Investigations on Exhaust Emissions of a Low Heat Rejection Diesel Engine with Alternative Fuels

Challenging Issues on Environment and Earth Science Vol. 6 Pub Date : 2021-08-03 DOI:10.9734/bpi/ciees/v6/11298d

M. Krishna, V. Rao, R. P. Chowdary, N. Janardhan, N. Rao, T. R. Reddy

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引用次数: 1

Abstract

In scenario of fast attenuation of conventional fuels, the search for alternative fuels has become pertinent. Alcohols and vegetable oils are important substitute fuels for diesel, as they are renewable. Vegetable oils have advantages of comparable calorific value and cetane number as that of diesel fuel. Alcohols have merits of high volatility and presence of oxygen in their molecular structure or composition. However, vegetable oils have demerits of high viscosity and low volatility. Alcohols have disadvantages of low cetane number (a measure of combustion quality in diesel engine) and low calorific value. Hence vegetable oils and alcohols call for low heat rejection (LHR) diesel engine, which can eliminate the combustion problems with vegetable oils and alcohols. Investigations were carried out to determine the exhaust emissions from different versions of low heat rejection (LHR) diesel engine such as - LHR-1 engine, (ceramic coated engine), LHR-2 engine (air gap insulated engine) and LHR-3 engine (the combination of LHR-1 and LHR-2 engine) with carbureted butanol and crude jatropha oil (CJO). Hence the advantages of vegetable oil and alcohol can be utilized to reduce pollutants from the engine. Exhaust emissions of particulate matter, oxides of nitrogen (NOx) and aldehydes from different configurations of the LHR engines were determined at full load operation of the engine with test fuels with varied injection pressure and compared with neat diesel operation on conventional engine (CE). Particulate matter and NOx were measured at full load operation by AVL Smoke meter and Netel Chromatograph NOx analyzer respectively. Aldehydes which include formaldehyde and acetaldehyde at full load operation were measured by wet method as dinitrophenyle (DNPH) method. LHR versions of the engine decreased exhaust emissions considerably with carbureted butanol. The emissions decreased further with increase of injection pressure in different versions of the engine.

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采用替代燃料的低热柴油机排气排放研究

在常规燃料迅速衰减的情况下，寻找替代燃料已成为当务之急。酒精和植物油是柴油的重要替代燃料，因为它们是可再生的。植物油具有与柴油相当的热值和十六烷值的优点。醇具有高挥发性和在其分子结构或组成中存在氧的优点。然而，植物油具有高粘度和低挥发性的缺点。醇类的缺点是十六烷值(柴油机燃烧质量的衡量指标)低，热值低。因此，植物油和醇类需要低排热(LHR)柴油发动机，它可以消除植物油和醇类的燃烧问题。研究了不同型号的LHR-1型(陶瓷涂层发动机)、LHR-2型(气隙绝缘发动机)和LHR-3型(LHR -1和LHR-2发动机的组合)使用化油化丁醇和粗麻风树油(CJO)的排气排放情况。因此，可以利用植物油和酒精的优点来减少发动机的污染物。采用不同喷射压力的试验燃料，测定了不同配置的LHR发动机在发动机满负荷运行时的颗粒物、氮氧化物(NOx)和醛类物质的排放，并与传统发动机纯柴油运行时进行了比较。满负荷运行时，分别用AVL烟量计和Netel色谱NOx分析仪测量颗粒物和NOx。采用湿法二硝基苯(DNPH)法测定了满负荷运行时甲醛和乙醛的含量。LHR版本的发动机减少废气排放显著与丁醇化油器。在不同型号的发动机中，随着喷射压力的增加，排放进一步降低。

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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Challenging Issues on Environment and Earth Science Vol. 6

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