Details
Title
Research on Application of Strip Backfilling Mining Technology – A Case StudyJournal title
Archives of Mining SciencesYearbook
2021Volume
vol. 66Issue
No 4Affiliation
Xing, Wenbin : Shandong University of Science and Technology, China ; Huang, Wanpeng : Shandong University of Science and Technology, China ; Feng, Fan : Shandong University of Science and Technology, ChinaAuthors
Keywords
coal gangue ; strip backfilling mining ; numerical simulation ; scheme design ; construction technologyDivisions of PAS
Nauki TechniczneCoverage
595-609Publisher
Committee of Mining PASBibliography
[1] E.H. Bai, W.B. Guo, Y. Tan, et al., Green coordination mining technology of “retaining and filling road filling method”. Journal of China Coal Society 43 (S1), 21-27 (2018).[2] D .A. Landriault, R.E. Brown, D.B. Counter, Paste backfill study for deep mining at kidd creek. CIM Bulletin 93 (1036), 156-161 (2000).
[3] J.L. Xu, Q. You, W.B. Zhu, et al., Theoretical study on mining subsidence by strip filling. Journal of China Coal Society 02, 119-122 (2007).
[4] J. Palarski, The experimental and practical results of appling backfill. Innovations in Montreal, 33-37 (1989).
[5] J.L. Xu, W.B. Zhu, X.S. Li, et al., Study on partial filling mining technology for controlling coal mining subsidence. Journal of Mining and Safety Engineering (01), 6-11 (2006).
[6] Y .L. Tan, X.S. Liu, J.G. Ning, et al., In situ investigations on failure evolution of overlying strata induced by mining multiple coal seams [J]. Geotechnical Testing Journal 40 (2), 244-257 (2017).
[7] Y .C. Yin, T.B. Zhao, Y.B. Zhang, et al., An Innovative Method for Placement of Gangue Backfilling Material in Steep Underground Coal Mines [J]. Minerals 9, 107 (2019).
[8] G .C. Zhang, S.J. Liang, Y.L. Tan, et al., Numerical modeling for longwall pillar design: A case study from a typical longwall panel in China [J]. Journal of Geophysics and Engineering 15 (1), 121-134 (2018).
[9] J. Trckova, J. Sperl, Reduction of surface subsidence risk by fly ash exploitation as filling material in deep mining areas. Natural Hazards 53 (2), 251-258 (2010).
[10] J.R. Liu, W.P. Huang, Z.P. Guo, et al., Pumping cemented coal gangue strip filling system in goaf and its application. Coal Technology 35 (12), 16-18 (2016).
[11] W.Y. Guo, Y.L. Tan, F.H. Yu, et al., Mechanical behavior of rock-coal-rock specimens with different coal thicknesses [J]. Geomechanics and Engineering 15 (4), 1017-1027 (2018).
[12] X.S. Liu, Y.L. Tan, J.G. Ning, et al., Mechanical properties and damage constitutive model of coal in coal-rock combined body [J]. International Journal of Rock Mechanics and Mining Sciences 110, 140-150 (2018).
[13] K. Zhong, Research on filling mining technology and parameters of Fuyang Coal Mine. Xi’an University of Science and Technology (2018).
[14] W.P. Huang, C. Li, L.W. Zhang, et al., In situ identification of water-permeable fractured zone in overlying composite strata [J]. International Journal of Rock Mechanics and Mining Sciences 105, 85-97 (2018).
[15] Y .L. Tan, Q.H. Gu, J.G. Ning, et al., Uniaxial compression behavior of cement mortar and its damage-constitutive model based on energy theory [J]. Materials 12, 1309 (2019). DOI: https://doi.org/10.3390/ma12081309
[16] J. Wang, J.G. Ning, J.Q. Jiang, et al., Structural characteristics of strata overlying of a fully mechanized longwall face: a case study [J], Journal of the Southern African Institute of Mining and Metallurgy 118, 1195-1204 (2018).
[17] Q. Yao, Study on segmental filling of fully mechanized mining in steeply inclined coal seam and its rock stratum control. Hunan University of Science and Technology, (2017).
[18] W.P. Huang, Q. Yuan, Y.L. Tan, et al., An innovative support technology employing a concrete-filled steel tubular structure for a 1000-m-deep roadway in a high in situ stress field [J]. Tunnelling and Underground Space Technology 73, 26-36 (2018).
[19] J.G. Ning, J. Wang, J.Q. Jiang, et al., Estimation of crack initiation and propagation thresholds of confined brittle coal specimens based on energy dissipation theory [J]. Rock Mechanics and Rock Engineering 51, 119-134 (2018).
[20] J.W. Bai, R.T. Liu, Y.J. Jiang, et al., The deformation of surrounding rock and the regulation law of confined water in strip filling and displacement mining. Journal of Mining and Safety Engineering 35 (02), 35-42 (2018).
[21] X.K. Sun, W. Wang, Theoretical study on high-water materials filling and replacement mining pressure-bearing water strip coal pillars. Journal of China Coal Society 36 (06), 909-913 (2011).
[22] T.B. Zhao, W.Y. Guo, Y.L. Tan, Y.C. et al., Case studies of rock bursts under complicated geological conditions during multi-seam mining at a depth of 800m [J]. Rock Mechanics and Rock Engineering 51, 1539-1564 (2018).
[23] X.J. Deng, Research on the control mechanism of overlying strata movement in the thick-layered longwall roadway cementing filling in extra-thick coal seams. China University of Mining and Technology, (2017).
[24] B . Lu, X.G. Zhang, F. Li, et al., Technology and application of cement-filled mining with short-walled gangue. Journal of China Coal Society 42 (S1), 7-15 (2017).
[25] H. Wadi, S. Amziane, E. Toussaint, et al., Lateral load-carrying capacity of hemp concrete as a natural infill material in timber frame walls. Engineering Structures 180 (2019).
[26] Jiang Bang-you, Gu Shi-tan, Wang Lian-guo, et al., Strainburst process of marble in tunnel-excavation-induced stress path considering intermediate principal stress [J]. Journal of Central South University 26 (4), 984-999 (2019).
[27] W.P. Huang, W.B. Xing, S.J. Chen, et al., Experimental study on sedimentary rock’s dynamic characteristics under creep state using a new type of testing equipment [J]. Advances in Materials Science and Engineering (2017).
[28] G .Z. Lu, J.Q. Tang, Z.Q. Song, Analysis of the difference between the periodic step and the periodic step of the transfer rock beam. Chinese Journal of Geotechnical Engineering 32 (04), 538-54 1(2010).
[29] Z.P. Guo, W.P. Huang, Parameter optimization and stability analysis of sloping strip filling. Journal of China Coal Society 36 (02), 234-238 (2011).
[30] D .W. Yin, S.J. Chen, X.Q. Liu, et al., Effect of joint angle in coal on failure mechanical behavior of roof rock-coal combined body. Q. J. Eng. Geol. Hydroge. 51 (2), 202-209 (2018).