汽车绿色技术综述:丁醇作为生物燃料在汽油机中的应用潜力

Sri Mumpuni Ngesti Rahayu, A. Hananto, S. Herawan, M. Z. Asy'ari, A. Sule, M. Idris, Dhany Hermansyah, Shuaibu Alani Balogun, Esam Abu Baker Ali
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引用次数: 3

摘要

与乙醇生物燃料相比,丁醇的腐蚀性要小得多,因此可以利用用于运输汽油或柴油的现有基础设施进行分销。较低的腐蚀性也意味着丁醇可以在不改变发动机的情况下使用。如果丁醇与水混合,它就不太可能从主要燃料中分离出来,从而有利于混合燃料的储存和分配。丁醇也包含与汽油燃料相当的能量含量,与乙醇相比,每升能量密度高出25%。所有这些优异的品质都带来了更高的发动机性能,使车辆能够在使用丁醇的情况下实现更高的行驶里程,而不会出现重大问题。本文讨论了当前面临的挑战和未来的研究方向,并在本文的最后一节强调了光学发动机对发动机燃烧诊断的重要性。在火花点火发动机上使用丁醇对冷启动和爆震现象的影响也值得研究。因此,需要对喷雾、气缸内压力、热释放率和爆轰进行结果分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Review of automotive green technology: Potential of butanol as biofuel in gasoline engine
In comparison to ethanol biofuel, butanol is considerably less corrosive, permitting the utilization of existing infrastructures used to ship gasoline or diesel for its distribution. Less corrosive also means that butanol can be utilized with no engine alteration. If butanol is mixed with water, it is less likely to split from the main fuel, thus facilitating the storage and distribution of blended fuels. Butanol also comprises a comparable energy content to petrol fuel, with 25% more energy density/liter as opposed to ethanol. All these excellent qualities have led to higher engine performance, enabling the vehicles to achieve higher mileage using butanol with no significant issue. Several challenges and future research directions are discussed and in the last section of this review article, we emphasize the importance of an optical engine to diagnose engine combustion in more detail. The consequence of using butanol on spark ignition engine on cold start and knock phenomena are also worth investigating. Results on the spray, the pressure inside the cylinder, rate of heat release, and detonation are thus required.
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