[1]刘亚龙,毋波,邬斌扬,等.柴油微引燃天然气中高负荷QHCCI燃烧试验[J].内燃机学报,2022,(06):481-488.
 Liu Yalong,Wu Bo,Wu Binyang,et al.Experimental of Mid-Load and High-Load QHCCI Combustion of a Natural Gas Engine with Diesel Micro-Ignition[J].,2022,(06):481-488.
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柴油微引燃天然气中高负荷QHCCI燃烧试验
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《内燃机学报》[ISSN:1006-6977/CN:61-1281/TN]

卷:
期数:
2022年06
页码:
481-488
栏目:
出版日期:
2022-11-25

文章信息/Info

Title:
Experimental of Mid-Load and High-Load QHCCI Combustion of a Natural Gas Engine with Diesel Micro-Ignition
作者:
刘亚龙毋波邬斌扬苏万华
天津大学 内燃机燃烧学国家重点实验室,天津 300350
Author(s):
Liu YalongWu BoWu BinyangSu Wanhua
State Key Laboratory of Engines,Tianjin University,Tianjin 300350,China
关键词:
天然气发动机柴油微引燃准均质充量压燃着火燃烧相位燃烧速率
Keywords:
natural gas enginediesel micro-ignitionquasi homogeneous charge compression ignitioncombustion phasecombustion rate
分类号:
TK423.2
文献标志码:
A
摘要:
柴油微引燃天然气发动机准均质充量压燃着火(QHCCI)燃烧具有低碳高效清洁运行的潜力.通过一台潍柴WP12改造的柴油微引燃天然气发动机,探究了EGR、进气门晚关(LIVC)、引燃柴油喷射定时和燃氧当量比fo在大、中负荷工况下对天然气QHCCI的影响.结果表明:大负荷下提高EGR率,有利于实现QHCCI向更高负荷拓展,但会降低缸内工质比热比,不利于总指示热效率(ITEg)提高;通过LIVC技术,降低有效压缩比,避免粗爆燃烧,也有利于QHCCI向大负荷拓展.通过采用LIVC技术结合低EGR率的技术可使QHCCI在大负荷下高效燃烧,经优化后,在低转速、大负荷工况、pin=0.30MPa、fo=0.79、EGR率为15%、引燃柴油喷射能量为3%和引燃柴油喷射定时为-3°CA ATDC的条件下,ITEg达到47.50%.中等负荷下,通过引燃柴油喷射定时与fo的协同控制可对燃烧相位和燃烧速率进行优化,最后在pin=0.18MPa、fo=0.50、EGR率为0%、引燃柴油喷射能量为5%且引燃柴油喷射定时为-10°CA ATDC的条件下,ITEg达到49.79%.
Abstract:
Quasi homogeneous charge compression ignition(QHCCI)combustion of natural gas engine with the diesel micro-ignition has the potential for low-carbon,efficient and clean operation. The influence of exhaust gas recirculation(EGR),late intake valve closure(LIVC),pilot diesel injection timing and fuel oxygen equivalent ratio fo on the QHCCI combustion process was experimentally explored on a diesel micro-ignition natural gas engine modified by a Weichai WP12 diesel engine under heavy and medium load conditions. The results show that increasing the EGR rate under heavy load is beneficial to realize an extension of QHCCI combustion to high load,but it will reduce the specific heat ratio of the working fluid,which is not conducive to the improvement of the gross indicated thermal efficiency(ITEg). Reducing the effective compression ratio through LIVC technique can avoid knocking combustion and also conducive to the extension of QHCCI combustion to large loads. By using LIVC combined with low EGR rate,the QHCCI combustion can be efficiently achieved under heavy load. After optimization,the ITEg reaches 47.50% at a low speed and heavy load operation point,pin=0.30MPa,fo=0.79,the EGR rate of 15%,the pilot diesel injection energy of 3% and pilot diesel injection timing of -3°CA ATDC. For medium load operation,the combustion phase and combustion rate can be optimized through coordinated control of pilot diesel injection timing and fo. As a result,the ITEg reaches 49.79% at pin=0.18MPa,fo=0.50,the EGR rate of 0%,the pilot diesel injection energy of 5% and the pilot diesel injection timing of -10°CA ATDC.

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更新日期/Last Update: 2022-11-25