Pengaruh Bentuk Permukaan Piston Rata (Flat) Dan Piston Cembung (Dome) Terhadap Performa Dan Emisi Gas Buang Pada Mesin Sport 200cc

Q4 Engineering

Journal of Mechanical Engineering Pub Date : 2024-01-30 DOI:10.47134/jme.v1i1.2193

Abidin Asroful, Aprifi Noval Defa, Bahri Mokh. Hairul

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Abstract

The aim of this research is to determine the effect of engine performance (torque and power), as well as exhaust emissions after replacing the piston. Tests were carried out on a 200CC engine with flat piston specifications with a diameter of 65.0 mm and replaced with a convex piston with a diameter of 65.0 mm using pertalite fuel. The research results obtained by replacing the convex piston (dome) caused the volume of the combustion chamber to decrease resulting in increased torque and power. There was an increase in torque of 0.02607 ft-lbs and an increase in power of 41.95384 HP, then the compression ratio increased by 0.5%. In exhaust gas emissions containing CO, HC, O2, CO2 using a gas analyzer with the results of research on flat pistons and dome pistons, it can be seen that emissions from convex pistons (dome) have increased compared to flat pistons. with the highest increase in stationary of 6.17% in CO emission content due to incomplete combustion residue, which means that the type of piston has a significant influence on exhaust gas emissions. Then the exhaust gas emission test results also show an increase in the O2 emission content on the flat piston at RPM 5000 with a value of 4.24% due to the mixture of oxygen and fuel being more perfect, but on the convex piston (dome) there is a significant increase Compared to a flat piston only at RPM 6500 with a value of 4.53% in O2 emission content. The HC and CO2 emissions content shows unstable or changing values. Apart from that, variations in engine speed also affect the exhaust emissions produced.

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平面和凸面活塞表面形状对 200cc 运动型发动机性能和废气排放的影响

这项研究的目的是确定更换活塞后对发动机性能（扭矩和功率）以及废气排放的影响。试验是在一台 200CC 发动机上进行的，该发动机的活塞规格为直径 65.0 毫米的扁平活塞，使用珍珠岩燃料后更换为直径 65.0 毫米的凸形活塞。研究结果表明，更换凸形活塞（圆顶）后，燃烧室容积减小，从而提高了扭矩和功率。扭矩增加了 0.02607 英尺-磅，功率增加了 41.95384 马力，压缩比增加了 0.5%。使用气体分析仪对含有 CO、HC、O2、CO2 的废气排放与平活塞和圆顶活塞的研究结果进行对比，可以看出凸活塞（圆顶活塞）的废气排放比平活塞有所增加，其中由于不完全燃烧残留物导致的 CO 排放含量固定增幅最高，达到 6.17%，这意味着活塞类型对废气排放有显著影响。废气排放测试结果还显示，由于氧气和燃料的混合更加完美，平活塞的 O2 排放量在转速为 5000 时增加了 4.24%，但凸活塞（圆顶）的 O2 排放量仅在转速为 6500 时比平活塞增加了 4.53%。HC 和 CO2 排放量显示出不稳定或变化的值。除此之外，发动机转速的变化也会影响所产生的废气排放。

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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来源期刊

Journal of Mechanical Engineering Engineering-Mechanical Engineering

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

16 weeks

期刊介绍： Journal of Mechanical Engineering (formerly known as Journal of Faculty of Mechanical Engineering) or JMechE, is an international journal which provides a forum for researchers and academicians worldwide to publish the research findings and the educational methods they are engaged in. This Journal acts as a link for the mechanical engineering community for rapid dissemination of their academic pursuits. The journal is published twice a year, in June and December, which discusses the progress of Mechanical Engineering advancement.