Abstract
The development of cracks in mining is the scientific basis for the safety and environmental exploitation of shallow multiple-seam. According to the “thickness of coal seam, interactive distance, and buried depth,” four mining coal mines are selected in Shen Fu-Dong Sheng coalfield (SFDSC). To research the mining conditions of shallow coal seam under different base-load ratio mining conditions and different working faces by the physics simulation and in-sit measurement, the key roof caves are sketched by different colors. This study shows that the typical shallow coal seams in the thin overlying bedrock and thick loose sand layer (LSL) as well as the development of the setup entry cracks (SEC) is dominated by LSL arch damage. The surface cracks are almost directly above the setup entry. The flat seam mining and the SEC development is dominated by parabolic type. The surface cracks are located inside the setup entry. With the mining height increased typically in a shallow coal seam, the rate of crack development and the extent of damaged area increased significantly. The SEC and boundary cracks are fixed. The dynamic periodic cracks (DPC) show the ability of the strata to self-repair. During the multiple-seam mining, the above three kinds of cracks have the phenomenon of activation and development. Through the reasonable coal pillar distance arrangement, the development of boundary cracks can be effectively controlled and the relatively uniform surface settlement and crack closure can be achieved. The purpose of reducing damage mining can also be achieved. Furthermore, it provides scientific support for the green mining in the shallow coal seam.
Highlights
The Jurassic coalfield is located in northern Shen Fu-Dong Sheng coalfield (SFDSC)
In adifferent typicaltypes shallow coal seam, the development of setup entry cracks (SEC) are dominated, seam,for it was of shallow coal seam mining have different development which leads to the failure of the loose sand layer (LSL)-like arch
Structure parabolic damage, and the surface crack is located inside the setup entry
Summary
The Jurassic coalfield is located in northern SFDSC. The seams are generally characterized by shallow depth, is nearly horizontal, and has three to four workable coal seams. [20] conducted a large-scale three-dimensional physical similarity simulation conducted in-depth on the distribution characteristics and development of subsidence ground experiment in order to explore the development mechanism of Xi’an ground fissure, which provided cracks in shallow coal seam. Hu et al pointed out the impact of mining on the surface environment is some enlightening significance for the mining engineering physical similarity simulation experiment mainly subsided ground cracks and the edge cracks are the focus of restoration. Study on the secondary development law of cracks in multiple-seam mining, and the synergy between underground and ground, and providing technical support for the dynamic study cracking field of repeated mining overburden is revealed. Based on a large number of physical similarity simulation experiments, the law of crack evolution in shallow single coal seam under different base-load ratio mining conditions is investigated. The coupling mechanism of surface cracks provides a scientific basis for the safe and environmentally-friendly mining in shallow coal seam
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
