添加纳米碳对粗椰子油液滴燃烧特性的响应

Q2 Engineering

Automotive Experiences Pub Date : 2021-12-26 DOI:10.31603/ae.4954

Ena Marlina, M. Basjir, R. Purwati

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引用次数: 0

摘要

其中一个强有力的候选生物柴油是粗椰子油(CCO)，但其高粘度不能直接应用未经处理。因此，加入纳米碳来降低CCO的粘度。纳米碳是一种具有半导体性质的天然材料，是一种良好的热导体，并能吸引其他分子。通过添加纳米碳，有望降低CCO的粘度。本研究的目的是通过添加1%和5%的纳米碳来确定液滴在CCO上的燃烧特性。所使用的方法是一个真正的实验液滴，滴在热电偶与活化能从加热器。结果表明:CCO燃烧时间为0.933s，液滴直径为4.307mm，液滴直径为5.472 mm;与纯CCO和1%的CCO相比，添加5%纳米碳的CCO燃烧速度更快，活性更强，着火时间更短。

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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The Response of Adding Nanocarbon to the Combustion Characteristic of Crude Coconut Oil (CCO) Droplets

One of the strong candidates for biodiesel is Crude Coconut Oil (CCO) but its high viscosity cannot be applied directly without treatment. Therefore, nanocarbon is added to reduce the viscosity of CCO. Nanocarbon is a natural material with semiconductor properties, a good heat conductor, and can attract other molecules. By adding nanocarbon, it is expected to reduce the viscosity of CCO. This study aimed to determine the combustion characteristics of droplets on CCO by adding nanocarbon by 1% and 5%. The method used was a true experiment with droplets, which dripped on the thermocouple with activation energy from the heater. The results showed that CCO burned 0.933s with a droplet diameter of 4.307mm, droplet diameter of 5.472 mm. By adding 5% nanocarbon to CCO, the CCO burned faster, more reactive, and the ignition was shorter than the pure CCO and 1% CCO.

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来源期刊

Automotive Experiences Engineering-Automotive Engineering

CiteScore

3.00

自引率

0.00%

发文量

审稿时长

12 weeks