Experimental Investigation of the Effect of Acetone Additive to Diesel Fuel on Engine Performance and Exhaust Emissions at Partial Loads

Energy Environment and Storage Pub Date : 2023-01-26 DOI:10.52924/wqjr9374

Ahmet Duhan Coşkun, Volkan Sabri Kül, S. Akansu

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Abstract

In this study, it is aimed to gain good characteristics that can directly affect daily life with more environmentally friendly, economical, and performance fuels. For these purposes, acetone has been added to the fuel. Since acetone has a high vapor pressure, it is aimed to increase engine performance by taking advantage of its volatility. It is thought that emissions will also improve with increased engine performance. The experiments were carried out using a heavy-duty engine with a displacement of 11670 cc. Engine performance and emission values were investigated at 100, 200, and 300 Nm partial loads and at 600 rpm constant engine speed by adding 5% and 10% acetone to diesel fuel. The results were compared with pure diesel fuel. Compared to the pure diesel fuel, the BTE value of A5D95 fuel was observed to be 3.28% and 2.60% better, respectively, under 100 and 200 Nm load, while the BTE value of A10D90 fuel was 0.23% and 0.05% worse. Compared to the pure diesel fuel, the BTE value of A5D95 fuel was observed to be 3.28% and 2.60% better, respectively, under 100 and 200 Nm load, while the BTE value of A10D90 fuel was 0.23% and 0.05% worse. Since there was an unexpected decrease in the BTE value of pure diesel under 300 Nm load, only A5D95 and A10D90 fuels were compared at this load. It was found that the BTE value of A5D95 fuel under 300 Nm load was 0.65% higher than A10D90 fuel. While 10% acetone additive A10D90 fuel could not have a positive effect on efficiency, it was determined that A5D95 fuel with 5% acetone additive was more efficient than other fuel types at all loads. When the emission rates of D100, A5D95, and A10D90 fuels are evaluated according to the power they produce under 100, 200, and 300 Nm loads, the CO emission rate of A5D95 fuel is less than that of pure diesel at other loads except 100 Nm load. However, the NOx ratio was higher at all loads. These results support the higher efficiency of A5D95 fuel compared to pure diesel. Other results are discussed in detail in section 3.

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丙酮添加剂对柴油机部分负荷性能和废气排放影响的实验研究

在本研究中，旨在获得更环保，更经济，更高性能的燃料，可以直接影响日常生活的良好特性。为此，在燃料中加入了丙酮。由于丙酮有很高的蒸气压，它的目的是利用其挥发性来提高发动机的性能。人们认为，随着发动机性能的提高，排放也将得到改善。实验采用排量为11670 cc的重型发动机，分别在100、200和300 Nm部分负荷和600 rpm恒定转速下，在柴油中添加5%和10%的丙酮，研究了发动机的性能和排放值。结果与纯柴油进行了比较。与纯柴油相比，A5D95燃料在100 Nm和200 Nm负荷下的BTE值分别提高3.28%和2.60%，而A10D90燃料的BTE值分别下降0.23%和0.05%。与纯柴油相比，A5D95燃料在100 Nm和200 Nm负荷下的BTE值分别提高3.28%和2.60%，而A10D90燃料的BTE值分别下降0.23%和0.05%。由于在300 Nm负荷下，纯柴油的BTE值出现了意想不到的下降，因此在该负荷下，只比较了A5D95和A10D90燃料。结果表明，A5D95燃料在300 Nm载荷下的BTE值比A10D90燃料高0.65%。添加10%丙酮的A10D90燃料对燃油效率没有积极影响，而添加5%丙酮的A5D95燃料在所有负荷下的燃油效率都高于其他燃料类型。以D100、A5D95和A10D90燃料在100nm、200nm和300nm负荷下产生的功率来评价其排放率时，除100nm负荷外，A5D95燃料在其他负荷下的CO排放率低于纯柴油。然而，在所有负载下，NOx比率都较高。这些结果支持A5D95燃料与纯柴油相比效率更高。其他结果将在第3节中详细讨论。

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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Energy Environment and Storage

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