TY - GEN A1 - Hannan, Azmin Nasrin A1 - Seidlitz, Holger A1 - Hartung, David A1 - Kuke, Felix A1 - Ambrosio, Marcello A1 - Müller, Marco T1 - Sustainability and Circular Economy in Carbon Fiber-Reinforced Plastics T2 - Materials Circular Economy N2 - Carbon fiber-reinforced plastic (CFRP) components are known for their exceptional resilience and ultra-lightweight nature, making them the preferred choice for applications requiring high mechanical loads with minimal weight. However, the intricate and anisotropic structure of CFRP components poses challenges, resulting in expensive repairs and testing. This complexity also leads to increased waste generation. Yet, innovative recycling processes offer a solution by reintegrating carbon components into a closed material cycle, promoting sustainability and circular economy principles. This work focuses on recycled CFs (rCFs) obtained through a continuous recycling method for CFRP primary recyclate from composite pressure vessel. Furthermore, re-purposing of the separated matrix material for secondary energy sources makes the process, a 100% recycling route. This closed-loop approach addresses conventional pyrolysis challenges and contributes to more efficient utilization of CFRP waste components. rCF and recycled polyethylene terephthalate (rPET) polymers were compounded through an extrusion process. Test specimens were then fabricated according to standard test norms to evaluate the resulting tensile and bending properties. The tensile and flexural modulus of the rCF-rPET obtained are 6.80 and 4.99 GPa, respectively. The need for enhancing the quality of rCF is apparent. Suggestive and potential implications and the marketability of rCF-rPET compounds are also discussed. KW - Sustainability KW - Circular Economy KW - Carbon Fiber-Reinforced Plastics Y1 - 2024 U6 - https://doi.org/10.1007/s42824-024-00111-2 SN - 2524-8146 VL - 6 IS - 1 PB - Springer Science and Business Media LLC ER - TY - GEN A1 - Erekath, Swathi A1 - Seidlitz, Holger A1 - Schreiner, Monika A1 - Dreyer, Christian T1 - Food for future: Exploring cutting-edge technology and practices in vertical farm T2 - Sustainable Cities and Society N2 - With the growing urbanized population, vertical farming becomes indispensable in eradicating hunger and ensuring food security for the future. Food security has become a major challenge for the future owing to the scarcity of land, rising global population, urbanization, and polluted soil and water resources. In this scenario, vertical farming as an innovative food production technology caters increased productivity with limited resources and improved carbon footprint. The review begins with a brief introduction to the concept of vertical farming, its opportunities and implications on the economy, environment, and society as a whole, following with an in-depth qualitative analysis of the cutting-edge innovations/technologies are presented in detail. Contrary to the numerous research focusing on mere analysis of economic viability and statistical analysis, the aim is to introduce real cutting-edge technologies that address the challenges of vertical farms such as lack of technical skills or energy requirements. The recent advances of vertical farms includes construction of outer vertical structure and growing shelves using light weight and transparent polymer composites, engineered and tunable LEDs lightings, 3-D printed and recyclable growing substrates, AI-integrated IoTs for environment control, harvesting materials for renewable energy storage etc. Such material innovations with inclusion of AI and robotics transform automated vertical farming into ‘state of the art’ agricultural technology. Production shelf fabricated using UV cured GBOV-glass fiber composite with 60% transparency can overcome the material weight limitation, corrosion, light obstructions etc. associated with the conventional steel shelves. Replacing non-renewable fossil fuels using renewable energy harvested by carbon dots, fluorescent materials, and perovskite solar cells is recommended to minimize the high capital investments associated with energy as well as to reduce the environmental impact. Smart materials such as phase change materials and thermoresponsive windows control the amount of energy expended whereas smart substrate promotes resource management. Application of the newest technology AI in vertical farming facilitates precise control of environment, early pest detection, automation of farming processes, data-driven decision making and precision agriculture. In short, vertical farms utilizing modern innovations of science and technology caters enhanced productivity, improved quality, reduced cost, resource management and sustainability. Hence, automated and sustainable vertical farms promoting global food security and circularity have the potential to transform into burgeoning technology of future. KW - Transportation KW - Renewable Energy, Sustainability and the Environment KW - Civil and Structural Engineering KW - Geography, Planning and Development Y1 - 2024 U6 - https://doi.org/10.1016/j.scs.2024.105357 SN - 2210-6707 VL - 106 ER - TY - GEN A1 - Recupido, Federica A1 - Lama, Giuseppe Cesare A1 - Steffen, Sebastian A1 - Dreyer, Christian A1 - Seidlitz, Holger A1 - Russo, Vincenzo A1 - Lavorgna, Marino A1 - De Luca Bossa, Ferdinando A1 - Silvano, Selena A1 - Boggioni, Laura A1 - Verdolotti, Letizia T1 - Efficient recycling pathway of bio-based composite polyurethane foams via sustainable diamine T2 - Ecotoxicology and Environmental Safety N2 - Aminolysis is widely recognized as a valuable chemical route for depolymerizing polymeric materials containing ester, amide, or urethane functional groups, including polyurethane foams. Bio-based polyurethane foams, pristine and reinforced with 40 wt% of sustainable fillers, were depolymerized in the presence of bio-derived butane-1,4-diamine, BDA. A process comparison was made using fossil-derived ethane-1,2-diamine, EDA, by varying amine/polyurethane ratio (F/A, 1:1 and 1:0.6). The obtained depolymerized systems were analyzed by FTIR and NMR characterizations to understand the effect of both diamines on the degradation pathway. The use of bio-based BDA seemed to be more effective with respect to conventional EDA, owing to its stronger basicity (and thus higher nucleophilicity), corresponding to faster depolymerization rates. BDA-based depolymerized systems were then employed to prepare second-generation bio-based composite polyurethane foams by partial replacement of isocyanate components (20 wt%). The morphological, mechanical, and thermal conductivity properties of the second-generation polyurethane foams were evaluated. The best performances (σ10 %=71 ± 9 kPa, λ = 0.042 ± 0.015 W∙ m-1 ∙K-1) were attained by employing the lowest F/A ratio (1:0.6); this demonstrates their potential application in different sectors such as packaging or construction, fulfilling the paradigm of the circular economy. KW - Health, Toxicology and Mutagenesis KW - Public Health, Environmental and Occupational Health KW - Pollution KW - General Medicine Y1 - 2024 U6 - https://doi.org/10.1016/j.ecoenv.2023.115758 SN - 0147-6513 VL - 269 ER - TY - GEN A1 - Błędzki, Andrzej A1 - Seidlitz, Holger A1 - Urbaniak, Magdalena A1 - Köhler, Mathias A1 - Adamcio, Andrzej A1 - Sobczyk, Marcin A1 - Demski, Szymon A1 - Boczkowska, Anna T1 - Reusing and recycling of composite wind turbine blades. A review of current practices and prospects. Part 1. Academic research T2 - Przemysł chemiczny N2 - A review, with 34 refs., of new materials for manufacturing the turbine blades, processes for monitoring maintenance and structural health of the blades as well as chem., thermal and mech. blade recycling technologies. KW - General Chemical Engineering KW - General Chemistry KW - polymer composites KW - wind turbine blades KW - global recycling projects KW - practical recovery and reuse KW - recycled carbon fibers Y1 - 2024 U6 - https://doi.org/10.15199/62.2024.2.2 SN - 0033-2496 VL - 103 IS - 2 SP - 225 EP - 233 ER - TY - GEN A1 - Błędzki, Andrzej A1 - Seidlitz, Holger A1 - Urbaniak, Magdalena A1 - Köhler, Mathias A1 - Adamcio, Andrzej A1 - Sobczyk, Marcin A1 - Demski, Szymon A1 - Boczkowska, Anna T1 - Reusing and recycling of composite wind turbine blades. A review of current practices and prospects. Part 2. Industrial activities T2 - Przemysł chemiczny N2 - A review, with 33 refs., of projects currently implemented and planned by large consortia in the area of recovering variety of composite materials for their reuse KW - General Chemical Engineering KW - General Chemistry KW - polymer composites KW - wind turbine blades KW - global recycling projects KW - practical recovery and reuse KW - recycled carbon fibers Y1 - 2024 U6 - https://doi.org/10.15199/62.2024.2.3 SN - 0033-2496 VL - 103 IS - 2 SP - 234 EP - 240 ER - TY - GEN A1 - Błędzki, Andrzej A1 - Seidlitz, Holger A1 - Urbaniak, Magdalena A1 - Köhler, Mathias A1 - Adamcio, Andrzej A1 - Sobczyk, Marcin A1 - Demski, Szymon A1 - Boczkowska, Anna T1 - Reusing and recycling of composite wind turbine blades. A review of current practices and prospects. Part 3. Various proposals offered by small and middle companies T2 - Przemysł chemiczny N2 - A review, with 32 refs., of various new proposals for recycling and reusing of wind turbine blades by small companies (including the Polish Anmet company). New projects on shredding blades as well as on architecture objects, road construction, geotechn. blocks, floating platforms and observation towers were presented. Prodn. of composite chipboard panels and recovery of carbon fibers by waste pyrolysis were also included. KW - General Chemical Engineering KW - General Chemistry KW - polymer composites KW - wind turbine blades KW - global recycling projects KW - practical recovery and reuse KW - recycled carbon fibers Y1 - 2024 U6 - https://doi.org/10.15199/62.2024.2.4 SN - 0033-2496 VL - 103 IS - 2 SP - 241 EP - 250 ER - TY - GEN A1 - Miah, Kamal Uddin Mohammad A1 - Kloshek, Alexander A1 - Ossenbrink, Ralf A1 - Seidlitz, Holger T1 - Selective Laser Melting of Pure Copper (Cu-ETP) T2 - 4th Symposium on Materials and Additive Manufacturing, Additive 2024, 22. - 24. Mai 2024, Book of Abstracts N2 - The main objective of this study is to address the difficulties related to the production of highly dense parts utilizing pure Cu-ETP powder. In order to achieve this goal, the SLM machine was modified by replacing the regular infrared laser with a laser operating in the range of 530 to 534 nm. Following this modification, a detailed experiment was conducted to determine the most effective procedural parameters for producing solid components and gyroid structures of Cu-ETP. The study determined thtat in order to produce a part density of 99.6 ± 0.2%, the following parameters are required: a laser power of 130 ± 10 W, a scanning speed of 350 mm/s, and a layer thickness of 25 µm. The microscopic analysis on the SLM-manufactured components showed a consistent grain structure across the build parts. Furthermore, it was discovered that exceeding the predetermined laser power and scanning speed parameters led to lower density of the parts. Conversely, decreasing the laser power and scanning speed below these thresholds was determined to be economically disadvantageous. Y1 - 2024 UR - https://acmit.at/wp-content/uploads/2024/08/Additive-2024_Book-of-abstracts.pdf SN - 978-3-88355-440-2 SP - 19 PB - Deutsche Gesellschaft für Materialkunde (DGM) e.V. CY - Bremen, Berlin ER - TY - GEN A1 - Kehm, Christian A1 - Wasilewski, Eric A1 - Miah, Kamal Uddin Mohammad A1 - Ossenbrink, Ralf A1 - Seidlitz, Holger T1 - Effects of extended shielding gas coverage on component contour accuracy in Wire Arc Additive Manufacturing T2 - 4th Symposium on Materials and Additive Manufacturing, Additive 2024, 22. - 24. Mai 2024, Book of Abstracts N2 - Producing near-net-shape components with Wire Arc Additive Manufacturing (WAAM) is a challenging task. Compared to laser-based additive manufacturing technologies, WAAM is characterized by a lower contour accuracy with higher surface roughness and more uneven surface profiles. Therefore, the WAAM requires a high degree of post-processing (machining) which reduces economic efficiency and increases material consumption. Therefore, topics such as process optimization with regard to the component contour are increasingly in the focus of research. This study presents the application of an extended shielding gas coverage in the WAAM process of steel to improve part contour accuracy. A specially adapted shielding gas coverage was manufactured with laser powder bed fusion and following used to study the influence on the resulting component contour and properties in comparison to standard shielding gas nozzles. The investigations include the analysis of temperature profiles, shape deviations, hardness and porosity in the component. In addition, process parameters such as gas flow rate and nozzle geometry were varied in order to evaluate their influence on the accuracy of the component contour. The extended shielding gas coverage reduces the average deviation from the target contour significantly by a degree of 49,44%. In addition, the maximum of the occurring deviation height could be decreased by 42,39%. The results show an improvement in the dimensional accuracy of the contour and the surface quality, resulting in higher reproducibility and less post-processing effort. Y1 - 2024 UR - https://acmit.at/wp-content/uploads/2024/08/Additive-2024_Book-of-abstracts.pdf SN - 978-3-88355-440-2 SP - 29 PB - Deutsche Gesellschaft für Materialkunde (DGM) e.V. CY - Bremen, Berlin ER - TY - GEN A1 - Nikitin, Alexander A1 - Turabov, Dashqin A1 - Ermilova, Evgeniia A1 - Evdokimov, Anton A1 - Ossenbrink, Ralf A1 - Seidlitz, Holger T1 - Using dynamic resistance to predict electrode surface degradation in resistance spot welding of 5182 aluminum alloy T2 - Welding in the World N2 - In this study, the correlation between dynamic resistance during the first 10 ms of welding time and the electrode surface condition in resistance spot welding of 5182 aluminum alloy has been investigated. The electrode surface rapidly degrades due to contamination and morphological changes, adversely affecting the weld spot surface. The accumulation of Cu-Al intermetallic phases on the electrode surface alters its roughness, leading to variations in dynamic resistance. By analyzing this correlation, optimal electrode milling intervals were identified to extend electrode life. This work focused on detecting crater formation on the electrode surface through dynamic resistance monitoring. The results indicate that resistance measurements provide a reliable approach for evaluating electrode wear, optimizing maintenance schedules, and reducing material removal during milling. KW - resistance spot welding KW - aluminum alloy KW - electrode wear KW - dynamic resistance KW - electrode surface Y1 - 2024 U6 - https://doi.org/10.1007/s40194-024-01872-9 VL - 69 SP - 449 EP - 458 ER - TY - GEN A1 - Rüppel, Gernot Wilhelm A1 - Dorn, Oliver Niklas A1 - Kuke, Felix A1 - Ulke-Winter, Lars A1 - Seidlitz, Holger T1 - Optical tape detection using an IR camera to create a digital twin of rotationally symmetrical wet-wound FRP components T2 - Journal of Engineering 360 N2 - Wet-winding is used to manufacture rotationally symmetrical components such as pipes and pressure vessels, as well as non-rotationally symmetrical components like T-connectors. During this process, a resin-impregnated fiber (e.g., glass or carbon fiber) is wound around a core. The winding pattern influences the mechanical properties, including stiffness and strength of the component, and is optimized based on the expected loads. In practice, however, factors such as tape tension and resin content can cause deviations from the predefined winding pattern. This paper proposes a measuring system utilizing an IR-camera to record the winding pattern during production. The collected data is processed and converted into a digital twin for further analysis. KW - digital twin KW - wet winding KW - IR-Camera KW - optical fiber detection KW - optical tape detection Y1 - 2024 U6 - https://doi.org/10.5604/01.3001.0054.8851 SN - 3071-7507 VL - 1 (2024) IS - 1/24 SP - 46 EP - 57 PB - Index Copernicus ER - TY - GEN A1 - Sztorch, Bogna A1 - Romanczuk-Ruszuk, Eliza A1 - Głowacka, Julia A1 - Kustosz, Magdalena A1 - Osiecki, Tomasz A1 - Jakubowska, Paulina A1 - Seidlitz, Holger A1 - Przekop, Robert E. T1 - Improving the processing and mechanical properties of 3D printable biocomposite based on polylactide, sediment rock, and natural beeswax T2 - Polymer Bulletin N2 - Polylactide is a material often used in additive techniques. Due to poor mechanical properties, there is a constant search for additives, fillers, and modifiers that could improve these properties. Natural fillers and additives are promising compounds because they can improve the properties of the composite and at the same time are environmentally friendly. This work concerns the first-time modification of PLA using the Opoka sedimentary rock, modified with natural beeswax and commercially available wax. The addition of sedimentary rock caused the natural color of the obtained fibers, and it was found that the Opoka addition has a positive effect on the processing and printing parameters, allowing for a significant reduction in the operating temperature and the extrusion and printing speed, as well as better interlayer adhesion and adhesion to the printer bed, which is particularly important in the case of 3D printing. The obtained materials were characterized by a higher degree of crystallinity, and better mechanical and surface parameters (significantly higher contact angles and hydrophobic properties). KW - PLA KW - Sediment rock KW - Opoka KW - FDM KW - Waxes KW - 3D Printing Y1 - 2024 U6 - https://doi.org/10.1007/s00289-024-05614-1 SN - 0170-0839 VL - 2024 PB - Springer Science and Business Media LLC ER - TY - GEN A1 - Ost, Lucas A1 - Seidlitz, Holger A1 - Ulke-Winter, Lars A1 - Kuke, Felix T1 - Development of a spherical high‐pressure tank for hydrogen storage in mobile and stationary applications T2 - Energy Technology N2 - In the sub‐project Mukran of the BMBF‐funded flagship project TransHyDE, spherical and nearly spherical‐shaped (isotensoids with short cylindrical spacer) high‐pressure tanks are developed for hydrogen storage. This article presents the planned work of the Chair of Polymer‐based Lightweight Design at the BTU Cottbus–Senftenberg and the research division PYCO at the Fraunhofer IAP. The research topics include the fiber‐compatible design of the liners, the rule‐based optimization of the layer structure of the load‐bearing overwrap made of carbon fiber‐reinforced plastic, the development of a fiber placement strategy, and the integration of the tanks into a frame as a mobile storage solution. KW - CFRP pressure vessel KW - hydrogen KW - pressure vessel KW - spherical pressure vessel Y1 - 2024 U6 - https://doi.org/10.1002/ente.202300942 SN - 2194-4288 PB - Wiley ER - TY - GEN A1 - Hajhariri, Aliasghar A1 - Eberwein, Robert A1 - Perrone, Luca Pakj A1 - Cozzani, Valerio A1 - Otremba, Frank A1 - Seidlitz, Holger T1 - Study the impact of spacer at thermal degradation process of MLI-based insulation in fire condition T2 - Journal of Loss Prevention in the Process Industries N2 - To reduce CO2 emissions, energy carriers such as hydrogen are considered to be a solution. Consumption of hydrogen as a fuel meets several limitations such as its low volumetric energy density in gas phase. To tackle this problem, storage as well as transportation in liquified phase is recommended. To be able to handle this component in liquid phase, an efficient thermal insulation e.g., MLI insulation is required. Different studies have been addressed the vulnerability of such insulation against high thermal loads e.g., in an accident engaging fire. Some of research works have highlighted the importance of considering the MLI thermal degradation focusing on its reflective layer. However, limited number of studies addressed the thermal degradation of spacer material and its effect on the overall heat flux. In this study, through systematic experimental measurements, the effect of thermal loads on glass fleece, glass paper as well as polyester spacers are investigated. The results are reported in various temperature and heat flux profiles. Interpreting the temperature profiles revealed that, as the number of spacers in the medium increases, the peak temperature detectable by the temperature sensor on the measurement plate decreases. Each individual spacer contributes to mitigating the radiative energy received by the measurement plate. Stacks of 20–50 spacers (this is the number of layers in commercial MLI systems applied for liquid hydrogen applications) can potentially reduce the thermal radiation by 1–2 orders of magnitude. An empirical correlation to predict a heat flux attenuation factor is proposed, which is useful for further numerical and analytical studies in the temperature range from ambient to 300 °C. KW - Liquefied hydrogen KW - Liquefied natural gas KW - Cryogenic storage tank KW - Thermal insulation KW - Multi-Layer Insulation KW - Microspheres KW - Perlite Y1 - 2024 U6 - https://doi.org/10.1016/j.jlp.2024.105461 SN - 0950-4230 VL - 92 SP - 240 EP - 248 PB - Elsevier BV ER - TY - GEN A1 - Seidlitz, Holger A1 - Ost, Lucas A1 - Ambrosio, Marcello A1 - Kuke, Felix A1 - Michailov, Vesselin A1 - Shapovalov, Oleg A1 - Doynov, Nikolay T1 - Erwärmung von Composites simulieren T2 - Kunststoffe N2 - Neuartige, werkstoffgerechte Fügeverfahren für Faserkunststoffverbunde setzen die Erwärmung der Materialien voraus. Um die damit verbundenen komplexen Temperaturfelder und -verläufe vorherzusagen, haben das Fraunhofer IAP und die BTU Cottbus-Senftenberg numerische Verfahren entwickelt. Mit diesen können auch verschiedene Strahlungsquellen und Prozessabläufe simuliert werden. KW - Faserkunststoffverbunde KW - Fügen KW - Simulation Y1 - 2023 UR - https://www.kunststoffe.de/a/article-3363044 SN - 0023-5563 IS - 2 SP - 66 EP - 70 ER - TY - GEN A1 - Shapovalov, Oleg A1 - Ost, Lucas A1 - Kuke, Felix A1 - Doynov, Nikolay A1 - Ambrosio, Marcello A1 - Seidlitz, Holger A1 - Michailov, Vesselin T1 - Entwicklung und Analyse einer Fügestrategie für FKV/Metall-Mischverbindungen auf Basis der CMT-Pinschweißtechnik T2 - Joining Plastics N2 - Dieser Beitrag stellt eine Entwicklung, Anpassung und Untersuchung der neuartigen Pinschweißtechnik zur Verbindung thermoplastischer Faserkunststoffverbunde mit metallischen Fügepartnern dar. Die untersuchte Fügetechnik bietet, im Vergleich zu anderen Verfahren, neben einer einseitigen Zugänglichkeit, ein hohes Leichtbaupotenzial. An Multimaterial-Einzelpinverbindungen wurden die CMT-Pinschweißbarkeit charakterisiert und unterschiedliche Fügestrategien erprobt und ausgewertet. Als Bewertungskriterien wurden das Schweißgut sowie der Faser- und Matrixerhalt in Abhängigkeit von den Schweißparametern untersucht. Die mechanische Beanspruchbarkeit der mit dem entwickelten Verfahren erstellten Verbindungen wurde in Scherzugversuchen ermittelt. An Mehrpinverbindungen wurde anschließend der Einfluss der Pinanordnung untersucht und die Auslegung der Fügezone analysiert. Der Fügeprozess wurde an Funktionsmustern und diese wiederum in 3-Punkt-Biegeversuchen validiert sowie mit dem Kleben verglichen. Y1 - 2023 UR - https://www.joining-plastics.info/artikel/entwicklung-und-analyse-einer-fuegestrategie-fuer-fkvmetall-mischverbindungen-auf-basis-der-cmt-pinschweisstechnik SN - 1864-3450 VL - 17 IS - 1 SP - 28 EP - 35 ER - TY - GEN A1 - Seidlitz, Holger A1 - Michailov, Vesselin A1 - Ost, Lucas A1 - Kuke, Felix A1 - Ambrosio, Marcello A1 - Shapovalov, Oleg A1 - Doynov, Nikolay T1 - Simulation of Composites’ Heating T2 - Kunststoffe international N2 - Modern material-compatible joining methods for fiber-reinforced plastics require the heating of the materials. In order to predict the respective complex temperature fields and curves, the Fraunhofer IAP and the BTU Cottbus-Senftenberg have developed numerical methods, which are able to simulate different radiation sources and process sequences as well. KW - Composites KW - Simulation KW - Joining of Fiber-Reinforced Plastic Composites Y1 - 2023 UR - https://epaper.kunststoffe.de/en/read/26/26/2023-05-26/1 SN - 1862-4243 VL - 113 IS - 4 SP - 60 EP - 64 ER - TY - GEN A1 - Bledzki, Andrzej K. A1 - Seidlitz, Holger A1 - Goracy, Krzysztof A1 - Urbaniak, Magdalena A1 - Rösch, Janina J. T1 - Recycling of Carbon Fiber Reinforced Composite Polymers—Review—Part 1: Volume of Production, Recycling Technologies, Legislative Aspects T2 - Polymers KW - carbon fibers KW - polymer composites KW - recycling KW - recycled carbon fibers Y1 - 2021 U6 - https://doi.org/10.3390/polym13020300 SN - 2073-4360 VL - 13 IS - 2 ER - TY - GEN A1 - Bledzki, Andrzej K. A1 - Seidlitz, Holger A1 - Krenz, Jonas A1 - Goracy, Krzysztof A1 - Urbaniak, Magdalena A1 - Rösch, Janina J. T1 - Recycling of Carbon Fiber Reinforced Composite Polymers—Review—Part 2: Recovery and Application of Recycled Carbon Fibers T2 - Polymers KW - polymer composites KW - recycled carbon fibers KW - recycling KW - automotive industry KW - railways KW - aviation KW - wind turbine Y1 - 2020 U6 - https://doi.org/10.3390/polym12123003 SN - 2073-4360 VL - 12 IS - 12 ER - TY - GEN A1 - Hajhariri, Aliasghar A1 - Eberwein, Robert A1 - Camplese, Davide A1 - Scarponi, Giordano Emrys A1 - Cozzani, Valerio A1 - Otremba, Frank A1 - Seidlitz, Holger T1 - Non-Combustible MLI Based Insulation Behavior Under Fire Condition - Experimental and Numerical Investigation T2 - Process Safety and Environmental Protection N2 - The number of applications that demand zero-emission energy carriers, such as liquified hydrogen (LH2), is increasing worldwide. LH2 is typically transported or stored under cryogenic conditions. Storage in such conditions requires super thermal insulations which maintain very low boil-off for a prolonged time. Multi-Layer insulation (MLI) finds widespread use in cryogenic applications, designed to effectively restrict heat inleak towards cryogenic fluids. However, recent studies evidenced that exposure to high heat fluxes, such as in the event of a fire accident, can cause the thermal degradation of the insulation material, resulting in the severe collapse of its heat resistance performance. Therefore, the risk of rapid tank pressurization and its connection to the risk of BLEVE may be possible. This study proposes a numerical model to assess the performances of aluminum-based MLI materials under fire conditions. The model offers insights into the total heat transfer rate through the insulation, serving as an indicator of the deterioration's impact on overall heat transfer. The proposed numerical model is validated against experimental data obtained by a High-Temperature Thermal Vacuum Chamber test facility that reproduces fire exposure conditions. The experiments conducted in this study underscore the emergence of pressure build-up within the insulation system, which contributes to increased gas conduction. Furthermore, it demonstrates that the spacer material is not entirely damaged under simulated fire conditions. The numerical calculation also underscores the significance of the modifications in material surface emissivity due to the deterioration process. The innovative approach proposed in this study thus paves the way for the development of improved tools aiming at the stationary and mobile cryogenic tanks behavior (e.g., LNG, LOX, LN2, and LH2) in fire accident scenarios. The model developed may, in perspective, be integrated into both CFD and lumped models for the calculation of the time to failure of cryogenic equipment under external fires. Therefore, this study offers valuable insights to improve the safety of processes and equipment for the storage of cryogenic fluids, thereby supporting emergency response planning in case of fire accidents. KW - Multi-Layer Insulation (MLI) KW - Cryogenic Vessels KW - Liquefied Hydrogen Y1 - 2024 U6 - https://doi.org/10.1016/j.psep.2024.11.037 SN - 0957-5820 VL - 193 SP - 403 EP - 420 PB - Elsevier BV ER - TY - GEN A1 - Seidlitz, Holger A1 - Hajhariri, Aliasghar A1 - Eberwein, Robert A1 - Perrone, Luca Pakj A1 - Cozzani, Valerio A1 - Otremba, Frank ED - Di Benedetto, Almerinda ED - Portarapillo, Maria T1 - Study the Impact of Spacer at Thermal Degradation Process of MLI-based Insulation in Fire Condition T2 - Proceedings of the 15th International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions N2 - To reduce carbon dioxide emissions, energy carries such as hydrogen consider to be a solution. Consumption of hydrogen as a fuel meets several restrictions such as its low volumetric energy density in gas phase. To tackle this problem, storage as well as transportation in liquid phase is recommended. To be able to handle this component in liquid phase, an efficient thermal insulation e.g., MLI insulation is required. Some studies have been revealed vulnerability of this type of insulation against high heat flux, for instance a fire accident. Some investigations have been depicted the importance of consideration of the MLI thermal degradation in terms of its reflective layer. However, limited number of studies have been focused on the thermal degradation of spacer material and its effect on the overall heat flux. In this study, through systematic experimental measurements, the effect of thermal loads on glass fleece, glass paper as well as polyester spacers are investigated. The results are reported in various temperature and heat flux profiles. Interpreting the temperature profiles revealed as the number of spacers in the medium increases, the peak temperature detectable by the temperature sensor on the measurement plate decreases. Moreover, the contribution of each individual spacer in all cases regarding the experimental temperature range is assessed to be around 8%. This value may increase to around 50% for glass paper and polyester spacers, and to around 25% for glass fleece spacers as the number of spacer layers increases up to six layers. To utilize the outcomes of the experiment later and integrate the results into numerical and CFD simulations, a model is proposed for the mentioned experimental temperature range up to 300°C to predict a heat flux attenuation factor. The model proposes a fitting factor that can reproduce the least square fitted line to the experimental data. KW - Multi-Layer Insulation (MLI) KW - Cryogenic KW - Liquid Hydrogen KW - Heat transfer Y1 - 2024 UR - https://zenodo.org/records/12621001 U6 - https://doi.org/10.5281/zenodo.12621001 SP - 744 EP - 755 CY - Napoli, Italy ER - TY - PAT A1 - Seidlitz, Holger A1 - Ambrosio, Marcello A1 - Müller, Michael A1 - Hansen, Torsten T1 - Sandwichlaminatstruktur, deren Verwendung und ein Verfahren zur Verwendung der Sandwichlaminatstruktur N2 - Sandwichlaminatstruktur mit einer ersten und einer zweiten Oberfläche, die einander gegenüberliegen, umfassend ein Kernelement, das eine erste Oberfläche und eine der ersten Oberfläche gegenüberliegende zweite Oberfläche aufweist, mindestens zwei Heizschichten, von denen mindestens eine Heizschicht auf der ersten und mindestens eine Heizschicht auf der zweiten Oberfläche des Kernelements angeordnet ist, und mindestens zwei Gewebelagen, von denen jeweils mindestens eine Gewebelage jeweils auf der dem Kernelement abgewandten Seite der mindestens zwei Heizschichten angeordnet ist, wobei das Material des Kernelements als Wabenvlies ausgebildet ist, welches Polyesterfasern, Polyamidfasern, Polyetherfasern und/oder deren Mischungen umfasst, wobei an den mindestens zwei Heizschichten Anschlüsse für eine Spannungsquelle angeordnet sind und die mindestens zwei Heizschichten als Leitfähigkeitssensoren zur Leckageüberwachung dienen. KW - Sandwichlaminatstruktur KW - Heizschicht KW - Leckageüberwachung Y1 - 2024 ER - TY - GEN A1 - Seidlitz, Holger T1 - Das Runde muss ins Eckige - mobile Wasserstoff-Kugelspeicher sollen Energieversorgung fächendeckend sichern T2 - CU reports N2 - Dem Wasserstoff-Transport widmen sich im TransHyDE-Projekt Mukran sechs Partnerinstitutionen aus Wissenschaft und Wirtschaft. Gemeinsam entwickeln sie neuartige sphärische Wasserstoffhochdruckspeicher mit einer lasttragenden Hülle aus carbonfaserverstärktem Kunststoff (CFK). Diese bieten einen „optimalen Kompromiss aus belastungs- und funktionsgerechter Geometrie“ und ermöglichen – eingebaut in standardisierte Containerquader – einen effizienten Transport mit hohem Nutzlastverhältnis. KW - Sphärische Wasserstoffhochdruckspeicher KW - Wasserstofftransport KW - Kugeltank KW - Wickelprozess Y1 - 2024 UR - https://digitalmagazin.b4bschwaben.de/de/profiles/610b21560ff9/editions/938f18855a9b7f4385ee/pages/page/13 SN - 2699-4534 VL - 01/2024 IS - 1 SP - 24 EP - 25 ER - TY - GEN A1 - Błędzki, Andrzej A1 - Seidlitz, Holger A1 - Köhler, Mathias A1 - Urbaniak, Magdalena A1 - Demski, Szymon A1 - Boczkowska, Anna T1 - Reusing and recycling of composite wind turbine blades. A review of current practices and prospects. Part 4.** Novel academic research T2 - Przemysł chemiczny N2 - A review, with 21 refs., of new resins for manufacturing, repair methods and recycling possibility stds. for established end-of-life management published in last 2 years. KW - Polymer composites KW - Wind turbine blades KW - High-performance wind turbines KW - Repair and recycling methods KW - End-of-life management KW - World’s largest wind turbines Y1 - 2025 U6 - https://doi.org/10.15199/62.2025.1.10 SN - 0033-2496 VL - 104 IS - 1 SP - 133 EP - 141 PB - Wydawnictwo SIGMA-NOT, sp. z.o.o. ER - TY - GEN A1 - Cieślik, Iwona A1 - Seidlitz, Holger A1 - Duchna, Monika A1 - Zasada, Dariusz A1 - Kwaśny, Mirosław A1 - Adamczyk-Cieślak, Bogusława T1 - Chemical method of doping Inconel 713C powder with rhenium for 3D printed manufacturing. Influence of rhenium dopants on the microstructure changes T2 - Archives of Civil and Mechanical Engineering N2 - A well-known method of doping powders in the industry is mechanical alloying synthesis. This method synthesizes metal powders by grinding them in high-energy mills, which prevents the achievement of well-dispersed particles throughout the volume and control of particle morphology, size, and agglomeration. In the present work, rhenium doping of IN 713C was carried out in a polyester network system based on organic acids and diols with specially selected catalysts and experimental parameters leading to the complexation of Rhenium ions. In addition, neutral reagents were used in this research, contributing to the greening of many key industries. The obtained IN 713C powder with rhenium showed high dispersion without agglomeration effect and reasonable flowability. Depending on the polymerization process parameters, the morphology of the rhenium particles on the surface of IN 713C can be modified. The IN 713C powder, with and without rhenium, was used in the SLM process to fabricate IN 713C alloy samples. The study examines the effect of rhenium doped IN 713C on the microstructure and hardness changes of the alloy produced by the 3D-printing methods. This type of chemical modification methods can effectively enhance the hardness and affects the elongation of dendrites in the structure of IN 713C alloys manufactured by the additive methods. KW - Rhenium KW - Chemical doping KW - Inconel 713C KW - Microstructure KW - 3D printing Y1 - 2025 U6 - https://doi.org/10.1007/s43452-025-01159-w SN - 2083-3318 VL - 25 IS - 2 PB - Springer Science and Business Media LLC ER -