Tailored Porous Transport Layers for Optimal Oxygen Transport in Water Electrolyzers: Combined Stochastic Reconstruction and Lattice Boltzmann Method,ChemPhysChem

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Tailored Porous Transport Layers for Optimal Oxygen Transport in Water Electrolyzers: Combined Stochastic Reconstruction and Lattice Boltzmann Method
ChemPhysChem ( IF 2.3 ) Pub Date : 2023-07-04 , DOI: 10.1002/cphc.202300197
Jiang Liu ₁ , Min Li _{2,

3} , Yingying Yang ₁ , Nicolas Schlüter ₁ , Dajan Mimic _{2,

3} , Daniel Schröder _{1,

4}

Affiliation

Generated oxygen and supplied water compete with the available void space in the porous transport layer of water electrolyzers at all times. The direct removal of the product oxygen is essential to minimize losses in the electrochemical efficiency. Therefore, optimal design strategies for the porous transport layer have to be derived with modelling tools to yield enhanced, high-performing electrolyzers of the next generation.

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