Operation analysis of gas turbine set after the change of fuel composition

• Autorzy: Chmielniak T. J. , Łukowicz H.
• Języki publikacji: EN

Abstrakty

EN

A calculation algorithm of recovery gas turbine set for variable gas fuel composition has been presented. The change of physical properties of combustion flue gases was taken into account in flow capacity equations that describe the changed operation conditions of an expander. A relationship describing the change of recovery rate of counter-flow recovery exchanger in function of temperature as well as air and combustion flue gases fluxes. On the basis of the algorithm developed the calculations were made of the set (i.e. the set designed to burn the methane) fed with biogas of various calorific values. Conclusions have been drawn as an effect of calculations results analysis.

Słowa kluczowe

EN

gas turbine; various operation conditions; regenerator; biogas

• Wydawca: Wydawnictwo Instytutu Maszyn Przepływowych PAN
• Czasopismo: Transactions of the Institute of Fluid-Flow Machinery
• Rocznik: 2007
• Tom: nr 120
• Strony: 71--94
• Opis fizyczny: Bibliogr. 15 poz., rys., tab.

Twórcy

autor

Chmielniak T. J.

autor

Łukowicz H.

• Institute of Machines and Power Devices, Technical University of Silesia, ul. Konarskiego 18, 44-100 Gliwice, Poland,

Bibliografia

• [1] Molier M.: Benefiting from the wide fuel capability of gas turbines: a review of application opportunities, ASME Paper GT-2002-30017.
• [2] Hasegawa T., Sato M., Nakata T.: A study of combustion characteristics of gasified coal fuel, Trans, of the ASME, J. of Eng for Gas Turbines and Power, Vol. 123, January 2001.
• [3] Huth H., Heilos A., Gaio G., Karg J.: Operation experiments of Siemens IGCC gas turbines using gasification products from coal and refinery residies, ASME Paper 2000-GT-0026, 2000.
• [4] Bonzani F., Gobbo P.: Development of a heavy duty GT systems burner for IGCC power plant in order to enlarge the GT operating condition, ASME Paper GT 2006 - 90760, 2006.
• [5] Andreini A., et.all.: Fuel Flexibility test compaign on a GE 10 gas turbine. Experimental and numerical results, ASME Paper GT 2006 - 90510, 2006.
• [6] Flores R.M., Miyasato M.M., McDonell U.G.: Response of a model gas turbine combustor to variation in gaseous fuel composition, ASME Paper 2000- GT-0141, 2000.
• [7] Lupandin V., Nikolayev A., Thamburaj R.: Test results of the OGT 2500 gas turbine engine running on alternative fuels: biooil, biodiesel and crude oil, ASME Paper GT 2005 - 68488, 2005.
• [8] Chiesa P., Lozza G., Mazzocchi L.: Using hydrogen as gas turbine fuel, ASME Paper GT 2003-38205, 2003.
• [9] Gambini M., Vellini M.: Performance optimization of advanced H2/Air Cycle Power Plants based on natural gas partial oxialation, ASME Paper GT 2006 90871.
• [10] Therkelsen P., Mauzey J., McDonell V., Samuelsen S.: Evaluation of a low emission gas turbine operated on hydrogen, ASME Paper GT 2006 - 90725.
• [11] Vascellari M., Cocco O., Cau G.: Comparative analysis of hydrogen combustion power plants integrated with coal gasification and CO2 removal, ASME Paper GT 2006 - 90653.
• [12] Moliere M., Pommel F.,: Alternative fuels in gas turbine application: A simple method for assessing the influence of fuel on performances, ASME Paper 2000-GT-0138, 2000.
• [13] Chmielniak T., Rusin A., Czwiertnia K.: Gas Turbines, Ossolineum, Wrocław, Warszawa, Kraków, 2001, (in Polish).
• [14] Sznjee J. 1., Hajnowskij J. S.: Gas Turbines, Wiszcza Szkoła, Kiev, 1977. Part 2 (in Russian).
• [15] Bridgwater A.V. : Biomass gasification for power generation, Fuel 1995, Vol. 74, No. 5.