Philipp Oppek, M.Eng.
- Research associate
- Spatially resolved in-situ electrochemical characterization of PEM fuel cells
- Group:
Brennstoffzellen und Elektrolyse
- Room: 317
CS 50.40 - Phone: +49 721 608-48789
- philipp oppek ∂ kit edu
Institute for Applied Materials – Electrochemical Technologies (IAM-ET)
Adenauerring 20b
Gebäude 50.40
D-76131 Karlsruhe
Career
- Oct. 2017 - Feb. 2021: Professional activity at Schaeffler Technologies AG & Co. KG, sub-project manager process development screen printing for PEM fuel cells.
- Oct. 2018 - Dec. 2021: Dual master's degree in mechanical engineering (M.Eng.), Baden-Württemberg Cooperative State University & Schaeffler Technologies AG & Co. KG
Master thesis at IAM-ET:"Experimental investigation of the influences of operating parameters on PEM fuel cells using design of experiments". - Dec. 2017 - Feb. 2018: Certificate program Mechanical Engineerig, Wilhelm Büchner University of Applied Sciences.
- Oct. 2014 - Sep. 2017: Dual bachelor's degree program in mechanical engineering (B.Eng.), Baden-Wuerttemberg Cooperative State University Mannheim & Schaeffler Technologies AG & Co. KG
Stay abroad
- Mar. 2022 - Aug. 2022: Spatially resolved measurements on PEM fuel cells at the University of Hawaii
Research topic
Research project
- Project: Production and structure optimized metal flow field for bipolar plates (ProStroM)
- Zellarchritektur- und Prüfstandstechnologieentwicklung zur ortsaufgelösten Charakteriserung von segmentierten Brennstoffzellen (ZaPtos)
- Project partners: GFS Fuel Cells GmbH, Schaeffler AG, Bender GmbH, Karlsruhe University of Applied Sciences, Center for Solar Energy and Hydrogen Research Baden-Württemberg (ZSW)
Development of spatially resolved measurement technology and segmented cell housing
- Further development and commissioning of a test bench for polymer electrolyte membrane fuel cells (PEMFCs)
- Development of measurement technology for local application of impedance spectroscopy
- Design of a segmented cell housing with variably adjustable contact pressure per segment
Spatially resolved characterization of PEM fuel cells
- Electrochemical characterization of loss processes in PEMFCs along the gas channel
- Metrological investigation of PEM fuel cells using steady-state and dynamic measurement methods (polarization curves, electrochemical impedance spectroscopy, etc.)
- Detailed analysis of impedance spectra using distribution of relaxation times (DRT) along the gas channel
- Spatially resolved investigation of the interaction between gas channel and active components
- Analysis of the influence of different fuel cell components (MEA, GDL, bipolar plate, flow structures etc.) on the loss processes along the gas channel
Theses
Title | Type | Supervisor | Students | Period |
---|---|---|---|---|
Spatially resolved identification and quantification of diffusion losses in PEM fuel cells | Master thesis | Philipp Oppek | Yannick Fischer | completed 05/2024 |
Modelling and quantification of oxygen transport processes in PEM fuel cells | Master thesis | Philipp Oppek / Tobias Goosmann | Paulo Borges | completed 10/2023 |
Exsitu analysis of the interaction between 3D flow field structures and gas diffusion layers of a PEMFC | Bachelor thesis | Philipp Oppek | Yannik Dudda | completed 03/2023 |
Spatially resolved methodology for the investigation of loss processes in PEM fuel cells | Master thesis | Philipp Oppek | Mischa Geörg | completed 12/2022 |
Design and commissioning of a contact resistance test system for PEM fuel cells | Technician thesis | Philipp Oppek | Philipp Wunsch | completed 06/2022 |
Development of a measuring device to perform spatially resolved |
Bachelor thesis | Philipp Oppek | Yannick Fischer | completed 03/2022 |
Research assistants
Responsibilities | Supervisor | Students | Period |
---|---|---|---|
Development of Embedded Software for PEMFC Measurement Electronics | open | ||
Further development of a PEMFC test bench and spatially resolved measurement technology
Development of evaluation routines |
Philipp Oppek | Yannick Fischer | since 03/2022 |
Design and manufacturing of segmented fuel cells
Commissioning of measurement technology for spatially resolved analysis |
Philipp Oppek | Mischa Geörg | until 06/2022 |
Setup of a PEMFC test bench for spatially resolved analysis |
Philipp Oppek | Marvin Dorn | until 03/2022 |
Publications and Conference Contributions
Publications and Proceedings
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Y. Fischer, P. Oppek, A. Chuang, A. Weber, "Influence of the Clamping Force and the Formation of Liquid Water Along the Channel on the Local Diffusion Processes in PEMFCs", ECS Transactions (2024), 114, 5, 441. DOI: 10.1149/11405.0441ecst
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P. Oppek, S. Raab, A. Weber, "Spatially Resolved Analysis of the Influence of Three-Dimensional Flow Field Structures on Loss Processes in PEMFCs", ECS Transactions (2024), 114, 5, 427. DOI: 10.1149/11405.0427ecst
Conference Contributions
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Y. Fischer, P. Oppek, A. Chuang, A. Weber, "Influence of the Clamping Force and the Formation of Liquid Water Along the Channel on the Local Diffusion Processes in PEMFCs", PRiME 2024, Honolulu, 06.-11.10.2024 (talk).
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P. Oppek, S. Raab, A. Weber, "Spatially Resolved Analysis of the Influence of Three-Dimensional Flow Field Structures on Loss Processes in PEMFCs", PRiME 2024, Honolulu, 06.-11.10.2024 (talk).
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Y. Fischer, P. Oppek, S. Raab, A. Weber, „Spatially Resolved Quantification of Diffusion Losses in a Segmented PEM Fuel Cell with adjustable Clamping Forces”, 20th Symposium on Modeling Experimental Validation Trafo Baden of Electrochemical Energy Technologies (ModVal 2024), Baden, Switzerland 12.03.-14.03.2024 (talk)
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P. Oppek, A. Weber, „Empirical PEMFC model for local performance and resistance prediction”, 20th Symposium on Modeling Experimental Validation Trafo Baden of Electrochemical Energy Technologies (ModVal 2024), Baden, Switzerland 12.03.-14.03.2024 (talk)
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P. Oppek, T. Goosmann, A. Weber, „Impact of Clamping Force Distribution on Loss Processes in a Segmented PEMFC", 244th ECS meeting, Gothenburg, 08.10.-12.10.2023 (talk)
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T. Goosmann, P. Oppek, A. Weber, „Method for Systematic Validation of a Physically Based PEMFC Model By Spatially Resolved Impedance Measurements", 244th ECS meeting, Gothenburg, 08.10.-12.10.2023 (talk)
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P. Oppek, T. Goosmann, T. Reshetenko, A. Weber, „Spatial Distribution of Loss Processes Along the gas Channels of PEMFC", 27th European Fuel Cell Forum, Lucerne, 04.07.-07.07.2023 (talk)
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T. Goosmann, P. Oppek, S. Raab, A. Weber, „Impedance-based observation and quantification of water in PEMFCs", 27th European Fuel Cell Forum, Lucerne, 04.07.-07.07.2023 (Poster)
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M. Geörg, P. Oppek, A. Weber, „An impedance-based approach to derive causal relationships between operational variables in a segmented PEMFC", 27th European Fuel Cell Forum, Lucerne, 04.07.-07.07.2023 (Poster)
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P. Oppek, T. Goosmann, A. Weber, „Spatial Distribution of Loss Processes in PEMFC”, 19th Symposium on Fuel Cell and Battery Modelling and Experimental Validation – ModVal 19, Duisburg, 21.03.-23.03.2023 (talk)
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P. Oppek, M. Geörg, T. Goosmann, A. Weber, T. Reshetenko, U. Krewer, „ Spatially Resolved Deconvolution of Loss Processes in PEM Fuel Cells”, 241st ECS Meeting, Vancouver, 29.05-02.06.2022 (talk)
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T. Goosmann, S. Raab, P. Oppek, A. Weber, E. Ivers-Tiffée, „Impedance-Based, Multi-physical DC-Performance-Model for a PEMFC Stack”, 241st ECS Meeting, Vancouver, 29.05.-02.06.2022 (talk)
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P. Oppek, T. Goosmann, J. Haußmann, A. Weber, „Methodology using design of experiments to maximize PEMFC performance”, 25th European Fuel Cell Forum, Online-Konferenz, 29.06.-02.07.2021 (talk)
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T. Goosmann, M. Heinzmann, P. Oppek, K. Schwab, P. Föllmer, A. Weber, "Impedance-based, spatially resolved DC-Performance Model for PEMFC", 25th European Fuel Cell Forum, Online-Konferenz, 29.06. - 02.07.2021 (Poster)