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Advances in benchmarking and round robin testing for PEM water electrolysis: Reference protocol and hardware

Author

Listed:
  • Lickert, Thomas
  • Fischer, Stefanie
  • Young, James L.
  • Klose, Selina
  • Franzetti, Irene
  • Hahn, Daniel
  • Kang, Zhenye
  • Shviro, Meital
  • Scheepers, Fabian
  • Carmo, Marcelo
  • Smolinka, Tom
  • Bender, Guido
  • Metz, Sebastian

Abstract

While the number of publications in the PEM water electrolysis community increases each year, no common ground concerning reference hardware (test cells and test bench) and testing protocols has been yet established. This would, however, be necessary for the comparability of experimental results. First attempts for such reference hardware and procedures have been made in the framework of the Task 30 Electrolysis within the Technology Collaboration Programme on Advanced Fuel Cells (AFC TCP) of the International Energy Agency (IEA). Since then, improvements of both the test hardware (test cell and components) as well as the measurement protocol were identified, and a revised methodology and key results based on a comprehensive measurement series have been obtained. A detailed protocol for testing commercial reference components with a reference laboratory test cell developed in-house by Fraunhofer ISE is presented. For evaluation of the protocol and the hardware, it was tested at three different institutions at the same time. Impedance spectroscopic and polarization data was acquired and analyzed. The obtained differences in performance were calculated to give the community an expectation window to compare own data to. Finally, the importance of a thorough temperature control and the conditioning phase are demonstrated.

Suggested Citation

  • Lickert, Thomas & Fischer, Stefanie & Young, James L. & Klose, Selina & Franzetti, Irene & Hahn, Daniel & Kang, Zhenye & Shviro, Meital & Scheepers, Fabian & Carmo, Marcelo & Smolinka, Tom & Bender, G, 2023. "Advances in benchmarking and round robin testing for PEM water electrolysis: Reference protocol and hardware," Applied Energy, Elsevier, vol. 352(C).
    • Handle: RePEc:eee:appene:v:352:y:2023:i:c:s030626192301262x
    DOI: 10.1016/j.apenergy.2023.121898
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    1. Adrian Odenweller & Falko Ueckerdt & Gregory F. Nemet & Miha Jensterle & Gunnar Luderer, 2022. "Probabilistic feasibility space of scaling up green hydrogen supply," Nature Energy, Nature, vol. 7(9), pages 854-865, September.
    2. Lee, Jason K. & Schuler, Tobias & Bender, Guido & Sabharwal, Mayank & Peng, Xiong & Weber, Adam Z. & Danilovic, Nemanja, 2023. "Interfacial engineering via laser ablation for high-performing PEM water electrolysis," Applied Energy, Elsevier, vol. 336(C).
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    Cited by:

    1. Chen, Xia & Rex, Alexander & Woelke, Janis & Eckert, Christoph & Bensmann, Boris & Hanke-Rauschenbach, Richard & Geyer, Philipp, 2024. "Machine learning in proton exchange membrane water electrolysis — A knowledge-integrated framework," Applied Energy, Elsevier, vol. 371(C).
    2. Chen, Jingxian & Wang, Sen & Sun, Yongwen & Zhang, Cunman & Lv, Hong, 2025. "Multi-dimensional performance evaluation and energy analysis of proton exchange membrane water electrolyzer," Applied Energy, Elsevier, vol. 377(PB).
    3. Sheng Yang & Jing Yuan & Pengpeng Xie & Bo Li & Mengxuan Li & Daojin Zhou & Liang Luo & Xiaoming Sun, 2025. "Macroscopic bubble generation promoted by nanobubble seeds as a traceless anti-fluctuation strategy for water splitting," Nature Communications, Nature, vol. 16(1), pages 1-11, December.

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