汽油发动机中玉米芯生物乙醇与 92 辛烷值燃料的比例分析

Y. A. Winoko, Supa Kusuma Aji, Agus Setiawan, Intan Fadillah
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摘要

改善汽油发动机性能的一种方法是使用生物乙醇,它可以提高燃烧效率。生物乙醇是一种从植物材料发酵中提取的可再生燃料,可与传统的化石燃料混合,形成一种更高效、更环保的燃料替代品。化石燃料和发酵衍生燃料的组合对发动机的整体性能和排放有重大影响。本研究的目的是确定汽油发动机在使用玉米芯生物乙醇和 pertamax 混合燃料时扭矩和功率的变化幅度。此外,还将确定具体的燃料消耗量,以评估燃料效率。本研究中使用的发动机是 150cc 汽油发动机,这是摩托车和小型车辆的常见规格。测试变量包括使用 5% 、10% 和 15% 的生物乙醇与 92 辛烷值燃料混合后,发动机转速在 2000 至 9500 rpm 之间的变化。从这些测试中收集到的数据都经过了数学计算。研究结果表明,使用 BE15%混合燃料时,发动机功率在 2500 转/分时增加了 0.45 马力,扭矩在 2500 转/分时增加了 2.82 牛米,这表明生物乙醇含量越高,发动机性能越明显。此外,每马力耗油量的降幅最小,仅为 0.1739 千克,这凸显了生物乙醇混合物的效率优势。总体而言,与纯 92 辛烷值燃料相比,使用生物乙醇与 92 辛烷值燃料混合后的发动机性能有所改善。这表明,在汽油中加入生物乙醇不仅能提高功率和扭矩,还能提高燃油效率,使其成为减少对化石燃料的依赖和降低排放的可行选择。
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Analysis of the Percentage of Corn Cob Bioethanol Volume with 92 Octane Fuel in Gasoline Engines
One way to improve the performance of gasoline engines is by using bioethanol, which can enhance combustion efficiency. Bioethanol, a renewable fuel derived from the fermentation of plant materials, can be blended with traditional fossil fuels to create a more efficient and environmentally friendly fuel alternative. The combination of fossil fuel and fermentation-derived fuel has a significant impact on the overall performance and emissions of the engine. The aim of this study is to determine the magnitude of changes in torque and power when a gasoline engine is fueled with a mixture of corn cob bioethanol and pertamax. Additionally, specific fuel consumption will be determined to evaluate the fuel efficiency. The engine used in this study is a 150cc gasoline motor, a common size for motorcycles and small vehicles. The testing variables include engine speed variations from 2000 to 9500 rpm using bioethanol blends of 5%, 10%, and 15% with 92 octane fuel. The data collected from these tests is calculated mathematically. The results of the study show the largest increase in power at 0.45 horsepower at 2500 rpm and torque at 2.82 Nm at 2500 rpm when using the BE15% fuel blend, indicating a notable enhancement in engine performance with higher bioethanol content. Furthermore, the smallest decrease in fuel consumption was recorded at 0.1739 kg per horsepower, highlighting the efficiency benefits of bioethanol blends. Overall, the engine performance improves when using a blend of 92 octane fuel with bioethanol compared to pure 92 octane fuel. This suggests that incorporating bioethanol into gasoline can not only improve power and torque but also enhance fuel efficiency, making it a viable option for reducing dependency on fossil fuels and lowering emissions.
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