Abstract
II946 working face of Luling Coal Mine in Huaibei Coal Industruy Group was taken as research background to study the problems of roadway driven in stable coal bodies along the gob with a narrow pillar reserved. The position of the main roof fracture line in the gob was calculated through theory. The coal pillar mechanics model under the condition of large mining height was established and used to calculate the theoretical width of the narrow coal pillar. The side abutment pressure of the gob and the stress distribution and deformation characteristics of the narrow coal pillar of different widths were studied through FLAC3D numerical calculation and the reasonable width of the narrow coal pillar was obtained as 4 m. The deformation characteristics and failure laws of the surrounding rock of the gob-side entry in a fully mechanized caving face with large mining height were analyzed, and the support scheme was designed for the gob-side entry in large mining height. The stress and deformation laws of the surrounding rock and supporting structure of gob-side entry were analyzed by FLAC3D numerical simulation. Lastly the support results showed that the support scheme was reasonable and can ensure the stability of roadway.
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References
Di S, Wang JR, Song GJ (2017) Theoretical study on roof movement and abutment pressure distribution of longwall panel with 85 m mining height. J China Coal Soc 42(09):2254–2261
Ding H, Mine BC (2019) Law of overlying strata movement in large mining height working face of bulianta coal mine. J Saf Coal Min 50(12):179–183
Feng JC, Ma NJ, Zhao ZQ et al (2014) Width of narrow coal pillar of roadway driving along goaf at large height mining face in deep mine. J Min Safety Eng 31(04):580–586
Guo WB, Yu XY, Zhao BC, Lei WL (2016) Experimental research on catastrophic mechanism of overburden strata with high excavation height in high tectonic stress zone. J Min Safety Eng 33(06):1058–1064
Hu DC, Zhang B, Shen B et al. (2017) Quantitative study on rational width of section coal pillar in large mining height working face. J Shandong Univ Sci Technol (Natural Science) 35(03):32–37
Huang QX, Tang PF (2017) Roof structure analysis on large mining height longwall face in shallow coal seam. J Min Safety Eng 34(02):282–286
Kong DZ, Liu Y, Liu QZ (2018) Study of coal face failure mechanism of a large-cutting-height mining face. Chin J Rock Mechan Eng 37(S1):3458–3469
Li GJ (2019) Research on reasonable coal pillar width and support technology for dynamic fully-mechanized caving roadway along gob. D Anhui Univ Sci Technol
Li L, Bi JB, WANG XY (2012) Reasonable position and control technology of gob side entry driving in fully mechanized top coal caving. J China Coal Soc 37(09):1564–1569
Lin HS, Zhang GH, Pu WL (2009) Research on the laws of strata behavior in the large mining height fully-mechanized face and control technologies for surrounding rocks. J Shandong Coal Sci Technol (02):135–137
Liu J, Zhang S (2019) Study on reasonable coal pillar width of return airway sideway roadways in large mining height working face. J Shanxi Coking Coal Sci Technol 43(04):19–23
Luo SH, Wu YP, Liu KZ et al (2018) Asymmetric load and instability characteristics of coal wall at large mining height fully-mechanized face in steeply dipping seam. J China Coal Soc 43(07):1829–1836
Ming Z, Shuai Z, Yong C (2017) Reasonable width of narrow coal pillar of gob-side entry driving in large mining height. IOP Conf 59:012025
Pang YH, Wang GF, Ren HW (2019) Multiple influence factor sensitivity analysis on coal wall spalling of workface with large mining height. J Min Safety Eng 36(04):736–745
Qu B (2019) Study on the law of initial pressure in large mining height pseudo-inclined fully mechanized face influenced by faults. J Shanxi Chemical Industry 39(02):91–92
Sun ZG, Gou Y, Lin Y et al. (2017) Optimization design of coal pillar at large mining height fully-mechanized working face in Chahasu Coal Mine. J China Energy Environ Protect 1:35–938
Sun ZY, Lin J, Wang ZY et al. (2019) Research on localized roof falling mechanism of bolt supporting roadway in large mining height working face. J Coal Sci Technol 47(04):78–82
Wang CB, Li JZ, Li Q et al. (2017) Principle and control technology of coal wall spalling of super length working face with large mining height in deep. J Coal Min Technol 22(02):56–60
Wen ZJ, Xing ER, Shi SS, Jiang YJ (2019) Overlying strata structural modeling and support applicability analysis for large mining-height stopes. J Loss Prev Process Ind 57:94–100
Yue SS, Xie SR, Chen DD et al (2017) Research on surrounding rocks control of narrow pillar with high-intensity fully-mechanized top coal caving mining in 15 m ultra-thick coal seam. J Min Safety Eng 34(05):905–913
Zhao YX, Ling CW, Liu B, He X (2021) Fracture evolution and energy dissipation of overlying strata in shallow-buried underground mining with ultra-high working face. J Min Safety Eng 38(01):9–18
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This study was supported by National Natural Science Foundation of China (51874002, 51774012, 51774008). The financial supports are greatly appreciated.
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Wang, Y., Li, Y., Yu, Z. et al. Research on the Surrounding Rock Control Technology of Gob-Side Entry with a Narrow Coal Pillar Reserved in a Fully Mechanized Caving Face with Large Mining Height. Geotech Geol Eng 40, 285–300 (2022). https://doi.org/10.1007/s10706-021-01880-2
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DOI: https://doi.org/10.1007/s10706-021-01880-2