Computational Model of a Hybrid Pressurized Solid Oxide Fuel Cell Generator/Gas Turbine Power Plant
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A computational model of a hybrid pressurized solid oxide fuel cell (PSOFC) generator/gas turbine power plant is developed using classical thermodynamic analysis in conjunction with electromechanical, fluid-mechanical, and heat transfer simulations in the fuel cell by a commercial software. The thermodynamic analysis is based on energy and exergy balances. A case study is reported in which the plant contains a Siemens–Westinghouse PSOFC generator and a Solar Turbines Mercury-50 gas turbine. Among the calculated quantities for a range of fuel cell current are the plant output power, first-law efficiency, and exergetic efficiency.
2013 ◽
Vol 5
(4)
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pp. 529-545
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2010 ◽
Vol 35
(20)
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pp. 11208-11215
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2002 ◽
Vol 109
(1)
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pp. 111-120
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2011 ◽
Vol 36
(2)
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pp. 1702-1709
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2010 ◽
Vol 195
(24)
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pp. 8134-8140
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2019 ◽
Vol 2019
(0)
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pp. 0175
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