Comparative analysis of carbon particle emissions from exhaust of an IC engine using HSD and blends of HSD and Honge/Jatropha biodiesel

IF 1.1 Q3 Engineering Journal of Thermal Engineering Pub Date : 2022-11-09 DOI:10.18186/thermal.1334240

Putta Bore GOWDA B, R. Chandrashekar, M. Kumar S

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Abstract

In spite of the surge in solar and wind energy in the recent years, the IC engines, particularly the diesel engines may be expected to stay on for the next 30 years at least. In this context, it is imperative to find alternative fuel sources for petro diesel, at least in part. Inedible oil based biodiesels are one good option for India. There is a slight decrease in performance of a diesel engine when run with biodiesel blends. It is also feared by some that pollution from exhaust gas by using biodiesel blends may be higher. This paper summarizes the results of experiments carried out on biodiesel blends with diesel to determine the amounts and particle sizes of carbon particulate matter emissions in engine exhaust. Blends of two esterified oils, viz., Honge (Pongamia Pinnata) and Jatropha, with petro diesel were used to operate a single-cylinder, four-stroke diesel engine. Blend ratios used were 5%, 10%, 15%, and 20%. The carbon particles in exhaust were collected on an INDICA filter paper for 5 minutes. The carbon content was ascertained by the standard procedure, and the size of particles was found by microscopic examination. Further ANOVA of the data was car-ried out separately for the Honge and Jatropha blends. The results from the experiments are clear and interesting. Both Honge and Jatropha blends increase the amount of carbon particulates in engine exhaust when compared with diesel. Car-bon particulates increase with increase in load on the engine. Increase of blend ratio generally increases the carbon in exhaust in case of Jatropha blends. The behaviour with Honge blends is different. While blend H5 has highest carbon in exhaust at low loads, at high loads, H10 has the maximum carbon in exhaust. Blending with Honge or Jatropha biodiesel increases the carbon particle size in exhaust. While the size of carbon particles with diesel is < 20 µm, it is > 20 µm with all blends, increasing with load or blend ratio. In all cases, lower loads result in finer carbon particles in exhaust. The study helps in concluding that both Honge and Jatropha blends could be used in diesel en-gines, Honge being superior. Though the PM level in the exhaust will be higher with blending, the particle sizes will be much larger and hence causing less health hazard. Further, idling (no load), or low loads should be avoided since these result in smaller carbon particles.

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使用HSD和HSD与红歌/麻风树生物柴油混合物的内燃机尾气碳颗粒排放的比较分析

尽管近年来太阳能和风能激增，但IC发动机，尤其是柴油发动机，预计至少在未来30年内仍将继续使用。在这种情况下，必须为石油柴油寻找替代燃料来源，至少在一定程度上是这样。对印度来说，不可食用的石油生物柴油是一个不错的选择。使用混合生物柴油运行时，柴油发动机的性能会略有下降。一些人还担心，使用混合生物柴油产生的废气污染可能会更高。本文总结了在生物柴油与柴油的混合物上进行的实验结果，以确定发动机排气中碳颗粒物排放的量和颗粒尺寸。将两种酯化油，即洪油（Pongamia Pinnata）和麻疯树油与石油柴油的混合物用于操作单缸四冲程柴油发动机。使用的混合比例分别为5%、10%、15%和20%。将废气中的碳颗粒收集在INDICA滤纸上5分钟。通过标准程序确定碳含量，并通过显微镜检查发现颗粒的大小。对Honge和Jatropha混合物的数据进行进一步的方差分析。实验结果清晰有趣。与柴油相比，Honge和Jatropha的混合物都会增加发动机排气中的碳颗粒量。汽车微粒随着发动机负荷的增加而增加。在麻风树混合物的情况下，混合物比例的增加通常会增加废气中的碳。洪格混合物的行为不同。当混合物H5在低负载下具有最高的排气碳时，在高负载下，H10在排气中具有最高的碳。与洪格或麻疯树生物柴油混合可增加废气中的碳粒径。虽然柴油的碳颗粒尺寸小于20µm，但所有混合物的碳颗粒大小均大于20µm。在任何情况下，较低的负载都会导致排气中的碳颗粒变细。这项研究有助于得出结论，洪格和麻疯树混合物都可以用于柴油发动机，洪格是优越的。尽管混合后废气中的PM水平会更高，但颗粒尺寸会更大，因此对健康的危害更小。此外，应避免怠速（无负载）或低负载，因为这些会导致较小的碳颗粒。

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 Thermal Engineering THERMODYNAMICS-

CiteScore

2.40

自引率

18.20%

发文量

审稿时长

4 weeks

期刊介绍： Journal of Thermal Enginering is aimed at giving a recognized platform to students, researchers, research scholars, teachers, authors and other professionals in the field of research in Thermal Engineering subjects, to publish their original and current research work to a wide, international audience. In order to achieve this goal, we will have applied for SCI-Expanded Index in 2021 after having an Impact Factor in 2020. The aim of the journal, published on behalf of Yildiz Technical University in Istanbul-Turkey, is to not only include actual, original and applied studies prepared on the sciences of heat transfer and thermodynamics, and contribute to the literature of engineering sciences on the national and international areas but also help the development of Mechanical Engineering. Engineers and academicians from disciplines of Power Plant Engineering, Energy Engineering, Building Services Engineering, HVAC Engineering, Solar Engineering, Wind Engineering, Nanoengineering, surface engineering, thin film technologies, and Computer Aided Engineering will be expected to benefit from this journal’s outputs.