Using hydraulic fracturing to control caving of the hanging roof during the initial mining stages in a longwall coal min
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ORIGINAL PAPER
Using hydraulic fracturing to control caving of the hanging roof during the initial mining stages in a longwall coal mine: a case study Bingxiang Huang 1 & Qingying Cheng 2 & Xinglong Zhao 1 & Weichao Xue 1 & Malcolm Scoble 3 Received: 6 August 2017 / Accepted: 3 October 2018 # Saudi Society for Geosciences 2018
Abstract Hanging roofs can occur on a very large scale (generally can reach 15,000 m2) during the initial mining stages in longwall coal mining operations and are often a result of hard roof at the active mining face. Besides, when it suddenly fractures and caves, some risks and disasters would occur such as shock loading, wind blasts, and sudden gas extrusion from gob to working face. To control the size and competency of the hanging roof, Φ32-mm fracturing drills can create holes in the roof near the front and back coal walls, and Φ32-mm linear fracturing drills can be used to create holes in the roof at the face ends. The length of these drill holes is 3 to 5 times the height of the mining face and is based upon the principle that the gob should be fully filled with a caved roof to support vertical stresses, as well as the assumption that the brokenexpansion coefficient of the rock is given as an empirical value. Considering the fracture propagation range and the support form of the cut, the drill-hole spacing is set to be between 1 and 2 times the single-hole crack propagation range. Hydraulic fracturing can generate main fractures and wing-shaped branching cracks inside the roof rock and can transform and weaken the roof structure, forming weak fracture plane favorable to roof caving. These fractures cause the roof to cave in a timely and adequate manner under in situ ground pressures. Successful field test in the no. 2 mine of Cuncaota, Shendong group indicated that the propagation range of hydraulic fractures is approximately 4–8 m. When the active face advanced 22.5 m, the roof beyond the hydraulic supports caves entirely, and gradually, the gob is fully filled with the caved roof and is absent of large voids. Thus, hazards such as shock loading, wind blasts, and sudden gas extrusion can be reduced or eliminated. Keywords Opening cut . Hard roof . Hanging roof . Hydraulic fracturing . Caving
Introduction A common challenge in coal mines across China is the occurrence of hard roofs that have high strength, large thickness, strong integrity, and undeveloped joint fissures. These roofs do not cave easily which create issues with ground stresses and pressures at the longwall mining face, particularly in the early mining stages because of the relatively small hanging
* Qingying Cheng [email protected] 1
State Key Laboratory of Coal Resources and Safe Mining, China University of Mining and Technology, Xuzhou 221116, China
2
School of Safety Engineering, China University of Mining and Technology, Xuzhou 221116, China
3
Norman B. Keevil Institute of Mining Engineering, University of British Columbia, Vancouver, BC V6T 1Z4, Canada
area. The roof support system, that is, commo
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