论文信息 - Single-Surface Flame Quenching Distance Dependence on Wall Temperature, Quenching Geometry, and Turbulence - 字舞流文

Single-Surface Flame Quenching Distance Dependence on Wall Temperature, Quenching Geometry, and Turbulence

Patrick V. Farrell | David J. Cleary

[1] G. Woschni. A Universally Applicable Equation for the Instantaneous Heat Transfer Coefficient in the Internal Combustion Engine , 1967 .

[2] G. Lavoie,et al. LAMINAR HEAD-ON FLAME QUENCHING--A THEORETICAL STUDY (AUTOMOBILE ENGINE EMISSIONS) , 1978 .

[3] Gerhard Woschni,et al. Heat insulation of combustion chamber walls ― a measure to decrease the fuel consumption of I.C. engines? , 1987 .

[4] R. Blint,et al. Flame/Wall Interface: Theory and Experiment , 1982 .

[5] J. T. Agnew,et al. Quenching distances of propane-air flames in a constant-volume bomb , 1970 .

[6] B. Lewis,et al. Burning velocities, quenching, and stability data on nonturbulent flames of methane and propane with oxygen and nitrogen , 1948 .

[7] W. G. Gottenberg,et al. Flame quenching during high pressure, high turbulence combustion☆☆☆ , 1963 .

[8] Shoichi Furuhama,et al. Heat Transfer into Ceramic Combustion Chamber Wall of Internal Combustion Engines , 1986 .

[9] W. Mirsky,et al. An analysis of the mechanism of flame extinction by a cold wall , 1969 .

[10] A. D. Goolsby,et al. Flame-quench distance measurements in a CFR engine , 1976 .