE CY - Berlin, Germany DA - 25.04.2023 KW - Crygenic KW - LH2 KW - LNG KW - Fire KW - MLI PY - 2023 AN - OPUS4-57414 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Grimault de Freitas, Tomás T1 - Utilization of the Tubular Specimen Technique for the Qualification of Metallic Materials for Hydrogen Technologies N2 - As the world shifts to a decarbonized economy, the demand for hydrogen-based technologies is rapidly increasing. In order to make optimal use of hydrogen as an energy carrier, the infrastructure for hydrogen storage and transport in particular, must meet high technical safety standards. The indispensable basis for such safety assessments are the material properties, which must be evaluated under operating conditions that are as real as possible. The conventional method for the assessment of the material properties in gaseous hydrogen is conducted by testing materials in high-pressure hydrogen gas in a pressure vessel (autoclave). It is an established method that allows to perform common standardized tests such as tensile, fatigue and crack growth tests under varying hydrogen conditions. However, this method is complex and entails high costs due to extensive safety regulations. The hollow specimen technique is a more efficient test method, which can be used to assess the mechanical properties of materials under high-pressure hydrogen gas. The procedure is conducted by enclosing high-pressure gas into a hole along the axis of the tensile test specimen. Recently, this method has been successfully performed at pressures up to 1000 bar and over a wide range of temperatures. Due to the low hydrogen volume needed, this method requires minimal safety regulation; therefore, the costs are reduced when compared to the conventional autoclave technique. This method is now in a standardization process, which has been initiated by Japan as a new working package in ISO (TC 164/SC 1/WG 9). The following contribution presents preliminary results obtained testing common grades of metastable austenitic stainless steel. For this purpose, the mechanical properties and fracture surface of solid and tubular specimens were assessed and compared using slow strain rate tensile (SSRT) test as part of the preliminary work at the Fraunhofer IWM. In a similar way, pipeline steels evaluated under hydrogen atmospheres using the geometry adapted by BAM will be presented. Within the framework of the TransHyDE flagship project, more results with the goal of supporting the standardization of the hollow specimen technique are expected to be obtained. T2 - ZwickRoell Forum for High-Temperature Testing CY - Fürstenfeld, Austria DA - 03.05.2023 KW - Hydrogen KW - H2Hohlzug KW - TransHyDE KW - Tubular specimen technique KW - Innovation PY - 2023 AN - OPUS4-57417 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Welding (and joining) technologies for the hydrogen economy - a short overview N2 - This study gives an overview on the important field of joining processes for component fabrication in hydrogen technologies. The current main issues and future perspectives are highlighted for the different technological field of hydrogen generation, storage, transport and use. In addition, the emerging field of additive manufacturing is included. Some remarks are given for standardization and regulations. T2 - Meeting of the European Welding Association (EWA), Executive Committee (EC) 1 CY - Frankfurt am Main, Germany DA - 22.03.2023 KW - Hydrogen KW - Welding KW - Research KW - Study PY - 2023 AN - OPUS4-57222 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Maiwald, Michael T1 - Metrology for Advanced Hydrogen Storage Solutions (MefHySto) – Overviewand Tangible Results N2 - The European project MefHySto addresses the need of large-scale energy storage, which is required for a shift to renewable energy supply. The project is funded by the European Metrology Programme on Innovation and Research (EMPIR) and consists of 14 consortium partners from all over Europe (www.mefhysto.eu). It is demonstrated, how MefHySto is contributing to the EMN for Energy Gases aiming at prioritisation of the measurement gaps and challenges interacting with the EMN stakeholders. T2 - European Metrology Network Energy Gases “Measurement Solutions for Energy Gases” Workshop CY - Lisbon, Portugal DA - 21.03.2023 KW - MefHySto KW - EMPIR KW - Hydrogen Storage KW - Hydrogen Metrology KW - Hydrogen Purity KW - Geological Storage PY - 2023 AN - OPUS4-57193 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Holtappels, Kai T1 - Forschungsnetzwerk Wasserstoff N2 - Die BAM beteiligt sich sehr aktiv am Forschungsnetzwerk Wasserstoff, eines von neun Forschungsnetzwerken Energie der Bundesregierung. Der Vortragende ist Sprecher des Cluster IV "Sicherheit, Akzeptanz und nachhaltige Markteinführung" vom Forschungsnetzwerk und wurde vom Geschäftsführer des Center of Safety Excellence GmbH gebeten, die aktuellen Forschungsbedarfe des Netzwerkes, die in der Expertenempfehlung 2023 dem BMWK übermittelt wurden, vorzustellen. T2 - Beiratssitzung des Center of Safety Excellence GmbH CY - Online meeting DA - 20.04.2023 KW - H2Safety@BAM KW - Forschungsnetzwerk Wasserstoff KW - Forschungsbedarfe KW - Sicherheit PY - 2023 AN - OPUS4-57373 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - RPRT A1 - Askar, Enis A1 - Grunewald, Thomas T1 - Entzündung von wasserstoffhaltigen Atmosphären durch mechanisch erzeugte Funken („HySpark“) N2 - Im Zuge der Energiewende finden Wasserstofftechnologien in der industriellen Praxis und im öffentlichen Raum immer mehr Anwendung. Beim Einsatz von Wasserstoff als Ersatz für andere fossile Energieträger wie Erdgas müssen u.a. Explosionsschutzmaßnahmen überprüft und angepasst werden. Eine Art von Explosionsschutzmaßnahmen ist die Vermeidung von Zündquellen. Gemäß den einschlägigen Regelwerken ist die Bildung von Funken oder heißen Aufschlagstellen beim mechanischen Schlag eine mögliche Zündquelle, die vor allem beim Wasserstoff berücksichtigt werden muss. Die Zündwirksamkeit ist dabei u.a. stark von der Werkstoffpaarung und der kinetischen Schlagenergie abhängig. Der Einsatz von funkenarmen Werkzeugen aus schwer oxidierbaren Nicht-Eisen-Metallen in explosionsgefährdeten Bereichen kann z.B. eine Maßnahme sein, um diese Zündquelle zu vermeiden und wird als solche in den Regelwerken benannt. Es gibt aber kaum Quellen, die dabei helfen die Zündwirksamkeit bei Schlägen mit heterogenen Materialpaarungen einzuschätzen. In dieser Arbeit wurde zu diesem Zweck die Zündwirksamkeit von mechanischen Schlägen mit unterschiedlichen, auch nicht-metallischen Schlagpartnern in wasserstoffhaltigen Atmosphären systematisch untersucht. KW - Explosionsschutz KW - Zündquelle KW - ATEX KW - Erdgas KW - Mechanischer Schlag PY - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-579869 SP - 1 EP - 28 AN - OPUS4-57986 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Karapanagiotis, Christos A1 - Krebber, Katerina T1 - Machine Learning Approaches in Brillouin Distributed Fiber Optic Sensors N2 - This paper presents reported machine learning approaches in the field of Brillouin distributed fiber optic sensors (DFOSs). The increasing popularity of Brillouin DFOSs stems from their capability to continuously monitor temperature and strain along kilometer-long optical fibers, rendering them attractive for industrial applications, such as the structural health monitoring of large civil infrastructures and pipelines. In recent years, machine learning has been integrated into the Brillouin DFOS signal processing, resulting in fast and enhanced temperature, strain, and humidity measurements without increasing the system’s cost. Machine learning has also contributed to enhanced spatial resolution in Brillouin optical time domain analysis (BOTDA) systems and shorter measurement times in Brillouin optical frequency domain analysis (BOFDA) systems. This paper provides an overview of the applied machine learning methodologies in Brillouin DFOSs, as well as future perspectives in this area. KW - Distributed fiber optic sensors KW - BOTDA KW - BOFDA KW - Machine learning KW - Strain and temperature measurements KW - Artificial neural networks PY - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-580145 VL - 23 IS - 13 SP - 1 EP - 26 PB - MDPI AN - OPUS4-58014 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Bresch, Sophie A1 - Höhne, Patrick A1 - Koppert, R. A1 - Mieller, Björn T1 - Thin-film capability of commercial LTCC N2 - Low-temperature co-fired ceramics (LTCC) are used to fabricate multilayer circuits which are robust in harsh environments. Thick-film technology is well established for the metallization of circuit boards and microsystems. For specific sensor applications, the combination of LTCC and thin-film technology is advantageous to reach higher structure resolutions. Due to the high roughness of as-fired LTCC surfaces compared with silicon-wafers, the deposition of low-defect- films with narrowly specified properties is challenging. The deposited thin-films are structured either by lift-off or by etching. The latter is less error-prone and thus preferred in industry provided the selected materials allow it. There is spare literature about thin films on commercial LTCC comparing different material systems or sintering techniques. For developing thin-film sensors on multilayer circuits it is crucial to identify thin-film-compatible commercial LTCC material as well as the crucial surface properties. In this work we evaluate the thin-film capability of different LTCC compositions and surface qualities. To evaluate the influence of the material composition on the thin film capability, 200 nm Ni-thin films were deposited on three different constrained-sintered LTCC (CT708, CT800 and DP951) by electron beam physical vapour deposition. The effect of surface quality was assessed by thin-film deposition on free-sintered, pressure-assisted sintered, and polished DP951. The thin-films were structured by covering corresponding sections with a UV-curable photo resin and subsequent etching of the uncovered surface, leaving behind the desired structure. The etched Ni-thin films showed high difference in failure rate and sheet resistance regarding the used LTCC-material. DP951 had the lowest sheet resistance and no failure, whereas CT800 had a high sheet resistance and a failure rate of 40 %. These results are correlated with surface roughness of the LTCC, scanning electron micrographs of the deposited thin-films, and the chemical resistance of the LTCC against commonly used etching media. Contrary to the expectations, no correlation between roughness and thin-film capability was found. The LTCC with high failure rate showed a strong chemical attack by the used etching medium. Additionally, the adhesion of thin-films on DP951 is better than on CT708 and CT800. T2 - XVIII EcerS Conference & Exhibition CY - Lyon, France DA - 02.07.2023 KW - Glass-ceramics KW - Etching KW - Resistance PY - 2023 AN - OPUS4-58019 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Jaunich, Matthias A1 - Kömmling, Anja A1 - Zaghdoudi, Maha T1 - Comparison of ageing behaviour of O-ring seals under hydrogen and air N2 - Elastomeric seals are essential components in the infrastructure which prevent leakage of gas and proper function of technical devices and are therefore highly safety relevant. For proper function a remaining resilience and tolerance to pressure changes is required. The ageing of elastomers is an undesirable but inevitable process leading to a limited lifetime of rubber products such as seals. Independent of the application, as e.g. automotive, piping or container applications, a long lifetime or at least a timely exchange of a seal before occurrence of critical failure is desired. Hydrogen is a key element for the energy turnaround and therefore the compatibility of seals with hydrogen is essential. In addition to the effect of hydrogen uptake and release, which might also cause destructive effects such as rapid gas decompression, ageing at high temperature under hydrogen atmosphere is of interest too. Most of the existing work is addressing the performance of new materials and comprises only very limited investigations concerning long-term use and the behaviour of aged materials in contact with hydrogen. As ageing can lead to substantial changes of material properties, it must be evaluated whether these changes are beneficial or deteriorating for the component function. In this work we present and compare results of the characterisation of three sealing materials (EPDM, HNBR, FKM) after ageing at high temperature under hydrogen and air. Despite the common assumption that ageing under hydrogen atmosphere should be less severe for the material in comparison to air ageing, this is not the case for every material. T2 - RubberCon 2023 CY - Edinburgh, Scotland DA - 09.05.2023 KW - Hydrogen KW - Ageing KW - Seal PY - 2023 AN - OPUS4-58178 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Michler, T. A1 - Freitas, Tomas A1 - Oesterlin, H. A1 - Fischer, C. A1 - Wackermann, K. A1 - Ebling, F. T1 - Tensile testing in high pressure gaseous hydrogen using conventional and tubular specimens: Austenitic stainless steels N2 - Eight commercial austenitic stainless steels were tensile tested in reference atmosphere, in gaseous high-pressure hydrogen and in gaseous hydrogen precharged condition using conventional (CS) and tubular specimens (TS). For all configurations, 0.2 yield strength and ultimate tensile strength were comparable. In reference atmosphere, reduction of area of CS was higher compared to TS, whereas in gaseous high pressure hydrogen reduction of area of CS was lower compared to TS. In gaseous hydrogen precharged condition reduction of area of CS and TS were comparable for the severely affected grades. The differences in necking behavior between CS and TS are explained by different competitions between necking and hydrogen assisted crack initiation and growth especially for the tests in high pressure hydrogen gas. KW - Hydrogen KW - Hydrogen Embrittlement KW - Tensile Test KW - Conventional and Tubular Specimen KW - Austenitic Stainless Steel KW - High Pressure Gaseous Hydrogen PY - 2023 U6 - https://doi.org/10.1016/j.ijhydene.2023.03.248 SN - 0360-3199 VL - 48 IS - 65 SP - 25609 EP - 25618 PB - Elsevier BV AN - OPUS4-58185 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Quackatz, Lukas A1 - Griesche, Axel A1 - Rhode, Michael A1 - Nietzke, Jonathan A1 - Kannengießer, Thomas T1 - Measurement of hydrogen concentration in steel using Laser-induced Breakdown spectroscopy (LIBS) N2 - Currently, the ISO 3690 standard requires a thermal activation of the diffusible hydrogen in weld metal for the subsequent ex situ concentration measurement by TDS. Laser-induced breakdown spectroscopy (LIBS) would offer a time and spatially resolved, almost non-destructive, measurement of hydrogen at surfaces. We could already show that this analysis technique allows for highly accurate in situ measurements of chemical compositions of e.g. Mn, Cr and Ni during welding e.g. in the melt pool, the weld metal or the heat affected zone. For quantitative LIBS measurements of hydrogen in steel, certified reference materials with different hydrogen concentrations were used for calibration. There is a significant problem in welding steels: A critical combination of diffusible hydrogen, hardness microstructure and weld residual stresses can cause cold cracks to form in the weld microstructure. We investigated hydrogen in steels, which was loaded either electrochemically or with high-pressure hydrogen gas. Subsequently, various experiments were conducted to verify the feasibility of hydrogen measurements with LIBS. For example, depth profiles of hydrogen distribution could be obtained. Furthermore, samples were water jet cut and a line scan was made over the cross section to obtain a spatially resolved representation of the hydrogen. Total hydrogen concentrations were determined using carrier gas hot extraction. Our results show that LIBS is a promising technique for time and spatially resolved measurement of hydrogen in steels. T2 - IIW Annual Assembly 2023 CY - Singapore DA - 16.07.2023 KW - LIBS KW - Hydrogen measurement KW - Welding KW - Stainless steel PY - 2023 AN - OPUS4-57989 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Heimann, Jan A1 - Yilmaz, Bengisu A1 - Charmi, Amir A1 - Duffner, Eric A1 - Schukar, Marcus A1 - Prager, Jens T1 - Structural Health Monitoring (SHM) for continuous monitoring of hydrogen pressure vessels N2 - While hydrogen is one of the most promising energy carriers, the safety of hydrogen storage technology remains one of the most important factors for technological and societal approval. While the engineering safety factors of the pressure vessels are kept high, the periodic inspection and the limited lifetime are making the application very costly considering manpower, time, money, and material waste. The development of an integrated structural health monitoring system can allow an easy transition from the current situation to cost-effective predictive maintenance. Hence, we propose to integrate three different SHM systems into hydrogen pressure vessels, namely guided wave ultrasonics, acoustic emission, and fibre optic sensing, to continuously monitor the condition and integrity. In this work, we evaluated the condition of a Type IV composite overwrapped pressure vessel using ultrasonic guided wave propagation. We mounted fifteen piezo-electric wafers on the composite cylinder by shaping three rings containing five sensors each. We acquired data from the sensor network following different boundary conditions with artificial damages on the selected locations. The data were evaluated with guided wave tomography techniques using ultrasonic features (amplitude, frequency, etc.) as well as artificial intelligence (AI). The results suggest that both traditional guided wave fusion techniques and AI-based characterization methods can detect artificial damages. In future work, it is planned to integrate acoustic emission and fibre optic sensing. Moreover, the measurement and the test results will be implemented into a digital twin to derive trends and make predictions on the damage propagation as well as the remaining useful lifetime. This work has received funding from German Ministry of Economic Affairs and Climate Actions within the QI-Digital initiative (www.qi-digital.de). T2 - SCHALL 23 CY - Wetzlar, Germany DA - 21.03.2023 KW - Structural Health Monitoring KW - Ultrasonic Guided Waves KW - Composite Overwrapped Pressure Vessel KW - Hydrogen PY - 2023 AN - OPUS4-58026 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - John, Sebastian A1 - Auster, Jürgen A1 - Widjaja, Martinus A1 - Duffner, Eric A1 - Mair, Georg T1 - NIP II - Forschungsvorhaben „DELFIN“ N2 - Überblick über Projektinhalte und -ergebnisse aus dem Forschungsvorhaben Delfin „Erforschung alternativer Materialien und Fertigungsprozesse für kosten- und gewichtsreduzierte Druckbehälter aus endlosfaserverstärkten Kunststoff“ T2 - SAMPE Kolloquium CY - Online meeting DA - 15.01.2022 KW - Wasserstoff KW - Druckbehälter KW - Impact PY - 2022 AN - OPUS4-58064 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Solberg, S. B. B. A1 - Zimmermann, P. A1 - Wilhelmsen, Ø. A1 - Bock, Robert A1 - Burheim, O. S. T1 - Analytical treatment of ion-exchange permselectivity and transport number measurements for high accuracy N2 - We analyse electromotive force measurements of concentration cells using non-equilibrium thermodynamics, and determine the transference coefficients of ion-exchange membranes in aqueous KCl solutions. By taking advantage of the analytical expression for the permselectivity, we extract transport coefficients with high accuracy. The transport number of K+ and the transference coefficient of water in the Selemion CMVN cationexchange membrane are found to be 100𝑡K+ = 99.59 ± 0.56 and 𝑡𝑤 = 3.69 ± 0.40 respectively, while for the Selemion AMVN anion-exchange membrane they are 100𝑡Cl− = 100.21 ± 0.37 and 𝑡𝑤 = −3.75 ± 0.27. These results suggest that the membranes are perfectly selective to the target ion, and that each ion carries 3-4 water molecules through the membrane, which reduces the membrane permselectivity. In these concentration cells, the electrical potential contribution of the membrane alone was more easily isolated with bare Ag/AgCl electrodes without reference solutions and liquid junction plugs. Additionally, we find a large contribution to the measured concentration cell voltage from concentration gradients across the porous plug of the reference electrode, which cannot be explained by Henderson’s equation alone. For most of the concentration range, the transport number of the porous plug is determined to be 100𝑡K+ = 49.43 ± 0.78 with negligible water transport, similar to literature values for bulk electrolyte. In dilute electrolyte solutions with concentrations below 0.1 mol kg−1, the plug shows anomalous behaviour consistent with an increase in K+ selectivity and water co-transport. KW - Ion-exchange membranes KW - Electrodialysis KW - Non-equilibrium thermodynamics KW - Electroosmosis KW - Transport number PY - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-580654 SN - 1873-3123 VL - 2023 IS - 685 PB - Elsevier CY - New York, NY [u.a.] AN - OPUS4-58065 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Eberwein, Robert A1 - Hajhariri, Aliasghar A1 - Camplese, D. A1 - Scarponi, G. E. A1 - Cozzani, V. A1 - Otremba, Frank T1 - Insulation Materials Used in Tanks for the Storage of Cryogenic Fluids in Fire Scenarios N2 - The importance of tanks for storing cryogenic fluids in the energy industry is increasing because of ongoing political conflicts and the implementation of more environmentally friendly energy sources. Key representatives for the application of cryogenic tanks are natural gas in the form of Liquefied Natural Gas (LNG) and hydrogen, e. g. in the form of Liquefied Hydrogen (LH2), for which significantly higher transport capacities can be achieved with the same transport volume using cryogenic storages than with storages based solely on overpressure. What applies to all cryogenic transported fluids in common is their condition that must be maintained. Hence heat flows into the preserved fluid must be minimized. Thermal super Insulations (TSI) based on e. g. multilayer insulations (MLI), perlites, and vacuum are utilized for this purpose and have already proven themselves in similar applications. However, for the use of tanks for cryogenic fluids in the transport sector, there is insufficient knowledge regarding the course and consequences of incidents, which is due to the still short period of use and the few documented incidents, hence few investigations carried out in this field. Typical scenarios in the transport sector represent car accidents with collisions, fires, and their combination, which are associated with extraordinary loads on the tank. The focus of this study is to investigate the behavior of TSI as a result of their thermal exposure to a heat source representing a fire. It is worth mentioning that this could lead to an increase of the heat flux into a tank by several orders of magnitude, and to permanent damage of the TSI, ultimately rapid release of flammable gas as well as a Boiling Liquide Expanding Vapour Explosion (BLEVE). For this purpose, a high temperature thermal vacuum chamber (HTTVC) has been developed that allows thermal loading of MLI or perlites in a vacuum and simultaneous measurement of heat flow through this TSI. The HTTVC is designed to represent realistic insulation conditions and to withstand thermal loads from typical design fires. The HTTVC was applied to investigate TSI based on MLI and vacuum. It is shown that the thermal stress caused permanent damage to the TSI, with shrinkage, phase change, pyrolysis, and condensation being significant damage mechanisms. The results are relevant for the evaluation of accident scenarios and can thus contribute to the improvement of TSI and the development of emergency measures for the protection of persons and infrastructures. T2 - ASME 2023 Pressure Vessels & Piping Conference (PVP2023) CY - Atlanta, Georgia, USA DA - 16.07.2023 KW - LH2 KW - LNG KW - MLI KW - Fire PY - 2023 SP - 1 EP - 8 PB - ASME AN - OPUS4-57973 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Eberwein, Robert A1 - Hajhariri, Aliasghar A1 - Camplese, D. A1 - Scarponi, G. E. A1 - Cozzani, V. A1 - Otremba, Frank T1 - Insulation Materials Used in Tanks for the Storage of Cryogenic Fluids in Fire Scenarios N2 - The importance of tanks for storing cryogenic fluids in the energy industry is increasing because of ongoing political conflicts and the implementation of more environmentally friendly energy sources. Key representatives for the application of cryogenic tanks are natural gas in the form of Liquefied Natural Gas (LNG) and hydrogen, e. g. in the form of Liquefied Hydrogen (LH2), for which significantly higher transport capacities can be achieved with the same transport volume using cryogenic storages than with storages based solely on overpressure. What applies to all cryogenic transported fluids in common is their condition that must be maintained. Hence heat flows into the preserved fluid must be minimized. Thermal super Insulations (TSI) based on e. g. multilayer insulations (MLI), perlites, and vacuum are utilized for this purpose and have already proven themselves in similar applications. However, for the use of tanks for cryogenic fluids in the transport sector, there is insufficient knowledge regarding the course and consequences of incidents, which is due to the still short period of use and the few documented incidents, hence few investigations carried out in this field. Typical scenarios in the transport sector represent car accidents with collisions, fires, and their combination, which are associated with extraordinary loads on the tank. The focus of this study is to investigate the behavior of TSI as a result of their thermal exposure to a heat source representing a fire. It is worth mentioning that this could lead to an increase of the heat flux into a tank by several orders of magnitude, and to permanent damage of the TSI, ultimately rapid release of flammable gas as well as a Boiling Liquide Expanding Vapour Explosion (BLEVE). For this purpose, a high temperature thermal vacuum chamber (HTTVC) has been developed that allows thermal loading of MLI or perlites in a vacuum and simultaneous measurement of heat flow through this TSI. The HTTVC is designed to represent realistic insulation conditions and to withstand thermal loads from typical design fires. The HTTVC was applied to investigate TSI based on MLI and vacuum. It is shown that the thermal stress caused permanent damage to the TSI, with shrinkage, phase change, pyrolysis, and condensation being significant damage mechanisms. The results are relevant for the evaluation of accident scenarios and can thus contribute to the improvement of TSI and the development of emergency measures for the protection of persons and infrastructures. T2 - ASME 2023 Pressure Vessels & Piping Conference (PVP2023) CY - Atlanta, Georgia, USA DA - 16.07.2023 KW - LH2 KW - LNG KW - Fire KW - MLI KW - Safety PY - 2023 AN - OPUS4-57974 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Erxleben, Kjell A1 - Kaiser, Sebastian A1 - Kannengießer, Thomas T1 - Intended weld repair of in service hydrogen pipelines N2 - In the course of tomorrow's hydrogen-based energy transition, the construction of the corresponding infrastructure will play a central role. In that context, large diameter long-distance transmission pipelines for hydrogen will be the backbone in the European Union with service pressures from 70 to 90 bar (e.g., de-pending on national regulations). It is a major goal to repurposing the existing natural gas (NG) infrastructure despite the necessity of new pipelines. From that point of view repair welding or further welding of branch pipe etc. can be necessary during in-service, i.e., permanent flow of pressurized hydrogen. The reason is that a shut-down of large diameter pipelines is not easy or sometimes merely impossible. At the moment, it is entirely open if current repair welding procedures for NG pipe-lines can be transferred to pure hydrogen pipelines. For that reason, a collaborative project between BAM, DVGW (German Association for Gas and Water Professions) and a large number of gas grid operators, pipeline manufacturers and construction companies was initiated in 2023 to answer questions on: (1) How many hydrogen is additionally absorbed during the preheating and maintaining at interpass temperature under remaining operational pressures? (2) Is the hydrogen concentration sufficient to reach a critical condition? (3)Which material and weld microstructure are the most susceptible? (4) Is there a difference in the repair welding behavior of NG pipelines with materials in “used” condition? (5) Which welding parameters and joint dimensions must be ensured for safe repair welding? The final aim of this project is the publication of a recommended practice for repair welding of in-service hydrogen pipelines. For that reason, the present study gives an overview on: (A) current practice in repair welding of in-service pipelines and (b) plans for hydrogen pipelines and first results of international research projects. T2 - IIW Annual Assembly, Meeting of Commission XI CY - Singapore DA - 19.07.2023 KW - Hydrogen KW - Repair Welding KW - Pipelines KW - Research PY - 2023 AN - OPUS4-57975 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Erxleben, Kjell A1 - Kaiser, Sebastian A1 - Kannengießer, Thomas T1 - Standardization and examples for R & D activities on hydrogen technologies with respect to testing procedures in Germany N2 - This contribution briefly summarizes the standardization activities in accordance with the "Nationale Roadmap Wasserstofftechnologien" and presents selected results on the activities in Germany with scope on hydrogen transport in pipelines. The talk was given during a panel discussion to set-up a steering committee for standardization for hydrogen pipelines and welding , coordinated by the International Institute of Welding. T2 - IIW Annual Assembly, Meeting of Commission XI CY - Singapore DA - 19.07.2023 KW - Hydrogen KW - Welding KW - Pipelines KW - Standardization KW - Research PY - 2023 AN - OPUS4-57976 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Nattuveettil, Keerthana A1 - Brunner, Nanine A1 - Tiebe, Carlo A1 - Thomas, Marcus A1 - Melzer, Michael A1 - Bartholmai, Matthias A1 - Johann, Sergej A1 - Neumann, Patrick P. T1 - Digital approach of certification in Quality Infrastructure N2 - QI-Digital is a joined project aiming at digitalising Quality Infrastructure (QI) processes involving standardization, conformity assessment, accreditation, metrology, and market surveillance [1]. Federal institute of material research and testing (BAM) is working on the creation of a digital calibration certifi-cate (DCC) to achieve digital metrological traceability and conformity assessment. The utilisation of machine readable and executable DCCs in the XML format is demonstrated on an example of a tem-perature measurement at a hydrogen refueling station. The certificates will be retrieved and analysed automatically at a Process Control System or at a Digital Twin. T2 - SMSI 2023 Conference CY - Nürnberg, Germany DA - 08.05.2023 KW - Quality Infrastructure KW - Digital Certificates KW - Temperature calibration KW - Digitalisation KW - Hydrogen technology PY - 2023 U6 - https://doi.org/10.5162/SMSI2023/A3.4 SP - 51 EP - 52 PB - AMA Service GmbH CY - Wunstorf AN - OPUS4-57964 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Popiela, Bartosz A1 - Günzel, Stephan A1 - Mair, Georg A1 - Seidlitz, H. A1 - Ulke-Winter, L. T1 - PhD Topic 5: Summer School Update. Influence of manufacturing process related residual stresses in wound composite material on the operational safety of H2 pressure vessels N2 - The presentation is an update on the progress of the PhD Project. It focuses on the residual stress induction during the winding process of type 4 composite pressure vessels. Moreover, an overview of the experimental study is given, with focus on the manufacturing of composite pressure vessels. T2 - Summer School 2023 - BTU-BAM Graduate School "Trustworthy Hydrogen" CY - Berlin, Germany DA - 04.09.2023 KW - Residual stress KW - Composite KW - Pressure vessel KW - Hydrogen PY - 2023 AN - OPUS4-58239 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Nietzke, Jonathan A1 - Konert, Florian A1 - Sobol, Oded A1 - Böllinghaus, Thomas A1 - Merz, Benjamin T1 - Hollow specimens as simplified approach for testing metallic materials under high pressure hydrogen development and utilization N2 - The hydrogen economy requires large-scale storage and transportation options like long-distance transmission pipelines. The applied materials (typically steels) must be carefully tested under different conditions (pressure, temperature, impact of impurities, etc.) for their suitability and service with hydrogen. In combination with mechanical load, as occurs in every gas network, hydrogen can induce degradation of the mechanical properties and promote finally resulting in embrittlement, i.e., the formation of cracks. The conventional testing procedures consist of autoclaves in which samples are strained under pressurized hydrogen. The test apparatus requires large amounts of hydrogen and thus a high level of safety and costs. In very specific cases, these tests might be replaced by simplified electrochemical charging. However, these test alternatives raise several questions regarding the equivalency of both testing scenarios. In the early 1980’s the idea of a so-called hollow tensile sample raised and was reinitiated 2021 in ISO TC 164 by T. Ogata (NIMS, Japan) and further developed (e.g. by Fraunhofer IWM, Germany). The idea was: the sample itself represents the autoclave instead of charging a sample from outside. For that reason, a hole is drilled through the sample and the inner surface is pressurized by hydrogen gas during the mechanical testing. Indeed, this represents the main advantage as no expensive pressure-resistant autoclave equipment for large H-volumes is necessary, which significantly reduces the safety-related issues and thus the high costs. In the following, we show recent activities at BAM Berlin on adaption of the hollow-specimen technique for slow strain rate testing (SSRT). The current research activities are focussed on macroscopic influences like the sample geometry, minimum necessary dimensions, and microscopic influences e.g., on the surface by the processing method (drill hole quality and geometric precision) as well as the gas pressure effect (mechanical deformation of surface in different media). T2 - FEMS EUROMAT 2023 CY - Frankfurt a. M., Germany DA - 04.09.2023 KW - Hydrogen KW - Hollow tensile specimen KW - High-pressure KW - Mechanical properties KW - Testing PY - 2023 AN - OPUS4-58220 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Mustapha, S. A1 - Yilmaz, Bengisu A1 - Heimann, Jan A1 - Brence, Blaz A1 - Prager, Jens T1 - Guided Waves Propagation in Composite Overwrapped Pressure Vessel N2 - The application of composite overwrapped pressure vessels (COPV) to store hydrogen and other compressed gases, especially when operating at high pressures, imposed the need for an innovative and reliable approach to ensure the safe operation of the system. Continuous structural health monitoring (SHM) based on ultrasonic guided waves (GWs) is a promising approach due to the ability of the wave to propagate for long distances and go around complex structures, moreover the high sensitivity to various failure modes such as delamination, matrix cracking and debonding. In this study, we scrutinize the behavior of (GWs) within the COPV using a network of PZT elements that are used for excitation and sensing. A laser doppler vibrometer (LDV) was also used to scan the surface of the vessel in various directions. L(0,1) and L(0,2) were observed in the captured signal. The L(0, 2) appeared to be a dominant mode in the COPV and was capable of propagating along the entire length and maintaining a good signal-to-noise ratio. The L(0,2) mode maintained the same phase velocity when it is captured at various excitation angles (0, 45, and 90 degrees). The reduced effect of the orthotropy of the materials on the propagating waves is an important result as it will reduce the complexity in data processing when performing damage identification. T2 - 13th. European Conference on Non-Destructive Testing (ECNDT) CY - Lisbon, Portugal DA - 03.07.2023 KW - Composite Overwrapped Pressure Vessels KW - Guided Waves KW - Laser Doppler Vibrometer KW - Structural Health Monitoring KW - Sensors Placement PY - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-591081 SN - 2941-4989 VL - 1 IS - 1 SP - 1 EP - 6 PB - NDT.net GmbH & Co. KG CY - Germany AN - OPUS4-59108 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Yilmaz, Bengisu A1 - Heimann, Jan A1 - Mustapha, S. A1 - Charmi, Amir A1 - Prager, Jens T1 - Guided wave ultrasonic feature determination in Type IV composite overwrapped pressure vessels towards the digital twin N2 - The digitalization of quality control processes and the underlying data infrastructures for safety relevant components, such as hydrogen pressure vessels, plays a significant role in the transition towards Industry 4.0. In the current safety regulations for hydrogen pressure vessels, there is no established concept for structural health monitoring. The development of a reliable structural health monitoring methodology for monitoring the structural integrity of pressure vessels enables a fast-forward transition from personnel- and costintensive recurring inspections, a.k.a. periodic maintenance, to predictive maintenance. In the work presented; we investigated the application of ultrasonic guided wave propagation to monitor and assess the condition of Type IV composite overwrapped pressure vessel (COPV). A sensor network of fifteen piezo-electric wafers is placed on the carbon fibre reinforced composite cylinder. Five different artificial damage configurations are created by gluing two different weight blocks on three different locations. The database containing measured guided wave data sets is enriched by two different boundary conditions. We utilized an open-source software, openBIS labnotebook, to store and analyse experimental datasets. The guided wave ultrasonic signals were investigated and analysed by using commonly used ultrasonic features (e.g., amplitude, frequency, time of flight) as well as non-traditional time-series features (kurtosis, skewness, variance). The features were used to calculate damage index and the detection performance for the results has been evaluated. The results suggest that both traditional and non-traditional features assume significant importance in artificial damage detection. The future works will additionally involve the impacts of operational conditions, such as periodic pressure variations temperature loadings as well as material degradations. T2 - 13th European Conference on Non-Destructive Testing (ECNDT) CY - Lisbon, Portugal DA - 03.07.2023 KW - Industry 4.0 KW - Composite overwrapped pressure vessels KW - Structural health monitoring KW - Ultrasonic guided waves KW - Predictive maintenance PY - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-591094 SN - 2941-4989 VL - 1 IS - 1 SP - 1 EP - 6 PB - NDT.net CY - Mayen, Germany AN - OPUS4-59109 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Ritz, Sebastian A1 - Loewe, Anna A1 - Bauer, Jan T1 - Specialties of HAZID-Study for Large Unmanned Underwater Vehicles N2 - This paper scopes the specialties of a hazard identification study for large and extra-large unmanned undersea vehicles (UUVs). A generic node/function structure is derived from different large and extra-large UUV designs, partially own vehicle designs from research projects, and partially from commercial vehicles. For each node, a short overview of its components and the proper function or operations is defined. A set of guide words is used to prompt a hazard discussion for each node, which identifies unwanted functions, resulting in potential hazards and unmitigated consequences. Related to the SafeMASS-Report from DNV, this work concentrates on selected topics of the bridge-related function on voyage, control & monitoring, and abnormal situations. For unmanned vehicles without any person on board, these three topics become more important for underwater vehicles with very limited connectivity or temporary disruptions of communication whereby an operator in a remote-control center could only be provided with rough vehicle or mission states. Therefore, vehicle control, whether in hard- or software, must handle most tasks belonging to the considered functions automatically or autonomously. Hence, the most appropriate reactions of the system to unwanted system behavior must be implemented. This HAZID study could, on the one hand, be used as background for such an implementation, and on the other hand, it is used to verify the implemented actions on the risks and hazards. T2 - OCEANS 2023 - Limerick CY - Limerick, Ireland DA - 05.06.2023 KW - Autonomous underwater vehicles KW - HAZID KW - Risk-based design KW - Safety KW - Cyber security PY - 2023 U6 - https://doi.org/10.1109/OCEANSLimerick52467.2023.10244358 SP - 1 EP - 10 PB - IEEE AN - OPUS4-59099 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Gugin, Nikita A1 - Villajos Collado, José Antonio A1 - Dautain, Olivier A1 - Maiwald, Michael A1 - Emmerling, Franziska T1 - Large-Scale Synthesis of ZIF-8 for Hydrogen Storage: Batch and Continuous Modes N2 - We report the scale-up of a batch solid synthesis of zeolitic imidazolate framework-8 (ZIF-8) for reactive extrusion. The crystalline product forms in the extruder directly under the mixture of solid 2-methylimidazole and basic zinc carbonate in the presence of a catalytic amount of liquid. Highly crystalline ZIF-8 with a Brunauer−Emmett−Teller (BET) surface area of 1816 m2 g−1 was quantitatively prepared at mild temperature using a catalytic amount of ethanol and a small excess of the linker. Extruded ZIF-8 is an affordable alternative to commercial Basolite Z1200 as a reference material for H2 cryoadsorption. T2 - Metrology for Advanced Hydrogen Storage Solutions (MefHySto) Closing Conference CY - Berlin, Germany DA - 03.07.2023 KW - In situ Raman KW - Large-scale processing KW - Mechanochemistry KW - Twin-screw extrusion (TSE) PY - 2023 AN - OPUS4-58926 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Tiebe, Carlo T1 - Fehlervermeidung, Schadenverhütung und Sicherheitsmanagement in der Wasserstofftechnologie N2 - Um den Aspekt der Strategie zur Fehlervermeidung und Schadenprävention in Wasserstofftechnologien zu integrieren, ist es entscheidend, proaktiv auf potenzielle Schwachstellen in den Systemen und Prozessen zu achten. Dies beinhaltet die Implementierung von präventiven Maßnahmen als Elemente des Sicherheitsmanagements, um mögliche Fehlerquellen zu identifizieren und zu eliminieren. Darüber hinaus sollten Schulungen gezielt auf die Vermeidung von Fehlern und die sichere Anwendung von Wasserstofftechnologien ausgerichtet sein. Eine durchdachte Strategie zur Fehlervermeidung trägt wesentlich dazu bei, Unfälle zu verhindern und die Gesamtsicherheit bei der Nutzung von Wasserstoff zu erhöhen. T2 - Forum Schadenverhütung am 12.10.2023 der Arbeitsgemeinschaft Berlin Brandenburg (AGS) in Kooperation mit der AGBB Berlin e.V CY - Berlin, Germany DA - 12.10.2023 KW - H2Safety@BAM KW - Gassensorik KW - Wasserstoff KW - Fehlervermeidung KW - Schadenverhütung KW - Sicherheitsmanagement PY - 2023 AN - OPUS4-59226 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Tiebe, Carlo T1 - Hydrogen sensing - Sensors for safety and process control in Hydrogentechnologies N2 - The success of this energy transition and the efficient utilization of green hydrogen as a pristine energy carrier hinge upon the cultivation of hydrogen readiness, swift market expansion, and the establishment of crucial value chains within national and European contexts. Paramount to these objectives are reliable quality and safety standards, essential for ensuring supply safety, environmental compatibility, and instilling confidence in these technologies. In the realm of safety management systems, gas sensors emerge as vital components for detecting hydrogen. This presentation delves into the imperative role of hydrogen systems, emphasizing their capability to monitor and control operations, issue warnings, signal hazardous conditions, and sound alarms. It explores the intricate landscape of functional safety considerations and addresses the challenges associated with measurement uncertainty in sensor testing. A diverse array of sensors catering to hydrogen, pressure, temperature, and flow are available, each contributing significantly to the safety and efficiency of hydrogen technologies. Applications are envisaged to adhere meticulously to quality infrastructural regulations, codes, and standards, ensuring seamless integration and operation within the broader hydrogen ecosystem. This discussion underscores the ubiquitous presence of sensor systems across various fields within hydrogen technologies, illustrating their multifaceted contributions to safety, reliability, and overall success in realizing the transformative potential of green hydrogen. T2 - Summer School 2023 Characterization of micro- and nano-materials at BTU Cottbus CY - Cottbus, Germany DA - 11.09.2023 KW - H2Safety@BAM KW - Hydrogen KW - Sensor KW - Gas detection KW - Process control KW - Safety KW - Sensor testing PY - 2023 AN - OPUS4-59227 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Tiebe, Carlo T1 - Hydrogen sensing - Sensors for safety and process control in Hydrogentechnologies N2 - The success of this energy transition and the efficient utilization of green hydrogen as a pristine energy carrier hinge upon the cultivation of hydrogen readiness, swift market expansion, and the establishment of crucial value chains within national and European contexts. Paramount to these objectives are reliable quality and safety standards, essential for ensuring supply safety, environmental compatibility, and instilling confidence in these technologies. In the realm of safety management systems, gas sensors emerge as vital components for detecting hydrogen. This presentation delves into the imperative role of hydrogen systems, emphasizing their capability to monitor and control operations, issue warnings, signal hazardous conditions, and sound alarms. It explores the intricate landscape of functional safety considerations and addresses the challenges associated with measurement uncertainty in sensor testing. A diverse array of sensors catering to hydrogen, pressure, temperature, and flow are available, each contributing significantly to the safety and efficiency of hydrogen technologies. Applications are envisaged to adhere meticulously to quality infrastructural regulations, codes, and standards, ensuring seamless integration and operation within the broader hydrogen ecosystem. This discussion underscores the ubiquitous presence of sensor systems across various fields within hydrogen technologies, illustrating their multifaceted contributions to safety, reliability, and overall success in realizing the transformative potential of green hydrogen. T2 - Joint European Summer School 2023 on Fuel Cell, Electrolyser, and Battery Technologies CY - Vravrona, Greece DA - 17.09.2023 KW - H2Safety@BAM KW - SensRef KW - Hydrogen KW - KICstartH2 KW - Gas detection KW - Sensor testing KW - Hydrogen gas sensor PY - 2023 AN - OPUS4-59228 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Tiebe, Carlo A1 - Mieller, Björn A1 - Maiwald, Michael A1 - Kipphardt, Heinrich A1 - Tuma, Dirk A1 - Prager, Jens A1 - Schukar, Marcus A1 - Strohhäcker, J. T1 - Sensoren und Analytik für Sicherheit und Prozesskontrolle in Wasserstofftechnologien N2 - Die Nutzung von Sensortechnologien, insbesondere im Bereich der Gasdetektion mit einem Schwerpunkt auf Wasserstoff, spielt eine entscheidende Rolle in verschiedenen Anwendungsbereichen der Wasserstofftechnologie. Sicherheitsüberwachung, Leckdetektion und Prozesskontrolle gehören zu den prominenten Anwendungsgebieten dieser Sensortechnologien. Ein zentrales Ziel ist die Erkennung von freigesetztem Wasserstoff sowie die genaue Bestimmung des Wasserstoff-Luftverhältnisses mithilfe von Gassensoren. Dies ist von entscheidender Bedeutung, um potenzielle Gefahren frühzeitig zu erkennen und angemessene Maßnahmen zu ergreifen. Ein weiterer Schwerpunkt dieses Beitrags liegt auf der Analytik und der Verwendung zertifizierter Referenzmaterialien in Verbindung mit Metrologie für die Wasserstoffspeicherung. Dies gewährleistet eine präzise und zuverlässige Charakterisierung von Wasserstoff und unterstützt die Entwicklung sicherer Speichertechnologien. Im Rahmen des Euramet-Vorhabens Metrology for Advanced Hydrogen Storage Solutions (MefHySto) wird eine Kurzvorstellung präsentiert. Der Vortrag stellt zwei zerstörungsfreie Prüfverfahren zum strukturellen Zustandsüberwachung (Structural Health Monitoring, SHM) für Wasserstofftechnologien vor. Insbesondere die Fehlstellenerkennung mittels geführter Ultraschallwellen spielt eine bedeutende Rolle bei der Lebensdauerüberwachung von Wasserstoffspeichern. Ein weiterer Aspekt ist die Anwendung faseroptischer Sensorik zur Schadensfrüherkennung von Wasserstoffspeichern. Diese zerstörungsfreien Prüfverfahren ermöglichen eine präzise und frühzeitige Identifizierung von Schäden, was die Sicherheit und Effizienz von Wasserstoffspeichersystemen entscheidend verbessert. T2 - DVGW Kongress H2 Sicherheit CY - Online meeting DA - 15.11.2023 KW - H2Safety@BAM KW - Gassensorik KW - Metrologie KW - zertifizierte Referenzmaterialien KW - Zerstörungsfreie Prüfung KW - Ultraschall KW - Faseroptik PY - 2023 AN - OPUS4-59230 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Asna Ashari, Parsa A1 - Oh, Hyochan A1 - Koch, Claudia T1 - Pathways to the hydrogen economy: A multidimensional analysis of the technological innovation systems of Germany and South Korea N2 - The global trend towards decarbonization and the demand for energy security have put hydrogen energy into the spotlight of industry, politics, and societies. Numerous governments worldwide are adopting policies and strategies to facilitate the transition towards hydrogen-based economies. To assess the determinants of such transition, this study presents a comparative analysis of the technological innovation systems (TISs) for hydrogen technologies in Germany and South Korea, both recognized as global frontrunners in advancing and implementing hydrogen-based solutions. By providing a multidimensional assessment of pathways to the hydrogen economy, our analysis introduces two novel and crucial elements to the TIS analysis: (i) We integrate the concept of ‘quality infrastructure’ given the relevance of safety and quality assurance for technology adoption and social acceptance, and (ii) we emphasize the social perspective within the hydrogen TIS. To this end, we conducted 24 semi-structured expert interviews, applying qualitative open coding to analyze the data. Our results indicate that the hydrogen TISs in both countries have undergone significant developments across various dimensions. However, several barriers still hinder the further realization of a hydrogen economy. Based on our findings, we propose policy implications that can facilitate informed policy decisions for a successful hydrogen transition. KW - Hydrogen economy KW - Technological innovation system KW - Quality infrastructure KW - Multidimensional technology adoption KW - Social acceptance PY - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-593312 IS - Volume 49, Part D SP - 405 EP - 421 PB - Elsevier AN - OPUS4-59331 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Sarif, Raduan T1 - Digital twin for hydrogen refueling stations: An analytical study for safe and efficient operations N2 - This analytical overview is the initial study in developing the digital sensors twin for the hydrogen refueling station. The research includes a comprehensive analysis of the current literature, refueling protocol, standards, mathematical model, simulation model, and trends in digital twins and H2 technologies. Furthermore, this study has explored the various HRS attributes, such as leakage, temperature, pressure, and hydrogen flow, and identified different use cases of the hydrogen fuel station to build a digital sensor twin. Various real gas equations, such as the Van der Waals and Able-Noble equation of state (EOS), are applied to analyze the key factors and parameters affecting hydrogen and the MATLAB simulation model to validate the key elements and parameters. This study also focuses on identifying and addressing research gaps in hydrogen technology, contributing to advancing hydrogen infrastructure, and supporting the global transition to cleaner energy solutions. T2 - 10. Fachsymposium des Vereins HybridSensorNet (HSN), KIT CY - Eggenstein-Leopoldshafen, Germany DA - 08.11.2023 KW - Sensor network KW - H2Safety@BAM KW - SensRef KW - Trustworthy hydrogen KW - Digital twin KW - Data analytics PY - 2023 AN - OPUS4-59034 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Ziel, Ruben P. A1 - Zalewska, Ewelina A1 - van der Veen, Adriaan M. H. A1 - Kipphardt, Heinrich A1 - Tuma, Dirk A1 - Esteban, Andres Rojo A1 - Fernandez Vicente, Teresa Esperanza A1 - Mace, Tatiana A1 - Sutour, Christophe A1 - Marioni, Fabrice A1 - Fükö, Judit A1 - Szücs, László A1 - Büki, Tamás A1 - Szilágyi Nagyné, Zsófia A1 - Cieciora, Dariusz A1 - Ochman, Grzegorz A1 - Romanowski, Przemysław A1 - Lis, Anna A1 - Garnuszek, Magdalena A1 - Valkova, Miroslava A1 - Ackermann, Andreas A1 - Pascale, Celine A1 - Niederhauser, Bernhard A1 - Tarhan, Tanil A1 - Boztepe, Aylin A1 - Beránek, Jan A1 - Bárta, Miroslav T1 - International comparison EURAMET.QM-K3.2019 - Automotive exhaust gases N2 - EURAMET.QM-K3.2019 was a repeat of the key comparison EURAMET.QM-K3 on the composition of automotive exhaust gases. New in EURAMET.QM-K3.2019 was the addition of the amount fraction oxygen to the programme. The key comparison reference values were obtained independently, using static gravimetry and appropriate corrections from purity analysis and are linked to those of CCQM-K3.2019. The key comparison results show equivalence between the measurement standards maintained by the participating national metrology institutes. The demonstrated equivalence can be used to underpin services related to automotive exhaust gases as well as generically through the flexible scheme ("track A"). KW - CCQM KW - Automotive gases PY - 2023 U6 - https://doi.org/10.1088/0026-1394/60/1A/08030 SN - 1681-7575 VL - 60 IS - 1A SP - 1 EP - 63 PB - IOP Publishing CY - Bristol AN - OPUS4-58904 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Villajos Collado, José Antonio A1 - Balderas‐Xicohténcatl, Rafael A1 - Al Shakhs, Ali N. A1 - Berenguer‐Murcia, Ángel A1 - Buckley, Craig E. A1 - Cazorla‐Amorós, Diego A1 - Charalambopoulou, Georgia A1 - Couturas, Fabrice A1 - Cuevas, Fermin A1 - Fairen‐Jimenez, David A1 - Heinselman, Karen N. A1 - Humphries, Terry D. A1 - Kaskel, Stefan A1 - Kim, Hyunlim A1 - Marco‐Lozar, Juan P. A1 - Oh, Hyunchul A1 - Parilla, Philip A. A1 - Paskevicius, Mark A1 - Senkovska, Irena A1 - Shulda, Sarah A1 - Silvestre‐Albero, Joaquin A1 - Steriotis, Theodore A1 - Tampaxis, Christos A1 - Hirscher, Michael A1 - Maiwald, Michael T1 - Establishing ZIF‐8 as a reference material for hydrogen cryoadsorption: An interlaboratory study N2 - AbstractHydrogen storage by cryoadsorption on porous materials has the advantages of low material cost, safety, fast kinetics, and high cyclic stability. The further development of this technology requires reliable data on the H2 uptake of the adsorbents, however, even for activated carbons the values between different laboratories show sometimes large discrepancies. So far no reference material for hydrogen cryoadsorption is available. The metal‐organic framework ZIF‐8 is an ideal material possessing high thermal, chemical, and mechanical stability that reduces degradation during handling and activation. Here, we distributed ZIF‐8 pellets synthesized by extrusion to 9 laboratories equipped with 15 different experimental setups including gravimetric and volumetric analyzers. The gravimetric H2 uptake of the pellets was measured at 77 K and up to 100 bar showing a high reproducibility between the different laboratories, with a small relative standard deviation of 3–4 % between pressures of 10–100 bar. The effect of operating variables like the amount of sample or analysis temperature was evaluated, remarking the calibration of devices and other correction procedures as the most significant deviation sources. Overall, the reproducible hydrogen cryoadsorption measurements indicate the robustness of the ZIF‐8 pellets, which we want to propose as a reference material. KW - Physical and theoretical chemistry KW - Atomic and molecular physics, and optics PY - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-594788 SN - 1439-7641 SP - 1 EP - 7 PB - Wiley CY - Weinheim AN - OPUS4-59478 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Su, Bin A1 - Luo, Zhenmin A1 - Krietsch, Arne A1 - Wu, Dejian A1 - Wang, Tao A1 - Zhou, Shangyong A1 - Deng, Jun T1 - Quantitative investigation of explosion behavior and spectral radiant characteristics of free radicals for syngas/air mixtures N2 - The combustion characteristics and explosive hazard of syngas (H2/CO)/air mixtures are affected by its exact composition and equivalence ratios. In this paper, the explosion pressure and spectral radiant intensity of free radicals were quantitatively examined for syngas with different H2 proportions ([H2 in syngas] = 0, 30, 50, 70, 100 vol%) and equivalence ratios (φ = 0.8, 1.0, 1.2, 1.4, 1.6, 2.0, 2.5). The results show that the explosion process of syngas/air mixtures can be separated into the initial slow combustion stage, the violent deflagration stage and the deflagration ending stage. The peaks of explosion pressure, pressure rise rate, OH*spectral intensity and rise rate of spectral intensity first increase and then decrease with increasing the equivalence ratio, and they reduce gradually with the decrease of H2 proportion in syngas. The H2 content in syngas greatly affects the heat release and the concentration of excited state OH*, especially for the syngas/air mixtures with smaller proportion of H2. Additionally, the presence of H2 greatly increases the deflagration index and spectral radiant index of OH* for syngas/air mixtures. The average rise rates of explosion pressure and spectral intensity of free radicals are introduced and the coupling model between them is established based on the first law of thermodynamics and the principle of chain reaction. The established model is furthermore verified by the experimental results. It is indicated that there is a linear relationship between average rise rates of explosion pressure and spectral intensity (OH*). The results can be used to improve the combustion efficiency of syngas and to guide theoretically the prevention, mitigation and control of syngas explosions. KW - Syngas KW - Hydrogen KW - Explosion pressure KW - Free radicals KW - Spectral intensity PY - 2024 U6 - https://doi.org/10.1016/j.ijhydene.2023.10.280 SN - 0360-3199 VL - 50 IS - Part A SP - 1359 EP - 1368 PB - Elsevier Ltd. AN - OPUS4-59482 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Jordan, T. A1 - Askar, Enis A1 - Holtappels, Kai A1 - Deeg, S. A1 - Jopen, M. A1 - Stoll, U. A1 - Reinecke, E.-A. A1 - Krause, U. A1 - Beyer, M. A1 - Markus, D. T1 - Stand der Kenntnisse und Technik bezüglich Wasserstoffsicherheit N2 - Die Einführung von Wasserstoff als sicherer Energieträger braucht eine robuste Wissensbasis, darauf aufgebaute Werkzeuge zur Auslegung und Sicherheitsbewertung von Wasserstofftechnologien und ein international harmonisiertes Regelwerk. Viele der innovativen Technologien implizieren Wasserstoff bei hohen Drücken und/oder kryogenen Temperaturen, mit denen in verteilten Anwendungen erstmalig private Nutzer in Kontakt kommen. Um überkonservative, teure Sicherheitslösungen zu vermeiden, gleichzeitig aber die Einsetzbarkeit und Sicherheit von Wasserstoffanwendungen zu demonstrieren und die Akzeptanz für die Technologie aufrecht zu halten, muss auch die Sicherheitsforschung mit den Trends der technologischen Entwicklung Schritt halten, oder sie besser noch antizipieren. So beschreibt dieser Überblicksartikel nicht nur den gegenwärtigen Stand der Kenntnisse und Technik bezüglich Wasserstoffsicherheit, sondern auch ihre Weiterentwicklung. KW - Alternative Energieträger KW - Explosionsschutz KW - Flüssigwasserstoff KW - Unfallszenarien KW - Wasserstoffspeicherung KW - Sicherheitsbewertung KW - Regelsetzung KW - Gefährdungs- und Risikobeurteilung PY - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-593629 SN - 0009-286X VL - 96 IS - 1-2 SP - 1 EP - 20 PB - Wiley-VCH AN - OPUS4-59362 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Quackatz, Lukas A1 - Griesche, Axel A1 - Nietzke, Jonathan A1 - Kannengießer, Thomas T1 - In situ measurement of hydrogen concentration in steel using laser‑induced breakdown spectroscopy (LIBS) N2 - The ISO 3690 standard “Determination of hydrogen content in arc weld metal” requires a thermal activation of the diffusible hydrogen in a piece of weld metal for the subsequent ex situ concentration measurement by carrier gas hot extraction CGHE or thermal desorption spectroscopy (TCD). Laser-induced breakdown spectroscopy (LIBS) offers a time and spatially resolved, almost non-destructive, in situ measurement of hydrogen at surfaces without sample preparation. We measured hydrogen in steels, which were charged either electrochemically or by high-pressure hydrogen gas, and compared the results. Further, the feasibility of quantitative hydrogen line scan measurements with LIBS was demonstrated by measuring hydrogen at water jet cut surfaces. The hydrogen concentrations measured with the help of LIBS were compared with CGHE measurements. It was observed that hydrogen can be reliably measured with LIBS for concentrations larger than 2 wt.-ppm. The maximum hydrogen concentration achieved using electrochemical charging was 85.1 ppm. The results show that LIBS is a promising technique for time- and spatially resolved measurements of hydrogen in steels. T2 - IIW Annual Assembly 2023 CY - Singapore KW - LIBS KW - Hydrogen measurement KW - Welding KW - Stainless steel KW - Diffusible hydrogen PY - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-593664 SP - 1 EP - 9 PB - Springer AN - OPUS4-59366 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Karapanagiotis, Christos A1 - Krebber, Katerina T1 - Machine learning for strain, temperature and humidity discrimination in Brillouin optical frequency domain analysis N2 - We propose to our knowledge for the first time an ensemble of probabilistic machine learning models for strain, temperature and humidity discrimination in Brillouin optical frequency domain analysis (BOFDA) applying a two-fiber configuration. T2 - 28th International Conference on Optical Fiber Sensors CY - Hamamatsu, Japan DA - 20.11.2023 KW - Multiparameter sensing KW - Fiber optic sensors KW - Machine learning KW - Structural health monitoring PY - 2023 AN - OPUS4-59396 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Karapanagiotis, Christos ED - Krebber, Katerina T1 - Machine learning for strain, temperature and humidity discrimination in Brillouin optical frequency domain analysis N2 - We propose to our knowledge for the first time an ensemble of probabilistic machine learning models for strain, temperature and humidity discrimination in Brillouin optical frequency domain analysis (BOFDA) applying a two-fiber configuration. T2 - 28th International Conference on Optical Fiber Sensors CY - Hamamatsu, Japan DA - 20.11.2023 KW - Multiparameter sensing KW - Machine learning KW - Fiber optic sensors KW - Structural health monitoring PY - 2023 SP - 1 EP - 4 PB - Optica Publishing Group AN - OPUS4-59397 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Asna Ashari, Parsa T1 - Exploring the Technological Innovation System for Hydrogen Technologies - Four Essays on the Roles of Research, Innovation, and Safety N2 - Presentation of the doctoral thesis held at the PhD Colloquium of the Chair of Innovation Management, Freie Universität Berlin. Hydrogen has recently come into political and industrial focus due to its potential to advance the transition to a net-zero economy. Despite this recognized potential, the market ramp-up of hydrogen technologies has not yet been realized at large. Therefore, this thesis attempts to investigate how advances in hydrogen research, innovation, and safety link up to market formation using the Technological Innovation Systems (TIS) and Quality Infrastructure (QI) frameworks. Thereupon, the thesis formulates several recommendations for transitioning to a hydrogen economy. T2 - PhD Colloquium of the Chair of Innovation Management (Freie Universität Berlin) CY - Berlin, Germany DA - 09.01.2024 KW - Hydrogen KW - Research and innovation KW - Innovation system KW - Safety PY - 2024 AN - OPUS4-59400 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Ghasem Zadeh Khorasani, Media A1 - Albakri, Bashar A1 - Heimann, Jan T1 - Federated SHM: a Novel Collaborative ML Approach to Overcome Data Scarcity and Data Privacy Concerns in StructuralHealth Monitoring N2 - The deployment of machine learning (ML) and deep learning (DL) in structural health monitoring (SHM) faces multiple challenges. Foremost among these is the insufficient availability of extensive high-quality data sets essential for robust training. Within SHM, high-quality data is defined by its accuracy, relevance, and fidelity in representing real-world structural scenarios (pristine as well as damaged). Although methods like data augmentation and creating synthetic data can add to datasets, they frequently sacrifice the authenticity and true representation of the data. Sharing real-world data encapsulating true structural and anomalous scenarios offers promise. However, entities are often reluctant to share raw data, given the potential extraction of sensitive information, leading to trust issues among collaborating entities. Our study introduces a novel methodology leveraging Federated Learning (FL) to navigate these challenges. Within the FL framework, models are trained in a decentralized manner across different entities, preserving data privacy. In our research, we simulated several scenarios and compared them to traditional local training methods. Employing guided wave (GW) datasets, we distributed the data among different parties (clients) using IID (independent, identically distributed or in other words, statistically identical) mini batches of dataset, as well as non-IID configurations. This approach mirrors real-world data distribution among varied entities, such as hydrogen refueling stations. In our methodology, the initial round involves individualized training for each client using their unique datasets . Subsequently, the model parameters are sent to the FL server, where they are averaged to construct a global model. In the second round, this global model is disseminated back to the clients to aid in predictive tasks. This iterative process continues for several rounds to reach convergence. Our findings distinctly highlight the advantages of FL over localized training, evidenced by a marked improvement in prediction accuracy . This research underscores the potential of FL in GW-based SHM, offering a remedy to similar challenges tied to data scarcity in other SHM approaches and paving the way for a new era of collaborative, data-centric monitoring systems. T2 - QI Digital Forum CY - Berlin, Germany DA - 10.10.2023 KW - Machine learning KW - Federated learning KW - Structural health monitoring KW - Artificial intelligence KW - Hydrogen safety KW - Data privacy PY - 2023 AN - OPUS4-59415 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Kaiser, Sebastian A1 - Erxleben, Kjell A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Vorstellungsvortrag: „H2-SuD” - Einfluss des Schweißens auf die Wasserstoffaufnahme und Degradation im Betrieb befindlicher H2-Ferngasleitungen N2 - Zur Umsetzung der wasserstoffbasierten Energiewende ist eine zuverlässige Transportinfrastruktur unverzichtbar. Hierfür ist die Nutzung großer Teile des vorhandenen Erdgasnetzes vorgesehen. Im Rahmen von Reparatur- und Wartungsarbeiten ist das Schweißen im Betrieb an Erdgaspipelines Stand der Technik. In Verbindung mit Wasserstoff wirft diese Technik jedoch Fragen der Materialverträglichkeit auf. Das im Vortrag vorgestellte Projekt H2SuD leistet Beiträge zur Aufklärung des Einflusses von Reparaturschweißprozessen auf die Wasserstoffaufnahme und Degradation im Betrieb befindlicher H2 Gasleitungen. Ein Schwerpunkt des Vortrages liegt auf der im Projekt erarbeiteten Prüfmethode für Modellversuche, mit denen der Einfluss von Schweißen im Betrieb an Pipelines auf die Wasserstoffaufnahme getestet wird. Die Durchführung erster Versuche und dabei erzielte Ergebnisse werden präsentiert. T2 - Bacheloranden-, Masteranden-, Doktoranden Kolloquium (BMDK) OvGU Magdeburg CY - Magdeburg, Germany DA - 17.01.2024 KW - Pipeline KW - Prüfverfahren KW - Schweißen KW - Reparatur KW - Wasserstoff PY - 2024 AN - OPUS4-59447 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kannengießer, Thomas T1 - Fügetechnik in Wasserstofftechnologien: Prozesse und Perspektiven N2 - Die Wasserstofftechnologien der näheren Zukunft erfordern sichere Komponenten. Die Füge- und Schweißtechnik ist hier von zentraler Bedeutung, insbesondere für die Transportinfrastruktur (wie Pipelines). Der vorliegende Vortrag gibt hierzu einen umfassenden Überblick, beginnend bei der Erzeugung, Speicherung über Transport und Nutzung. Zusätzlich wird die zunehmende Bedeutung der additiven Fertigung beleuchtet und ein kurzer Ausblick auf die aktuelle Normungsroadmap der Wasserstofftechnologien gegeben. T2 - Weiterbildung für Schweißaufsichtspersonen (a.d. SLV Halle) CY - Halle (a.d. Saale), Germany DA - 30.11.2023 KW - Wasserstofftechnologien KW - Fügetechnik KW - Studie KW - Pipelines KW - Forschung PY - 2023 AN - OPUS4-59005 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Kluge, Martin A1 - Habib, Karim T1 - Consequences of exposing cryogenic storage vessels containing liquid hydrogen to a fire load N2 - Within a research cooperation between BAM and Gexcon as part of the SH2IFT program, large scale experiments have been performed at the Test Site Technical Safety of the Bundesanstalt für Materialforschung und –prüfung (BAM) to determine the hazards emerging from a vacuum insulated cryogenic storage vessel containing liquified hydrogen (LH2) is caught in a fire engulfing it. T2 - ELVHYS, 2nd Safety Workshop CY - Online meeting DA - 29.11.2023 KW - BLEVE KW - Cryoegenic storage vessel KW - Liquified hydrogen PY - 2023 AN - OPUS4-59021 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Charmi, Amir A1 - Mustapha, Samir A1 - Yilmaz, Bengisu A1 - Heimann, Jan A1 - Prager, Jens T1 - A Machine Learning Based-Guided Wave Approach for Damage Detection and Assessment in Composite Overwrapped Pressure Vessels N2 - The applications of composite overwrapped pressure vessels (COPVs) in extreme conditions, such as storing hydrogen gases at very high pressure, impose new requirements related to the system's integrity and safety. The development of a structural health monitoring (SHM) system that allows for continuous monitoring of the COPVs provides rich information about the structural integrity of the component. Furthermore, the collected data can be used for different purposes such as increasing the periodic inspection intervals, providing a remaining lifetime prognosis, and also ensuring optimal operating conditions. Ultimately this information can be complementary to the development of the envisioned digital twin of the monitored COPVs. Guided waves (GWs) are preferred to be used in continuous SHM given their ability to travel in complex structures for long distances. However, obtained GW signals are complex and require advanced processing techniques. Machine learning (ML) is increasingly utilized as the main part of the processing pipeline to automatically detect anomalies in the system's integrity. Hence, in this study, we are scrutinizing the potential of using ML to provide continuous monitoring of COPVs based on ultrasonic GW data. Data is collected from a network of sensors consisting of fifteen Piezoelectric (PZT) wafers that were surface mounted on the COPV. Two ML algorithms are used in the automated evaluation procedure (i) a long short-term memory (LSTM) autoencoder for anomaly detection (defects/impact), and (ii) a convolutional neural network (CNN) model for feature extraction and classification of the artificial damage sizes and locations. Additional data augmentation steps are introduced such as modification and addition of random noise to original signals to enhance the model's robustness to uncertainties. Overall, it was shown that the ML algorithms used were able to detect and classify the simulated damage with high accuracy. T2 - 13th European Conference on Non-Destructive Testing (ECNDT) 2023 CY - Lisbon, Portugal DA - 03.07.2023 KW - Machine learning KW - Structural health monitoring KW - COPV KW - Guided waves KW - Damage localization PY - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-590789 SN - 2941-4989 VL - 1 IS - 1 SP - 1 EP - 6 PB - NDT.net CY - Germany AN - OPUS4-59078 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - El Harrab, Hayat A1 - Askar, Enis A1 - Franken, T. A1 - Mauß, F. T1 - Hydrogen Combustion Challenges: Investigating the Influence of Lubricant Characteristics on Auto-Ignition in Hydrogen-Air Mixtures under Engine-Relevant Conditions N2 - The presented research work examines the effects of different fuel-air equivalence ratios and initial pressure on ignition temperature. This study shows a non-monotonic pressure dependence in stoichiometric mixtures at varying pressures from 1 to 10 bar and a low sensitivity to changes in the equivalence ratio (0.5-2). The results form the basis for our future research into the complex interaction between lubricant characteristics and hydrogen-air mixtures to better understand pre-ignition phenomena in internal combustion engines. T2 - Nordic Flame Days 2023 CY - Trondheim, Norway DA - 29.11.2023 KW - Ignition source KW - Internal combustion engines KW - Ignition temperature KW - Lubricants PY - 2023 AN - OPUS4-59083 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Roy, Arkendu A1 - Kumar, Sourabh A1 - Buzanich, Ana A1 - Hickel, Tilmann A1 - Emmerling, Franziska A1 - Bhattacharya, Biswajit T1 - Hydroxide Based High Entropy MOF for Oxygen Evolution Reaction N2 - The energy crisis becomes more prominent in higher altitude countries like Germany, with higher annual energy demand. Thus, the generation of higher energy density fuel like hydrogen from renewable resources become the only way to solve the zero-emission energy system while avoiding the expensive batteries as an energy storage option. Therefore, water electrolysis cells to produce hydrogen and oxygen by storing of solar/wind energy in chemical bonds is a fruitful alternative for renewable and long-term energy generation. Thus, designing inexpensive water-splitting electrocatalyst material becomes a field of research of utmost importance. High entropy metal hydroxide organic frameworks (HE-MHOFs) are composed of high entropy hydroxide layer inside MOFs, resulting in a high degree of structural complexity and diversity than conventional MOFs. The concept of ‘high entropy’ refers to multiple types of metal ions (Metal = TM) in a near equimolar ratio in the same framework, creating a high degree of disorder and many possible structural configurations. Here, the HE-MHOF successfully synthesized by a conventional solvothermal process, crystallizes in the single phase with significant lattice distortion. A special-quasi-random (SQS) structure was simulated with equimolar compositions (~20% TM = Mn, Co, Ni, Cu and Zn) and a comparison was made with the ICP-AES (inductively coupled plasma atomic emission spectroscopy), XANES (X-ray absorption near edge structure) and XAFS (X-ray absorption fine structure) observations. Further, the elemental mapping (Energy dispersive Spectroscopy) of HE-MHOF shows the presence of all five different metals in the same crystallite to substantiate the ‘high entropy’ state of the MOF. The HE-MHOF offers improved thermal stability than mono-metallic MHOF and exhibit unique properties compared to traditional monometallic (Ni2+) MOF variants. Firstly, to elucidate the effect of the multimetallic system on the catalytic performance, we have performed density functional theory (DFT) calculations to investigate pre-redox cycles involved in the catalytic activation of HE (and Ni)-MOFs. HE-MHOF is further investigated as an electrocatalyst for oxygen evolution reaction (OER) due to its special high entropy hydroxide layered structure and electronic properties. Our DFT results have examined the traditional proton-coupled electron transfer (PCET) steps involving the single transition-metal site. The scrutiny of d-band centers and their behaviour in catalytic upgradation is investigated with density of states (DOS) analysis. It exhibits outstanding performance towards oxygen evolution reaction (OER) comparable to the experimental findings, which is also comparable to state-of-the-art OER catalysts based on precious metals such as iridium oxide and platinum carbon. We have considered different electrolyte solutions to elucidate the fast kinetics oxygen evolution reaction in the presence of various external nucleophilic anions. In hydroxyl-based MOFs, electrolytes' influence can substantially enhance catalytic activities. Here, with the help of DFT simulations, we have investigated the effect of the nucleophilicity of anion on each elementary reaction involved in the PCET mechanism of OER. T2 - EuroMOF 2023 CY - Granada, Spain DA - 24.09.2023 KW - Metal-organic Framework KW - High Entropy Materials KW - Electrocatalysis PY - 2023 AN - OPUS4-58971 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Holtappels, Kai A1 - Askar, Enis T1 - Ammonia Safety N2 - In order to share the latest technological information in the gas field and develop the gas industry, the Korean Gas Safety Corporation host an international gas safety seminar every year by inviting domestic and foreign experts. In year 2023, the seminar focussed on the latest trends in ammonia safety management and utilization technology. BAM was asked to give a presentation on ammonia safety and its flammability in specific. Based on the international flammability classification the required explosion protection measures were presented,which are defined by the European ATEX rules. As final part of the presentation the German strategy on transformation of existing infrastructure, here especially the transformation of landbased LNG terminals, was shown as well. N2 - Um die neuesten technologischen Informationen im Gasbereich auszutauschen und die Gasindustrie weiterzuentwickeln, veranstaltet die Korean Gas Safety Corporation jedes Jahr ein internationales Gassicherheitsseminar, zu dem Experten aus dem In- und Ausland eingeladen werden. Im Jahr 2023 lag der Schwerpunkt des Seminars auf den neuesten Trends im Sicherheitsmanagement und in der Nutzungstechnologie von Ammoniak. Die BAM wurde gebeten, einen Vortrag über die Sicherheit von Ammoniak und insbesondere über dessen Entflammbarkeit zu halten. Auf der Grundlage der internationalen Brennbarkeitsklassifizierung wurden die erforderlichen Explosionsschutzmaßnahmen vorgestellt, die in den europäischen ATEX-Vorschriften festgelegt sind. Als letzter Teil der Präsentation wurde auch die deutsche Strategie zur Umwandlung bestehender Infrastruktur, hier insbesondere die Umwandlung von landgestützten LNG-Terminals, vorgestellt. T2 - 31st Internation Gas Safety Seminar of Korean Gas Safety Corporation (KGS) CY - Seoul, South Korea DA - 29.11.2023 KW - H2Safety@BAM KW - Ammonia safety KW - Flammability classification KW - ATEX rules KW - Explosion safety KW - Safety measures KW - Transformation of LNG terminals PY - 2023 AN - OPUS4-58972 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Askar, Enis A1 - Grunewald, Thomas T1 - Entzündung von wasserstoffhaltigen Atmosphären durch mechanische Schlagvorgänge N2 - In dem hier vorgestellten Projekt wurde die Wirksamkeit mechanischer Schläge als Zündquelle für wasserstoffhaltige Atmosphären in Abhängigkeit von der inhomogenen Materialpaarung systematisch untersucht. Dabei wurden praxisrelevante Materialien wie Edelstahl, niedrig legierter Stahl, Beton und Nichteisenmetalle betrachtet. Es wurde festgestellt, dass eine Zündung vermieden werden kann, wenn Nichteisenmetalle in Kombination mit verschiedenen metallischen Werkstoffen verwendet werden. In Kombination mit Beton muss die kinetische Schlagenergie auch mit Nichteisenmetallen weiter begrenzt werden, um eine wirksame Entzündung zu vermeiden. Außerdem wurde untersucht, wie sich die Beimischung von Wasserstoff zu Erdgas auf die Wirksamkeit mechanischer Stöße als Zündquelle auswirkt. Bei Beimischungen von bis zu 25 % Wasserstoff und sogar mehr konnte kein Einfluss festgestellt werden. Die Ergebnisse sind vor allem relevant im Zusammenhang mit der Umwidmung des Erdgasnetzes oder der Beimischung von Wasserstoff im Erdgasnetzes. T2 - Energy Saxony Arbeitskreistreffen "Wasserstoff in Industrie und Gewerbe" CY - Glaubitz, Germany DA - 30.11.2023 KW - Explosionsschutz KW - Explosionszonen KW - Wasserstofftransport in Pipelines KW - Zündquellen KW - Schlagfunken KW - Erdgas PY - 2023 AN - OPUS4-58981 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Holtappels, Kai A1 - Askar, Enis T1 - Ammonia Safety N2 - Ammoniak ist ein Energieträger, der bereits seit vielen Jahrzehnten im großen Maßstab produziert und verwendet wird, vorrangig als Düngemittel oder Einsatzstoff in der Stickstoffchemie. Das CAMPFIRE-Bündnis, im Rahmen des Förderprogramms “WIR!- Wandel durch Innovation in der Region” des Bundesministeriums für Bildung und Forschung (BMBF) gegründet, hat zum Ziel, die Forschung und Entwicklung neuer Energieumwandlungs- und Speichertechnologien für das zukünftige Energiesystem auf der Basis von grünen Ammoniak zu entwickeln. Die sichere Handhabung von Ammoniak ist ein über die gesamte Wertschöpfungskette existierendes wichtiges Thema. Daher hat das Bündnis ein Webinar organisiert, um das Thema Ammoniak Sicherheit und insbesondere die Brennbarkeit zu diskutieren. Der Beitrag der BAM hat das Thema Brennbarkeit intensiv dargestellt, die Klassifizierung von Ammoniak in einen internationalen bzw. europäischen und nationalen Kontext gestellt und die Grundzüge des Explosionsschutzes, die daraus resultieren bzw. bei Nutzung und Anwendung beachtet werden müssen, präsentiert. N2 - Ammonia is an energy source that has been produced and used on a large scale for many decades, primarily as a fertilizer or feedstock in nitrogen chemistry. The CAMPFIRE alliance, founded as part of the "WIR!- Wandel durch Innovation in der Region" funding program of the German Federal Ministry of Education and Research (BMBF), aims to research and develop new energy conversion and storage technologies for the future energy system based on green ammonia. The safe handling of ammonia is an important issue along the entire value chain. Therefore, the alliance has organized a webinar to discuss the topic of ammonia safety and in particular its flammability. BAM's contribution presented the topic of flammability in detail, placed the classification of ammonia in an international, European and national context and presented the basic principles of explosion protection that result from this and must be observed during use and application. T2 - Campfire Webinar CY - Online meeting DA - 21.11.2023 KW - Ammonia KW - Energy carrier KW - Flammability KW - Classification KW - Explosion safety PY - 2023 AN - OPUS4-58968 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Erxleben, Kjell A1 - Kaiser, Sebastian A1 - Kannengiesser, Thomas A1 - Kromm, Arne T1 - Repair welding of pressurized in-service hydrogen pipelines - A review on current challenges and strategies N2 - As energy carrier of the future, green hydrogen can make a decisive contribution to a sustainable energy supply. Particularly important is the decarbonization of heavy industry. Therefore, a reliable supply of hydrogen must be guaranteed. A hydrogen pipeline grid can achieve this purpose. In Europe concrete plans for a hydrogen pipeline grid already exist, as the so called “European Hydrogen backbone”. As building a completely new pipeline grid is economically not justifiable, a dual-way strategy of repurposing natural gas (NG) pipelines and newly built pipelines is intended. Long distance pipeline grids require regular maintenance and repairs. For natural gas (NG) pipelines in-service welding is state of the art. Concepts such as hot-tapping (drilling into pressurized pipelines) and “stoppling” (sealing off pipeline sections after installing bypasses or pressure relieves) allow the repair of damaged pipeline sections or the installation of new branches without shutting the pipeline down, which in most cases isn’t possible from an economic standpoint. The EIGA 121/14 guideline already pointed out in 2014 that “a hydrogen hot-tap shall not be considered a routine procedure”. This shows that the determination of the transferability of these repair concepts to hydrogen pipelines is of utmost importance. Due to the degrading effects of hydrogen on mechanical proper-ties, commonly referred to as “hydrogen embrittlement” it is necessary to understand and investigate the occurring effects. In the special case of repair welding on in-service hydrogen pipelines an increased hydro-gen uptake due to a large heat input and microstructural changes in the material needs to be considered. Therefore, material degradation must be investigated to determine whether modifications of repair procedures are necessary to ensure a reliable and safe hydrogen transportation via pipelines. For this reason, this paper gives an overview on existing weld repair concepts and its risks and limitations in terms of hydrogen absorption and possible embrittlement effects when transferred to hydrogen pipelines. The complexity lies in a large variety of materials (low alloyed steels), pipeline diameters and corresponding welded joints. The material compatibility of materials in used (repurposed NG-pipelines) and new condition must be investigated. Particularly for repurposed/used pipelines the effect of a pre-matured/corroded inner surface and sometimes insufficient documentation of the material “history” needs to be considered. An overview on ongoing and completed R&D-projects with respect to repair concepts for hydrogen pipelines and hydrogen effects on pipeline materials is given. The focus hereby lies on possible methods of material testing and modeling. Its current difficulties, limits and possible solution will be discussed. T2 - IIW Intermediate Meeting, Com. II-A CY - Incheon, Republic of Korea DA - 12.03.2024 KW - Hydrogen KW - Repair welding KW - Pipelines KW - In-service PY - 2024 AN - OPUS4-59674 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Czeskleba, Denis A1 - Kannengiesser, Thomas T1 - Combined effect of heating rate and restraint condition on stress relief cracking susceptibility during PWHT of thick-walled Cr-Mo-V steel submerged arc welded joints N2 - Contemporary steels creep-resistant steels like the 13CrMoV9-10 are used as thick plates e.g., for applications in hydrocrackers. The large plate thickness requires high efficiency welding processes like submerged arc welding (SAW) and a mandatory post weld heat treatment (PWHT). The PWHT-parameters stem from a combination of empirical knowledge and traditional experiments on free shrinking (FS) welds. In that connection, the formation of so-called stress-relief cracking (SRC) must be anticipated. The SRC susceptibility of a welded component is a complex combination and interaction of com-ponent specific, thermal, and metallurgical factors. Many of which have to date not been conclusively researched. For example, it is well known that SRCs develop during PWHT due to formation and growth of carbides on prior austenite grain boundaries, resulting in a significant hardness increase (secondary hardening) and toughness decrease. This leads to a high SRC susceptibility of the coarse grain heat-affected zone (CGHAZ) of the last weld bead during PWHT. This is intensified in case of high residual stresses from the component-specific, structurally induced stiffness. In combination with multi-layer welding this leads to a multiaxial stress distribution. Nonetheless, the combined effect of PWHT and high-residual stresses on the SRC formation is merely unknown. For that reason, this study presents the effect of different heating rates in conjunction with a certain component stiffness. For that reason, SAW joints of 13CrMoV9-10 steel were investigated under FS and defined external restraint condition. T2 - IIW Intermediate Meeting, Com. II-A CY - Incheon, Republic of Korea DA - 12.03.2024 KW - Stress relief cracking KW - Welding KW - Post weld heat treatment KW - Submerged arc welding KW - Cr-Mo-V steel KW - Creep-resisting steel PY - 2024 AN - OPUS4-59673 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kannengiesser, Thomas T1 - Call for interested people to contribute to series of comprehensive papers on welding and joining of components for sustainable energy systems N2 - Joining and welding technologies are of high importance for the manufacturing of components and parts used in sustainable energy generation, conversion, and transport. In that connection, offshore and on-shore installed wind turbines are of high interest for the generation of electrical energy as well as photo-voltaic systems (solar cells). The electricity can be either directly transported or conversed via power-to-gas e.g., to hydrogen. In that scope, electrolyzer up to MW-range are of interest as well as the conver-sion back to electricity via fuel cells. In addition, hydrogen is a key element of the decarburization of in-dustries as well as the mobility sector encompassing sea, air and land transportation driven by hydrogen or its derivates. Well-known examples cover the direct reduction of iron ore to replace the conventional blast furnace process up to gas turbines or fuel cells for home-end use. All mentioned technologies re-quire reliable components, which are to a high extend dependent on joining and especially welding pro-cessing of materials. Especially, the (petro-) chemical industry has many years of experience with both materials used in hydrogen applications. The challenge is e.g., the transition to mass production of sys-tem components of electrolyzers/fuel cells and for distribution grids. At this point, the scalability of cur-rently applied joining processes often limits the economic efficiency, whereas especially laser welding or additive manufacturing will be of high interest. In that connection, it is very important to provide answers by joint research of universities, institutes, and industrial companies. Very often, solutions are already available and “just” have to be investigated and adapted for the new application, like repair welding of NG pipelines. For that reason, we want to set up a series of comprehensive papers with the aforementioned title. The idea is to get an in-depth but manageable overview of the importance of joining technologies in sustaina-ble energy generation, conversion, and transport encompassing current processes, limitations, and fur-ther perspectives. In that connection, the additive manufacturing is gaining more and more attention. If applicable, current challenges in the adaption or creation of new standards/regulations shall be addressed. T2 - IIW Intermediate Meeting, Com. II-A CY - Incheon, Republic of Korea DA - 12.03.2024 KW - Hydrogen KW - Welding KW - Comprehensive study KW - Component manufatcturing KW - Additive manufacturing PY - 2024 AN - OPUS4-59676 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Günzel, Stephan A1 - Mair, Georg T1 - Normung und Sicherheit im Leichtbau - Sicherheitsbetrachtungen aus Sicht der Regelsetzung am Beispiel von Behältern für den Wasserstofftransport N2 - Es werden Methoden, Betrachtungen und Bewertungen der Sicherheit aus Sicht der Regelsetzung am Beispiel von Behältern für den Wasserstofftransport vorgestellt. T2 - 18. Cottbuser Leichtbauworkshop CY - Cottbus, Germany DA - 14.03.2024 KW - Sicherheit KW - Wasserstoff KW - Gefahrgut KW - Bewertung KW - Druckgefäß PY - 2024 AN - OPUS4-59697 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Grimault de Freitas, Tomás A1 - Sobol, Oded A1 - Konert, Florian A1 - Nietzke, Jonathan A1 - Krzysch, Zephanja A1 - Michler, Thorsten A1 - Wackermann, Ken A1 - Oesterlin, Heiner A1 - Elsen-Humberg, Stephan A1 - Koenigs, Timo A1 - Tlili, Mohamed A1 - Ruchti, Peter A1 - Beitelschmidt, Denise A1 - Systermans, Thomas A1 - Böllinghaus, Thomas T1 - H2HohlZug: Comprehensive Standardisation of the Hollow Specimen Method for Tests in High-Pressure Hydrogen Gas N2 - The poster starts by presenting the current limitations of the methods used to assess hydrogen effects on materials. Next, an alternative technique called the Hollow Specimen Technique is presented, which aims to overcome the limitations of the current standardised techniques, followed by its advantages. Finally, the H2HohlZug project, its work packages and objectives are presented. T2 - TransHyDE Vollversammlung CY - Leipzig, Germany DA - 29.11.2023 KW - Hollow Specimen Technique KW - Hydrogen Embrittlement KW - Tensile Test KW - High-Pressure Gaseous Hydrogen PY - 2023 AN - OPUS4-59153 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Orellana Pérez, Teresa T1 - European policy framework regulations codes and standards for safe hydrogen technologies N2 - This lecture describes the history of hydrogen from the first scientific discoveries in the 18th century to the current technological and political developments for the market ramp-up of hydrogen technologies. The European policy framework for safe hydrogen technologies is explained comprehending the European Green Deal, European Climate Law, European Hydrogen Strategy, Clean Hydrogen Partnership, etc. Safety in hydrogen technologies is governed by international and European regulations and standards. An overview on regulatory bodies, technical committees, regulations, directives, standards, and technical guidelines with special attention on the BAM-GGR 021 is given in this lecture. T2 - Joint European Summer School 2022, Hydrogen Safety CY - Athens, Greece DA - 18.09.2022 KW - Hydrogen KW - Safety KW - Regulations KW - Standards PY - 2022 AN - OPUS4-59295 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Orellana Pérez, Teresa T1 - Guest lecture: European policy framework regulations codes and standards for safe hydrogen technologies N2 - This lecture describes the history of hydrogen from the first scientific discoveries in the 18th century to the current technological and political developments for the market ramp-up of hydrogen technologies. The European policy framework for safe hydrogen technologies is explained comprehending the European Green Deal, European Climate Law, European Hydrogen Strategy, Clean Hydrogen Partnership, etc. Safety in hydrogen technologies is governed by international and European regulations and standards. An overview on regulatory bodies, technical committees, regulations, directives, standards, and technical guidelines with special attention on the BAM-GGR 021 is given in this lecture. T2 - MSc Fuel Cells and Hydrogen Technologies at the University of Birmingham (LM Hydrogen Safety, MSc FCHT module C7B) CY - Birmingham, UK DA - 21.10.2022 KW - Hydrogen KW - Safety KW - Regulations KW - Standards PY - 2022 AN - OPUS4-59296 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Orellana Pérez, Teresa T1 - European policy framework for safe hydrogen technologies N2 - This lecture describes the history of hydrogen from the first scientific discoveries in the 18th century to the current technological and political developments for the market ramp-up of hydrogen technologies. The European policy framework for safe hydrogen technologies is explained comprehending the European Green Deal, European Climate Law, European Hydrogen Strategy, Clean Hydrogen Partnership, REPowerEU Plan, Renewable Energy Directive and its Delegated Act, Net Zero Industry Act, etc. T2 - Joint European Summer School 2023, Hydrogen Safety CY - Athens, Greece DA - 17.09.2023 KW - Hydrogen KW - Safety KW - Policies PY - 2023 AN - OPUS4-59297 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Orellana Pérez, Teresa T1 - Regulations codes and standards for safe hydrogen technologies N2 - Safety in hydrogen technologies in Europe is governed by international and European regulations and standards. An overview on regulatory bodies, technical committees, regulations, directives, standards, and technical guidelines with special attention on the BAM-GGR 021 is given in this lecture. T2 - Joint European Summer School 2023, Hydrogen Safety CY - Athens, Greece DA - 17.09.2023 KW - Hydrogen KW - Safety KW - Regulations KW - Standards PY - 2023 AN - OPUS4-59300 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Orellana Pérez, Teresa A1 - Mair, Georg A1 - Günzel, Stephan A1 - Holtappels, Kai A1 - Askar, Enis A1 - Sobol, Oded A1 - Gradt, Thomas A1 - Maiwald, Michael A1 - Tiebe, Carlo A1 - Bock, Robert T1 - Competence Centre H2Safety@BAM N2 - Presentation of the Competence Centre H2Safety@BAM with all five competence field, representatives as well as its vision, mission, strategic goals and implementation plan. T2 - III. TR Wasserstoff Erfahrungsaustausch, TÜV Rheinland CY - Cologne, Germany DA - 07.12.2022 KW - Hydrogen safety KW - Materials compatibility KW - Component testing KW - Process and plant safety KW - Sensors and analytics KW - Cross-cutting activities PY - 2022 AN - OPUS4-59301 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Blind, Knut A1 - Asna Ashari, Parsa A1 - Weiss, Daniel T1 - Transitions in the mobility sector: Empirical evidence from hydrogen fuel cell, electric, and internal combustion engine vehicles N2 - This presentation was held at the 14th International Sustainability Transitions Conference 2023 in Utrecht. Against the backdrop of the sustainability transition of economies worldwide, decarbonizing road traffic is high on the agenda. This has focused the interest of policymakers and automobile manufacturers on sustainable, zero-emission powertrain technologies. Among these technologies, hydrogen fuel cell (FC) vehicles have a positive climate impact, given that their hydrogen is produced from renewable energy. However, FC vehicles have not yet gained significant market shares. Therefore, based on the technological innovation systems (TIS) approach, this study analyzes how FC vehicles are influenced by EVs and internal combustion engine (ICE) vehicles as their context structures. To operationalize the technology relations between our focal FC-TIS and its context structures, we use the sum of international publications, patents filed at the European Patent Office, and international ISO and IEC standards as indicators for each technology. Our results show that the FC-TIS is dominated by its context structures, especially regarding commercially relevant patents and international standards. Therefore, we conclude that the FC-TIS is in its formative life-cycle phase and identify the need for intensified patenting and standardization in relation to the competing EVs and ICE vehicles. T2 - 14th International Sustainability Transitions Conference 2023 CY - Utrecht, Netherlands DA - 30.08.2023 KW - Fuel cell vehicles KW - Publications KW - Patents KW - Standards KW - Technological innovation system (TIS) KW - Technology interaction PY - 2023 AN - OPUS4-59332 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Orellana Pérez, Teresa A1 - Khorasani, Media Ghasem Zadeh A1 - Mair, Georg A1 - Kehr, Torsten A1 - Bock, Robert A1 - Tiebe, Carlo T1 - QI Digital Use Case Hydrogen Refueling Station N2 - BAM is part of the “Quality Infrastructure Digital” (QI Digital) initiative of the German Federal Ministry for Economic Affairs and Climate Action (BMWK). This initiative aims at coordinating a large cooperation project, “QI Digital” for making German and European quality management systems fit for the digital transformation. It is a fact that the digitization of new products and services is occurring much faster than quality management systems can be accordingly updated. Thus, the digital transformation of quality management is necessary to preserve the competitiveness of the German and European industries that stand for quality and safety in the global market. The Use Case “Reliable Hydrogen Refueling Station” of QI Digital aims at creating new solutions that are transferable to other technical systems and at further developing standards and technical rules as a contribution to technology transfer and innovation. T2 - 4th German-Korean Hydrogen Conference CY - Seoul, Republic of Korea DA - 31.10.2023 KW - Hydrogen refueling station KW - Digital quality infrastructure PY - 2023 AN - OPUS4-59303 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Orellana Pérez, Teresa A1 - Mair, Georg A1 - Günzel, Stephan A1 - Bock, Robert A1 - Holtappels, Kai A1 - Askar, Enis A1 - Patzelt, Katrin A1 - Sobol, Oded A1 - Theiler, Geraldine A1 - Maiwald, Michael A1 - Tiebe, Carlo T1 - H2Safety@BAM N2 - Overview on the Competence Centre H2Safety@BAM including the following topics: current international developments regarding the market ramp up of hydrogen technologies, European policies, hydrogen market projections, etc. T2 - H2SAFETY@BAM: WORKSHOP 2023 CY - Berlin, Germany DA - 27.06.2023 KW - Hydrogen safety KW - Hydrogen market PY - 2023 AN - OPUS4-59305 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Konert, Florian A1 - Wieder, Frank A1 - Nietzke, Jonathan A1 - Meinel, Dietmar A1 - Böllinghaus, Thomas A1 - Sobol, Oded T1 - Evaluation of the impact of gaseous hydrogen on pipeline steels utilizing hollow specimen technique and μCT N2 - The high potential of hydrogen as a key factor on the pathway towards a climate neutral economy, leads to rising demand in technical applications, where gaseous hydrogen is used. For several metals, hydrogen-metal interactions could cause a degradation of the material properties. This is especially valid for low carbon and highstrength structural steels, as they are commonly used in natural gas pipelines and analyzed in this work. This work provides an insight to the impact of hydrogen on the mechanical properties of an API 5L X65 pipeline steel tested in 60 bar gaseous hydrogen atmosphere. The analyses were performed using the hollow specimen technique with slow strain rate testing (SSRT). The nature of the crack was visualized thereafter utilizing μCT imaging of the sample pressurized with gaseous hydrogen in comparison to one tested in an inert atmosphere. The combination of the results from non-conventional mechanical testing procedures and nondestructive imaging techniques has shown unambiguously how the exposure to hydrogen under realistic service pressure influences the mechanical properties of the material and the appearance of failure. KW - Energy Engineering and Power Technology KW - Condensed Matter Physics KW - Fuel Technology KW - Renewable Energy, Sustainability and the Environment KW - µCT KW - Hollow Specimen Technique KW - Hydrogen Embrittlement PY - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-595077 VL - 59 SP - 874 EP - 879 PB - Elsevier B.V. AN - OPUS4-59507 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Asna Ashari, Parsa A1 - Blind, Knut T1 - The effects of hydrogen research and innovation on international hydrogen trade N2 - Climate change and the pressure to decarbonize, as well as energy security concerns, have drawn the attention of policymakers and the industry to hydrogen energy. To ad-vance the hydrogen economy at a global scale, research and innovation progress is of significant importance, among others. However, previous studies have provided only lim-ited quantitative evidence of the effects of research and innovation on the formation of a global hydrogen market. Instead, they postulate rather than empirically support this rela-tionship. Therefore, this study analyzes the effects of research and innovation measured by scientific publications, patents, and standards on bilateral hydrogen trade flows for 32 countries between 1995 and 2019 in a gravity model of trade, using regression analyses and Poisson Pseudo Maximum Likelihood (PPML) estimation. The main results of the PPML estimation show that research and innovation progress is indeed associated with increased trade, especially with patenting and (international) standardization enhancing hydrogen export volumes. As policy implications, we derive that increased public R&D funding can help increase the competitiveness of hydrogen energy and boost market growth, along with infrastructure support and harmonized standards and regulations. KW - Hydrogen supply KW - Global hydrogen market KW - Research and innovation KW - Push and pull effects KW - Hydrogen policies PY - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-594875 VL - 186 SP - 1 EP - 15 PB - Elsevier B.V. AN - OPUS4-59487 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Konert, Florian A1 - Campari, Alessandro A1 - Nietzke, Jonathan A1 - Sobol, Oded A1 - Paltrinieri, Nicola A1 - Alvaro, Antonio T1 - Evaluation of the tensile properties of X65 pipeline steel in compressed gaseous hydrogen using hollow specimens N2 - Hydrogen has great potential on the path towards decarbonization of the energy and transport sectors and can mitigate the urgent issue of global warming. It can be sustainably produced through water electrolysis with potentially zero emissions, and efficiently used (e.g., in fuel cell systems). Despite its environmental advantages, hydrogen-metal interactions could result in the degradation of the mechanical properties of several structural materials. In order to determine the magnitude of the material degradation in relation to hydrogen exposure, extensive material testing is required. The standardized procedure for in-situ testing for the quantification of the impact of compressed gaseous hydrogen (CGH2) relies on the utilization of an autoclave around the tested specimen. Such test set-up is complex, expensive, time-consuming and requires special equipment, trained personnel, and strict safety procedures. A relatively recent method to circumvent these issues and provide affordable results consists of using hollow specimens, thus applying the hydrogen pressure inside rather than outside the specimen. It allows to reduce the volume of hydrogen by several orders of magnitude and to perform the tests more efficiently and in a safer manner. This study focuses on evaluating the tensile properties of X65 vintage pipeline steel tested in a high-pressure hydrogen environment using hollow specimens. Tests are performed in 6 MPa H2 and Ar at the nominal strain rate of 10−6 s−1 to evaluate the reduced area at fracture and the elongation loss. The effect of surface finishing on crack initiation and propagation is investigated by comparing two different manufacturing techniques. In this way, this study provides insights into the applicability of a novel, reliable, and safe testing method which can be used to assess the hydrogen-assisted ductility loss in metallic materials. KW - Mechanical Engineering KW - Hydrogen Embrittlement KW - SSRT KW - Hollow specimen KW - Pipeline steel KW - In-situ tensile test PY - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-595887 SN - 2452-3216 VL - 54 SP - 1 EP - 8 PB - Elsevier B.V. AN - OPUS4-59588 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Grimault de Freitas, Tomás T1 - State of the Art in the Qualification of Metallic Materials for Hydrogen Technologies N2 - The hydrogen economy is one of the main solutions for achieving climate neutrality in Europe. Metallic materials, predominantly steels, are the most common structural materials in the various components along the hydrogen supply chain. Ensuring their sustainable and safe use in hydrogen technologies is a key factor in the ramp-up of the hydrogen economy. This requires extensive materials qualification, however, most of the accepted, and standardised test methods for determining the influence of gaseous hydrogen on metallic materials describe complex and costly procedures that are only available to a very limited extent worldwide (e.g., autoclave technique). The hollow specimen technique is presented as an alternative method that can overcome the limitations of current techniques and complement them. To standardise the technique, a process has been initiated by ISO in 2021. Knowledge gaps for tests with the technique in hydrogen have been identified by DIN. The H2HohlZug project, which falls under the umbrella of TransHyDE, aims to address the identified knowledge gaps and provide a foundation for a comprehensive standardisation of the hollow specimen technique. T2 - E-World Energy & Water CY - Essen, Germany DA - 20.02.2024 KW - Hydrogen KW - Hydrogen Embrittlement KW - Hollow Specimen Technique KW - High-Pressure Gaseous Hydrogen KW - Standardisation KW - H2HohlZug KW - TransHyDE PY - 2024 AN - OPUS4-59564 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - GEN A1 - Schwarz, I. A1 - Rieck, Arielle A1 - Fellinger, Tim-Patrick A1 - Weuster-Botz, Dirk T1 - Bio-electrochemical CO2 conversion into organic products using precious-metal free electrocatalysts N2 - For the realization of a sustainable economy, it is of great importance to make use of CO2 for the production of multi-carbon organic chemicals used as feedstock in the chemical industry as well as carbon-neutral fuels (Varela et al. 2019). A promising approach is the electrochemical CO2 reduction followed by microbial conversion of the reduced products. KW - Bio-electrochemical KW - Organic products KW - Electrocatalysts PY - 2024 SP - 1 EP - 2 AN - OPUS4-59572 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Karapanagiotis, Christos A1 - Schukar, Marcus A1 - Krebber, Katerina T1 - Verteilte faseroptische Sensoren zur Zustandsüberwachung von Verbundwerkstoff-Druckbehältern T1 - Distributed fiber optic sensors for structural health monitoring of composite pressure vessels N2 - In diesem Beitrag geben wir einen umfassenden Überblick über unsere Forschung auf dem Gebiet der verteilten faseroptischen Sensorik für die strukturelle Zustandsüberwachung von Wasserstoffdruckbehältern aus Verbundwerkstoffen. Insbesondere zeigen wir, wie die Integration von faseroptischen Sensoren in Druckbehälter aus Verbundwerkstoffen die Sicherheit erhöht und gleichzeitig die Wartungskosten senkt. Die geringe Größe von Lichtwellenleitern ermöglicht ihre Integration in Verbundwerkstoffstrukturen während des Herstellungsprozesses, wodurch eine kontinuierliche Überwachung sowie eine präzise Erkennung und Lokalisierung von Strukturschäden während des Betriebs der Druckbehälter ermöglicht wird. Wir erörtern auch das Potenzial modernster Signalverarbeitungsmethoden und des maschinellen Lernens für die Weiterentwicklung der vorausschauenden Instandhaltung. Die von uns vorgestellten Anwendungen von faseroptischen Sensoren zeigen, dass sie einen wichtigen Beitrag zur Energiewende hin zu erneuerbaren Energien leisten können. KW - Verteilte faseroptische Sensoren KW - Verbundwerkstoffe KW - Wasserstoff-Druckbehälter KW - Strukturüberwachung KW - Maschinelles Lernen PY - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-596290 SP - 1 EP - 12 AN - OPUS4-59629 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg A1 - Günzel, Stephan T1 - Die Zukunft der Betriebsüberwachung von gasspeichern aus Composite N2 - Der Wasserstofftransport auf der Straße ist wichtig und wird wie der noch geringe Transport auf der Schiene weiter stark zunehmen. Die bisherige Effizienzsteigerungen sind über Werkstoff- und Designänderungen vom Vollstahl über umfangsumwickelte Stahl- bis zu Compositespeichern mit Kunststofflinern erfolgt. Hinzu kam die auf Basis der BAM-GGR 022 an Vorbedingungen geknüpfte Prüffristverlängerung von 5 auf 10 Jahre. Die wiederkehrende Prüfung von großen Transporteinheiten bedeutet jedes Mal einen Stillstand von gut 8 Wochen. Entsprechend steht mit Blick auf die weitere Effizienzsteigerung die Reduktion des Prüfaufwands im Fokus. Eine Effizienzsteigerung kann nach aktueller Rechtslage geschehen, indem die hydraulische Prüfung auf eine Gasdruckprüfung umgestellt wird. Dies könnte zukünftig mit geeigneten Arbeitsschutzmaßnahmen pneumatisch durchgeführt werden – auch ohne Rechtsänderung. Ein deutlich größerer Schritt in Richtung Verbesserung des Aufwands- zu Nutzenverhältnis ließe sich erreichen, indem die zerstörungsfreie Prüfung nicht mehr nur als Arbeitsschutz-motiviertes, begleitendes, sondern als zentrales Prüfverfahren ausgebaut wird. Gerade wenn – wie für die Schallemissionsanalyse erwartet – eine relativ gute Abschätzung des Berstdruckes möglich ist, könnte auf die 100%-Prüfung verzichtet werden und bis zu einem kritischen Alter nur auf Stichprobenprüfung basieren, was allerdings erhebliche Rechtsänderung erfordert und auch neue Werkezuge der Informationsverwaltung. Als Vorlage für einen praktischen Ansatz zur Rechtsänderungen inkl. Informationsverwaltung wird auf die SV 674 in Verbindung mit 6.2.3.5.3ff ADR/RID verwiesen. Dies kombiniert mit einer digitalen Lebenslaufakte, die auf der digitalen Qualitätssicherung (QI-digital) beruht, wäre ein mächtiges Werkzeug für eine Verbesserung des Aufwands- zu Nutzenverhältnis und so auch eine Lösung des mit der stark steigenden Anzahl der Transporteinheiten absehbaren Kapazitätsproblems in der wiederkehrenden Prüfung. T2 - 31. BAM-DIN-IGV-DVFG Jahresgespräche CY - IGV, Berlin DA - 21.02.2024 KW - pV-Produkt KW - Schallemissionsanalyse KW - Sondervorschrift 674 KW - Stichprobenprüfung KW - BAM-GGR 022 PY - 2024 AN - OPUS4-59601 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Trogadas, P. A1 - Cho, J. I. S. A1 - Rasha, L. A1 - Lu, X. A1 - Kardjilov, N. A1 - Markötter, Henning A1 - Manke, I. A1 - Shearing, P. R. A1 - Brett, D. J. L. A1 - Coppens, M. O. T1 - A nature-inspired solution for water management in flow fields for electrochemical devices N2 - A systematic, nature-inspired chemical engineering approach is employed to solve the issue of flooding in electrochemical devices. The mechanism of passive water transport utilized by lizards living in arid environments is leveraged to design flow-fields with a microchannel structure on their surface, through which capillary pressure rapidly removes the water generated in the electrochemical device. This water management strategy is implemented in proton exchange membrane fuel cells (PEMFCs) with a lunginspired flow-field, which ensures uniform distribution of reactants across the catalyst layer. Jointly, this nature-inspired approach results in flood-free, stable operation at 100% RH and a B60% increase in current (B1.9 A cm-2) and peak power density (B650 mW cm−2) compared to current PEMFCs with a flood-prone, serpentine flow-field (B0.8 A cm-2 and 280 mW cm-2, respectively). This significant advance allows for PEMFC operation at fully humidified conditions. KW - Neutron imaging KW - X-ray tomography KW - Fuel cell PY - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-596662 VL - 17 SP - 2007 EP - 2017 PB - Royal Society of Chemistry (RSC) AN - OPUS4-59666 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Kluge, Martin A1 - Habib, Abdel Karim A1 - van Wingerden, Kees ED - Beyer, Michael ED - Lucassen, Arnas T1 - Large-scale tests to investigate the consequences of exposing cryogenic storage vessels containing liquid hydrogen to a fire load N2 - Large Scale Experiments have been performed to determine whether a storage vessel containing liquid hydrogen (LH2) and caught in a fire engulfing the vessel can result in a BLEVE (Boiling Liquid Expanding Vapour Explosion) and if so its consequences. The tests were performed at the Test Site Technical Safety of the Bundesanstalt für Materialforschung und –prüfung (BAM) in Germany at the Hydrogen Test Area (H2TA) within a research cooperation between BAM and Gexcon as part of the SH2IFT program. Three tests were performed using double-walled vacuum insulated vessels of 1 m3 volume. The cylindrical Vessels differed in orientation (horizontal or vertical) and the insulation material used (perlite or multi-layer insulation (MLI)). The degree of filling of the vessels was approximately 35-40 % in each of the tests performed. The fire load was provided by a propane fed burner-system positioned under the storage vessel and designed to give a homogeneous fire load. The conditions in the vessel (temperatures and pressure) as well as external effects (heat radiation, blast waves, flame ball development and fragmentation) were measured. All vessels were equipped with K-type thermocouples at several locations at the inner and outer vessel shell. The pressure inside the inner vessel and in the space between the inner and outer vessels (vacuum pressure) was measured. Bolometers were used to measure the heat radiation generated by both the propane fire and that generated by a possible fireball/BLEVE. To measure blast generated by the vessel burst/BLEVEs blast pencils were positioned at up to three locations. Further several cameras were used to monitor the events: normal cameras, infrared (IR)-cameras, high-speed cameras also on board of an UAV. Two of these vessels, a horizontal and a vertical vessel both insulated with perlite withstood the fire loading for 1 hour 20 minutes and 4 hours respectively without catastrophic failure. A horizontal vessel insulated with MLI failed by bursting after 1 hour and 6 minutes resulting in a fireball, fragments, and blast wave. T2 - 14th International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions CY - Braunschweig, Germany DA - 11.07.2022 KW - Prevention KW - Industrial explosions KW - BLEVE KW - LH2 KW - Fire ball KW - Fragments PY - 2022 U6 - https://doi.org/10.7795/810.20221124 SP - 168 EP - 181 AN - OPUS4-59440 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Habib, Abdel Karim A1 - Kluge, Martin A1 - van Wingerden, Kees ED - Beyer, Michael ED - Lucassen, Arnas T1 - Experimental investigation into the consequences of release of liquified hydrogen onto and under water N2 - Large-scale experiments have been performed to investigate the possible consequences of realistic amounts of liquified hydrogen (LH2) encountering water. The experiments aimed at simulating an accidental release of LH2 during especially the fuelling of a ship. For liquified natural gas (LNG) it has been demonstrated that when spilled onto water the evaporation rate can be that high that physical explosions occur which are referred as rapid phase transitions (RPTs). It cannot be excluded that RPTs are also possible in the case of LH2. The tests were performed in a 10 m x 10 m x 1.5 m basin filled with water, at the Test Site Technical Safety of the Bundesanstalt für Materialforschung und –prüfung (BAM) in Horstwalde, Germany within a research cooperation between BAM and Gexcon as part of the SH2IFT program. LH2 releases were established releasing directly from a trailer carrying LH2 through a long flexible double vacuum insulated transfer line. The releases occurred from a height of 50 cm above and 30 cm under the water surface both pointing downwards and 30 cm under the water surface pointing along the water surface too. The release rate was determined based on the weight loss rate of the road tanker which was placed onto load cells. Special blast pressure sensors were used to measure the shock waves generated by the release processes both in the water and in the air. At several locations the gas concentration was measured. Heat radiation was measured at 3 distances from the point of release. High speed, Infrared (IR) and normal cameras were used to record events and to follow the gas cloud behaviour in time. This includes cameras mounted on a UAV and underwater cameras. Two weather stations were used to measure wind speed, wind direction, temperature and humidity during all tests performed. All investigated release configurations resulted in a very chaotic LH2-water mixing zone, causing considerable evaporation but only minor over pressures. The main phenomenon observed was an ignition of the released gas cloud, resulting in significant blast wave overpressures and heat radiation to the surroundings. The location of the ignition occurred in free air at some distance from the instrumentation and release location. T2 - 14th International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions (ISHPMIE 2022) CY - Braunschweig, Germany DA - 11.07.2022 KW - LH2 KW - RPT KW - Release KW - Gas cloud explosion KW - Heat radiation PY - 2022 SP - 182 EP - 196 AN - OPUS4-59441 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Zaghdoudi, M. A1 - Kömmling, Anja A1 - Böhning, Martin A1 - Jaunich, Matthias T1 - Ageing of elastomers in air and in hydrogen environment: A comparative study N2 - EPDM, HNBR and FKM materials were exposed at 150 ◦C to air under atmospheric pressure and to hydrogen at 50 bar for different ageing times. All measurements after hydrogen exposure were conducted on samples in degassed condition to assess irreversible effects resulting from that exposure and to compare them to those after ageing in air. Density, hardness, tensile properties, compression set, and hydrogen permeability of all samples were analysed. In both ageing environments, HNBR exhibited the most significant changes of material properties. However, for both EPDM and HNBR, considerably less severe ageing effects were observed under hydrogen in comparison to ageing in air. On the other hand, FKM showed about the same low level of deterioration in both ageing environments but exhibited poor resistance against damage due to rapid gas decompression in hydrogen environment that can lead to seal failure. The obtained results may serve as a guidance toward a better understanding for design and utilisation of elastomeric materials in future hydrogen infrastructure components. KW - Rapid gas decompression KW - Condensed Matter Physics KW - Hydrogen KW - Sustainability and the Environment KW - Rubber sealing KW - Renewable Energy PY - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:b43-597417 SN - 0360-3199 VL - 63 SP - 207 EP - 216 PB - Elsevier B.V. AN - OPUS4-59741 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Konert, Florian A1 - Freitas, Tomás A1 - Krzysch, Zephanja T1 - Evaluating X65 pipeline steel using the hollow specimen technique N2 - This presentation describes the usability of the hollow tensile specimen technique for in-situ material testing in a hydrogen atmosphere. In addition, the presentation provides an outlook on the methodology for investigating the suitability of pipeline steels and their weld seams for hydrogen operation. T2 - EPHyC 2024 CY - Ghent, Belgium DA - 19.03.2024 KW - Hydrogen embrittlement KW - Hollow specimen technique KW - Pipeline steel KW - SSRT PY - 2024 AN - OPUS4-59746 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Bernardy, Christopher A1 - Konert, Florian A1 - Popiela, Bartosz A1 - Sarif, Raduan T1 - H2Safety@BAM: Competence Center for safe hydrogen technologies N2 - Presentation of the competence center H2Safety@BAM at the European PhD Hydrogen Conference 2024 in Ghent, Belgium. T2 - European PhD Hydrogen Conference 2024 (EPHyC2024) CY - Ghent, Belgium DA - 20.03.2024 KW - H2safety KW - Hydrogen KW - Safety KW - Competence center PY - 2024 AN - OPUS4-59756 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Rhode, Michael A1 - Kaiser, Sebastian A1 - Erxleben, Kjell A1 - Kannengiesser, Thomas T1 - „H2-SuD” Einfluss des Schweißens auf die Wasserstoffaufnahme und Degradation im Betrieb befindlicher H2-Ferngasleitungen, Statusbericht – März 2024 N2 - Die Umstellung der Wirtschaft auf wasserstoffbasierte Energieversorgung soll in Deutschland vor allem auf Basis der Umstellung des bestehenden Erdgasnetzes erfolgen. ­Dabei sollen ca. 90 % dieser Fernleitungsnetze auf dem bestehenden Erdgasnetz basieren. Die Beimischung von Wasserstoff zum Erdgas als auch der reine Wasserstofftransport werfen jedoch die Frage auf, ob und wie kompatibel die eingesetzten Materialien sind. Die Reparatur- und Erweiterungsfähigkeit von Erdgas-Bestandspipelines ist zu klären, wenn diese auf Wasserstoff umgestellt werden. Denn gerade Gashochdruckleitungen müssen regelmäßig gewartet und erweitert werden, um einen ordnungsgemäßen Betrieb sicherzustellen. Insbesondere das Schweißen unter Betriebsdruck bzw. an in Betrieb befindlichen Gasleitungen ist eine der wichtigsten Instandhaltungstechnologien, unabhängig von der Zusammensetzung des geförderten Mediums. Es ist daher dringend notwendig, eine geeignete Teststrategie zu erarbeiten, welche die nötigen Vorrausetzungen für sicheres Schweißen an in Betrieb befindlichen Druckwasserstoffleitungen schafft und entsprechende Kriterien für die Praxis liefert. Im Projekt H2-SuD - Einfluss des Schweißens auf die Wasserstoffaufnahme und Degradation im Betrieb befindlicher H2-Ferngasleitungen - soll geklärt werden, ob und wie stark mit einer Eigenschaftsdegradation geschweißter Rohrstähle in Gasnetzen in Folge einer Wasserstoffaufnahme zu rechnen ist. Die Präsentation gibt dazu einen kurzen Überblick über den aktuellen Status des Projektes. Die Förderung erfolgt im Rahmen der DVGW-Innovationsprogammes Wasserstoff (Nr. G 202131). T2 - DVGW - Arbeitsgruppentreffen CY - Berlin, Germany DA - 19.03.2024 KW - Wasserstoff KW - Pipeline KW - Reparaturschweißen KW - Betrieb KW - Hochdruck PY - 2024 AN - OPUS4-59758 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Werhahn, Olav A1 - Gerwig, Holger A1 - Travnicek, Wilma A1 - Kipphardt, Heinrich T1 - Gas metrology in Gemany - contributions to climate and air quality monitoring N2 - Climate and air quality are of fundamental interest worldwide. Gas metrology provides profound solutions to measurement tasks on climate and air quality, e.g., when greenhouse gases or pollutants are to be quantified. Metrological capabilities are demonstrated through participation in the framework of the CIPM Mutual Recognition Arrangement (CIPM MRA). In Germany, this is covered by three institutes: Bundesanstalt für Materialforschung und -prüfung (BAM), Physikalisch-Technische Bundesanstalt (PTB), and Umweltbundesamt (UBA). Together, the three laboratories realize the unit mole by means of the national gas standards and offer services to their customers that are backed-up by internationally accepted calibration and measurement capabilities (CMCs). T2 - Gas Analysis 2024 CY - Paris, France DA - 30.01.2024 KW - Metrology KW - Chemical Analysis KW - Gases PY - 2024 AN - OPUS4-59770 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Popiela, Bartosz A1 - Günzel, Stephan A1 - Mair, Georg W. A1 - Seidlitz, Holger T1 - Modelling of the manufacturing related residual stresses in type 4 pressure vessels for hydrogen storage N2 - Presentation about modelling of the residual stresses in type 4 pressure vessels for hydrogen storage at the European PhD Hydrogen Conference 2024 in Ghent, Belgium. T2 - European PhD Hydrogen Conference 2024 (EPHyC2024) CY - Ghent, Belgium DA - 20.03.2024 KW - Composite KW - Pressure vessel KW - Residual stresses PY - 2024 AN - OPUS4-59757 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER -