Investigation the Effect of Different Pattern of Bi-Polar Plates on PEM Fuel Cells Performance, M.Sc. Thesis Sharif University of Technology ; Roshandel, Ramin (Supervisor) ; Saboohi, Yadollah (Supervisor)
Abstract
Proton exchange membrane (PEM) fuel cell performance is directly related to the flow channel design on bipolar plates. Power gains can be found by varying the type, size, or arrangement of channels. It has been understood that the flow field design has a deterministic role on mass transport and water management, and thus great efforts have been made for the optimal design of flow field such that high and stable cell performance can be achieved. This study concentrates on the improvement in the performance of PEM fuel cells through optimization of the channel dimensions and patterns in the velocity and pressure fields in bipolar plates. For design and optimization purposes, a 2D numerical...
Cataloging briefInvestigation the Effect of Different Pattern of Bi-Polar Plates on PEM Fuel Cells Performance, M.Sc. Thesis Sharif University of Technology ; Roshandel, Ramin (Supervisor) ; Saboohi, Yadollah (Supervisor)
Abstract
Proton exchange membrane (PEM) fuel cell performance is directly related to the flow channel design on bipolar plates. Power gains can be found by varying the type, size, or arrangement of channels. It has been understood that the flow field design has a deterministic role on mass transport and water management, and thus great efforts have been made for the optimal design of flow field such that high and stable cell performance can be achieved. This study concentrates on the improvement in the performance of PEM fuel cells through optimization of the channel dimensions and patterns in the velocity and pressure fields in bipolar plates. For design and optimization purposes, a 2D numerical...
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