Review of Flow Field Designs for Polymer Electrolyte Membrane Fuel Cells

Abstract: The performance of a polymer electrolyte membrane fuel cell (PEMFC) closely depends on internal reactant diffusion and liquid water removal. As one of the key components of PEMFCs, bipolar plates (BPs) provide paths for reactant diffusion and product transport. Therefore, to achieve high fuel cell performance, one key issue is designing BPs with a reasonable flow field. This paper provides a comprehensive review of various modifications of the conventional parallel flow field, interdigitated flow field, and se… Show more

“…The shape of the flow path influences the flow distribution on the catalyst layer, which relates to the engineering design of the electrolyser. 204,220,222,223 Computational fluid mechanics (CFD) combined with experimental results confirmed the low flow resistance in the parallel flow path. 220 Nonetheless, the fluid distribution is uneven among the channels.…”

“…The flow path has two fundamental features: the topology and shape. 223,224 The topological structure reveals how the channel is divided, connected and converged (Fig. 5c 1 ), and these structural designs greatly influence the flow resistance.…”

Screening potential anodic chemistry in lieu of the oxygen evolution reaction in electrolysis systems: the road to practical application

“…The shape of the flow path influences the flow distribution on the catalyst layer, which relates to the engineering design of the electrolyser. 204,220,222,223 Computational fluid mechanics (CFD) combined with experimental results confirmed the low flow resistance in the parallel flow path. 220 Nonetheless, the fluid distribution is uneven among the channels.…”

“…The flow path has two fundamental features: the topology and shape. 223,224 The topological structure reveals how the channel is divided, connected and converged (Fig. 5c 1 ), and these structural designs greatly influence the flow resistance.…”

Screening potential anodic chemistry in lieu of the oxygen evolution reaction in electrolysis systems: the road to practical application

A Shared Anode Flow Field for Direct Methanol Fuel Cell with Enhanced Performance and Decreased Volume

Fuel Cells – Polymer-Electrolyte Membrane Fuel Cell | Cells