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燃油添加剂改善HCCI发动机着火性能的试验研究

纪常伟, 何洪, 李超, 梁晨, 张月红, 马重芳

纪常伟, 何洪, 李超, 梁晨, 张月红, 马重芳. 燃油添加剂改善HCCI发动机着火性能的试验研究[J]. 北京工业大学学报, 2005, 31(6): 604-607.
引用本文: 纪常伟, 何洪, 李超, 梁晨, 张月红, 马重芳. 燃油添加剂改善HCCI发动机着火性能的试验研究[J]. 北京工业大学学报, 2005, 31(6): 604-607.
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JI Chang-wei, HE Hong, LI Chao, LIANG Chen, ZHANG Yue-hong, MA Chong-fang. Experimental Study on the Improvement of Ignition Characteristics of a HCCI Engine by Fuel Additives[J]. Journal of Beijing University of Technology, 2005, 31(6): 604-607.
Citation: JI Chang-wei, HE Hong, LI Chao, LIANG Chen, ZHANG Yue-hong, MA Chong-fang. Experimental Study on the Improvement of Ignition Characteristics of a HCCI Engine by Fuel Additives[J]. Journal of Beijing University of Technology, 2005, 31(6): 604-607.
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燃油添加剂改善HCCI发动机着火性能的试验研究

  • 北京工业大学 环境与能源工程学院, 北京 100022

基金项目: 

国家“九七三”计划资助项目(2001CB209201).

详细信息
    作者简介:

    纪常伟(1965-),男,黑龙江克山人,教授.

  • 中图分类号: U473.5

Experimental Study on the Improvement of Ignition Characteristics of a HCCI Engine by Fuel Additives

  • College of Environmental and Energy Engineering, Beijing University of Technology, Beijing 100022, China

摘要

    摘要
  • 摘要: 针对均质预混合压燃着火(HCCI)发动机低负荷易失火的问题,通过在参考燃料(90%的正庚烷和10%的异辛烷)和93号汽油中分别加入适量的着火改进剂过氧化苯甲酸淑丁脂,在HCCI发动机台架上进行燃烧试验.试验结果表明,在参考燃料中添加质量分数为0.3%~1.2%的过氧化苯甲酸叔丁脂后,与参考燃料相比,低负荷界限拓宽了15%-28%,而高负荷界限却降低了0.5%-7%,表明添加剂在拓宽低负荷的同时使高负荷范围下降.93号汽油添加适量的过氧化苯甲酸叔丁酯能够实现HCCI稳定燃烧,而未加添加剂的汽油则不能燃烧.
    Abstract: For the problem of misfire of the HCCI engine at low load, the engine test is carried out by mixing proper ignition improver (C6H5CO-O-O-C(CH3)3) with the reference fuel (90% iso-octane + 10% n-heptane) and the RON 93 gasoline respectively. After mixing C6H5CO-O-O-C(CH3)3 of 0.3%~1.2% in mass fraction, compared with the reference fuel result, the engine operation range is enlarged by 15%~28% at low load and reduced by 0.5%~0.7% at high load. It shows that additives can increase operational range of engine at low load, while decrease it at high load at the same time. When proper additive is mixed with RON 93 gasoline, stable HCCl combustion can be obtained, but the gasoline cannot burn without additives.
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    • 参考文献(7)
  • [1]

    EPPING K,ACEVESS.The potential of HCCI combustion for high efficiency and low emissions[J].SAE Paper,2002-01-1923.
    [2]

    DIBBLE R,AU M,GIRARD J.Current research in HCCI combustion at UC berkeley and LLNL[J].SAE Paper,2001-01-2511.
    [3]

    YANG Jia-Jin,CULP T,KENNEY T.Development of a gasoline engine system using HCCI technology-The concept and the test results[J].SAE Paper,2002-01-2832.
    [4]

    OSBORNE R J,LI G,SAPSFORD S M,et al.Evaluation of HCCI for future gasoline powertrains[J].SAE Paper,2003-01-0750.
    [5]

    TANAKA S,AYALA F,KECK J C,et al.Two-stage ignition in HCCI combustion and HCCI control by fuels and additives[J]. Combustion and Flame,2003,132:219-239.
    [6]

    PENG Zhi-jun,ZHAO Hua,LADOMMATOS N.Effects of air/fuel ratios and EGR rates on HCCI combustion of n-heptane:A diesel type fuel[J].SAE Paper,2003-01-0747.
    [7] 布拉特柯夫A A.发动机化学理论基础[M].北京:烃加工出版社,1990. BRUTUV A A.The Basics of Engine Chemistry[M].Beijing:Hydrocarbon Processing Press,1990.(in Chinese)
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出版历程
  • 收稿日期:  2004-05-27
  • 网络出版日期:  2022-11-21

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