西安交通大学学报
西安交通大學學報
서안교통대학학보
JOURNAL OF XI'AN JIAOTONG UNIVERSITY
2010年
5期
21-25
,共5页
宫长明%李骏%于秀敏%王忠%刘巽俊
宮長明%李駿%于秀敏%王忠%劉巽俊
궁장명%리준%우수민%왕충%류손준
点燃式发动机%液化石油气%冷起动
點燃式髮動機%液化石油氣%冷起動
점연식발동궤%액화석유기%랭기동
spark-ignition methanol engine%liquefied petroleum gas%cold start
基于单循环燃料喷射控制策略及冷起动,在一台125 mL单缸电控喷射点燃式发动机上,试验研究了LPG(液化石油气)与甲醇循环喷射量的质量比和LPG迟后甲醇喷射时刻对甲醇掺烧LPG发动机甲醛和未燃甲醇排放的影响.甲醇掺烧LPG发动机中LPG仅起辅助起动作用.试验结果表明:增大LPG与甲醇循环喷射量质量比可使甲醇掺烧LPG发动机着火性能改善,未燃甲醇排放减少,甲醛排放增多;合理控制LPG迟后甲醇喷射时刻可显著改善着火性能,减少未燃甲醇排放,而甲醛排放稍有增加;LPG迟后甲醇在曲轴转角为276°时(上止点前)喷射,缸内最大压力达4.46 MPa,未燃甲醇的体积分数减小到1 173×10~(-6).甲醇掺烧LPG发动机时起动工况的甲醛和未燃甲醇排放量随LPG与甲醇循环喷射量的质量比和LPG迟后甲醇喷射时刻的变化呈相反的变化趋势.
基于單循環燃料噴射控製策略及冷起動,在一檯125 mL單缸電控噴射點燃式髮動機上,試驗研究瞭LPG(液化石油氣)與甲醇循環噴射量的質量比和LPG遲後甲醇噴射時刻對甲醇摻燒LPG髮動機甲醛和未燃甲醇排放的影響.甲醇摻燒LPG髮動機中LPG僅起輔助起動作用.試驗結果錶明:增大LPG與甲醇循環噴射量質量比可使甲醇摻燒LPG髮動機著火性能改善,未燃甲醇排放減少,甲醛排放增多;閤理控製LPG遲後甲醇噴射時刻可顯著改善著火性能,減少未燃甲醇排放,而甲醛排放稍有增加;LPG遲後甲醇在麯軸轉角為276°時(上止點前)噴射,缸內最大壓力達4.46 MPa,未燃甲醇的體積分數減小到1 173×10~(-6).甲醇摻燒LPG髮動機時起動工況的甲醛和未燃甲醇排放量隨LPG與甲醇循環噴射量的質量比和LPG遲後甲醇噴射時刻的變化呈相反的變化趨勢.
기우단순배연료분사공제책략급랭기동,재일태125 mL단항전공분사점연식발동궤상,시험연구료LPG(액화석유기)여갑순순배분사량적질량비화LPG지후갑순분사시각대갑순참소LPG발동궤갑철화미연갑순배방적영향.갑순참소LPG발동궤중LPG부기보조기동작용.시험결과표명:증대LPG여갑순순배분사량질량비가사갑순참소LPG발동궤착화성능개선,미연갑순배방감소,갑철배방증다;합리공제LPG지후갑순분사시각가현저개선착화성능,감소미연갑순배방,이갑철배방초유증가;LPG지후갑순재곡축전각위276°시(상지점전)분사,항내최대압력체4.46 MPa,미연갑순적체적분수감소도1 173×10~(-6).갑순참소LPG발동궤시기동공황적갑철화미연갑순배방량수LPG여갑순순배분사량적질량비화LPG지후갑순분사시각적변화정상반적변화추세.
The effects of the mass ratio of injected liquefied petroleum gas(LPG) to methanol and the LPG injection timing delay relative to the methanol injection timing on the formaldehyde and the unburned methanol emissions of a methanol blended with LPG engine during cold start were experimentally investigated using the single-cycle methanol injection strategy on an engine with fuel injection spark-ignition controlled electronically. The LPG offers only a function of supplementing start in methanol blended with LPG engines. The results show that the increase of the mass ratio of injected LPG to methanol improved firing performance of the methanol blended with LPG engine and reduced the unburned methanol emission. Optimal control of the LPG injection timing delay improved firing performance and reduced the unburned methanol emission significantly, and increased the formaldehyde emission slightly. At 276° of the LPG injection timing delay, the maximum pressure in cylinder reached 4. 46 MPa and the unburned methanol emission decreased tp 1173×10~(-6). The emissions of formaldehyde and unburned methanol of the methanol blended with LPG engine during cold start varied inversely with the mass ratio of injected LPG to methanol and the LPG injection timing delay.