An integrated modeling approach for temperature driven water transport in a polymer electrolyte fuel cell stack after shutdown

Journal of Power Sources

Volumn 195, Issue 19, 2010, Pages 6549-6558

  Khandelwal, Manish ^a   Mench, M M ^a  

^a The Pennsylvania State University   (United States)

Author keywords

Heat pipe; Polymer electrolyte fuel cell; Shutdown; Stack; Thermo osmosis; Water transport

Indexed keywords

CONTROLLED TEMPERATURE; END CELLS; FREEZE/THAW; FUEL CELL MODEL; INTEGRATED MODELING; MODEL RESULTS; OR CHANNELS; OSMOTIC FLOW; PHASE CHANGES; POLYMER ELECTROLYTE FUEL CELL; POLYMER ELECTROLYTE FUEL CELLS; POLYMER MEMBRANE; POROUS MEDIA; RESIDUAL WATERS; SINGLE-CELL LEVEL; SINGLE-CELL MODELS; STACK; TEMPERATURE GRADIENT; THERMAL MODEL; THERMAL TRANSPORT; TRANSIENT TEMPERATURE; WATER DISTRIBUTIONS; WATER DRAINAGE; WATER TRANSPORT;

BOUNDARY CONDITIONS; ELECTROLYTIC REDUCTION; FUNCTIONAL POLYMERS; HEAT PIPES; OSMOSIS; POLYELECTROLYTES; POLYMERS; POROUS MATERIALS; THERMAL GRADIENTS; THERMOGRAPHY (TEMPERATURE MEASUREMENT); WATER SUPPLY;

PROTON EXCHANGE MEMBRANE FUEL CELLS (PEMFC);

EID: 77953130543     PISSN: 03787753     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jpowsour.2010.04.080     Document Type: Article

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