Collaborative effects of fuel properties and EGR on the efficiency improvement and load boundary extension of a medium-duty engine

IF 2.2 4区 工程技术 Q2 ENGINEERING, MECHANICAL
Xumin Zhao, Guangmeng Zhou, Hu Wang, Zhongjie Zhang, Zunqing Zheng, Mingfa Yao
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Abstract

EGR dilution combustion has problems such as weakened anti-knock capability at high load, slow combustion speed and poor combustion stability, which results in limitations in the thermal efficiency improvement and load boundary extension of medium-duty highly-downsized engines. It is necessary to combine EGR dilution and other measures to collaboratively control the in-cylinder thermodynamic state and combustion process. The experimental investigations in this study isolate the effect of the ethanol blending ratio in ethanol gasoline on the anti-knock performance, combustion performance and thermal efficiency, and verifies the potential of collaborative optimization of fuel properties and EGR in improving the thermal efficiency and extending the load boundary for a medium-duty highly-downsized engine. The results show that as the load increases, the improvement effect of increasing the blending ratio of ethanol in the anti-knock performance, combustion speed, and the turbine inlet temperature reduction will become more obvious. At high load, using E20 fuel can improve the EGR tolerance, advance the spark timing and CA50, and thus increase the BTE. As the speed decreases, the thermal efficiency improvement effect of E20 fuel gradually increases, and the improved load range extends. The collaborative optimization of E20 fuel and EGR can further extend the high thermal efficiency area of the engine. And the Max. achievable load is 0.11 MPa higher than that of E10, which effectively extends the upper load limit during the stoichiometric combustion.
燃料特性和 EGR 对中型发动机效率提高和负荷边界扩展的协同效应
EGR 稀释燃烧存在高负荷抗爆能力弱、燃烧速度慢、燃烧稳定性差等问题,导致中型高排量发动机的热效率提升和负荷边界扩展受到限制。有必要将 EGR 稀释与其他措施结合起来,共同控制缸内热力学状态和燃烧过程。本研究的实验研究分离了乙醇汽油中乙醇掺混比例对抗爆性能、燃烧性能和热效率的影响,验证了协同优化燃料特性和 EGR 在提高中型高减排量发动机热效率和扩展负荷边界方面的潜力。结果表明,随着负荷的增加,提高乙醇掺混率对抗爆性能、燃烧速度和涡轮入口温度降低的改善效果会更加明显。在高负荷下,使用 E20 燃料可以提高 EGR 容限、提前火花正时和 CA50,从而提高 BTE。随着转速的降低,E20 燃料的热效率改善效果逐渐增强,改善的负荷范围也随之扩大。E20 燃料和 EGR 的协同优化可进一步扩大发动机的高热效率范围。而最大可实现负荷比 E10 高出 0.11 兆帕,这有效地延长了混合燃烧时的负荷上限。
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来源期刊
International Journal of Engine Research
International Journal of Engine Research 工程技术-工程:机械
CiteScore
6.50
自引率
16.00%
发文量
130
审稿时长
>12 weeks
期刊介绍: The International Journal of Engine Research publishes high quality papers on experimental and analytical studies of engine technology.
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