Performance and Emission Characteristics of Jatropha Biodiesel Blends in a Direct Injection CI Engine

Himalayan Journal of Applied Science and Engineering Pub Date : 2021-11-30 DOI:10.3126/hijase.v2i2.43393

K. Bhatta, R. Karna, A. Jha, S. Adhikari

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Abstract

The Jatropha seed oil is non edible, contains high amount of oil and less expensive feedstock. So, in this study a methyl ester biodiesel was produced from Jatropha seed oil following two step transesterification process using methanol, sulphuric acid and sodium hydroxide. The effect of Jatropha biodiesel blends and petroleum-based diesel on the performance and emission of four strokes, naturally aspired, water cooled and a direct injection diesel engine at five engine loads with a constant engine speed of 1500 rpm were examined. The physical and thermal properties of 20 % Jatropha-biodiesel and 80 % diesel (JB20) were tested on American Society for Testing and Materials (ASTM) standards and found to be within the standard. The engine performance parameters for biodiesel blends such as Indicated Power (IP), Brake Thermal Efficiency (BTE), Brake Specific Fuel Consumption (BSFC), Torque, Mechanical Efficiency (ME) and Exhaust Gas Temperature (EGR) were obtained and compared with diesel fuel. At higher load, the IP of 15 % Jatropha-biodiesel and 85 % diesel (JB15) is lower than diesel and other blends. BTE of 10 % Jatropha-biodiesel and 90% diesel (JB10) increases to 5 % mainly on 50 % loading condition and at higher loading BTE of diesel is higher than jatropha biodiesel blends. For Jatropha biodiesel blends SFC was 19 % higher than diesel but at high load, SFC was nearly same for all test fuels. Mechanical efficiency of JB15 was found to be 18 % higher than diesel at higher loading. The highest exhaust gas temperature was 352.46 0C, 358.61 0C, 353.51 0C and 343.79 0C for diesel, JB10, JB15 and JB20, respectively at 3kW loading. Also, experimental results show that the smoke opacity reduced by 31.6 % with JB20 compared to diesel. From the fuel property, engine performance and emission characteristics, it is concluded that the Jatropha biodiesel up to 20 % can be blended with diesel and can be used as an alternative fuel in existing diesel engine without any modification.

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麻疯树生物柴油混合物在直喷CI发动机上的性能和排放特性

麻疯树籽油不可食用，含油量高，原料便宜。因此，本研究以麻疯树籽油为原料，采用甲醇、硫酸和氢氧化钠两步酯交换法制备了甲酯生物柴油。研究了麻疯树生物柴油混合物和石油基柴油对四冲程、自然吸气、水冷和直喷柴油机在5种发动机负荷下、恒转速为1500转/分时的性能和排放的影响。20%麻风树生物柴油和80%柴油(JB20)的物理和热性能按美国材料试验协会(ASTM)标准进行了测试，发现在标准范围内。获得了生物柴油混合燃料的发动机性能参数，如指示功率(IP)、制动热效率(BTE)、制动比油耗(BSFC)、扭矩、机械效率(ME)和废气温度(EGR)，并与柴油进行了比较。在较高负荷下，15%麻风树生物柴油和85%柴油(JB15)的混合燃料的效率低于柴油和其他混合燃料。10%麻疯树生物柴油和90%柴油(JB10)的BTE主要在50%负荷条件下增加到5%，在更高负荷条件下柴油的BTE高于麻疯树生物柴油混合物。麻疯树生物柴油混合物的SFC比柴油高19%，但在高负荷下，所有测试燃料的SFC几乎相同。JB15在高负荷时的机械效率比柴油高18%。在3kW负荷下，柴油、JB10、JB15、JB20的最高排气温度分别为352.46℃、358.61℃、353.51℃、343.79℃。实验结果表明，与柴油相比，JB20的烟气浊度降低了31.6%。从燃料性能、发动机性能和排放特性等方面分析，得出20%以上的麻疯树生物柴油可与柴油混合使用，无需进行任何改造即可作为现有柴油机的替代燃料。

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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Himalayan Journal of Applied Science and Engineering

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