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Experimental investigation on performance and heat release analysis of a pilot ignited direct injection natural gas engine

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  • Li, Menghan
  • Zhang, Qiang
  • Li, Guoxiang
  • Shao, Sidong

Abstract

Pilot ignited direct injection natural gas engines undertake significant advantages over conventional diesel engine with specific combustion mode. In this paper, extensive experiments have been carried out to provide further understanding of performance and heat release rate under different operating conditions. Through the experimental investigations and detailed analysis, it is demonstrated that shortened injection interval and diesel injection pulse width as well as increased injection pressure lead to an increase in maximum in-cylinder pressure and deteriorated combustion noise. The maximum heat release rate is raised by retarding injection timing, reducing injection interval, shortening diesel injection pulse width and increasing injection pressure. The stability of combustion shows uncertain trends with the variation of injection timing and pilot diesel injection quantity, while can be generally improved by the adoption of shorter injection interval and lower injection pressure. It is also revealed that fuel economy can benefit from the application of advanced injection timing, smaller diesel injection pulse width, shorter injection interval and higher injection pressure.

Suggested Citation

  • Li, Menghan & Zhang, Qiang & Li, Guoxiang & Shao, Sidong, 2015. "Experimental investigation on performance and heat release analysis of a pilot ignited direct injection natural gas engine," Energy, Elsevier, vol. 90(P2), pages 1251-1260.
    • Handle: RePEc:eee:energy:v:90:y:2015:i:p2:p:1251-1260
    DOI: 10.1016/j.energy.2015.06.089
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    References listed on IDEAS

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    Cited by:

    1. Li, Menghan & Wu, Hanming & Zhang, Tiechen & Shen, Boxiong & Zhang, Qiang & Li, Zhenguo, 2020. "A comprehensive review of pilot ignited high pressure direct injection natural gas engines: Factors affecting combustion, emissions and performance," Renewable and Sustainable Energy Reviews, Elsevier, vol. 119(C).
    2. Abu-Jrai, Ahmad M. & Al-Muhtaseb, Ala'a H. & Hasan, Ahmad O., 2017. "Combustion, performance, and selective catalytic reduction of NOx for a diesel engine operated with combined tri fuel (H2, CH4, and conventional diesel)," Energy, Elsevier, vol. 119(C), pages 901-910.
    3. Wang, Zhongshu & Chen, Wenjing & Wang, Dan & Tan, Manzhi & Liu, Zhongchang & Dou, Huili, 2016. "A novel combustion evaluation method based on in-cylinder pressure traces for diesel/natural gas dual fuel engines," Energy, Elsevier, vol. 115(P1), pages 1130-1137.
    4. Lei, Yan & Li, Yong & Qiu, Tao & Li, Yunqiang & Wang, Yupeng & Zhang, Chengguo & Liu, Jiaxing & Ding, Mengzhu & Liu, Xianwu & Peng, Guangyu, 2021. "Effects of high-pressure methane jet on premixed ignited flame in constant-volume bomb," Energy, Elsevier, vol. 220(C).
    5. Li, Menghan & Wei, Zhangning & Liu, Xiaori & Wang, Xiaoyan & Zhang, Qiang & Li, Zhenguo, 2021. "A numerical investigation on the effects of gaseous fuel composition in a pilot ignited direct injection natural gas engine," Energy, Elsevier, vol. 217(C).
    6. Wei, Wenwen & Li, Gesheng & Zhang, Zunhua & Long, Yanxiang & Zhang, Hanyuyang & Huang, Yong & Zhou, Mengni & Wei, Yi, 2023. "Effects of ammonia addition on the performance and emissions for a spark-ignition marine natural gas engine," Energy, Elsevier, vol. 272(C).

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