Evaluation of CI engine characteristics using Jatropha-Camphor oil blends with diethyl ether as an additive

IF 2.1 4区环境科学与生态学 Q3 ENGINEERING, CHEMICAL

Environmental Progress & Sustainable Energy Pub Date : 2024-06-30 DOI:10.1002/ep.14414

Manikandaraja Gurusamy, Malarmannan Subramaniyan

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Abstract

The compression-ignition properties of crude Jatropha and camphor oil blends with di ethyl ether (DEE) added is covered in this research. Six fuel samples are made based on volume: 90% C70J30 with 10% diethyl ether (C70J30 + 10% DEE), 90% C30J70 with 10% di-ethyl ether (C50J50 + 10% DEE), 70% Camphor oil with 30% crude Jatropha oil (C70J30), 50% Camphor oil with 50% crude Jatropha oil (C50J50), 30% Camphor oil with 70% crude Jatropha oil (C30750). A four-stroke, one-cylinder, naturally aspirated, compression-ignition engine operating at a constant 1500 rpm with a load range of 0%–100% with a 25% interval is used for the experiment. According to test findings, the C70J30 + 10% DEE has the lowest brake-specific energy consumption of 11.68 kJ/kWh, the maximum energy efficiency of 62.56%, and the highest thermal efficiency of 30.81%. Compared to the other biofuels examined, this puts it more in line with diesel. Additionally, blends of crude Jatropha oil and camphor oil showed at least 4.46 g/kWh of CO, 0.259 g/kWh of HC, and 74% of smoke opacity when DEE was added. However, it raises CO₂ to 0.792 kg/kWh and NO to 9.54 g/kWh. The greatest peak pressure and quickest heat release are produced by adding more DEE as a fuel additive and using a larger percentage of camphor oil. It also increases the coefficient of variation of the peak pressure throughout 100 cycles. All things considered, the C70J30 + 10% DEE's CI engine features are better.

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使用以二乙醚为添加剂的麻风树-樟脑混合油对 CI 发动机特性的评估

本研究涉及粗麻风树油和添加二乙醚（DEE）的樟脑混合油的压燃特性。根据体积制作了六种燃料样品：90% C70J30 与 10% 二乙醚（C70J30 + 10% DEE）、90% C30J70 与 10% 二乙醚（C50J50 + 10% DEE）、70% 樟脑油与 30% 粗麻风树油（C70J30）、50% 樟脑油与 50% 粗麻风树油（C50J50）、30% 樟脑油与 70% 粗麻风树油（C30750）。实验使用了一台四冲程、单缸、自然吸气、压燃式发动机，转速恒定在 1500 rpm，负载范围为 0%-100%，间隔为 25%。根据测试结果，C70J30 + 10% DEE 的制动特定能耗最低，为 11.68 kJ/kWh，能效最高，为 62.56%，热效率最高，为 30.81%。与考察的其他生物燃料相比，这使其更接近柴油。此外，添加 DEE 后，粗麻疯树油和樟脑油的混合物显示 CO 至少为 4.46 克/千瓦时，HC 为 0.259 克/千瓦时，烟雾不透明度为 74%。然而，它将 CO2 提高到 0.792 kg/kWh，将 NO 提高到 9.54 g/kWh。通过添加更多的 DEE 作为燃料添加剂和使用更大比例的樟脑油，可产生最大的峰值压力和最快的热量释放。这也增加了峰值压力在 100 个循环中的变化系数。综合考虑，C70J30 + 10% DEE 的 CI 发动机性能更好。

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

Environmental Progress & Sustainable Energy 环境科学-工程：化工

CiteScore

5.00

自引率

3.60%

发文量

231

审稿时长

4.3 months

期刊介绍： Environmental Progress , a quarterly publication of the American Institute of Chemical Engineers, reports on critical issues like remediation and treatment of solid or aqueous wastes, air pollution, sustainability, and sustainable energy. Each issue helps chemical engineers (and those in related fields) stay on top of technological advances in all areas associated with the environment through feature articles, updates, book and software reviews, and editorials.