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进气压力对汽油低温压燃的影响 被引量:5

Effects of the Intake Pressure on Gasoline Low Temperature Compression Ignition
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摘要 在一台装有电液可变气门的单缸柴油机上,通过改变进气压力,研究了不同喷油正时和内部废气再循环(EGR)率下汽油压燃的燃烧特性和排放特性,并对实现汽油燃料高效清洁稳定低温燃烧(如平均指示压力循环波动系数<5%,NOx排放低于0.4g/(kW·h),烟度低于0.1FSN,CO和HC排放尽可能低)的控制区间进行了探索研究。内部EGR通过排气门两次开启实现,发动机转速和循环喷油量分别固定为1 500r/min和28mg。研究结果表明,基于燃油早喷、较低内部EGR率和适量进气压力(0.12MPa)的协同控制可以使辛烷值为93的汽油在平均指示压力约为0.47MPa的工况下实现高效清洁燃烧。 The gasoline compression ignition combustion and emissions characteristics at different injection timings and internal exhaust gas recirculation (EGR) rates were investigated by changing thsingle-cylinder diesel engine equipped with a electrohydraulic variable valve actuator system. The control area for the gasoline engine to achieve high-efficient,clean and stable low temperature combustion (i. e., CO0. 4 g/(kW * h),Smoke〈0. 1 FSN,CO and HC as low as possible) was explored and discussed. The internal EGR was achieved by opening the exhaust valve twice during the intake process,where the engine speed andfuel injection were fixed at 1 500 r /min and 28 mg/cycle respectively. Results show that under the synergistic control of early fuel injection t imin g, low EGR rate and proper intake pressure (0. 12 MPa), the enginefueled by RON 93 gasoline can achieve high-efficient and clean combustion at the IM EP of about 0. 47 MPa.
作者 张翔宇 郑尊清 黄树和 李研芳 祝宇轩 尧命发
机构地区 中国北方发动机研究所 天津大学内燃机燃烧学国家重点实验室
出处 《内燃机工程》 EI CAS CSCD 北大核心 2018年第1期1-7,共7页 Chinese Internal Combustion Engine Engineering
基金 国家自然科学基金项目(51576138) 天津市人才发展特殊支持计划
关键词 汽油燃料 低温燃烧 压燃 进气压力 内部废气再循环 gasoline fuels low temperature combustion compression ignition intake pressure internal exhaust gas recirculation
分类号 TK427 [动力工程及工程热物理—动力机械及工程]
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  • 1Kalghatgi G T,Risberg P,Angstr6m H E. Advantages of fuels with high resistance to autoqgnition in Iat:injeetion, low-temperature, compression ignition eombustion[C]//SAE 2006 01-3385,2006.
  • 2Hanson R, Splitter D, Reitz R D. Operating a heavy-duty di rect injection compression-ignition engine with gasoline for low emissions[C]//SAE 2009-01-1442,2009.
  • 3Manente V, Zander C G, Johansson B, et al: An advanced in- ternal combustion engine concept for low emissions and high ef- ficiency from idle to max load using gasoline partially premixed combustion[C]//SAE2010-01-2198,2010.
  • 4Weall A, Collings N. Gasoline fuelled partially premixed compres- sion ignition in a light duty multi cylinder eagine: a study of low load and low speed operation[C] / / SAE 2009-01 - 1791,2009.
  • 5Zhang F, Xu H M, Zhang J. Investigation into light duty die- seline fuelled partially-premixed compression ignition engine [C]//SAE 2011-01-1411,2011.
  • 6Sellnau M, Sinnamon J, Hoyer K, et al. Gasoline direct injec- tion c6mpression ignition (GDCI)-diesel-like efficiency with low Co2 emissions[C]//SAE 2011-01-1386,2011.
  • 7Dec J E, Yang Y, Dronniou N. Boosted HCCI-controllingpressure-rise rates for performance improvements using partial fuel stratification with conventional gasoline[C]//SAE 2011- 01-0897,2011.
  • 8阳冬波,李东升,王志,王建昕.基于缸内直喷的甲醇汽油混合燃料HCCI燃烧排放特性研究[J].内燃机工程,2012,33(2):1-5. 被引量:8
  • 9肖干,张煜盛,郎静,姜光军.进气温度对汽油直喷压燃发动机燃烧及排放性能影响的试验[J].内燃机学报,2014,32(2):125-130. 被引量:22

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内燃机工程
2018年 第1期

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