Shock-Tube Study of the Autoignition of n-Butane/Hydrogen Mixtures

Xue Jiang; Youshun Pan; Wuchuan Sun; Yang Liu; Zuohua Huang

doi:10.1021/acs.energyfuels.7b02423

Shock-Tube Study of the Autoignition of n-Butane/Hydrogen Mixtures

Xue Jiang
, Youshun Pan
, Wuchuan Sun
, Yang Liu
, Zuohua Huang

能源与动力工程学院

Xi'an Jiaotong University

科研成果: 期刊稿件 › 文章 › 同行评审

23 引用（Scopus）

摘要

Shock-tube measurements and a kinetic study on the autoignition of hydrogen/n-butane blends were carried out. The Aramco2.0 model was employed in numerical simulation; this model can well capture the autoignitions of the hydrogen/n-butane blends under all test conditions. The pressure dependence, equivalence dependence, and influence of blending of the autoignitions for pure hydrogen, pure n-butane, and the hydrogen/n-butane binary mixture have been studied. A negative pressure dependence of autoignition delay is obtained at the intermediate and low temperatures for the hydrogen and lean X_H₂ = 98% mixture. The autoignition of n-butane can be nonlinearly enhanced by hydrogen addition. The autoignition of hydrogen was insensitive to the equivalence ratio, but ignitions of the n-butane and binary blends became longer with the rising fuel concentration. The ignition chemistry of hydrogen and n-butane was interpreted.

源语言	英语
页（从-至）	809-821
页数	13
期刊	Energy and Fuels
卷	32
期	1
DOI	https://doi.org/10.1021/acs.energyfuels.7b02423
出版状态	已出版 - 18 1月 2018

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10.1021/acs.energyfuels.7b02423

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abstract = "Shock-tube measurements and a kinetic study on the autoignition of hydrogen/n-butane blends were carried out. The Aramco2.0 model was employed in numerical simulation; this model can well capture the autoignitions of the hydrogen/n-butane blends under all test conditions. The pressure dependence, equivalence dependence, and influence of blending of the autoignitions for pure hydrogen, pure n-butane, and the hydrogen/n-butane binary mixture have been studied. A negative pressure dependence of autoignition delay is obtained at the intermediate and low temperatures for the hydrogen and lean XH2 = 98\% mixture. The autoignition of n-butane can be nonlinearly enhanced by hydrogen addition. The autoignition of hydrogen was insensitive to the equivalence ratio, but ignitions of the n-butane and binary blends became longer with the rising fuel concentration. The ignition chemistry of hydrogen and n-butane was interpreted.",

author = "Xue Jiang and Youshun Pan and Wuchuan Sun and Yang Liu and Zuohua Huang",

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T1 - Shock-Tube Study of the Autoignition of n-Butane/Hydrogen Mixtures

AU - Jiang, Xue

AU - Pan, Youshun

AU - Sun, Wuchuan

AU - Liu, Yang

AU - Huang, Zuohua

PY - 2018/1/18

Y1 - 2018/1/18

N2 - Shock-tube measurements and a kinetic study on the autoignition of hydrogen/n-butane blends were carried out. The Aramco2.0 model was employed in numerical simulation; this model can well capture the autoignitions of the hydrogen/n-butane blends under all test conditions. The pressure dependence, equivalence dependence, and influence of blending of the autoignitions for pure hydrogen, pure n-butane, and the hydrogen/n-butane binary mixture have been studied. A negative pressure dependence of autoignition delay is obtained at the intermediate and low temperatures for the hydrogen and lean XH2 = 98% mixture. The autoignition of n-butane can be nonlinearly enhanced by hydrogen addition. The autoignition of hydrogen was insensitive to the equivalence ratio, but ignitions of the n-butane and binary blends became longer with the rising fuel concentration. The ignition chemistry of hydrogen and n-butane was interpreted.

AB - Shock-tube measurements and a kinetic study on the autoignition of hydrogen/n-butane blends were carried out. The Aramco2.0 model was employed in numerical simulation; this model can well capture the autoignitions of the hydrogen/n-butane blends under all test conditions. The pressure dependence, equivalence dependence, and influence of blending of the autoignitions for pure hydrogen, pure n-butane, and the hydrogen/n-butane binary mixture have been studied. A negative pressure dependence of autoignition delay is obtained at the intermediate and low temperatures for the hydrogen and lean XH2 = 98% mixture. The autoignition of n-butane can be nonlinearly enhanced by hydrogen addition. The autoignition of hydrogen was insensitive to the equivalence ratio, but ignitions of the n-butane and binary blends became longer with the rising fuel concentration. The ignition chemistry of hydrogen and n-butane was interpreted.

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Shock-Tube Study of the Autoignition of n-Butane/Hydrogen Mixtures

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