Published August 29, 2023
| Version v1
Poster
Open
Improved cold-start behavior for alkaline electrolysis through electrolyte concentration heat storage
- 1. Fraunhofer Institute for Wind Energy Systems
- 2. Fraunhofer Institute for Machine Tools and Forming Technology
Description
In order to reduce the cold start-up phase of alkaline electrolysers, a concept for an accelerated heating process of an alkaline electrolyser was designed. The concept is based on the use of the exothermic dilution reaction of potassium hydroxide and water and was simulated using a extended cell model. The liquid electrolyte is diluted with water during a cold start and the heat of dilution thus released is used for accelerated heating. During operation of the electrolyser, water is consumed and thus the electrolyte is concentrated again.
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Poster_ICE_2023_Fabian Grewe.pdf
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Additional details
References
- Abdin, Z.; Webb, C. J.; Gray, E. MacA. (2017): Modelling and simulation of an alkaline electrolyser cell
- Henao Christian, Agbossou Kodjo, Hammoudi Mhamed, Dube Yves, Cardenas Alben. (2014) Simulation tool based on a physics model and an electrical analogy for an alkaline electrolyser
- Occidental Chemical Corporation, Basic Chemicals Group, (2018): OxyChem Caustic Potash Handbook
- Md Rizwan; Vidar Alstad; Johannes Jäschke (2021): Design considerations for industrial water electrolyzer plants
- F. P. Lohmann-Richters; S. Renz; W. Lehnert; M. Müller; M. Carmo (2021): Review—Challenges and Opportunities for Increased Current Density in Alkaline Electrolysis by Increasing the Operating Temperature.