Computational model to predict thermal dynamics of planar solid oxide fuel cell stack during start-up process

Journal of Power Sources

Volumn 195, Issue 10, 2010, Pages 3186-3200

  Ki, Jeongpill ^a   Kim, Daejong ^a  

^a University of Texas at Arlington   (United States)

Author keywords

SOFC; Start up; Thermal dynamics; Transient performance

Indexed keywords

AMBIENT TEMPERATURES; CATHODE AND ANODE; CATHODE CHANNEL; CERAMIC ELECTROLYTES; COMPUTATIONAL MODEL; CONTROL VOLUMES; DISCRETIZED CONTROL; ELECTRICAL HEATING; ENERGY EQUATION; FINITE VOLUME; FLOW CHANNELS; GAS CHANNELS; HEAT TRANSFER MODEL; HEAT-UP; HEATING ENERGY; HEATING PROCESS; HOT AIR; HYDROCARBON FUEL; ION CONDUCTIVITIES; MEMBRANE ELECTRODE ASSEMBLIES; NET ENERGY CONSUMPTION; NUMERICAL CONTROL; ONEDIMENSIONAL FLOW; PLANAR SOLIDS; POWER GENERATION SYSTEMS; SIMULATION TOOL; SOFC STACK; SOLID STRUCTURES; START-UP PROCESS; START-UPS; SURFACE TEMPERATURES; SYNTHETIC GAS; TEMPORAL EVOLUTION; THERMAL DYNAMICS; THERMAL EFFICIENCY; TIME MARCHING; TRANSIENT GOVERNING EQUATIONS; TRANSIENT PERFORMANCE; UNIFORM HEAT FLUX;

ALGORITHMS; CHANNEL FLOW; COMPUTATIONAL EFFICIENCY; CONTROL SURFACES; DYNAMICS; ELECTRIC HEATING; ENERGY UTILIZATION; HEAT TRANSFER; HIGH TEMPERATURE OPERATIONS; HYDROCARBONS; HYDROGEN FUELS; MEMBRANE STRUCTURES; OPTIMIZATION; SPACECRAFT; THERMAL GRADIENTS; THERMOANALYSIS;

SOLID OXIDE FUEL CELLS (SOFC);

EID: 74149088590     PISSN: 03787753     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jpowsour.2009.11.129     Document Type: Article

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