2019
DOI: 10.1002/ese3.542
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Study of the influence of the characteristics of loose residual coal on the spontaneous combustion of coal gob

Abstract: Mine fires are becoming a serious issue as the intensity of mining increases, especially in deep mines. Loose coal gob has a hidden ignition location and a high possibility of spontaneous combustion, which makes fire prevention difficult. Therefore, based on the theory of gas seepage and the characteristics of loose coal, a model of air leakage and spontaneous combustion in gob is established in this paper. Using working face #10414 in the Yangliu coal mine as an example, the relationship between the three spo… Show more

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Cited by 16 publications
(10 citation statements)
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“…The study of spontaneous combustion, together with the rockmass characteristics, has been investigated as well [31]. The influence of residual coal in the gob and the rockmass characteristics are crucial for potential fires in this area, influencing the mixture of waste with coal and the airflow leakages [32].…”
Section: Mine Fires In Undergorund Coal Minesmentioning
confidence: 99%
“…The study of spontaneous combustion, together with the rockmass characteristics, has been investigated as well [31]. The influence of residual coal in the gob and the rockmass characteristics are crucial for potential fires in this area, influencing the mixture of waste with coal and the airflow leakages [32].…”
Section: Mine Fires In Undergorund Coal Minesmentioning
confidence: 99%
“…20,38,39 The development and prevention of spontaneous combustion in gobs also involve multifield coupling problems that include underground fissure fields, flow fields, oxygen concentration fields, and temperature fields. [40][41][42][43][44][45] In this research, the 3D coupling model of coal spontaneous combustion in a fully mechanized caving face was established based on the following basic assumptions: (a) Each component of the mixture gas in the gob was treated as an ideal gas and its flow diffusion was approximated as a stable process. (b) The residual coal and the rock mass in the gob were regarded as continuous and isotropic porous media.…”
Section: Basic Assumptionsmentioning
confidence: 99%
“…The spontaneous combustion of coal originates from a series of complex physical and chemical reactions after the coal is exposed to air 20,38,39 . The development and prevention of spontaneous combustion in gobs also involve multifield coupling problems that include underground fissure fields, flow fields, oxygen concentration fields, and temperature fields 40‐45 …”
Section: Mathematical Modelmentioning
confidence: 99%
“…Coal is a very important energy and chemical raw material, but in the actual production process, mine fires seriously restrict the development and utilization of coal resources in our country. In recent years, although the level of colliery fire prevention technology has been greatly improved, the situation of mine fire prevention and control is still severe. Compared with other fire-fighting technologies (grouting, gel, foam, pressure equalization, etc. ), inert gas injection for fire extinguishment technology has the advantages of simple operation, wide application range, and little impact on mine machinery and equipment, so it is widely used in colliery, while CO 2 and N 2 are commonly used inert gases.…”
Section: Introductionmentioning
confidence: 99%