Effects of various operating conditions and optimal ionomer-gradient distribution on temperature-driven water transport in cathode catalyst layer of PEMFC
Temperature distribution affects water transport by phase-change-induced (PCI) flow in the
cathode catalyst layer, where water generates and heat releases. To elucidate the role of …
cathode catalyst layer, where water generates and heat releases. To elucidate the role of …
Effects of various operating conditions and optimal ionomer-gradient distribution on temperature-driven water transport in cathode catalyst layer of PEMFC
Y Xu, G Chang, R Fan, T Cai - Chemical Engineering …, 2023 - ui.adsabs.harvard.edu
Temperature distribution affects water transport by phase-change-induced (PCI) flow in the
cathode catalyst layer, where water generates and heat releases. To elucidate the role of …
cathode catalyst layer, where water generates and heat releases. To elucidate the role of …
Effects of various operating conditions and optimal ionomer-gradient distribution on temperature-driven water transport in cathode catalyst layer of PEMFC.
Y Xu, G Chang, R Fan, T Cai - 2023 - cabidigitallibrary.org
Temperature distribution affects water transport by phase-change-induced (PCI) flow in the
cathode catalyst layer, where water generates and heat releases. To elucidate the role of …
cathode catalyst layer, where water generates and heat releases. To elucidate the role of …