Possibilities of using a molten carbonate fuel cell for reduction of CO2 emission of gas turbine power plant

• Autorzy: Milewski J. , Lewandowski J. , Miller A.
• Konferencja: 8 Konferencja. Problemy Badawcze Energetyki Cieplnej. PBEC/sympozjum (VIII ; 11-14.12.2007 ; Warszawa, Polska)
• Języki publikacji: EN

Abstrakty

EN

The possibility of using a Molten Carbonate Fuel Cell (MCFC) to reduce the CO2 emission from Gas Turbine Power Plant (GTPP) is shown. The MCFC is placed after a gas turbine. The main advantages of this solution are: higher total electric power generated by hybrid system and reduced CO2 emission with remained system efficiency. A comparison of three systems: standard GTPP, GT-MCFC, and GT-MCFC with additional heat exchangers is shown. The application of MCFC could reduce CO2 emission of 73% (absolutely) and 77% relative to produced power.

Słowa kluczowe

EN

gas turbines; power plants

PL

turbiny gazowe; elektrownie; emisja zanieczyszczeń

• Wydawca: Oficyna Wydawnicza Politechniki Warszawskiej
• Czasopismo: Prace Naukowe Politechniki Warszawskiej. Konferencje
• Rocznik: 2007
• Tom: T. 1, z. 25
• Strony: 367--377
• Opis fizyczny: Bibliogr. 12 poz., rys., tab., wykr.

Twórcy

autor

Milewski J.

autor

Lewandowski J.

autor

Miller A.

• Instytut Techniki Cieplnej, Wydział Mechaniczny Energetyki i Lotnictwa Politechniki Warszawskiej, 00-665 Warszawa, ul. Nowowiejska 25

Bibliografia

• 1 Gottlicher G., Pruschek R.; "Comparison of CO2 removal systems for fossil - fuelled Power plant process"; Energy Convers. Mgmt 38; 1997
• 2 Campanari S.; "Carbon dioxide separation from high temperature fuel cell power plants"; Journal of Power Sources 112 (2002) 273-289
• 3 Amorelli A., Wilkinson M.B., Bedont P., Capobianco P., Marcenaro B., Parodi F., Torazza A.; "An experimental investigation into the use of molton carbonate fuel cells to capture CO2 from gas turbine exhaust gases"; Energy 29 (2004) 1279-1284
• 4 Lusardi M., Bosio B., Arato E.; "An example of innovative application in fuel cell system development: CO2 segregation using Molten Carbonate Fuel Cells"; Journal of Power Sources 131 (2004) 351-360
• 5 Sugiura K., Takei K., Tanimoto K., Miyazaki Y.; "The carbon dioxide concentrator by using MCFC"; Journal of Power Sources 118 (2003) 218-227
• 6 Evan J. Granite T, O’Brien T.; "Review of novel methods for carbon dioxide separation from flue and fuel gases"; Fuel Processing Technology 86 (2005) 1423-1434
• 7 Granser D., Rocca F.; "New High-Efficiency 70MW Heavy-Duty Gas Turbine"; Power-Gen, 1996, New Delhi, India
• 8 Milewski J., Miller A.; "Influences of The Type and Thickness of Electrolyte on Solid Oxide Fuel Cell Hybrid System Performance"; Journal of Fuel Cell Science and Technology; November 2006, Volume 3, Issue 4, pp. 396-402
• 9 Arato E., Bosio B., Costa P., Parodi F.; "Preliminary experimental and theoretical analysis of limit performance of molten carbonate fuel cells"; Journal of Power Sources 102 (2001) 74-81
• 10 Hyprotech Corporation, HYSYS.Plant 2.1. user guide
• 11 Morita H., Komoda M., Mugikura Y., Izaki Y., Watanabe T., Maruda Y., Matsuyama T.; "Performance analysis of molten carbonate fuel cell using a Li/Na electrolyte"; Journal of Power Sources 112 (2002) 509-518
• 12 Van herle J., Marechal F., Leuenberger S., Membrez Y., Bucheli O., Favrat D., "Process flow model of solid oxide fuel cell system supplied with sewage biogas", J. Pow. Sour., 131, 127, 2004