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    Examination of the Effect of System Pressure Ratio and Heat Recuperation on the Efficiency of a Coal-Based Gas Turbine Fuel Cell Hybrid Power Generation System With CO2 Capture

    Source: Journal of Fuel Cell Science and Technology:;2011:;volume( 008 ):;issue: 004::page 41009
    Author:
    John VanOsdol
    ,
    Randall Gemmen
    ,
    Eric Liese
    DOI: 10.1115/1.4002793
    Publisher: The American Society of Mechanical Engineers (ASME)
    Abstract: This paper examines two coal-based hybrid configurations that employ separated anode and cathode streams for the capture and compression of CO2. One configuration uses a standard Brayton cycle, and the other adds heat recuperation ahead of the fuel cell. Results show that peak efficiencies near 55% are possible, regardless of cycle configuration, including the cost in terms of energy production of CO2 capture and compression. The power that is required to capture and compress CO2 is shown to be approximately 15% of the total plant power.
    keyword(s): Pressure , Heat , Anodes , Fuels , Coal , Fuel cells , Solid oxide fuel cells , Brayton cycle , Syngas , Carbon capture and storage , Gas turbines , Compression , Temperature , Cycles , Flow (Dynamics) , Oxygen , Fuel gasification AND Hybrid power systems ,
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      Examination of the Effect of System Pressure Ratio and Heat Recuperation on the Efficiency of a Coal-Based Gas Turbine Fuel Cell Hybrid Power Generation System With CO2 Capture

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    http://yetl.yabesh.ir/yetl1/handle/yetl/146464
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    contributor authorJohn VanOsdol
    contributor authorRandall Gemmen
    contributor authorEric Liese
    date accessioned2017-05-09T00:44:37Z
    date available2017-05-09T00:44:37Z
    date copyrightAugust, 2011
    date issued2011
    identifier issn2381-6872
    identifier otherJFCSAU-28949#041009_1.pdf
    identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/146464
    description abstractThis paper examines two coal-based hybrid configurations that employ separated anode and cathode streams for the capture and compression of CO2. One configuration uses a standard Brayton cycle, and the other adds heat recuperation ahead of the fuel cell. Results show that peak efficiencies near 55% are possible, regardless of cycle configuration, including the cost in terms of energy production of CO2 capture and compression. The power that is required to capture and compress CO2 is shown to be approximately 15% of the total plant power.
    publisherThe American Society of Mechanical Engineers (ASME)
    titleExamination of the Effect of System Pressure Ratio and Heat Recuperation on the Efficiency of a Coal-Based Gas Turbine Fuel Cell Hybrid Power Generation System With CO2 Capture
    typeJournal Paper
    journal volume8
    journal issue4
    journal titleJournal of Fuel Cell Science and Technology
    identifier doi10.1115/1.4002793
    journal fristpage41009
    identifier eissn2381-6910
    keywordsPressure
    keywordsHeat
    keywordsAnodes
    keywordsFuels
    keywordsCoal
    keywordsFuel cells
    keywordsSolid oxide fuel cells
    keywordsBrayton cycle
    keywordsSyngas
    keywordsCarbon capture and storage
    keywordsGas turbines
    keywordsCompression
    keywordsTemperature
    keywordsCycles
    keywordsFlow (Dynamics)
    keywordsOxygen
    keywordsFuel gasification AND Hybrid power systems
    treeJournal of Fuel Cell Science and Technology:;2011:;volume( 008 ):;issue: 004
    contenttypeFulltext
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