释放水混合卡兰吉酯和EGR在CI发动机中的潜力:微爆炸效应研究

Q3 Engineering

SAE Technical Papers Pub Date : 2023-11-10 DOI:10.4271/2023-28-0074

Gnana Sagaya Raj, R L Krupakaran, Manikandan Natarajan, Thejasree Pasupuleti, Thangaraja Jeyaseelan

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引用次数: 0

摘要

<div class="section摘要"><div class="htmlview段落">生物柴油是由植物油的甲酯制成的燃料，由于它对环境有益，并且可以作为替代燃料而不需要对发动机进行重大改变，因此作为压缩点火发动机的替代燃料越来越受欢迎。生物柴油有几个关键的优势，包括它的现成可用性、环境友好性和降低大气中二氧化碳含量的能力。本文采用装有废气再循环装置的Kirloskar压缩点火发动机，研究了微爆炸对氮氧化物和烟雾减少的影响。选用的燃料为卡兰吉油甲酯。由于废气再循环(EGR)被认为是减少氮氧化物排放的有效技术，因此实验涉及以5%的增量改变废气量，范围从5%到15%。同样，该研究还调整了水分含量，以5%的增量从5%到15%不等。已经证明，在柴油中加水是一种有效而廉价的减少污染的方法，因为它减少了有害的氮氧化物(NO<sub>x</sub>)和烟雾的产生。试验结果表明，水混合柴油和EGR技术实现了NO<sub>x</sub>减少66.23%，烟雾排放量减少50%，热效率降低2.5%。</div> /div>

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Unlocking the Potential of Water-Blended Karanji Ester and EGR in CI Engines: A Micro-Explosion Effect Investigation

Biodiesel, which is made from the methyl ester of vegetable oils, is becoming more and more popular as an alternative fuel for compression ignition engines because it is good for the environment and can be used as a replacement fuel without making major changes to the engine. Biodiesel offers several key advantages, including its ready availability, environment friendly and its ability to contribute to lower carbondioxide levels in the atmosphere. An exhaust gas recirculation (EGR)-equipped Kirloskar compression ignition engine is used in this research to examine the influence of micro-explosions on the reduction of nitrogen oxides and smoke. The fuel chosen is Karanji oil methyl ester. The experiment involved varying the exhaust gas quantity in increments of 5%, ranging from 5% to 15%, as exhaust gas recirculation (EGR) is recognized as an effective technique for reducing NOx emissions. Similarly, the study also adjusted the water content, ranging from 5% to 15% in 5% increments. It has been shown that adding water to diesel fuel is an efficient and cheap way to cut down on pollution since it reduces the production of harmful nitrogen oxides (NO_x) and smoke. According to the test results, water mixed diesel fuel and EGR technology achieved a significant decrease in NO_x by 66.23 percent and smoke emissions by 50 percent with a 2.5 percent compromise in thermal efficiency.

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来源期刊

SAE Technical Papers Engineering-Industrial and Manufacturing Engineering

CiteScore

1.00

自引率

0.00%

发文量

1487

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