Investigation on Surrounding Rock Stability Control Technology of High Stress Roadway in Steeply Dipping Coal Seam

Liu, Honglin; Chen, Xu; Wang, Hongzhi; Li, Guodong; Fan, Sanyang

doi:10.1155/2021/5269716

Cited by 5 publications

(1 citation statement)

References 16 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The relationship between the wave velocity of the gas explosion wave in the coal and the electric field velocity is shown in the following equation:

where V is the velocity of the wavefront particle; a and b are experimentally measured values, respectively [ 15 ].…”

Section: Methodsmentioning

confidence: 99%

Blasting Law of Liquid CO2 Phase Change in Coal Mine Based on Numerical Simulation

Fang

2022

International Journal of Analytical Chemistry

View full text Add to dashboard Cite

In order to obtain the best CO2 blasting drilling efficiency and improve the gas permeability coefficient of the coal seam in the mining area, a research method of liquid CO2 phase change blasting in the coal seam based on electrochemical numerical simulation is proposed. In this paper, the electrochemical numerical simulation of coalbed methane caused by liquid CO2 phase change blasting is studied through theoretical analysis, the antireflection mechanism of liquid carbon dioxide gas explosion on broken coal seam is obtained, and the initial fracture length of coal body caused by gas explosion stress wave is deduced by the mathematical model. A method for improving CBM desorption with nonmechanical coal was proposed, namely, a method for electrochemically strengthening CBM desorption. A comprehensive theory and application system of liquid carbon dioxide phase change gas explosion and anti-reflection technology are established by combining theoretical analysis, experimental research, and numerical simulation with field industrial comparative experiment. According to the gas tracing method, the precise measurement of the working face shows that the impact radius of the collision caused by the explosion of the liquid carbon dioxide phase change gas is 2 m. Gas emissions increased the emissions of coal seam drilling in the affected areas by 4 to 8 times, and the gas emission attenuation coefficient decreased from 0.76 times to 0.93 times. The carbon dioxide phase change gas cracking theory and antireflection theory and their application technology system are systematically studied. The research shows that the liquid carbon dioxide phase transfer gas blasting and infiltration technology is not limited by the geological conditions of the coal seam and has the characteristics of high efficiency and inherent climate. In view of the wide area of coal mines and the harsh geological conditions of coal seams, carbon dioxide phase change gas-induced cracking antireflection technology has application prospects and expandability.

show abstract

“…The relationship between the wave velocity of the gas explosion wave in the coal and the electric field velocity is shown in the following equation:

where V is the velocity of the wavefront particle; a and b are experimentally measured values, respectively [ 15 ].…”

Section: Methodsmentioning

confidence: 99%

Blasting Law of Liquid CO2 Phase Change in Coal Mine Based on Numerical Simulation

Fang

2022

International Journal of Analytical Chemistry

View full text Add to dashboard Cite

show abstract

Nondestructive testing on cumulative damage of watery fractured rock mass under multiple cycle blasting

Liu

Tang

Cao

et al. 2021

Engineering Fracture Mechanics

View full text Add to dashboard Cite

Effect of Strong Mining on the Fracture Evolution Law of Trick Rise in the Mining Field and Its Control Technology

Wang

Ding

2022

Geofluids

View full text Add to dashboard Cite

This study investigates the law of stress field and fracture field of the surrounding rock at the trick rise of the mining area affected by strong mining. It is found that as the working face continues to approach, large-scale cracks occur in the surrounding rock on the track rise. In particular, when the working face crosses the track rise, the equivalent stress τ oct concentration area expands, gradually intersecting with the surrounding rock concentration area of the roadway. It indicates that the working face advancement caused a dramatic change in the stress field of the roadway envelope, which will have an immediate adverse effect on the track rise. With comprehensive support costs, economic efficiency, and other factors, the working face will no longer cross the track rise, and the stopping line is roughly controlled at -20 m so that the track rise can serve other working faces for a long time. The reinforcement support scheme of “anchor mesh spray + grouting anchor” is proposed for the key areas such as arch shoulder. Through the analysis of the field monitoring of the roadway surface displacement, the deformation of the roadway surrounding rock showed a change trend of increasing first and then stabilizing with time, which indicates that the support effect was good and greatly improved the stability and safety of the roadway.

show abstract

Investigation on Surrounding Rock Stability Control Technology of High Stress Roadway in Steeply Dipping Coal Seam

Cited by 5 publications

References 16 publications

Blasting Law of Liquid CO2 Phase Change in Coal Mine Based on Numerical Simulation

Blasting Law of Liquid CO2 Phase Change in Coal Mine Based on Numerical Simulation

Nondestructive testing on cumulative damage of watery fractured rock mass under multiple cycle blasting

Effect of Strong Mining on the Fracture Evolution Law of Trick Rise in the Mining Field and Its Control Technology

Contact Info

Product

Resources

About