废气再循环的气缸至气缸分散对火花点火发动机三元催化器性能和尾气排放的影响

Pedro Piqueras, J. de la Morena, E. Sanchis, Carla Conde
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摘要

新一代火花点火发动机采用废气再循环(EGR)技术来提高发动机效率。根据 EGR 路由的设计,到达每个气缸的再循环气体总量可能会出现一些差异。由于进气阀关闭时气体的温度和成分不同,这会影响每个气缸的空燃比。因此,燃烧过程和三元催化器上游的后续成分可能会出现重大偏差。本文探讨了这些对催化剂性能和尾气排放的影响,并对每种受管制物质的行为进行了个性化分析。研究是在阿特金森循环和紧密耦合三元催化器的 4 缸自然吸气发动机中进行的。氮氧化物的转化效率下降最为明显,这与 EGR 的分散水平直接相关。在一氧化碳排放方面,除了在平均 EGR 率较高(一个或多个气缸超过了该速度和负载的 EGR 容限)的情况下,没有观察到明显的影响。根据这些结果,开发并实施了一种策略,即调整喷油器指令以纠正 EGR 引起的空燃比偏差
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Impact of Cylinder-To-Cylinder Dispersion of Exhaust Gas Recirculation On the Three-Way Catalyst Performance and Tailpipe Emissions of Spark-Ignition Engines
New generations of spark-ignition engines include exhaust gas recirculation (EGR) to improve the engine efficiency. Depending on the design of the EGR routing, some differences in the total amount of recirculated gases that reach each cylinder can be induced. This affects the air-to-fuel ratio on each cylinder due to the combination of the different temperature and composition of the gases at the intake valve closure. As a consequence, significant deviations in the combustion process and the subsequent composition upstream the three-way catalyst can be reached. This paper explores these effects on catalyst performance and tailpipe emissions, individualizing the behavior for each regulated species. The study was performed in a 4-cylinder naturally aspirated engine with Atkinson cycle and a close-coupled three-way catalyst. The most significant deterioration in conversion efficiency appeared for the nitrogen oxides, directly linked to the EGR dispersion level. In the case of CO emissions, no significant impact was observed except at high average EGR rates, where one or more of the cylinders exceeded the EGR tolerance for that speed and load. Based on these results, a strategy where the fuel injector command is adapted to correct the air-to-fuel ratio deviations induced by the EGR was developed and implemented
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