Advanced search
Publication Cover
International Journal of Green Energy Volume 8, 2011 - Issue 8
Submit an article Journal homepage
924
Views
12
CrossRef citations to date
0
Altmetric
Original Articles

Exergy Analysis of a Gasification-Based Combined Cycle with Solid Oxide Fuel Cells for Cogeneration

A. Odukoya Faculty of Engineering and Applied Science, University of Ontario Institute of Technology, Oshawa, Ontario, Canada
,
I. Dincer Faculty of Engineering and Applied Science, University of Ontario Institute of Technology, Oshawa, Ontario, Canada
&
G. F. Naterer Faculty of Engineering and Applied Science, University of Ontario Institute of Technology, Oshawa, Ontario, CanadaCorrespondence[email protected]
Pages 834-856 | Published online: 22 Nov 2011

REFERENCES

  • Akkaya , A.V. 2007 . Electrochemical model for performance analysis of a tubular SOFC . International Journal of Energy Research , 31 : 79 – 98 .
  • Balli , O. , Aras , H. and Hepbasli , A. 2007 . Exergetic performance evaluation of a combined heatand power (CHP) system in Turkey . International Journal of Energy Research , 31 : 849 – 66 .
  • Bartok , W. 1991 . Fossil fuels combustion: A source book , Denver , CO : Wiley-Interscience .
  • Bolland , O. 1991 . A comparative evaluation of advanced combined cycle alternatives . ASME Journal of Engineering for Gas Turbines and Power , 113 : 191 – 7 .
  • Braun , R.J. , Klein , S.A. and Reindl , D.T. 2006 . Evaluation of system configurations for solid oxide fuel cell-based micro-combined heat and power generators in residential applications . Journal of Power Sources , 158 : 1290 – 1305 .
  • Calise , F. , Palombo , A. and Vanoli , L. 2006 . Design and partial load exergy analysis of hybrid SOFC–GT power plant . Journal of Power Sources , 158 : 225 – 44 .
  • Campanari , S. and Iora , P. 2004 . Definition and sensitivity analysis of a finite volume SOFC model for a tubular cell geometry . Journal of Power , 132 : 113 – 26 .
  • Dincer , I. and Rosen , M.A. 2004 . Exergy as a driver for achieving sustainability . International Journal of Green Energy , 1 : 1 – 19 .
  • Dincer , I. and Rosen , M.A. 2007 . Exergy–energy, environment and sustainable development , Oxford, UK : Elsevier .
  • Douvartzides , S. , Coutelieris , F. and Tsiakaras , P. 2003 . On the systematic optimization of ethanol-fed SOFC-based electricity generating systems in terms of energy and exergy . Journal of Power Sources , 114 : 203 – 12 .
  • Douvartzides , S. , Coutelieris , F. and Tsiakaras , P. 2004 . Exergy analysis of a solid oxide fuel cell power plant fed by either ethanol or methane . Journal of Power Sources , 131 : 224 – 30 .
  • Facchini , B. , Fiaschi , D. and Manfrida , G. 2000 . Exergy analysis of combined cycles using latest generation gas turbines . ASME Journal of Engineering for Gas Turbines and Power , 122 : 233 – 38 .
  • Ghosh , S. and De , S. 2003 . Thermodynamic performance study of an integrated gasification fuel cell combined cycle—an energy analysis . IMechE Part A: Journal of Power and Energy , 217 : 137 – 47 .
  • Ghosh , S. and De , S. 2006a . Energy analysis of a cogeneration plant using coal gasification and solid oxide fuel cell . Journal of Energy and Power , 10 : 345 – 63 .
  • Ghosh , S. and De , S. 2006b . Exergy analysis of a cogeneration plant using coal gasification and solid oxide fuel cell . International Journal of Energy Research , 30 : 647 – 58 .
  • Haseli , Y. , Dincer , I. and Naterer , G.F. 2008 . Unified approach to exergy efficiency, environmental impact, and sustainable development for standard thermodynamic cycles . International Journal of Green Energy , 5 : 105 – 19 .
  • Jones , J.B. and Dugan , R.E . 1996 . Engineering thermodynamics , Upper Saddle River : NJ: Prentice Hall .
  • Kanoglu , M. and Dincer , I. 2009 . Energy conversion and management, performance assessment of cogeneration plants . Energy Conversion and Management , 50 : 76 – 81 .
  • Li , H. , Hong , H. , Gao , L. and Jin , H. 2008 . Performance analysis of a new biomass-based polygeneration system for power and methanol . International Journal of Green Energy , 5 : 297 – 312 .
  • Li , X. 2006 . Principles of fuel cells , New York : Taylor and Francis .
  • Massardo , A.F. and Magistri , L. 2003 . Internal reforming solid oxide fuel cell gas turbine combined cycles (IRSOFC-GT)—Part II: Exergy and thermoeconomic analyses . ASME Journal of Engineering for Gas Turbines and Power , 125 : 67 – 74 .
  • Odukoya , A. 2007 . Thermodynamics and optimization of fuel cell-based combined cycle cogeneration plant , Canada : MSc thesis, University of New Brunswick .
  • Oktay , Z. and Dincer , I. 2007 . Energetic, exergetic, economic and environmental assessments of the bigadic geothermal district heating system as a potential green solution . International Journal of Green Energy , 4 : 549 – 69 .
  • Perry , R.H. 1999 . Perry's chemical engineering handbook , New York : McGraw Hill .
  • Rosen , M.A. 2005 . Energy-related education and awareness: The role and place for exergy in policy development . International Journal of Green Energy , 1 : 451 – 65 .
  • Rosen , M.A. , Le , M.N. and Dincer , I. 2005 . Efficiency analysis of a cogeneration and district energy system . Applied Thermal Engineering , 25 : 147 – 59 .
  • Shukla , S.K. 2009 . Comparison of energy and exergy efficiency of community and domestic-type parabolic solar cookers . International Journal of Green Energy , 6 : 437 – 49 .
  • Sirinivas , T. , Gupta , A.V.S.S.K.S. , Reddy , B.V. and Nag , P.K. 2006 . Parametric analysis of coal-based combined cycle power plant . International Journal of Energy Research , 30 : 9 – 36 .
  • Soufi , M.G. , Fujii , T. and Sugimoto , K. 2004 . A modern injected steam gas turbine cogeneration system based on exergy concept . International Journal of Energy Research , 28 : 1127 – 44 .
  • Sue , D.C. and Chuang , C.C. 2004 . Engineering design and exergy analyses for combustion gas turbine-based power generation system . Energy , 29 : 1183 – 1205 .
  • Ust , Y. , Sahin , B. and Kodal , A. 2007 . Optimization of a dual cycle cogeneration system based on a new exergetic performance criterion . Applied Energy , 84 : 1079 – 91 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.