[1] Shi Su and Jenny Agnew, "Catalytic combustion of coal mine ventilation air methane," Fuel, Vol. 85, pp. 1201-1210, 2006.
[2] G. Kelsall and M Cannon, "Combustion of low heating value gas in a gas turbine," Power Production from Biomass, Espoo, Finland, Vol. 2, March 1995.
[3] L. L. Smith, H. Karim, M. J. Castaldi, S. Etemad, and W. C. Pfefferle, "Rich-catalytic lean-burn combustion for fuel-flexible operation with ultra low emissions," Catalysis Today, Vol. 117, No. 4, pp. 438-446, 2006.
[4] Magnus Berg, E. Magnus Johansson, and Sven G. Jaras, "Catalytic combustion of low heating value gas mixtures: Comparison between laboratory and pilot scale tests," Catalysis Today, Vol. 59, No. 1-2, pp. 117-130, 2000.
[5] Susie Wood and Andrew T. Harris, "Porous burners for lean-burn applications," Progress in Energy and Combustion Science, Vol. 34, No. 5, pp. 667-684, 2008.
[6] J. J. Witton, E. Noordally, and J. M. Przybylski, "Clean catalytic combustion of low heat value fuels from gasification processes," Chemical Engineering Journal, Vol. 91, pp. 115-121, 2003.
[7] Magnus Berg, E. Magnus Johansson, and Sven G. Jaras, "Catalytic combustion of low heating value gas mixtures: Comparison between laboratory and pilot scale tests," Catalysis Today, Vol. 59, pp. 117-130, 2000.
[8] Piero Colonna and Paolo Silva, "Dense gas thermodynamic properties of single and multicomponent fluids for fluid dynamics simulations," Journal of Fluids Engineering, Vol. 125, No.3, pp. 414-427, 2003.
[9] Technology Reference, Capstone Model C30 Performance.
[10] H. S. Zhang, Y. W. Liu, M. Su, and S. L. Weng, "Simulation study on the speed regulation of gas turbine," Computer Simulation, Vol. 1, pp. 79-81, 2002.
[11] Zhang Huisheng, Weng Shilie, and Su Ming, "Dynamic modeling and simulation of distributed parameter heat exchanger," Processing of ME TUBRO EXPO, Nevada, GT2005-68293, 2005.
[12] Huisheng ZHANG, Shilie WENG, and Ming SU, "Evaluation of topping and bottoming cycle hybrid power plants with mcfc-micro turbine," ASME Paper GT2004-53397, 2004.
[13] Iskender G and Etienne Lebas, "Alternative fuels for industrial gas turbines (AFTUR)," Applied Thermal Engineering, Vol. 24, pp. 1655-1663, 2004.
[14] Belkacem Adouane, Peter Hoppesteyn, Wiebren de Jong, and Marco van der Wel, "Gas turbine combustor for biomass derived LCV gas, a first approach towards fuel-NOx modelling and experimental validation," Applied Thermal Engineering, Vol. 22, pp. 959-970, 2002.
[15] Greg Kelsall and Christian Troger, "Prediction and control of combustion instabilities in industrial gas turbines," Applied Thermal Engineering, Vol. 24, No. 2, pp. 1571-1582, 2004.
[16] KRISTER STAê HL and MAGNUS NEERGAARD, "IGCC power plant for biomass utilisation," Biomass and Bioenergy, Vaè Rnamo, Sweden, Vol. 15, No. 3, pp. 205-211, 1998.
[17] CHARLES E. NEILSON, "LM2500 gas turbine modifications for biomass fuel operation," Biomass and Bioenergy, Vol. 15, No. 3, pp. 269-273, 1998.
[18] Fabio Bozza, Maria Cristina Cameretti, and Raffaele Tuccillo. "Adapting the micro-gas turbine operation to variable thermal and electrical requirements," Transaction of the ASME, Vol. 127, pp. 514-524, 2005.
[19] Xi'an Jiaotong University Department of turbine compressor, "Centrifugal Compressor Principle," Machinery Industry Press, Beijing.
[20] Li Yansheng, "Centripetal turbine and centrifugal compressor," Machinery Industry Press.