Computational fluid dynamics study of PEM fuel cell performance for isothermal and non-uniform temperature boundary conditions (CROSBI ID 230988)
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Podaci o odgovornosti
Penga, Željko ; Tolj, Ivan ; Barbir, Frano
engleski
Computational fluid dynamics study of PEM fuel cell performance for isothermal and non-uniform temperature boundary conditions
Computational fluid dynamics (CFD) study of segmented proton exchange membrane fuel cell (PEMFC) performance has been carried out, based on experimental setup and operating parameters from previous studies. Two different temperature boundary conditions were considered – isothermal and, a novel, non-uniform temperature profile calculated from Mollier h-ω chart. Implementation of non-uniform terminal temperature boundary conditions resulted in close to 100% relative humidity along the cathode channel, resulting in improvement of PEMFC performance without the need for external humidification. Model polarization curve and relative humidity distribution along the cathode channel length are in good agreement with experimental results. It was found that different current collector materials, i.e., their thermal conductivity have major influence on temperature, thus on relative humidity distributions along reactant gas channels. The membrane thickness affects the net water transport across the membrane, thus also has influence on temperature and relative humidity distribution along the reactant gas channels.
Computational fluid dynamics ; Segmented fuel cell ; Non-uniform temperature field ; Water transport ; Thermal conductivity
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Podaci o izdanju
41 (39)
2016.
17585-17594
objavljeno
0360-3199
10.1016/j.ijhydene.2016.07.092
Povezanost rada
Kemijsko inženjerstvo, Strojarstvo