本文利用三维燃烧模型对CNG发动机的燃烧过程进行数值模拟,研究过量空气系数的循环变动对CNG发动机火核形成和发展及燃烧各阶段的影响.研究结果显示,过量空气系数的变动对初始火核参数的影响非常小,对燃烧过程三个阶段的影响程度也不同.主燃烧阶段受过量空气系数的变动的影响最大,火核形成和发展阶段受过量空气系数的变动的影响很小.过量空气系数的变动不是火核形成和发展产生变动的主要原因.
参考文献
| [1] | Nir Ozdor;Mark Dulger;Eran Sher .Cyclic Variability in Spark Ignition Engines A Literature Survey[R].SAE Paper 940987,1994. |
| [2] | Sher E Ben-Ya'ish J;Kravchik T .[J].On the Birth of Spark Channl Combustion and Flame,1992,89:186-194. |
| [3] | Peter C Hinze;John B Heywood .A Model for Flame Initiation and Early Development in SI Engine and its Application to Cycle-to-Cycle Variations[R].SAE Paper 942049,1994. |
| [4] | Pischinger S;Heywood J B.A model for Flame Kernel Development in a Spark-Ignition Engine[A].,1990:1033-1040. |
| [5] | Y S Cho;D A Santavicca .The Effect of Incomplete Fuel-Air Mixing on Spark-Ignition Flame Kernel Growth[R].SAE Paper 932715,1993. |
| [6] | Cho Y S;Santavicca D A;Sonntag R M .The Effect of Spark Power on Spark-Ignited Flame Kernel Growth[R].SAE Paper 922168,1992. |
| [7] | P.G. Aleiferis;A.M.K.P. Taylor;J.H. Whitelaw .Cyclic Variations of Initial Flame Kernel Growth in a Honda VTEC-E Lean-Burn Spark-Ignition Engine[J].SAE transactions,2000(3):1340-1380. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%