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甲醇汽油发动机燃烧及其醇醛排放特性的研究 被引量:13

A Study on the Combustion and Methanol and Formaldehyde Emission Characteristics of Methanol Gasoline Engine
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摘要 在一台排放达到国Ⅲ标准的直列四缸进气道喷射汽油机上,分别燃用汽油、M15、M50甲醇汽油3种燃油,采用欧洲测试循环中的城市道路工况和高速公路工况循环,对3种燃料的燃烧特性、醇醛排放和燃油经济性进行了测试。结果表明:最大爆发压力随着掺醇量的增加而增大,且出现的曲轴转角位置提前。掺醇汽油的最大放热率比纯汽油的高,主燃期缩短,循环变动率降低。未燃甲醇和甲醛排放随掺醇比例的增大而增加,随负荷的增大先增加后降低,经催化转化器催化后排放几乎为零。M15和M50的当量燃油消耗率在中高负荷下比汽油低,特别在高速大负荷条件下最大降幅达9.0%。 The combustion characteristics, the emissions of methanol and formaldehyde, and the fuel economy are tested of an in-line 4-cylinder port-injection gasoline engine, meeting State-III emission standard, fueled with gasoline, M15 and M50 methanol/gasoline blends respectively with urban road and highway cycles of European test cycles. The results show that with the increase in methanol content, the peak cylinder pressure rises with an earlier relevant crank angle. Compared with pure gasoline, the methanol/gasoline blend has a higher peak heat release rate, a shorter main combustion period and a low cycle variation rate. The emissions of unburnt methanol and formaldehyde rise with the increase in methanol proportion, and they go up first and then fall down when the load increase and almost become null after catalyzed by TWC. The equivalent specific fuel consumption of blend fuels is lower than that of gasoline at medium and high load with its maximum reduction amplitude reaching 9 % at high speed high load condition.
作者 姚春德 曾丽丽 耿鹏 李旭聪 王姝荔
机构地区 天津大学
出处 《汽车工程》 EI CSCD 北大核心 2014年第6期657-662,共6页 Automotive Engineering
基金 国家自然科学基金(51176135) 科技部863课题(2012AA111719)资助
关键词 甲醇汽油发动机 燃烧特性 醇醛排放 燃油经济性 methanol gasoline engine combustion characteristics methanol and formaldehyde emis-sions fuel economy
分类号 U464.17 [机械工程—车辆工程] U467.48 [机械工程—车辆工程]
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汽车工程
2014年 第6期

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