期刊文献+

Flame development characteristics at variable swirl level inductions in a stratified CNG direct injection combustion engine

Flame development characteristics at variable swirl level inductions in a stratified CNG direct injection combustion engine
下载PDF
导出
摘要 The study of flame development characteristics is crucial in the study of flame propagation, extinction, and for the investigation of combustion cyclic variability in SI engine. The aim of this study is to investigate the characteristics of flame development in a lean-stratified combustion of Natural Gas Engine (CNG) in a single cylinder direct injection (DI) engine at a specific motor speed, and fixed injection timing and air-fuel ratio by varying only the swirl level at the intake. The engine was set to run at 1800 rpm with half-load throttled. The ignition advance was set at 21.5 BTDC, and to create an overall lean and stratified mixture, injection timing was set at 61 BTDC with an air-fuel-ratio of 40.5 (λ=2.35). Variable turbulent flow conditions near spark-plug were created by positioning the swirl control valves (SCV) at the intake port just before the two intake valves. This was done by setting one of the valves at full open position and the other one at 0% closed, 50% closed and 100% closed positions in order to achieve medium tumble (no swirl), medium swirl and high swirl flows in the cylinder, respectively. An endoscope and CCD camera assembly was utilized to capture the flame images from the tumble plane at the intake side of the engine ever), 2 CA degrees after ignition timing (AIT) for 40 CAs. It was observed that flame growth rate and flame convection velocity are increasing with increasing the swirl level. The total combustion duration is, thus, shorter in swirl induced combustion than without. However, COV in IMEP is greater in swirl induced flow cases than the medium tumble.
出处 《Journal of Energy and Power Engineering》 2009年第12期1-9,52,共10页 能源与动力工程(美国大卫英文)
关键词 flame development: swirl flow: tumble flow image processing 喷射燃烧 水平分层 可变涡流 天然气 引擎 火焰 归纳
  • 相关文献

参考文献9

  • 1Cho Y. S., Santavicca D. A., Sonntag R. M. The effect of spark power on spark ignited flame kernel growth. SAE Paper, 1992, 922168.
  • 2Aleiferis P.G., Taylor A.M.K.P., Whitelaw J. H. Cyclic variations of initial flame kernel growth in a Honda VTEC-E lean-burn spark-ignition engine. SAE 2000, 1: 1207.
  • 3Aleiferis P.G., Taylor A.M.K.P., Ishii K., Urata Y. The nature of early flame development in a lean-bum stratified-charge spark-ignition engine. Combustion and Flame, 2004, (136): 283-302.
  • 4Willems H., Sierens R. Modeling the initial growth of the plasma and flame kernel in S.I. engines. Journal of Eng. for Gas Turbines and Power, 2003, (125): 479-484.
  • 5HEYWOOD J. B. Internal combustion engine fundamentals. McGraw-Hill, USA, 1988: 326-406.
  • 6T1NG D. S., Checkel M. D., Johansson B. The importance of high-frequency, small-eddy turbulence in spark ignited, premixed engine combustion. SAE Paper, 1995, 952409.
  • 7XIONG Y., Roberts W. L., Drake M. C.. Fansler T. D. Investigation of pre-mixed flame-kernel/vortex interactions via high-speed imaging. Combustion and Flame, 2001 (126): 1827-1844.
  • 8ZHAO F., Harrington D. L., LAI M. C. Automotive gasoline direct-injection engines. Society of Automotive Engineers, USA, 2002.
  • 9Josefsson G., Fischer J., Magnusson I, Length scale measurements in an engine using PIV and comparison with LDV. The 5^th Inter. Sym. on Diag. & Mod of Comb. in IC Engines (COMOD1A 2001): 653-660.

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部