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 - Mair, Georg 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 - CONF A1 - John, Sebastian A1 - Duffner, Eric A1 - Mair, Georg T1 - Degradation and damage analysis of composite pressure vessels via experimental modal analysis N2 - For mobile gas storage systems, the application of type IV pressure vessels is state of the art. Type IV tanks consist of an inner polymer liner fully wrapped with fibre-reinforced plastic (FRP). Because of the complex fabric of the FRP as well as a difficulty estimable interaction behaviour between the single components under load, there are still no satisfying non-destructive testing methods to assess the current state of failure nor to estimate the level of degradation accurately and economically. At BAM division 3.5, analysing the ageing process of mobile composite pressure vessels is a major task to ensure safe usage over the whole lifetime. In this context, key aspects of our ongoing research activities are the invention of new test procedures and the development of accurate lifetime prediction models. In order to determine the level of degradation or damage, one meaningful non-destructive approach is to analyse the structural dynamic behaviour via an experimental modal analysis (EMA). Over the last few years, different types and sizes of composite pressure vessels have been tested in several research projects. The presented paper gives an insight into how to extract and interpret modal parameters and how to fit them to the results of residual strength tests. T2 - NOVEM Conference 2023 CY - Auckland, New Zealand DA - 09.01.2023 KW - Composite material KW - Pressure vessel KW - Degradation KW - Modal analysis PY - 2023 SP - 57-1 EP - 57-6 AN - OPUS4-58062 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 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 - CONF A1 - John, Sebastian A1 - Widjaja, Martinus A1 - Mair, Georg 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 - John, Sebastian A1 - Duffner, Eric A1 - Mair, Georg T1 - Degradation and damage analysis of composite pressure vessels via experimental modal analysis N2 - For mobile gas storage systems, the application of type IV pressure vessels is state of the art. Type IV tanks consist of an inner polymer liner fully wrapped with fibre-reinforced plastic (FRP). Because of the complex fabric of the FRP as well as a difficulty estimable interaction behaviour between the single components under load, there are still no satisfying non-destructive testing methods to assess the current state of failure nor to estimate the level of degradation accurately and economically. At BAM division 3.5, analysing the ageing process of mobile composite pressure vessels is a major task to ensure safe usage over the whole lifetime. In this context, key aspects of our ongoing research activities are the invention of new test procedures and the development of accurate lifetime prediction models. In order to determine the level of degradation or damage, one meaningful non-destructive approach is to analyse the structural dynamic behaviour via an experimental modal analysis (EMA). Over the last few years, different types and sizes of composite pressure vessels have been tested in several research projects. The presented paper gives an insight into how to extract and interpret modal parameters and how to fit them to the results of residual strength tests. T2 - NOVEM 2023 CY - Auckland, New Zealand DA - 09.01.2023 KW - Pressure vessel KW - Composite KW - Modal analysis KW - Degradation PY - 2023 AN - OPUS4-58063 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, Holger ED - Nabizada, A. ED - Dechany, A. ED - Carré, B. ED - Ghogare, D. ED - Stendardo, E. ED - Lappa, F. ED - Vanlaere, J. ED - Mendoza, M. J. ED - Dejonghe, M. ED - Daese, M. ED - Namazifard, N. ED - Jacops, R. ED - Jottrand, S. ED - Pahlavan, S. T1 - Modelling of the Manufacturing Process Related Residual Stresses in Type 4 Pressure Vessels for Hydrogen Storage N2 - The publication is an extended abstract on the modelling of the manufacturing process related residual stresses in type 4 pressure vessels for hydrogen storage. A 2D analytical model based on the classical laminate theory and a 3D finite element model are introduced. The calculated residual stress state after the filament winding process as well as the stress state in service are presented and discussed. T2 - European PhD Hydrogen Conference 2024 (EPHyC2024) CY - Ghent, Belgium DA - 20.03.2024 KW - Composite KW - Hydrogen KW - Pressure vessel KW - Residual stresses KW - Filament winding KW - Carbon fiber PY - 2024 VL - 2024 SP - 445 EP - 450 PB - Hydrogen Europe Research, BE-HyFE AN - OPUS4-59779 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 - Mair, Georg A1 - Becker, B. A1 - John, Sebastian A1 - Duffner, Eric T1 - Composite storage systems for compressed hydrogen - systematic improvement of regulations for more attractive storage units N2 - Hydrogen is an attractive energy carrier that requires high effort for safe storage. Forensuring safety, they must undergo a challenging approval process. Relevant standardsand regulations for composite cylinders used for the transport of hydrogen and for its on-board storage are currently based on deterministic (e.g. ISO 11119-3) or semi-probabilistic(UN GTR No. 13) criteria. This paper analysis the properties of such methods withrespect to the evaluation of load cycle strength. Their characteristics are compared withthe probabilistic approach of the BAM. Based on Monte-Carlo simulations, the availabledesign range (mean value and scatter of strength criteria) of current concepts was exem-plarily estimated. The aspect of small sample sizes is analysed and discussed with respectto the evaluation procedures. KW - Probabilistic KW - Monte-Carlo KW - Regulations KW - Composite cylinder KW - Hydrogen vehicles KW - Transport of dangerous goods PY - 2020 DO - https://doi.org/10.1016/j.ijhydene.2018.04.068 SN - 0360-3199 VL - 45 IS - 25 SP - 13672 EP - 13679 PB - Elsevier Ltd. AN - OPUS4-50687 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Günzel, Stephan A1 - Mair, Georg A1 - Wang, Bin T1 - Safety aspects of hydrogen transportation N2 - In this presentation safety aspects of hydrogen transportation are discussed. At first, the regulatory background and level of safety are presented. In the second part, the modelling of consequence due to sudden rupture of pressure receptacles is explained. Finally, the results are used to define a limit for consequence to enable an acceptable and safe transport of hydrogen. T2 - 3rd Germany-Korea Hydrogen Conference CY - Berlin, Germany DA - 27.09.2022 KW - Safety KW - Hydrogen KW - Wasserstoff KW - Gefahrgut KW - Consequence PY - 2022 AN - OPUS4-59902 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg 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 - CONF A1 - Günzel, Stephan A1 - Mair, Georg T1 - Safety assessment of hydrogen gas storage systems N2 - In this lecture, the safety assessment of hydrogen gas storage systems is presented using the example of composite pressure vessels. The main element is a probabilistic approval approach based on five steps. Firstly, the testing and evaluation of properties at the beginning of life are shown. Secondly, methods for artificial aging and the effect on the residual strength are presented. Thirdly, testing against dedicated accidents is introduced. Fourthly, effects on the surveillance of production quality are discussed. Finally, degradation and the end of life are estimated. Background information and examples are given for each step. The assessment presented is a method applicable for many safety-related systems. T2 - Masterstudiengang Wasserstofftechnologie - Modul 8: Safety and Public Acceptance – Sicherheitsaspekte, Akzeptanz und werkstofftechnische Herausforderungen des Wasserstoffs CY - Online meeting DA - 25.08.2023 KW - Safety KW - Hydrogen KW - Wasserstoff KW - Bewertung KW - Assessment PY - 2023 AN - OPUS4-59899 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - RPRT A1 - Duffner, Eric A1 - el Dsoki, Chalid A1 - John, Sebastian A1 - Schmidt, Anita A1 - Mair, Georg A1 - Loechner, Derek A1 - Drousch, Björn T1 - Sicherheitstechnische Bewertung thermischer Betriebsbelastung auf sicherheitskritische Ausrüstung am Beispiel von Composite-Atemluftflaschen und Lithiumbatterien N2 - Ziel des Vorhabens war es, den Einfluss der realen Temperaturbelastung auf Atemschutzflaschen und Lithiumbatterien in Funkgeräten (FG) im Löscheinsatz von Rettungskräften zu ermitteln und deren Auswirkung auf die Alterung und Lebensdauer sowie die potenziellen Gesundheitsgefahren bei deren Nutzung besser beurteilen zu können und Handlungshilfen abzuleiten. Im Rahmen dieses Vorhabens wurden zum einen unterschiedlich thermisch gealterte Composite-Atemluftflaschen systematisch hinsichtlich ihrer Restfestigkeiten untersucht. Zum anderen wurden Lithiumbatterien aus FG hinsichtlich der Einwirkung von kritischen Temperaturen untersucht, ab denen es zu einem thermischen Durchgehen der Batterien kommen kann. Für diese beiden wichtigen Komponenten, Lithiumbatterien und Composite-Atemluftflaschen, wurden kritische Temperatur-Zeit-Profile ermittelt, die Auswirkungen durch geeignete Methodiken untersucht und die sich ergebenden Gefährdungen für den Träger bewertet. Als Methodische Vorgehensweise wurden durch Realversuche die tatsächlichen und zuvor durch Literatur-recherche ermittelten Temperaturprofile verifiziert und auf deren Grundlage die Laborbelastungen abgeleitet. Um den Eigenschaften der aus Faserverbundwerkstoffen hergestellten Composite-Atemluftflaschen Rechnung zu tragen, wurden an zwei repräsentativen Baumustern unterschiedlicher Hersteller Stichprobengruppen unterschiedlicher thermischer Belastung ausgesetzt und hinsichtlich ihrer verbleibenden Restfestigkeitsabnahme geprüft und mit thermisch unbelasteten Baumustern verglichen. Neben den statischen Berstversuchen wurden auch kombinierte Alterungs- und Restfestigkeitsuntersuchungen an zyklisch belasteten Behältern durchgeführt. Die FG wurden thermisch sowohl statischen als auch zyklischen Belastungen ausgesetzt und mit Kapazitätsmessungen begleitet. Die statischen Versuche dienten dem Zweck, die maximale thermische Belastbarkeit der Akkus zu ermitteln, bei der noch kein Versagen auftritt. Bei den zyklischen Versuchen wurde der Temperaturverlauf bei Löscheinsätzen so nah wie möglich im Labor nachgestellt. Hierbei wurden die Akkus wiederholt einem Belastungsprofil mit konstanter Temperatur ausgesetzt und nach einigen Intervallen die Restkapazitäten am Akku gemessen und so die Degradation bestimmt. Als Fazit der im Rahmen dieses Vorhabens durchgeführten Untersuchungen an zwei repräsentativen Baumustern von Atemschutzflaschen kann gefolgert werden, dass die thermischen Belastungen abhängig vom Baumuster einen z.T. deutlichen Einfluss auf die Restfestigkeiten der Atemschutzflaschen haben. Höhere thermische Exposition ist, zumindest an den untersuchten Atemschutzflaschen, deutlich zu erkennen und die Flaschen können durch die zuständigen Gerätewarte leicht ausgesondert und ersetzt werden. Die thermischen Belastungen, wie sie im Rettungseinsatz auftreten, waren für die untersuchten Atemschutzflaschen und die Rettungskräfte nicht kritisch sind. Die langjährige Erfahrung etablierter Hersteller dürfte hier aber nicht ohne Einfluss sein. Es ist somit kein Grund erkennbar, von der Verwendung der leichteren Typ 4 Atemschutzflaschen abzuraten, wenn Atemschutzflaschen, die visuell erkennbare thermische Einwirkungen (Farbänderungen, Materialschmelzungen o.ä.) aufweisen, unmittelbar ersetzt werden. Die Ergebnisse an den FG zeigen, dass trotz hoher Temperaturen keine Selbstentzündung der Lithiumbatterien ausgelöst wird. Der Kapazitätsverlust der Batterien infolge der Belastung führt ebenfalls nicht zu einem Funktionsausfall. Es konnte gezeigt werden, dass die Kapazitätsbestimmung als zuverlässiges und geeignetes Kriterium für die Sicherheitsbewertung der Akkus herangezogen werden kann, wenn die Kapazitätsmessung bei gleichbleibenden Bedingungen (gleiche Raumtemperaturen, gleiche Messgeräte, etc.) stattfindet. Es wird empfohlen, die Akkus ab einer Restkapazität von unter 80% zu tauschen. Als schnelle und sehr einfache Überprüfung kann eine Sichtprüfung an den FG stattfinden. Die im Projekt verwendeten FG zeigten eine Verformung der Kunststoffhülle bei zu hohen Belastungen. N2 - The aim of the project was to determine the influence of the real temperature load on breathing apparatus cylinders and Lithium batteries in radio devices in firefighting operations by rescue services and to be able to better assess their effect on ageing and service life time as well as the potential health hazards and to derive guidelines for action. As part of this project, composite breathing air cylinders that had undergone different thermal ageing processes were systematically analysed with regard to their residual strength. as a second use case, lithium batteries used in radio devices were analysed with regard to the effect of critical temperatures above which thermal runaway of the batteries can occur. Critical temperature-time profiles were determined for these two important components, lithium batteries and composite breathing air cylinders, the effects for the user were analysed using suitable methods and the resulting hazards for the wearer were assessed. As a methodical approach, the actual temperature profiles previously determined by literature research were first verified in real tests and the laboratory loads were derived on this basis. In order to take into account the properties of composite breathing air cylinders made of fibre composites, sample groups were subjected to different thermal loads and examined with regard to their residual strength reduction and in comparison to thermally unloaded samples from two representative samples from different manufacturers. In addition to the static burst tests, combined ageing and residual strength tests were also carried out on cyclic loaded cylinders. The radio devices were subjected to both static and cyclic thermal loads with accompanying capacity measurements. The purpose of the static tests was to determine the maximum thermal load capacity of the batteries at which no failure occurs. In the cyclic tests, practical conditions were simulated as closely as possible in the laboratory. For this purpose, the batteries were repeatedly subjected to a load profile at a constant temperature and the residual capacity of the battery was measured after several intervals to determine the degradation. As a conclusion of the tests carried out on two representative types of breathing apparatus cylinders as part of this project, it can be concluded that the thermal loads have a sometimes significant influence on the residual strength of the breathing apparatus cylinders, depending on the type. Higher thermal exposure is clearly recognizable, at least on the breathing apparatus cylinders tested, and the cylinders can be easily remove and replaced by the responsible equipment maintainers. The thermal loads that occur during rescue operations were not critical for the tested breathing protection cylinders and the rescue teams. However, the many years of experience of established manufacturers should not be without influence here. There is therefore no reason to advise against the use of the lighter Type 4 breathing protection breathing apparatus cylinders if cylinders with visually recognizable thermal effects (color changes, material melting, etc.) are replaced immediately. The results on the radio devices showed that determination of the capacity can serve as a suitable criterion for the safety assessment for the batteries. The loss of capacity of the batteries as a result of the load also does not lead to a functional failure. The capacity determination can be used as a reliable and suitable criterion for the safety assessment of the batteries if the capacity measurement is carried out under constant conditions (same room temperatures, same measuring devices, etc.). It is recommended to replace the batteries when the remaining capacity is below 80%. A visual inspection of the radio devices can be carried out as a quick and very simple check. The radio devices used in the project showed deformation of the plastic casing when subjected to excessive loads. KW - Composite KW - Atemluftflaschen KW - Litiumbatterien KW - Funkgeräte KW - Thermische Belastung KW - Rettungskräfte KW - Feuerwehr KW - PSA KW - DGUV PY - 2024 UR - https://www.dguv.de/ifa/forschung/projektverzeichnis/ff-fp0462.jsp N1 - Abschlussbericht zum Vorhaben mit der Projekt-Nr. FF-FP 0462 (CoLiBri), Laufzeit 01.03.2021–29.02.2024, Bericht vom 15.04.2024 SP - 1 EP - 66 PB - Deutsche Gesetzliche Unfallversicherung (DGUV) CY - Berlin AN - OPUS4-59877 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Müller, Karsten A1 - Mair, Georg A1 - Dufner, Eric A1 - Kriegsmann, Andreas T1 - Experimentelle Untersuchungen von Composite-Druckgasbehältern: Prüfverfahren, Anwendungsbeispiele und Entwicklungen N2 - Dem AVK-Arbeitskreis Wasserstoff-Drucktanks werden ausgehend von Zielen und Aufgaben der BAM sowie der Fachkompetenz auf dem Gebiet der Sicherheit von Composite-Druckbehältern über die prüftechnische Ausstattung, die angewendeten und weiterentwickelten Prüf- und Untersuchungsmethoden sowie zu Beispielen von Forschungsvorhaben wie DELFIN, COLIBRI und SH2APED berichtet. T2 - Arbeitskreissitzung CY - Frankfurt a.M., Germany DA - 24.04.2024 KW - Composite-Druckbehälter KW - Berstversuch KW - Hydraulischer Lastwechselversuch KW - Feuersicherheit KW - Impakt PY - 2024 AN - OPUS4-60117 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Thomas, Sebastian T1 - Improvement of Type Approval Regulations of Pressure Vessels for Hydrogen Fueled Vehicles using Probabilistic Methods N2 - Composite pressure vessels (CPVs) are becoming the state of the art for storage for compressed hydrogen (CH2) in automotive applications. There is a strong interest of car manufacturers to use lightweight and less-costly gas storage units. In order to reduce the necessary amount of expensive carbon fibre, the nominal safety margins are becoming gradually smaller, pushing the limits of the regulations for type approval. At the same time, the total volume of these vessels increases to extend the range of the vehicles, increasing the consequences for worst-case scenarios like the rupture of the CPVs in service. This presentation presents insights gained in the project “TAnk HYdrogen Automotive” (TAHYA). Its aim is to improve the safety of current regulations for type approval of pressure vessels for the use in hydrogen fueled vehicles, namely GTR No. 13 and ECE R 134. For the assessment of safety, the probabilistic approach developed by division 3.5 of BAM is used. Monte-Carlo-Simulations were conducted leading to the identification of several weak spots, mainly found in the burst test and the batch test. By changing the requirements for burst tests and the approach for batch tests, the identified weak spots can be strongly reduced. T2 - Colloquium of Department 3 CY - Online meeting DA - 19.11.2020 KW - Monte-Carlo Simulation KW - Safety Assessment KW - Pressure Vessel PY - 2020 AN - OPUS4-51696 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Karapanagiotis, Christos A1 - Schukar, Marcus A1 - Breithaupt, Mathias A1 - Duffner, Eric A1 - Ulbricht, Alexander A1 - Prager, Jens A1 - Krebber, Katerina T1 - Structural health monitoring of hydrogen pressure vessels using distributed fiber optic sensing N2 - We report on distributed fiber optic sensing-based monitoring of hydrogen composite overwrapped pressure vessels (COPV) to simultaneously increase the operational lifespan and mitigate maintenance costs. Our approach represents, to the best of our knowledge, the first application of distributed fiber optic sensing for COPV Type IV monitoring, where the sensing fibers are attached to the surface, rather than integrated into the composite material. Specifically, we attach an optical fiber of 50 m to the pressure vessel's surface, covering both the cylindrical and dome sections. We note that our fiber optic sensing technique relies on swept wavelength interferometry providing strain information along the entire length of the optical fiber with high spatial resolution even at the millimeter scale. When the vessel is pressurized, the sensing optical fiber shows a linear strain response to pressure at every position along the fiber. After thousands of load cycles, the vessel finally fails with the optical fiber detecting and precisely localizing the damage in the vessel’s blind dome area. Furthermore, we discuss the potential of state-of-the-art signal processing methods and machine learning for advancing predictive maintenance. This could reduce the number of regular inspections, mitigate premature maintenance costs, and simultaneously increase the vessel’s remaining safe service life. We believe that the structural health monitoring of hydrogen pressure vessels with fiber optic sensors can enhance trust in hydrogen technology contributing to the energy transition in the future. T2 - 11th European Workshop on Structural Health Monitoring CY - Potsdam, Germany DA - 10.06.2024 KW - Hydrogen KW - Composites KW - Pressure vessels KW - Fiber optic sensors KW - Machine learning KW - Structural health monitoring PY - 2024 AN - OPUS4-60275 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Popiela, Bartosz T1 - Non-Destructive Testing of Type 4 Composite Pressure Vessels N2 - Non-Destructive Testing (NDT) of type 4 composite pressure vessels can be seen as key to better understanding the behaviour of the composite structure and the impact of the manufacturing process on its quality. In this presentation, NDT methods used in the “Trustworthy Hydrogen” project are introduced. A brief discussion of the observed phenomena is provided. T2 - Visit of a delegation from Korea Fire Institute (KFI) CY - Berlin, Germany DA - 24.06.2024 KW - Composite KW - Pressure vessel KW - Non-destructive testing PY - 2024 AN - OPUS4-60401 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Karapanagiotis, Christos A1 - Heimann, Jan A1 - Duffner, Eric A1 - Charmi, Amir A1 - Schukar, Marcus A1 - Hashemi, Seyedreza A1 - Prager, Jens T1 - Towards predictive maintenance of hydrogen pressure vessels based on multi-sensor data fusion and digital twin modeling N2 - Hydrogen pressure vessels are among the most essential components for reliable hydrogen technology. Under current regulations, a mostly conservative strategy is employed, restricting the usage time of hydrogen pressure vessels without providing information on the real remaining lifetime. During the service life, pressure vessels are inspected periodically. However, no established method that can provide continuous monitoring or information on the remaining safe service life of the vessel. In this paper, we propose a sensor network for Structural Health Monitoring (SHM) of hydrogen pressure vessels where data from all sensors are collected and centrally evaluated. Specifically, we integrate three different SHM sensing technologies namely Guided Wave ultrasonics (GW), Acoustic Emission testing (AT), and distributed Fiber Optic Sensing (FOS). This integrated approach offers significantly more information and could therefore enable a transition from costly and time-consuming periodic inspections to more efficient and modern predictive maintenance strategies, including Artificial Intelligence (AI)-based evaluation. This does not only have a positive effect on the operational costs but enhances safety through early identification of critical conditions in the overall system in real-time. We demonstrate an experimental set-up of a lifetime test where a Type IV Composite Overwrapped Pressure Vessel (COPV) is investigated under cyclic loading instrumented with AT, FOS, and GW methods. We acquired data from the sensor network until the pressure vessel failed due to material degradation. The data collected using the three different SHM sensor technologies is planned to be evaluated individually, using data fusion, and AI. In the future, we aim to integrate the measurement setup into a hydrogen refueling station with the data stream implemented into a digital signal processing chain and a digital twin. T2 - 11th European Workshop on Structural Health Monitoring CY - Potsdam, Germany DA - 10.06.2024 KW - Acoustic emission KW - Ultrasonic guided waves KW - Fiber optic sensors KW - Hydrogen KW - Pressure vessels KW - Structural health monitoring KW - Machine learning PY - 2024 UR - https://nbn-resolving.org/urn:nbn:de:kobv:b43-602764 UR - https://www.ndt.net/search/docs.php3?id=29702 SP - 1 EP - 8 PB - NDT.net AN - OPUS4-60276 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Karapanagiotis, Christos A1 - Schukar, Marcus A1 - Breithaupt, Mathias A1 - Duffner, Eric A1 - Ulbricht, Alexander A1 - Prager, Jens A1 - Krebber, Katerina T1 - Structural health monitoring of hydrogen pressure vessels using distributed fiber optic sensing N2 - We report on distributed fiber optic sensing-based monitoring of hydrogen composite overwrapped pressure vessels (COPV) to simultaneously increase the operational lifespan and mitigate maintenance costs. Our approach represents, to the best of our knowledge, the first application of distributed fiber optic sensing for COPV Type IV monitoring, where the sensing fibers are attached to the surface, rather than integrated into the composite material. Specifically, we attach an optical fiber of 50 m to the pressure vessel's surface, covering both the cylindrical and dome sections. We note that our fiber optic sensing technique relies on swept wavelength interferometry providing strain information along the entire length of the optical fiber with high spatial resolution even at the millimeter scale. When the vessel is pressurized, the sensing optical fiber shows a linear strain response to pressure at every position along the fiber. After thousands of load cycles, the vessel finally fails with the optical fiber detecting and precisely localizing the damage in the vessel’s blind dome area. Furthermore, we discuss the potential of state-of-the-art signal processing methods and machine learning for advancing predictive maintenance. This could reduce the number of regular inspections, mitigate premature maintenance costs, and simultaneously increase the vessel’s remaining safe service life. We believe that the structural health monitoring of hydrogen pressure vessels with fiber optic sensors can enhance trust in hydrogen technology contributing to the energy transition in the future. T2 - 11th European Workshop on Structural Health Monitoring CY - Potsdam, Germany DA - 10.06.2024 KW - Hydrogen KW - Fiber optic sensors KW - Composites KW - Machine learning KW - Structural health monitoring PY - 2024 UR - https://nbn-resolving.org/urn:nbn:de:kobv:b43-602731 UR - https://www.ndt.net/search/docs.php3?id=29701 SP - 1 EP - 7 PB - NDT.net AN - OPUS4-60273 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Wosniok, Aleksander A1 - Schukar, Marcus A1 - Woody, Paul A1 - Wang, Bin A1 - Breithaupt, Mathias A1 - Kriegsmann, Andreas T1 - Distributed fiber optic strain sensing for structural health monitoring of 70 MPa hydrogen vessels N2 - We report on the development and testing of 70 MPa hydrogen pressure vessels with integrated fiber optic sensing fibers for automotive use. The paper deals with the condition monitoring of such composite pressure vessels (CPVs) using the optical backscatter reflectometry (OBR) applied for a distributed fiber optic strain sensing along fully integrated polyimide-coated single-mode glass optical fiber (SM-GOF). The sensing fibers were embedded into the vessel structure by wrapping them over the polymer liner during the manufacturing process of the carbon fiber reinforced polymer (CFRP). Detecting local strain events by the integrated fiber optic sensors can be an opportunity for monitoring the material degradation of CPVs under static and cyclic loading. T2 - 11th European Workshop on Structural Health Monitoring CY - Potsdam, Germany DA - 10.06.2024 KW - Fiber optic sensor KW - Distributed strain sensing KW - Composite pressure vessel KW - Structural health monitoring KW - Fiber-reinforced plastics PY - 2024 UR - https://nbn-resolving.org/urn:nbn:de:kobv:b43-603105 SP - 1 EP - 8 PB - NDT.net AN - OPUS4-60310 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Karapanagiotis, Christos A1 - Heimann, Jan A1 - Duffner, Eric A1 - Charmi, Amir A1 - Schukar, Marcus A1 - Hashemi, Seyedreza A1 - Prager, Jens T1 - Towards predictive maintenance of hydrogen pressure vessels based on multi-sensor data fusion and digital twin modeling N2 - Hydrogen pressure vessels are among the most essential components for reliable hydrogen technology. Under current regulations, a mostly conservative strategy is employed, restricting the usage time of hydrogen pressure vessels without providing information on the real remaining lifetime. During the service life, pressure vessels are inspected periodically. However, no established method that can provide continuous monitoring or information on the remaining safe service life of the vessel. In this paper, we propose a sensor network for Structural Health Monitoring (SHM) of hydrogen pressure vessels where data from all sensors are collected and centrally evaluated. Specifically, we integrate three different SHM sensing technologies namely Guided Wave ultrasonics (GW), Acoustic Emission testing (AT), and distributed Fiber Optic Sensing (FOS). This integrated approach offers significantly more information and could therefore enable a transition from costly and time-consuming periodic inspections to more efficient and modern predictive maintenance strategies, including Artificial Intelligence (AI)-based evaluation. This does not only have a positive effect on the operational costs but enhances safety through early identification of critical conditions in the overall system in real-time. We demonstrate an experimental set-up of a lifetime test where a Type IV Composite Overwrapped Pressure Vessel (COPV) is investigated under cyclic loading instrumented with AT, FOS, and GW methods. We acquired data from the sensor network until the pressure vessel failed due to material degradation. The data collected using the three different SHM sensor technologies is planned to be evaluated individually, using data fusion, and AI. In the future, we aim to integrate the measurement setup into a hydrogen refueling station with the data stream implemented into a digital signal processing chain and a digital twin. T2 - 11th European Workshop on Structural Health Monitoring CY - Potsdam, Germany DA - 10.06.2024 KW - Hydrogen KW - Ultrasonic guided waves KW - Fiber optic sensors KW - Acoustic emission KW - Machine learning KW - Pressure vessels KW - Structural health monitoring PY - 2024 AN - OPUS4-60277 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Wosniok, Aleksander A1 - Schukar, Marcus A1 - Wang, Bin A1 - Breithaupt, Mathias A1 - Kriegsmann, Andreas A1 - Woody, Paul T1 - Distributed fiber optic strain sensing for structural health monitoring of 70 MPa hydrogen vessels N2 - We report on the development and testing of 70 MPa hydrogen pressure vessels with integrated fiber optic sensing fibers for automotive use. The paper deals with the condition monitoring of such composite pressure vessels (CPVs) using the optical backscatter reflectometry (OBR) applied for a distributed fiber optic strain sensing along fully integrated polyimide-coated single-mode glass optical fiber (SM-GOF). The sensing fibers were embedded into the vessel structure by wrapping them over the polymer liner during the manufacturing process of the carbon fiber reinforced polymer (CFRP). Detecting local strain events by the integrated fiber optic sensors can be an opportunity for monitoring the material degradation of CPVs under static and cyclic loading. T2 - 11th European Workshop on Structural Health Monitoring CY - Potsdam, Germany DA - 10.06.2024 KW - Fiber optic sensor KW - Distributed strain sensing KW - Composite pressure vessel KW - Structural health monitoring KW - Fiber-reinforced plastics PY - 2024 AN - OPUS4-60307 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 - JOUR A1 - Baglo, K. A1 - Sauermoser, M. A1 - Lid, M. A1 - Paschke, T. A1 - Bin Afif, A. A1 - Lunzer, M. A1 - Bock, Robert A1 - Steinert, M. A1 - Flaten, A. A1 - Torgersen, J. T1 - Overcoming the transport limitations of photopolymer-derived architected carbon N2 - Photopolymer derived carbon grows in popularity, yet the range in available feature sizes is limited. Here we focus on expanding the field to low surface to volume ratio (SVR) structures. We describe a high temperature acrylic photopolymerizable precursor with FTIR and DSC and develop a thermal inert-gas treatment for producing architected carbon in the mm scale with SVR of 1.38 x10-3 μm-1. Based on TGA and MS, we distinguish two thermal regimes with activation energies of ~79 and 169 kJ mol-1, which we reason with mechanisms during the polymer’s morphologic conversion between 300 - 500 °C. The temperature range of the major dimensional shrinkage (300-440 °C, 50%) does not match the range of the largest alteration in elemental composition (440-600 °C, O/C 0.25-0.087%). The insights lead to an optimized thermal treatment with an initial ramp (2 °C min-1 to 350 °C), isothermal hold (14h), post hold ramp (0.5 °C min-1 to 440 °C) and final ramp (10 °C min-1 to 1000 °C). The resulting carbon structures are dimensionally stable, non-porous at the μm scale, and comprise an unprecedented variation in feature sizes (from mm to μm scale). The findings shall advance architected carbon to industrially relevant scales. KW - Carbon KW - Photopolymer KW - Transport limitations KW - Porous materials KW - Additive manufacturing PY - 2023 UR - https://nbn-resolving.org/urn:nbn:de:kobv:b43-575038 DO - https://doi.org/10.1002/admt.202300092 SN - 2365-709X SP - 2300092 PB - Wiley-VCH GmbH AN - OPUS4-57503 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Mair, Georg 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 - John, Sebastian A1 - Auster, Jürgen A1 - Widjaja, Martinus Putra A1 - Duffner, Eric A1 - Mair, Georg 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 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 - 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 - 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 UR - https://nbn-resolving.org/urn:nbn:de:kobv:b43-585250 DO - https://doi.org/10.1016/j.jmrt.2023.09.242 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 - 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 - Mair, Georg 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 - CONF A1 - Mair, Georg 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 - 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 - Maiwald, Michael A1 - Askar, Enis A1 - Günzel, Stephan A1 - Holtappels, Kai A1 - Mair, Georg 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 - John, Sebastian A1 - Duffner, Eric A1 - Mair, Georg 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 - Orellana Pérez, Teresa A1 - Mair, Georg 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 - 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 - 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 - Wang, Bin A1 - Mair, Georg A1 - Gesell, Stephan T1 - Determination of Distribution Function used in MCS on Safety Analysis of Hydrogen Pressure Vessel N2 - The test data of static burst strength and load cycle strength of composite pressure vessels are often described by GAUSSian normal or WEIBULL distribution function to perform safety analyses. The goodness of assumed distribution function plays a significant role in the inferential statistics to predict the population properties by using limited test data. Often, GAUSSian and WEIBULL probability nets are empirical methods used to validate the distribution function; Anderson-Darling and Kolmogorov-Smirnov tests are the mostly favorable approaches for Goodness of Fit. However, the different approaches used to determine the parameters of distribution function lead mostly to different conclusions for safety assessments. In this study, six different methods are investigated to show the variations on the rates for accepting the composite pressure vessels according to GTR No. 13 life test procedure. The six methods are: a) Norm-Log based method, b) Least squares regression, c) Weighted least squares regression, d) A linear approach based on good linear unbiased estimators, e) Maximum likelihood estimation and f) The method of moments estimation. In addition, various approaches of ranking function are considered. In the study, Monte Carlo simulations are conducted to generate basic populations based on the distribution functions which are determined using different methods. Then the samples are extracted randomly from a population and evaluated to obtain acceptance rate. Here, the “populations” and “samples” are corresponding to the burst strength or load cycle strength of the pressure vessels made from composite material and a plastic liner (type 4) for the storage of hydrogen. To the end, the results are discussed, and the best reliable methods are proposed. T2 - ICHS International Conference on Hydrogen Safety) 2019 CY - Adelaide, Australia DA - 24.09.2019 KW - Monte-Carlo Simulation KW - Distribution function KW - Weibull Distribution PY - 2019 SP - 103-1 EP - 103-16 AN - OPUS4-50383 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Widjaja, Martinus Putra T1 - Sample Performance Chart (SPC) for displaying the results from a multiscale model N2 - The stacking sequence of a real scale type IV pressure vessels has been found. Feasibility study of a multiscale model has been carried out by modifying the original stacking sequence. All of the results were displayed in a Sample Performance Chart (SPC), where different burst pressure in terms of mean and scatter had been found. T2 - Consortium Meeting FiBreMoD CY - Valence, France DA - 17.02.2020 KW - Fibre break KW - Multiscale model KW - Reduced volume method KW - Sample performance chart KW - Type IV pressure vessels PY - 2020 AN - OPUS4-50563 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 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 - Kehr, Torsten A1 - Günzel, Stephan A1 - Habib, Abdel Karim A1 - Mair, Georg 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 - CONF A1 - Mair, Georg 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 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 - 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 UR - https://nbn-resolving.org/urn:nbn:de:kobv:b43-556677 DO - https://doi.org/10.3390/en15166011 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 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 - 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 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 -