Secondary Explosion Characteristics and Chemical Kinetics of CH<sub>4</sub>/Air Induced by a High-Temperature Surface

Wang, Haiyan; Zhang, Lei; Wei, Na; Wang, Jia; Hu, Jun; He, Sheng; Zhang, Jia; Zhang, Jiale

doi:10.1021/acs.chas.3c00048

ACS Chem. Health Saf.

2023

DOI: 10.1021/acs.chas.3c00048

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Secondary Explosion Characteristics and Chemical Kinetics of CH₄/Air Induced by a High-Temperature Surface

Haiyan Wang,

Lei Zhang,

Na Wei

et al.

Abstract: The gas explosion induced by the high-temperature surface of coal spontaneous combustion in goaf will cause a devastating blow to personnel and equipment in the process of coal mining. Secondary explosion may be induced by the high-temperature surface of coal spontaneous combustion after primary explosion with the continuous emission of gas and the ventilation of goaf. This will lead to new disasters for the ongoingrescue operation. A high-temperature source explosion experimental system consistent with the si… Show more

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2024

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The Influence of the Fire Point on the Thermal Dynamic Disaster in the Goaf

Chen,

Song,

Zhang

2024

Fire

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A thermal dynamic disaster in the goaf is one of the most serious coal mine disasters formed by coal spontaneous combustion and gas interweaving. However, the influence of the high-temperature hidden fire source formed in the goaf on the evolution law of thermal dynamic disasters is not clear, and effective prevention and control measures cannot be taken. Therefore, this paper uses the experimental platform of thermal dynamic disaster in the goaf to study the influence of different fire point positions on the development of thermal dynamic disaster in the goaf through a similar simulation experiment of thermal dynamic disaster evolution in the goaf and analyzes the corresponding relationship between temperature and CO concentration in the upper corner. The results show that under different locations of heat source, the high-temperature heat source of coal spontaneous combustion migrates to the air leakage side with sufficient oxygen supply, and an oxygen-poor circle is formed near the ignition point. Under the action of air leakage flow, CH4 accumulates in the deep part of the goaf on the return air side. Due to the increase in coal, part of CH4 is produced, which leads to the increase in concentration of CH4 at the ignition point. Under the action of different heat sources, the changing trend of concentration of CO and temperature in the return air corner is the same, but the temperature change in the return air corner shows a lag compared with the change in the concentration of CO, so concentration monitoring of CO can reflect the evolution process of the fire field in the goaf more quickly than temperature monitoring.

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The Influence of the Fire Point on the Thermal Dynamic Disaster in the Goaf

Chen,

Song,

Zhang

2024

Fire

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show abstract

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Secondary Explosion Characteristics and Chemical Kinetics of CH₄/Air Induced by a High-Temperature Surface

Cited by 1 publication

References 54 publications

The Influence of the Fire Point on the Thermal Dynamic Disaster in the Goaf

The Influence of the Fire Point on the Thermal Dynamic Disaster in the Goaf

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Secondary Explosion Characteristics and Chemical Kinetics of CH4/Air Induced by a High-Temperature Surface

Cited by 1 publication

References 54 publications

The Influence of the Fire Point on the Thermal Dynamic Disaster in the Goaf

The Influence of the Fire Point on the Thermal Dynamic Disaster in the Goaf

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Product

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Secondary Explosion Characteristics and Chemical Kinetics of CH₄/Air Induced by a High-Temperature Surface