Study on peak overpressure and flame propagation speed of gas deflagration in the tube with obstacles

Jiasong Luo; XiaoLin Wei; Sen Li; LiXin Yu; Yu Zhang; Teng Li; Bo Li

doi:10.1007/s11431-010-3174-6

Study on peak overpressure and flame propagation speed of gas deflagration in the tube with obstacles

Jiasong Luo, XiaoLin Wei, Sen Li, LiXin Yu, Yu Zhang, Teng Li, Bo Li

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

2 Citations (Scopus)

Abstract

The on-way peak overpressure and flame propagation speed of gas deflagration in the tube with obstacles are important data for process safety. Based on carbon monoxide deflagration experiments, the paper presents a multi-zone integration model for calculation of on-way peak overpressure, in which the tube with obstacles is considered as a series of venting explosion enclosures which link each others. The analysis of experimental data indicates that the on-way peak overpressure of gas deflagration can be correlated as an empirical formula with equivalence ratio of carbon monoxide oxidation, expansion ratio, flame path length, etc., and that the on-way peak overpressure exhibits a linear relationship with turbulence factor and flame propagation speed. An empirical formula of flame propagation speed is given.

Original language	English
Pages (from-to)	1847-1854
Number of pages	8
Journal	Science China. Technological Sciences
Volume	53
Issue number	7
DOIs	https://doi.org/10.1007/s11431-010-3174-6
Publication status	Published - 2010

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title = "Study on peak overpressure and flame propagation speed of gas deflagration in the tube with obstacles",

abstract = "The on-way peak overpressure and flame propagation speed of gas deflagration in the tube with obstacles are important data for process safety. Based on carbon monoxide deflagration experiments, the paper presents a multi-zone integration model for calculation of on-way peak overpressure, in which the tube with obstacles is considered as a series of venting explosion enclosures which link each others. The analysis of experimental data indicates that the on-way peak overpressure of gas deflagration can be correlated as an empirical formula with equivalence ratio of carbon monoxide oxidation, expansion ratio, flame path length, etc., and that the on-way peak overpressure exhibits a linear relationship with turbulence factor and flame propagation speed. An empirical formula of flame propagation speed is given.",

author = "Jiasong Luo and XiaoLin Wei and Sen Li and LiXin Yu and Yu Zhang and Teng Li and Bo Li",

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T1 - Study on peak overpressure and flame propagation speed of gas deflagration in the tube with obstacles

AU - Luo, Jiasong

AU - Wei, XiaoLin

AU - Li, Sen

AU - Yu, LiXin

AU - Zhang, Yu

AU - Li, Teng

AU - Li, Bo

PY - 2010

Y1 - 2010

N2 - The on-way peak overpressure and flame propagation speed of gas deflagration in the tube with obstacles are important data for process safety. Based on carbon monoxide deflagration experiments, the paper presents a multi-zone integration model for calculation of on-way peak overpressure, in which the tube with obstacles is considered as a series of venting explosion enclosures which link each others. The analysis of experimental data indicates that the on-way peak overpressure of gas deflagration can be correlated as an empirical formula with equivalence ratio of carbon monoxide oxidation, expansion ratio, flame path length, etc., and that the on-way peak overpressure exhibits a linear relationship with turbulence factor and flame propagation speed. An empirical formula of flame propagation speed is given.

AB - The on-way peak overpressure and flame propagation speed of gas deflagration in the tube with obstacles are important data for process safety. Based on carbon monoxide deflagration experiments, the paper presents a multi-zone integration model for calculation of on-way peak overpressure, in which the tube with obstacles is considered as a series of venting explosion enclosures which link each others. The analysis of experimental data indicates that the on-way peak overpressure of gas deflagration can be correlated as an empirical formula with equivalence ratio of carbon monoxide oxidation, expansion ratio, flame path length, etc., and that the on-way peak overpressure exhibits a linear relationship with turbulence factor and flame propagation speed. An empirical formula of flame propagation speed is given.

UR - http://handle.uws.edu.au:8081/1959.7/537303

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DO - 10.1007/s11431-010-3174-6

M3 - Article

SN - 1674-7321

VL - 53

SP - 1847

EP - 1854

JO - Science China. Technological Sciences

JF - Science China. Technological Sciences

IS - 7

ER -

Study on peak overpressure and flame propagation speed of gas deflagration in the tube with obstacles

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