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内部EGR及增压拓展柴油HCCI燃烧负荷范围试验研究 被引量:4

Experimental Investigation on Extending Load Range of Diesel HCCI Engine by Internal EGR and Boost
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摘要 在135单缸柴油机上对比了传统燃烧模式和HCCI燃烧模式的负荷特性,优化了HCCI燃烧模式的喷油始点,分析了内部EGR率及增压压力对HCCI燃烧负荷范围及排放的影响。试验结果表明:对于负气门重叠期喷油的HCCI燃烧模式,1 500r/min下,最佳喷油始点为370°BTDC,气门重叠期为-30°时既保证了较低的NOx排放,又可以获得较佳的负荷范围;提高增压压力不仅可以拓展HCCI燃烧的负荷上限,对负荷下限的燃烧稳定性也有利;将增压压力提高到0.18MPa时,负荷上限从传统燃烧的0.594MPa上升到0.723MPa,但负荷下限较传统燃烧模式要高,CO排放、烟度和燃油经济性都较差。 On a single cylinder diesel engine,the load characteristics between traditional combustion and HCCI combustion were compared,the injection timing of HCCI was optimized and the influences of internal EGR rate and boost pressure on HCCI combustion load range and emissions were analyzed.The results show that the best injection timing of HCCI mode with the negative valve overlap at 1 500 r/min is 370°BTDC.The-30° valve overlap can guarantee lower NOx emission and better load range.The increase of boost pressure extends the upper load limit of HCCI combustion and is beneficial to the combustion stability of lower load limit.Improving the boost pressure on 0.18 MPa,the upper load limit increases from 0.594 MPa to 0.723 MPa,but lower load limit also increases,which gives worse CO emission,smoke and fuel economy.
作者 桂勇 孙佑成 徐敏 邓康耀 石磊
机构地区 上海交通大学动力机械与工程教育部重点实验室
出处 《车用发动机》 北大核心 2012年第2期35-40,共6页 Vehicle Engine
基金 国家自然科学基金项目(51106098) 国家重点基础研究发展规划资助项目(2007CB210003)
关键词 均质压燃 废气再循环 增压 负荷拓展 HCCI EGR boost load extending
分类号 TK421.2 [动力工程及工程热物理—动力机械及工程]
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参考文献7

  • 1Lei Shi,Kang-yao Deng,Yi Cui.Study of Diesel-fu-eled HCCI Combustion By in-cylinder Early Fuel Injec-tion and Negative Valve Overlap[J].Journal of Auto-mobile Engineering,Proceedings of the IMechE PartD,2005,219(10):1193-1201.
  • 2桂勇,邓康耀,石磊.排气正时与增压对柴油HCCI燃烧影响的试验研究[J].内燃机学报,2008,26(5):385-391. 被引量:4
  • 3徐帆,王志,阳东波,王建昕.进气增压拓展汽油HCCI发动机高负荷的试验研究[J].内燃机工程,2009,30(1):10-14. 被引量:5
  • 4Mingfa Yao,Haifeng Liu,Bo Zhang,et al.The Influ-ence of Boost Pressure and Fuel Chemistry on Combus-tion and Performance of a HCCI Engine[C].SAE Pa-per 2008-01-0051.
  • 5Sangwook Han,Euijoon Shim,Jinyoung Jang,et al.Operating Range of Low Temperature CIesel Combus-tion with Supercharging[C].SAE Paper 2009-01-1440.
  • 6Sotirios Mamalis,Vishnu Nair,Peter Andruskiewicz,etal.Comparison of CIfferent Boosting Strategies forHomogeneous Charge Compression Ignition Engines-AModeling Study[C].SAE Paper 2010-01-0571.
  • 7AndréKulzer,David Lejsek,Tobias Nier Robert BoschGmb H.A Thermodynamic Study on Boosted HCCI:Motivation,Analysis and Potential[C].SAE Paper2010-01-1082.

二级参考文献20

  • 1石磊,邓康耀,王宇宾,崔毅,何方正.进气上止点燃油喷射实现柴油HCCI燃烧的试验研究[J].燃烧科学与技术,2005,11(2):175-178. 被引量:8
  • 2石磊,邓康耀,崔毅,刘宇,何方正.气门正时对柴油燃料HCCI燃烧影响的初步实验研究[J].燃烧科学与技术,2005,11(4):365-368. 被引量:2
  • 3谢辉,赵华,朱红国,杨林,何邦全.进排气门相位和升程对汽油机HCCI燃烧控制的试验研究[J].内燃机学报,2006,24(1):22-27. 被引量:7
  • 4Fritz D. GM moves closer to market with HCCI[J]. Automotive Engineering International, 2007 (2) : 22-24.
  • 5Tian G H, Wang Z, Wang J X, et al. HCCI combustion control by iniection strategy with negative valve overlap in a GDI engine[C]. SAE 2006-01-0415.
  • 6Kulzer A, Christ A, Rauscher M, et al. Thermodynamic analysis and bechanmark of various combustion concepts[C]. SAE 2006-01-0231.
  • 7Fuerhapter A, Unger E, Piock W F, et al. The new AVL CSI engine-HCCI operation on a multieylinder gasoline engine[C]. SAE 2004-01-0551.
  • 8Tian G H, Wang Z, Wang J X. Mode switch of SI-HCCI combustion on a GDI engine[C]. SAE 2007-01-0195.
  • 9Xie H, Zhang Y, Zhou N H, et al. The study of SI-HCCI-SI transition on a port fuel injection engine equipped with 4VVAS [C]. SAE 2007-01-0199.
  • 10Christensen M, Johansson B, Amneus P, et al. Supercharged homogeneous eharge compression ignition[C]. SAE 980787.

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车用发动机
2012年 第2期

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