Influence of Mining Thickness on the Rationality of Upward Mining in Coal Seam Group

• Main Authors: Y. Li, S. Zhang, Z. Q. Yin, W. R. Liu, C. M. Li, C. Wang
• Format: Article
• Language: English
• Published: Eastern Macedonia and Thrace Institute of Technology 2016-04-01
• Series: Journal of Engineering Science and Technology Review
• Subjects: Coal seam group; Upward mining; Initial mining thickness; Destruction influence; Pressure relief effect
• Online Access: http://www.jestr.org/downloads/Volume9Issue2/fulltext4922016.pdf

This study aimed to determine the influence of mining thickness on the rationality of upward mining in coal seam group. Numerical simulation and theoretical analysis were performed to investigate the influence of the mining thicknesses of initial mining seam on the destruction and pressure relief effect of the upper coal seam in a high-gas coal seam group. The mechanical model of the roof failure based on the mining thickness was established by assuming that the gob formed after adjacent panels have fully been caved is the infinite plane. On the basis of this model, an equation was derived to calculate the roof failure height of the panel. Considering the geological conditions of No. 9 and No. 12 coal seams of Zhaogezhuang Coal Mine, economic effectiveness, and proposed techniques, we concluded that the top layer (4 m) of the No. 12 coal seam should be mined first. The top layer of the No. 9 coal seam should be subsequently mined. The topcaving technique was applied to the exploitation of the lower layer of the No. 12 coal seam. Practically monitored data revealed that the deformation and failure of the No. 2699 panel roadway was small and controllable, the amount of gas emission was reduced significantly, and the effect of upward mining was active. The results of this study provide theory basics for mine designing, and it is the provision of a reference for safe and efficient coal exploitation under similar conditions.