The Role of Hydrogen Bonding on Laminar Burning Velocity of Hydrous and Anhydrous Ethanol Fuel with Small Addition of n-Heptane

IF 1.5 Q3 ENGINEERING, CHEMICAL

Journal of Combustion Pub Date : 2016-11-01 DOI:10.1155/2016/9093428

I Made Suarta, I. Wardana, N. Hamidi, W. Wijayanti

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引用次数: 5

Abstract

The molecular structure of mixed hydrous and anhydrous ethanol with up to 10% v n-heptane had been studied. The burning velocity was examined in a cylindrical explosion combustion chamber. The result showed that the burning velocity of hydrous ethanol is higher than anhydrous ethanol and n-heptane at stoichiometric, rich, and very rich mixtures. The burning velocity of hydrous ethanol with n-heptane drops drastically compared to the burning velocity of anhydrous ethanol with n-heptane. It is caused by two reasons. Firstly, there was a composition change of azeotropic hydrous ethanol molecules within the mixture of fuel. Secondly, at the same volume the number of ethanol molecules in hydrous ethanol was less than in anhydrous ethanol at the same composition of the n-heptane in the mixture. At the mixture of anhydrous ethanol with n-heptane, the burning velocity decreases proportionally to the addition of the n-heptane composition. The burning velocity is between the velocities of anhydrous ethanol and n-heptane. It shows that the burning velocity of anhydrous ethanol mixed with n-heptane is only influenced by the mixture composition.

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氢键对少量加入正庚烷的有水和无水乙醇燃料层流燃烧速度的影响

研究了含10%正庚烷的混合水、无水乙醇的分子结构。在圆柱形爆炸燃烧室中测试了燃烧速度。结果表明，在化学计量、富和极富混合物中，有水乙醇的燃烧速度高于无水乙醇和正庚烷。与无水乙醇的燃烧速度相比，含正庚烷的有水乙醇的燃烧速度明显下降。这是由两个原因造成的。首先，燃料混合物中共沸水乙醇分子的组成发生了变化。其次，在相同体积下，在混合物中相同正庚烷组成下，有水乙醇的乙醇分子数少于无水乙醇。在无水乙醇与正庚烷的混合物中，燃烧速度随着正庚烷组合物的加入成比例地降低。燃烧速度介于无水乙醇和正庚烷的速度之间。结果表明，无水乙醇与正庚烷混合的燃烧速度只受混合物组成的影响。

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

Journal of Combustion ENGINEERING, CHEMICAL-

CiteScore

2.00

自引率

28.60%

发文量

审稿时长

20 weeks