Experimental study of stratified lean burn characteristics on a dual injection gasoline engine

IF 3.1 4区 工程技术 Q3 ENERGY & FUELS Frontiers in Energy Pub Date : 2022-12-31 DOI:10.1007/s11708-021-0812-6
Chun Xia, Tingyu Zhao, Junhua Fang, Lei Zhu, Zhen Huang
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引用次数: 3

Abstract

Due to increasingly stringent fuel consumption and emission regulation, improving thermal efficiency and reducing particulate matter emissions are two main issues for next generation gasoline engine. Lean burn mode could greatly reduce pumping loss and decrease the fuel consumption of gasoline engines, although the burning rate is decreased by higher diluted intake air. In this study, dual injection stratified combustion mode is used to accelerate the burning rate of lean burn by increasing the fuel concentration near the spark plug. The effects of engine control parameters such as the excess air coefficient (Lambda), direct injection (DI) ratio, spark interval with DI, and DI timing on combustion, fuel consumption, gaseous emissions, and particulate emissions of a dual injection gasoline engine are studied. It is shown that the lean burn limit can be extended to Lambda = 1.8 with a low compression ratio of 10, while the fuel consumption can be obviously improved at Lambda = 1.4. There exists a spark window for dual injection stratified lean burn mode, in which the spark timing has a weak effect on combustion. With optimization of the control parameters, the brake specific fuel consumption (BSFC) decreases 9.05% more than that of original stoichiometric combustion with DI as 2 bar brake mean effective pressure (BMEP) at a 2000 r/min engine speed. The NOx emissions before three-way catalyst (TWC) are 71.31% lower than that of the original engine while the particle number (PN) is 81.45% lower than the original engine. The dual injection stratified lean burn has a wide range of applications which can effectively reduce fuel consumption and particulate emissions. The BSFC reduction rate is higher than 5% and the PN reduction rate is more than 50% with the speed lower than 2400 r/min and the load lower than 5 bar.

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双喷汽油机分层稀薄燃烧特性试验研究
随着燃油消耗和排放法规的日益严格,提高热效率和减少颗粒物排放是下一代汽油发动机面临的两个主要问题。稀薄燃烧模式可以大大减少泵送损失,降低汽油发动机的燃料消耗,虽然燃烧速率降低了较高的稀释进气。本研究采用双喷射分层燃烧模式,通过提高火花塞附近的燃油浓度来加快稀燃的燃烧速度。研究了过量空气系数(Lambda)、直喷比、直喷间隔、直喷正时等发动机控制参数对双喷汽油机燃烧、油耗、气体排放和颗粒排放的影响。结果表明,在低压缩比为10的情况下,精益燃烧极限可以扩展到Lambda = 1.8,而在Lambda = 1.4时,油耗可以明显提高。双喷分层稀薄燃烧模式存在一个火花窗口,在此窗口下,火花正时对燃烧的影响较弱。在发动机转速为2000 r/min时,当制动平均有效压力(BMEP)为2 bar时,通过优化控制参数,制动比油耗(BSFC)比原化学计量燃烧时降低9.05%。三向催化剂(TWC)前NOx排放量比原发动机低71.31%,颗粒数(PN)比原发动机低81.45%。双喷射分层稀薄燃烧具有广泛的应用前景,可以有效地降低燃油消耗和微粒排放。转速低于2400 r/min、负荷低于5bar时,BSFC的降低率大于5%,PN的降低率大于50%。
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来源期刊
Frontiers in Energy
Frontiers in Energy Energy-Energy Engineering and Power Technology
CiteScore
5.90
自引率
6.90%
发文量
708
期刊介绍: Frontiers in Energy, an interdisciplinary and peer-reviewed international journal launched in January 2007, seeks to provide a rapid and unique platform for reporting the most advanced research on energy technology and strategic thinking in order to promote timely communication between researchers, scientists, engineers, and policy makers in the field of energy. Frontiers in Energy aims to be a leading peer-reviewed platform and an authoritative source of information for analyses, reviews and evaluations in energy engineering and research, with a strong focus on energy analysis, energy modelling and prediction, integrated energy systems, energy conversion and conservation, energy planning and energy on economic and policy issues. Frontiers in Energy publishes state-of-the-art review articles, original research papers and short communications by individual researchers or research groups. It is strictly peer-reviewed and accepts only original submissions in English. The scope of the journal is broad and covers all latest focus in current energy research. High-quality papers are solicited in, but are not limited to the following areas: -Fundamental energy science -Energy technology, including energy generation, conversion, storage, renewables, transport, urban design and building efficiency -Energy and the environment, including pollution control, energy efficiency and climate change -Energy economics, strategy and policy -Emerging energy issue
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