Effect Of Initial Pressure Upon Laminar Burning Velocity Of Methane-AirMixtures

محتوى المقالة الرئيسي

محمد ناصر حميد

الملخص

The effect of the initial pressure upon the laminar flame speed, for a methane-air
mixtures, has been detected paractically, for a wide range of equivalence ratio.
In this work, a measurement system is designed in order to measure the laminar flame
speed using a constant volume method with a thermocouples technique. The laminar
burning velocity is measured, by using the density ratio method.
The comparison of the present work results and the previous ones show good
agreement between them. This indicates that the measurements and the calculations
employed in the present work are successful and precise.

تفاصيل المقالة

كيفية الاقتباس
"Effect Of Initial Pressure Upon Laminar Burning Velocity Of Methane-AirMixtures" (2010) مجلة الهندسة, 16(01), ص 867–876. doi:10.31026/j.eng.2010.01.04.
القسم
Articles

كيفية الاقتباس

"Effect Of Initial Pressure Upon Laminar Burning Velocity Of Methane-AirMixtures" (2010) مجلة الهندسة, 16(01), ص 867–876. doi:10.31026/j.eng.2010.01.04.

تواريخ المنشور

المراجع

 Al-Ani, K.F (1994), “Flame Temperature Estimation Of Conventional Internal Combustion Engines Fuels” MSc. Thesis, Department Of Mechanical Engineering, University Of Technology

 Al-Khishali, K. J. (1984), “Turbulent Flame Propagation And Quenching”, Ph.D. Thesis Dept Of Mechanical Engineering, University Of Leeds.

 Al-Shahrany & Bradley (2005), Proceedings of the Combustion Institute 30 , 225-232, (2005)

 Andrews .G.E. & Bradley, D 1972, Combustion And Flame, 19-275 (1972)

 Andrews .G.E. & Bradley, D 1973, Combustion And Flame, 20-77 (1973)

Barnard J.A. & Bradley J.N. (1985), Flame And Combustion,

 Chapman And Hall, London

 Arkan, F.S. (2000), “Effect of Initial Temperature on Flame Propagation Through Tube For (Methane, Propane, LPG and Butane)-Air Mixtures”,MSc. Thesis Department Of Mechanical Engineering, University Of Technology

 Bradley, D. , Hicks, R. A., (1998), Combustion And Flame115 P. 126-144 (1998)

 Egolfopoulos, F. N. & Law, C. K. (1989), Combustion And Flame, 76-375 (1989)

 Esam, M. M. Al-Salman (2002), “The Effect of Tube Diameter on the Laminar Flame Propagation of the Gaseous Hydrocarbons-Air Mixtures”, Ph.D. Thesis Department Of Mechanical Engineering, University Of Technology

 Gulder, O.L. (1983) , Combustion Science And Technology, 33- 179 (1983)

 Gunther, R. And Janisch (1972), Combustion And Flame, 19-49 (1972)

 Hamid M.N. (1986) “Fundamentals of Turbulent Burning Related to Gasoline Engines”, Ph.D. Thesis, Department of Mechanical Engineering, University of Leeds.

 KUO,K.K. (1986), “Principle Of Combustion”, New York, John Wiley And Sons (1986)

 Kwon, S., Tseng, K And Faeth G. M. (1992) , Combustion And Flame, 90-230 (1992)

 Saeed K. & Stone C. R. (2004), Combustion And Flame, 152-166, (2004)