Analysis and Numerical Simulation about the Influence of the Flux Ratio of Methane and Air on Combustion


Article Preview



Edited by:

Fei Hu and Beibei Wang




W. Y. Cao et al., "Analysis and Numerical Simulation about the Influence of the Flux Ratio of Methane and Air on Combustion", Advanced Materials Research, Vol. 279, pp. 239-246, 2011

Online since:

July 2011




[1] Zemin Jiang: Reflections on China's energy issues. Journal of Shanghai Jiaotong University, 42, 3(2008), pp.345-359.

[2] Zhizong Gao: Reaction mechanism of combustion of hydrocarbon. Journal of Liaoning university (natural sciences edition), 29, 3(2002), pp.266-271.

[3] Yujiao Liao, Hanpin Huang and An Fu: Physics. Higher Education Press, Beijing, (1994).

[4] Zhizong Gao: Discussion of flame temperature of combustion. Journal of Liaocheng Teachers University (natural science edition), 14, 1(2001), pp.57-60.

[5] Information on http: /www. me. berkeley. edu/gri_mech.

[6] Coppens, E.H. V, De Ruyek, J. and Konnov, A. A: The effects of composition on burning velocity and nitric oxide formation in laminar premixed flames of CH4+H2+02+N2. Combustion and Flame, 149, 4(2007), pp.409-417.


[7] Konnov, A. A: Detailed reaction mechanism for small hydrocarbons combustion. Release 0. 5. (2000).

[8] Li, S.C. and Williams, E. A: NOx formation in two-stage methane-air flames. Combustion and Flame, 118, 3(1999), pp.399-414.


[9] Hasegawa T, Tanaka R and Niioka T: High temperature air combustion contributing to energy saving and pollutant reduction in industrial furnace. The Federation of Engineering Societies of China Association for Science and Technology, 35, 2(1999).

[10] Hongjun Zhu, Yuanhua Lin and Longhan Xie: Practical course of fluid analysis and simulation of software Fluent. China Press of Posts and Telecommunications, Beijing, (2010).

[11] Yuan J, Naruse I: Modeling of combustion characteristics and NOx emission in highly preheated and diluted air combustion. International Journal of Energy Research, 22(1998), pp.1217-1234.