粒径影响改性凹凸棒土抑制甲烷爆炸实验研究

Kaifeng Chen; Ke Yang; Hong Ji; Zhixiang Xing; Juncheng Jiang

粒径影响改性凹凸棒土抑制甲烷爆炸实验研究

Translated title of the contribution: Experimental Study on Inhibition of Methane Explosion by Particle Size

Kaifeng Chen, Ke Yang, Hong Ji, Zhixiang Xing, Juncheng Jiang

Research output: Contribution to journal › Article › peer-review

Abstract

In order to explore the influence of attapulgite powder modified with different particle sizes on methane explosion, a small-size semi-closed visual explosion experimental platform should be built independently. Methane explosion effects of attapulgite powders modified with different particle sizes and without powder spraying were studied when methane concentration was 9.5%. The small particle size powder has the best detonation suppression effect, which reduces the maximum explosive overpressure by 36.05%, delays the occurrence time of the maximum explosive overpressure by 17.5ms, and reduces the peak flame propagation velocity by 24.50% compared with the same period. The video image of the explosion is recorded by the high-speed photographer, and the flame structure, ahead shape, etc. are analyzed.

Translated title of the contribution	Experimental Study on Inhibition of Methane Explosion by Particle Size
Original language	Chinese (Traditional)
Pages (from-to)	1857-1862
Number of pages	6
Journal	Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics
Volume	45
Issue number	6
State	Published - Jun 2024
Externally published	Yes

Cite this

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title = "粒径影响改性凹凸棒土抑制甲烷爆炸实验研究",

abstract = "In order to explore the influence of attapulgite powder modified with different particle sizes on methane explosion, a small-size semi-closed visual explosion experimental platform should be built independently. Methane explosion effects of attapulgite powders modified with different particle sizes and without powder spraying were studied when methane concentration was 9.5%. The small particle size powder has the best detonation suppression effect, which reduces the maximum explosive overpressure by 36.05%, delays the occurrence time of the maximum explosive overpressure by 17.5ms, and reduces the peak flame propagation velocity by 24.50% compared with the same period. The video image of the explosion is recorded by the high-speed photographer, and the flame structure, ahead shape, etc. are analyzed.",

keywords = "methane suppression, modified attapulgite powder, particle size distribution",

author = "Kaifeng Chen and Ke Yang and Hong Ji and Zhixiang Xing and Juncheng Jiang",

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T1 - 粒径影响改性凹凸棒土抑制甲烷爆炸实验研究

AU - Chen, Kaifeng

AU - Yang, Ke

AU - Ji, Hong

AU - Xing, Zhixiang

AU - Jiang, Juncheng

PY - 2024/6

Y1 - 2024/6

N2 - In order to explore the influence of attapulgite powder modified with different particle sizes on methane explosion, a small-size semi-closed visual explosion experimental platform should be built independently. Methane explosion effects of attapulgite powders modified with different particle sizes and without powder spraying were studied when methane concentration was 9.5%. The small particle size powder has the best detonation suppression effect, which reduces the maximum explosive overpressure by 36.05%, delays the occurrence time of the maximum explosive overpressure by 17.5ms, and reduces the peak flame propagation velocity by 24.50% compared with the same period. The video image of the explosion is recorded by the high-speed photographer, and the flame structure, ahead shape, etc. are analyzed.

AB - In order to explore the influence of attapulgite powder modified with different particle sizes on methane explosion, a small-size semi-closed visual explosion experimental platform should be built independently. Methane explosion effects of attapulgite powders modified with different particle sizes and without powder spraying were studied when methane concentration was 9.5%. The small particle size powder has the best detonation suppression effect, which reduces the maximum explosive overpressure by 36.05%, delays the occurrence time of the maximum explosive overpressure by 17.5ms, and reduces the peak flame propagation velocity by 24.50% compared with the same period. The video image of the explosion is recorded by the high-speed photographer, and the flame structure, ahead shape, etc. are analyzed.

KW - methane suppression

KW - modified attapulgite powder

KW - particle size distribution

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M3 - 文章

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SN - 0253-231X

VL - 45

SP - 1857

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JO - Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics

JF - Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics

IS - 6

ER -

粒径影响改性凹凸棒土抑制甲烷爆炸实验研究

Abstract

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