This work is licensed under the Creative Commons Attribution 4.0 International License.
P.M.V. Nguyen, Z. Niedbalski, Numerical modelling of open pit (OP) to underground (UG) transition in coal mining. Studia Geotechnica et Mechanica. 38 (3), 35–48 (2016), DOI: 10.1515/sgem-2016-0023.NguyenP.M.V.NiedbalskiZ.Numerical modelling of open pit (OP) to underground (UG) transition in coal miningStudia Geotechnica et Mechanica3833548201610.1515/sgem-2016-0023Open DOISearch in Google Scholar
W.F. Visser, Optimization of the OP/UG Transition. Development of a Software Tool for Optimization of the Transition Depth and the Open Pit Slope Angle – Main report. Technische Universiteit Delft (2006).VisserW.F.Optimization of the OP/UG Transition. Development of a Software Tool for Optimization of the Transition Depth and the Open Pit Slope Angle – Main reportTechnische Universiteit Delft2006Search in Google Scholar
P.M.V. Nguyen, Optimization of crown pillar in transition from open pit to underground for the Quang Ninh coal basin, Vietnam. Ph.D. diss., AGH University of Science and Technology, KraKow (2017) (in Polish).NguyenP.M.V.Optimization of crown pillar in transition from open pit to underground for the Quang Ninh coal basin, VietnamPh.D. diss.,AGH University of Science and TechnologyKraKow2017(in Polish).Search in Google Scholar
S.S. Peng, H.S. Chiang, Longwall Mining, John Wiley and Sons, Inc., New York (1984).PengS.S.ChiangH.S.Longwall MiningJohn Wiley and Sons, Inc.New York1984Search in Google Scholar
A. Moss, S. Diachenko, P. Townsend, Interaction between the Block Caving and the pit slope at Palabora mine. The South African Institute of Mining and Metallurgy. International Symposium, Stability of rock slopes in open pit mining and civil engineering situations (2006).MossA.DiachenkoS.TownsendP.Interaction between the Block Caving and the pit slope at Palabora mineThe South African Institute of Mining and Metallurgy. International Symposium, Stability of rock slopes in open pit mining and civil engineering situations2006Search in Google Scholar
A.D. Campbell, E. Mu, C.R. Lilley, Cave propagation and open pit interaction at the Ernest Henry mine. Seventh international conference and exhibition on mass mining, Sydney (2016).CampbellA.D.MuE.LilleyC.R.Cave propagation and open pit interaction at the Ernest Henry mineSeventh international conference and exhibition on mass miningSydney2016Search in Google Scholar
D.A. Diaz, M.G. Schellman, Geomechanical status and action plans for interaction between Andina subsidence crater and Los Bronces open pit, in PM Dight (ed.), Proceedings of the First Asia Pacific Slope Stability in Mining Conference, Australian Centre for Geomechanics, Perth. 613–628 (2016), DOI: 10.36487/ACG_rep/1604_41_Diaz.DiazD.A.SchellmanM.G.Geomechanical status and action plans for interaction between Andina subsidence crater and Los Bronces open pitinDightPM(ed.),Proceedings of the First Asia Pacific Slope Stability in Mining ConferenceAustralian Centre for Geomechanics, Perth613628201610.36487/ACG_rep/1604_41_DiazOpen DOISearch in Google Scholar
H. Peng, Q. Cai, W. Zhou, J. Shu, G. Li, Study on Stability of Surface Mine Slope Influenced by Underground Mining below the Endwall Slope. Procedia Earth and Planetary Science. 2: 7–13 (2011), DOI: 10.1016/j.proeps.2011.09.002.PengH.CaiQ.ZhouW.ShuJ.LiG.Study on Stability of Surface Mine Slope Influenced by Underground Mining below the Endwall SlopeProcedia Earth and Planetary Science2713201110.1016/j.proeps.2011.09.002Open DOISearch in Google Scholar
D. Payne, M. Martin, B. Coutts, D. Lynch, Highwall stability implications from longwall mining at Broadmeadow mine, in Naj Aziz and Bob Kininmonth (eds.), Proceedings of the 2019 Coal Operators Conference, Mining Engineering, University of Wollongong, 91–102 (2019).PayneD.MartinM.CouttsB.LynchD.Highwall stability implications from longwall mining at Broadmeadow mineinAzizNajKininmonthBob(eds.),Proceedings of the 2019 Coal Operators ConferenceMining Engineering, University of Wollongong911022019Search in Google Scholar
P.P. Bahuguna, A.M.C. Srivastava, N.C. Saxena, A critical review of mine subsidence prediction methods. Min. Sci. Technol. 13(3): 369–382 (1991), DOI: 10.1016/0167-9031(91)90716-P.BahugunaP.P.SrivastavaA.M.C.SaxenaN.C.A critical review of mine subsidence prediction methodsMin. Sci. Technol.133369382199110.1016/0167-9031(91)90716-POpen DOISearch in Google Scholar
G. Brauner, Subsidence due to underground mining. US Bur. Mines Rep., IC 8571 (1973).BraunerG.Subsidence due to underground miningUS Bur. Mines Rep., IC 85711973Search in Google Scholar
B.N. Whittaker, D.J. Reddish, Subsidence: Occurrence, Prediction and Control. Elsevier, Amsterdam (1989).WhittakerB.N.ReddishD.J.Subsidence: Occurrence, Prediction and ControlElsevierAmsterdam1989Search in Google Scholar
H. Kratzsch, Mining Subsidence Engineering Springer. Berlin: 543 (1983).KratzschH.Mining Subsidence Engineering SpringerBerlin543198310.1007/978-3-642-81923-0Search in Google Scholar
H. Keinhorst, Calculations of surface subsidence in Emscher. In: 25 Jahre der Emschergenossenschaft 1900–1925 (in German), Essen 53–64 (1925;)KeinhorstH.Calculations of surface subsidence in EmscherIn:25 Jahre der Emschergenossenschaft 1900–1925 (in German)Essen53641925Search in Google Scholar
R. Bals, Problem of mining subsidence prediction. Stuttgart, Germany: Deutscher Markscheider-Verein e.V, Mitteilungen aus dem Markscheidewesen (in German). 42/43: 98–111 (1932).BalsR.Problem of mining subsidence predictionStuttgart, GermanyDeutscher Markscheider-Verein e.V, Mitteilungen aus dem Markscheidewesen (in German)42/43981111932Search in Google Scholar
S. Knothe, Time influence on shaping of subsidence trough. Archive of Mining Science. 1: 21–31 (1953).KnotheS.Time influence on shaping of subsidence troughArchive of Mining Science12131195310.1021/cen-v031n021.p2201Search in Google Scholar
S. Knothe, Prediction of mining influence (in Polish), Katowice, Poland (1984).KnotheS.Prediction of mining influence (in Polish)KatowicePoland1984Search in Google Scholar
J. Barbato, B. Hebblewhite, R. Mitra, K. Mills, Prediction of horizontal movement and strain at the surface due to longwall coal mining. International Journal of Rock Mechanics and Mining Sciences. 84: 105–118 (2016), DOI: 10.1016/j.ijrmms.2016.02.006.BarbatoJ.HebblewhiteB.MitraR.MillsK.Prediction of horizontal movement and strain at the surface due to longwall coal miningInternational Journal of Rock Mechanics and Mining Sciences84105118201610.1016/j.ijrmms.2016.02.006Open DOISearch in Google Scholar
H.D. Dahl, D.S. Choi, Some case studies of mine subsidence and its mathematical modelling, Application of Rock Mechanics In: E.R. Hoskins Editor, Proc. Syrup. on Rock Mechanics, South Dakota, 1–21 (1973).DahlH.D.ChoiD.S.Some case studies of mine subsidence and its mathematical modelling, Application of Rock MechanicsIn:HoskinsE.R.Editor,Proc. Syrup. on Rock MechanicsSouth Dakota1211973Search in Google Scholar
H.J. Siriwardane, J. Amanat, Modelling of subsidence caused by longwall mining using finite element and displacement discontinuity methods. In: Proc. Int. Conf. on Numerical Methods in Geo- mechanics, 1901–1910 (1988).SiriwardaneH.J.AmanatJ.Modelling of subsidence caused by longwall mining using finite element and displacement discontinuity methodsIn:Proc. Int. Conf. on Numerical Methods in Geo- mechanics190119101988Search in Google Scholar
M.A. Coulthard, A.J. Dutton, Numerical modelling of subsidence induced by underground coal mining. In: Key Questions in Rock Mechanics, Proc. U.S. Symp. on Rock Mechanics, 29th Minneapolis, 529–536 (1988).CoulthardM.A.DuttonA.J.Numerical modelling of subsidence induced by underground coal miningIn:Key Questions in Rock Mechanics, Proc. U.S. Symp. on Rock Mechanics, 29th Minneapolis5295361988Search in Google Scholar
K.V. Shankar, B.B. Dhar, Subsidence prediction resulting from underground mining - a numerical modelling technique. Proc. Indian Geotech. Conf., Allahabad. 319–324 (1988).ShankarK.V.DharB.B.Subsidence prediction resulting from underground mining - a numerical modelling techniqueProc. Indian Geotech. Conf.Allahabad3193241988Search in Google Scholar
G. Yang, Y.P. Chugh, Z. Yu, M.D.G. Salamon, A numerical approach to subsidence prediction and stress analysis in coal mining using a laminated model. International Journal of Rock Mechanics and Mining Sciences and Geomechanics Abstracts. 30(7): 1419–1422 (1993), DOI: 10.1016/0148-9062(93)90130-6.YangG.ChughY.P.YuZ.SalamonM.D.G.A numerical approach to subsidence prediction and stress analysis in coal mining using a laminated modelInternational Journal of Rock Mechanics and Mining Sciences and Geomechanics Abstracts30714191422199310.1016/0148-9062(93)90130-6Open DOISearch in Google Scholar
X.L. Yao, D.J. Reddish, B.N. Whittaker, Non-linear finite element analysis of surface subsidence arising from inclined seam extraction. Int. J. Rock Mech. Min. Sci. 30(4): 31–41 (1993), DOI: 10.1016/0148-9062(93)91724-W.YaoX.L.ReddishD.J.WhittakerB.N.Non-linear finite element analysis of surface subsidence arising from inclined seam extractionInt. J. Rock Mech. Min. Sci.3043141199310.1016/0148-9062(93)91724-WOpen DOISearch in Google Scholar
R.P. Singh, R.N. Yadav, Prediction of subsidence due to coal mining in Raniganj coalfield, West Bengal, India. Engineering Geology. 39(2), 103–111 (1995), DOI: 10.1016/0013-7952(94)00062-7.SinghR.P.YadavR.N.Prediction of subsidence due to coal mining in Raniganj coalfield, West Bengal, IndiaEngineering Geology392103111199510.1016/0013-7952(94)00062-7Open DOISearch in Google Scholar
P. Lloyd, N. Mohammad, D.J. Reddish. Surface subsidence prediction techniques for UK coalfields – An innovative numerical modelling approach, Mining Congress of Turkey, (1997)LloydP.MohammadN.ReddishD.J.Surface subsidence prediction techniques for UK coalfields – An innovative numerical modelling approachMining Congress of Turkey1997Search in Google Scholar
L.R. Alejano, P. Ramírez-Oyanguren, J. Taboada, Predictive methodology for subsidence due to flat and inclined coal seam mining, International Journal of Rock Mechanics and Mining Sciences. 36(4), 475–491 (1999), DOI: 10.1016/S0148-9062(99)00022-4AlejanoL.R.Ramírez-OyangurenP.TaboadaJ.Predictive methodology for subsidence due to flat and inclined coal seam miningInternational Journal of Rock Mechanics and Mining Sciences364475491199910.1016/S0148-9062(99)00022-4Open DOISearch in Google Scholar
K. Tajdus, New method for determining the elastic parameters of rock mass layers in the region of underground mining influence. International Journal of Rock Mechanics and Mining Sciences. 46(8):1296–1305 (2009), DOI: 10.1016/j.ijrmms.2009.04.006.TajdusK.New method for determining the elastic parameters of rock mass layers in the region of underground mining influenceInternational Journal of Rock Mechanics and Mining Sciences46812961305200910.1016/j.ijrmms.2009.04.006Open DOISearch in Google Scholar
K. Tajdus, Analysis of horizontal displacement distribution caused by single advancing longwall panel excavation. Journal of Rock Mechanics and Geotechnical Engineering. 7(4): 395–403 (2015), DOI: 10.1016/j.jrmge.2015.03.012.TajdusK.Analysis of horizontal displacement distribution caused by single advancing longwall panel excavationJournal of Rock Mechanics and Geotechnical Engineering74395403201510.1016/j.jrmge.2015.03.012Open DOISearch in Google Scholar
Keilich W. Numerical modelling of mining subsidence, upsidence and valley closure using UDEC. PhD thesis. University of Wollongong (2009).KeilichWNumerical modelling of mining subsidence, upsidence and valley closure using UDECPhD thesis.University of Wollongong2009Search in Google Scholar
M. Wesolowski, J. Białek, P. Kołodziejczyk, F. Plewa, Modelowanie wpływów eksploatacji górniczej przy wykorzystaniu modeli numerycznych, Gliwice (2010).WesolowskiM.BiałekJ.KołodziejczykP.PlewaF.Modelowanie wpływów eksploatacji górniczej przy wykorzystaniu modeli numerycznychGliwice2010Search in Google Scholar
A.M. Suchowerska Iwanec, J.P. Carter, J.P. Hambleton, Geomechanics of subsidence above single and multi-seam coal mining. Journal of Rock Mechanics and Geotechnical Engineering. 8(3): 304–313 (2016), DOI: 10.1016/j.jrmge.2015.11.007.Suchowerska IwanecA.M.CarterJ.P.HambletonJ.P.Geomechanics of subsidence above single and multi-seam coal miningJournal of Rock Mechanics and Geotechnical Engineering83304313201610.1016/j.jrmge.2015.11.007Open DOISearch in Google Scholar
Institute of Mining Science and Technology, Assessments on transition from open pit to underground in the Cao Son mine, Unpublished materials, Hanoi, Vietnam, 2012 and 2016 - updated version (in Vietnamese).Institute of Mining Science and Technology, Assessments on transition from open pit to underground in the Cao Son mineUnpublished materials, Hanoi, Vietnam, 2012 and 2016 - updated version (in Vietnamese).Search in Google Scholar
N.A. Do, D. Dias, P. Oreste, V.D. Dinh, Stability of tunnels excavated along anisotropic rock masses. Proceeding of international conference on earth sciences and sustainable geo-resources development, Hanoi, Vietnam (2016).DoN.A.DiasD.OresteP.DinhV.D.Stability of tunnels excavated along anisotropic rock massesProceeding of international conference on earth sciences and sustainable geo-resources developmentHanoi, Vietnam2016Search in Google Scholar
D.H. Duong, H.Q. Dao, M. Turek, A. Koteras, The status and prospect of mining technology in Vietnam underground coal mines. Inżynieria Mineralna – Journal of the Polish Mineral Engineering Society, 146–154 (2019), DOI: 10.29227/IM-2019-02-68.DuongD.H.DaoH.Q.TurekM.KoterasA.The status and prospect of mining technology in Vietnam underground coal minesInżynieria Mineralna – Journal of the Polish Mineral Engineering Society146154201910.29227/IM-2019-02-68Open DOISearch in Google Scholar
FLAC, Version 7.0, User's manual. Itasca Consulting Group Inc., Minneapolis (2011); software available at www.itascacg.comFLAC, Version 7.0, User's manualItasca Consulting Group Inc.Minneapolis2011software available at www.itascacg.comSearch in Google Scholar
https://www.google.com/maps/ [accessed 2019]https://www.google.com/maps/[accessed 2019]Search in Google Scholar
S.S. Peng, H.S. Chiang. Longwall Mining, John Wiley and Sons, Inc., New York (1984).PengS.S.ChiangH.S.Longwall MiningJohn Wiley and Sons, Inc.New York1984Search in Google Scholar
M. Bai, F. Kendorski, D. Van Roosendaal, Chinese And North American High-Extraction Underground Coal Mining Strata Behavior And Water Protection Experience and Guidelines. Proceedings of 14th International Conference on Ground Control in Mining, Morgantown (1995).BaiM.KendorskiF.Van RoosendaalD.Chinese And North American High-Extraction Underground Coal Mining Strata Behavior And Water Protection Experience and GuidelinesProceedings of 14th International Conference on Ground Control in MiningMorgantown1995Search in Google Scholar
M. Mazurkiewicz, Z. Piotrowski, A. Tajduś, Lokowanie odpadów w kopalniach podziemnych. cz. II Geoinżynieria. Biblioteka Szkoły Eksploatacji Podziemnej, p. 129 (1997).MazurkiewiczM.PiotrowskiZ.TajduśA.Lokowanie odpadów w kopalniach podziemnych. cz. II GeoinżynieriaBiblioteka Szkoły Eksploatacji Podziemnej1291997Search in Google Scholar
K. Heasley, A review of Subsidence and Fire Potential at the Major Battery Site, Report no. 2004-P-0017 (2004).HeasleyK.A review of Subsidence and Fire Potential at the Major Battery SiteReport no. 2004-P-00172004Search in Google Scholar
A. Biliński, Metoda doboru obudowy ścianowych wyrobisk wybierkowych i chodnikowych do warunków pola eksploatacyjnego. Prace naukowe – Monografie CMG KOMAG. Gliwice (2005).BilińskiA.Metoda doboru obudowy ścianowych wyrobisk wybierkowych i chodnikowych do warunków pola eksploatacyjnegoPrace naukowe – Monografie CMG KOMAGGliwice2005Search in Google Scholar
H. Wang, D. Zhang, X. Wang, W. Zhang, Visual Exploration of the Spatiotemporal Evolution Law of Overburden Failure and Mining-Induced Fractures: A Case Study of the Wangjialing Coal Mine in China. Minerals, 7(3): 35 (2017), DOI: 10.3390/min7030035.WangH.ZhangD.WangX.ZhangW.Visual Exploration of the Spatiotemporal Evolution Law of Overburden Failure and Mining-Induced Fractures: A Case Study of the Wangjialing Coal Mine in ChinaMinerals7335201710.3390/min7030035Open DOISearch in Google Scholar
H. Yavuz, An estimation method for cover pressure re-establishment distance and pressure distribution in the goaf of longwall coal mines. Journal of Rock Mechanics and Mining Sciences & Geomechanics, 41 (2): 193–205 (2004), DOI: 10.1016/S1365-1609(03)00082-0.YavuzH.An estimation method for cover pressure re-establishment distance and pressure distribution in the goaf of longwall coal minesJournal of Rock Mechanics and Mining Sciences & Geomechanics412193205200410.1016/S1365-1609(03)00082-0Open DOISearch in Google Scholar
K. Tajduś, New method for determining the elastic parameters of rock mass layers in the region of underground mining influence. Int. J. Rock Mech. Mining Sci. 46 (8), 1296–1305 (2009), DOI: 10.1016/j.ijrmms.2009.04.006.TajduśK.New method for determining the elastic parameters of rock mass layers in the region of underground mining influenceInt. J. Rock Mech. Mining Sci.46812961305200910.1016/j.ijrmms.2009.04.006Open DOISearch in Google Scholar
Y.M. Cheng, J.A. Wang, G.X. Xie, W.B. Wei, Three-dimensional analysis of coal barrier pillars in tailgate area adjacent to the fully mechanized top caving mining face. Int. J. Rock Mech. Mining Sci. 47 (8), 1372–1383 (2010), DOI: 10.1016/j.ijrmms.2010.08.008.ChengY.M.WangJ.A.XieG.X.WeiW.B.Three-dimensional analysis of coal barrier pillars in tailgate area adjacent to the fully mechanized top caving mining faceInt. J. Rock Mech. Mining Sci.47813721383201010.1016/j.ijrmms.2010.08.008Open DOISearch in Google Scholar
Y. Jiang, H. Wang, S. Xue, Y. Zhao, J. Zhu, X. Pang, Assessment of mitigation of coal bump risk during extraction of an island longwall panel. Int. J. Coal Geol. 95: 20–33 (2012), DOI: 10.1016/j.coal.2012.02.003.JiangY.WangH.XueS.ZhaoY.ZhuJ.PangX.Assessment of mitigation of coal bump risk during extraction of an island longwall panelInt. J. Coal Geol.952033201210.1016/j.coal.2012.02.003Open DOISearch in Google Scholar
S.S. Ahmed, A. Marwan, Y. Gunzburger, V. Renaud, 3D Numerical Simulation of the Goaf Due to Large-Scale Longwall Mining. International Congress and Exhibition “Sustainable Civil Infrastructures: Innovative Infrastructure Geotechnology” GeoMEast 2017: Numerical Analysis of Nonlinear Coupled Problems, 121–131 (2017).AhmedS.S.MarwanA.GunzburgerY.RenaudV.3D Numerical Simulation of the Goaf Due to Large-Scale Longwall MiningInternational Congress and Exhibition “Sustainable Civil Infrastructures: Innovative Infrastructure Geotechnology” GeoMEast 2017: Numerical Analysis of Nonlinear Coupled Problems121131201710.1007/978-3-319-61905-7_11Search in Google Scholar
M. Cała, Slope stability analysis with numerical methods, Monographs 171, AGH University of Science and Technology, Krakow (2007) (in Polish).CałaM.Slope stability analysis with numerical methods, Monographs 171AGH University of Science and TechnologyKrakow2007(in Polish).Search in Google Scholar