Experimental study on reduction of pollutant emissions in reactivity controlled compression ignition (RCCI) engine fueled with diesel/gasoline fuels

International Journal of Automotive Engineering and Technologies Pub Date : 2022-07-01 DOI:10.18245/ijaet.1078400

M. Fırat, Ş. Altun, Mutlu Okcu, Y. Varol, M. Senocak

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Abstract

Reactivity Controlled Compression-Ignition (RCCI) concept presents a great potential to reduce both NOx and soot emissions from conventional diesel engines with improved thermal efficiency. Therefore, in this work, a single-cylinder diesel engine with CRDI was operated on RCCI mode. To investigate the effect of RCCI mode on engine performance and emissions, gasoline was injected into the port as LRF, while diesel was injected directly into the cylinder as HRF. Premixed ratio of low reactivity fuel was varied from 0% (conventional diesel mode, CDM) to 60% with 15% intervals as energy ratio given to engine per cycle. Engine load was also studied from 20% to 60% of max. engine torque with 20% intervals to stimulate low, mid and mid-high load conditions. Experimental results showed that with increase of Rp, unburned HC and CO emissions increased while smoke opacity decreased significantly (up to about 95% in case of 0.60 Rp and 60% engine load) in gasoline/diesel RCCI compared to CDM. Though NOx emissions decreased at low engine loads with RCCI strategy, they started to increase with increase of Rp at high loads.

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以柴油/汽油为燃料的反应性控制压缩点火(RCCI)发动机降低污染物排放的实验研究

反应性控制压缩点火(RCCI)概念在降低传统柴油发动机的氮氧化物和烟尘排放方面具有很大的潜力，同时提高了热效率。因此，本研究将CRDI单缸柴油机置于RCCI模式下运行。为了研究RCCI模式对发动机性能和排放的影响，将汽油作为LRF注入进气道，而柴油作为HRF直接注入气缸。低反应性燃料的预混比从0%(传统柴油模式，CDM)到60%不等，每循环给发动机的能量比间隔为15%。发动机负荷也从最大负荷的20%到60%进行了研究。发动机扭矩与20%的间隔，以刺激低，中，中高负荷条件。实验结果表明，与CDM相比，随着Rp的增加，汽油/柴油RCCI中未燃烧的HC和CO排放量增加，而烟雾不透明度显著降低(当Rp为0.60，发动机负荷为60%时，烟雾不透明度降低约95%)。采用RCCI策略后，发动机低负荷时NOx排放量降低，高负荷时随着Rp的增加，NOx排放量开始增加。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Automotive Engineering and Technologies

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