Case Study of Rock Bolting in a Deep Coal Mine in Poland

Masny, Wojciech; Nita, Łukasz; Ficek, Jerzy

Details

PDF BIBTEX RIS

Title

Case Study of Rock Bolting in a Deep Coal Mine in Poland

Journal title

Archives of Mining Sciences

Yearbook

2022

Volume

vol. 67

Issue

No 1

Affiliation

Masny, Wojciech : Central Mining Institute, 1 Gwarków Sq., 40-166 Katowice, Poland ; Nita, Łukasz : Jastrzębska Spółka Węglowa SA, KWK „Budryk”, Poland ; Ficek, Jerzy : „Geofic“ Scientific and Technical Office, Poland

Authors

Masny, Wojciech ; Nita, Łukasz ; Ficek, Jerzy

Keywords

coal mine ; rock bolting ; strain-gauged rock bolts ; numerical modelling

Divisions of PAS

Nauki Techniczne

Coverage

79-94

Publisher

Committee of Mining PAS

Bibliography

[1] V. Artemyev, P. McInally, Improvements in Longwall Technology and Performance in Kuzbass Mines of Suek. Proceedings of the 18th Coal Operators’ Conference, Mining Engineering, University of Wollongong, 124-133 (2018).
[2] S . Banerjee, Performance evaluation of continuous miner based underground mine operation system: An OEE based approach. New Trends in Production Engineering 2, 1, 596-603 (2019). DOI: https://doi.org/10.2478/ntpe-2019-0065
[3] D . Bolstad, J. Hill, Bureau of Mines rock bolting research. Proceedings of the International Symposium on Rock Bolting, Abisko, Sweden, 313-320 (1983).
[4] F. Breinig, K. Opolony, Geplante Doppelnutzung einer Rechtankerstrecke in 1200 m Teufe im Flöz D2/C. Aachen International Mining Symposia, 5th International Symposium – Roofbolting in Mining, RWTH Aachen, 159-177 (2004).
[5] T . Bush, Streckenausbau mit eisernen Ankern. Zeitschrift für das Berg – Hütten – und Salinenwesen, Berlin, 7-9 (1919).
[6] I . Canbulat, A. Wilkinson, G. Prohaska, M. Mnisi, N. Singh, An investigation into the support systems in South African collieries. Safety in Mines Research Advisory Committee, Project No SI M 020205, CSIR Division of Mining Technology, Ground Consulting (Pty) Ltd (2005).
[7] C . Cao, PhD thesis, Bolt profile configuration and load transfer capacity optimisation. School of Civil, Mining and Environmental Engineering, University of Wollongong (2012).
[8] D .R. Dolinar, S.K. Bhatt, Trends in roof bolt application. Proceedings: new technology for coal mine roof support. C. Mark, D.R. Dolinar, R.J. Tuchman, T.M. Barczak, S.P. Signer, P.F. Wopat, (Eds.) Cincinnati, OH: U.S. Department of Health and Human Services, Public Health Service, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health, DHHS (NIOSH) Publication No. 2000-151 (IC 9453), 43-51 (2000).
[9] R . Fletcher, Roof Bolting Equipment and Practices. Mng. Cong. J., Nov., 80-82 (1956).
[10] S .D. Flook, J.J. Leeming, Recent developments in longwall mining entry development and room and pillar systems. Gospodarka Surowcami Mineralnymi 24, 4/3, 11-23 (2008).
[11] Golder Associates UK Ltd, Initial Rockbolt Support Design. Rockbolting Trial, Budryk Colliery, Poland. Nottingham (2018).
[12] B. Hebblewhite, 25 Years of Ground Control Developments, Practices, and Issuses in Australia. 25th International Conference on Ground Control in Mining, Morgantown, WV, 111-117 (2006).
[13] H. Jalalifar, PhD thesis, A new approach in determining the load transfer mechanism in fully grouted bolts. School of Civil, Mining and Environmental Engineering, University of Wollongong (2006).
[14] H. Jurecka, Ankerausbau eine Schlüsseltechnologie für Hochleistungsstrebbetriebe in großen Teufen. Aachen International Mining Symposia, 4th International Symposium – Roofbolting in Mining, RWTH Aachen, 1-17 (2001).
[15] V. Kajzar, R. Kukutsch, P. Waclawik, P. Konicek, Coal pillar deformation monitoring using terrestrial laser scanner technology in room and pillar panel – A case study from the Ostrava-Karvina Coal Field. Rock Mechanics and Rock Engineering: From the Past to the Future – Ulusay et al. (Eds.), Taylor & Francis Group, London, 951-956 (2016).
[16] H. Kang, Support technologies for deep and complex roadways in underground coal mines: a review. Int. J. Coal Sci. Technol. 1 (3), 261-277 (2014). DOI: https://doi.org/10.1007/s40789-014-0043-0
[17] H. Kang, Sixty years development and prospects of rock bolting technology for underground coal mine roadways in China. Journal of China University of Mining & Technology 45 (6), 1071-1081 (2016).
[18] K . Kovári, The Control of Ground Response – Milestones up to the 1960s. Proc. of the AITES -ITA World Tunnel Congress, Italy, Milan, 93-119 (2001).
[19] A . Kumar, R. Singh, P. Waclawik, Numerical Modelling Based Investigation of Coal Pillar Stability for Room and Pillar Development at 900 m Depth of Cover. 37TH International Conference on Ground Control in Mining, 193-203 (2018).
[20] B. Langhanki, Planungskonzeption zur Doppelnutzung einer Rechtankerstrecke im Flöz D2/C in 1.200 m Teufe. Aachen International Mining Symposia, 4th International Symposium – Roofbolting in Mining, RWTH Aachen, 217-233 (2001).
[21] J. Luo, PhD thesis, A New Rock Bolt Design Criterion and Knowlwdge-based Expert System for Stratified Roof. Faculty of the Virginia Polytechnic Institute and State University, Blacksburg, Virginia (1999).
[22] T . Majcherczyk, A. Szaszenko, E. Sdżwiżkowa, Fundamentals of geomechanics. Wydawnictwo AGH, Kraków (2006).
[23] C .P. Mangelsdorf, Current Trends in Roof Truss Hardware. Proc. of 2nd Conference on Ground Control in Mining, edited by S.S. Peng, 108-112 (1982).
[24] C . Mark, Design of roof bolt systems. Proc.New Technology For Coal Mine Roof Support. U.S. Department of Health and Human Services, Pittsburgh, PA, 111-131 (2000).
[25] J. Modi, S. Bharti, R. Kant, Applicability of Continuous Miner in Room and Pillar Mining System: Higher Production and Productivity with Safety. International Conference on Deep Excavation, Energy Resource and Production (DEE P16), IIT Kharagpur, India (2017).
[26] A . Nierobisz, Rockbolting – history, present and future. Międzynarodowa Konferencja Szkoleniowa: Perspektywy stosowania obudowy kotwowej w polskich kopalniach węgla kamiennego, Jaworze, kwartalnik GIG Nr 2/1/2010, 184-203 (2010).
[27] A . Nierobisz, Development of Roof Bolting Use in Polish Coal Mines. Journal of Mining Science 47, No. 6, 751- 760 (2011).
[28] B. Neyman, R. Gocman, Guidelines for rockbolt support in workings. Biuletyn techniczno-informacyjny GIG nr 9 (1960).
[29] K. Opolony, H. Witthaus, A. Hucke, A. Studeny, Ergebnisse von numerischen Berechnungen und physikalischen Modellversuchen als Planungshilfe für eine Rechteckankerstrecke in Flöz D2/C. Aachen International Mining Symposia, 5th International Symposium – Roofbolting in Mining, RWTH Aachen, 539-554 (2004).
[30] S. Peng, Coal Mine Ground Control. (3rd ed.), Syd Peng Publisher, Morgantown (2008).
[31] K. Podgórski, W. Podgórski, Rockbolt support of underground workings. Wydawnictwo Śląsk. Katowice (1969).
[32] L. Rabcewicz, Bolted support for tunnels. Mine and Quarry- Engineering, April, 153-159 (1955).
[33] E.U. Reuther, A. Heime, Verbesserte Bemessung von Ankerausbau in Abbau- und Basisstrecken. Kommission der Europäischen Gemeinschaften, technische Forschung Kohle, Forschungsvertrag Nr. 7220-AB/120, Luxemburg (1990).
[34] A. Sahebi, J. Hossein, M. Ebrahimi, Stability analysis and optimum support design of a roadway in a faulted zone during longwall face retreat – case study: Tabas Coal Mine. N. Aziz (Eds.), 10th Underground Coal Operators’ Conference, University of Wollongong & the Australasian Institute of Mining and Metallurgy, 88-96 (2010).
[35] R. Schach, K. Garshol, A.M. Heltzen, Rock bolting: a practical handbook. Pergamon Press (1979).
[36] A.J.S. Spearing, G. Bylapudi, K. Mondal, A.W. Bhagwat, Rock anchor corrosion potential determination in US underground coal mines. The Southern African Institute of Mining and Metallurgy 6th South African Rock Engineering Symposium SARES (2014).
[37] A.J.S. Spearing, B. Greer, M. Reilly, Improving rockbolt installations in US coal mines. The Journal of The Southern African Institute of Mining and Metallurgy, Vol. 111, 555-563 (2011).
[38] S. Tadolini, R. Mazzoni, Understanding roof bolt selection and design still remains priceless. 25th International Conference on Ground Control, July 2006. Morgantown, WV, USA , 382-389 (2006).
[39] S . Taghipoor, Application of numerical modelling to study the efficiency of roof bolting pattern in east 1 main roadway of Tabas coal mine. 6th International Conference on Case Histories in Geotechnical Engineering, Arlington, 2-5 (2008).
[40] P. Waclawik, J. Ptacek, P. Konicek, R. Kukutsch, J. Nemcik, Stress-state monitoring of coal pillars during room and pillar extraction. Journal of Sustainable Mining 15, 49-56 (2016). DOI: https://doi.org/10.46873/2300-3960.1207
[41] P. Waclawik, R. Snuparek, R. Kukutsch, Rock Bolting at the Room and Pillar Method at Great Depths. Procedia Engineering 191, 575-582 (2017). DOI: https://doi.org/10.1016/j.proeng.2017.05.220
[42] W. Weigel, Channel Iron for Roof Control. Engineering and Mining Journal, Vol. 144, May, 70-72 (1943).
[43] J. Arthur, Ground control in coal mines in Great Britain. Coal 2006: Coal Operators’ Conference, University of Wollongong & the Australasian Institute of Mining and Metallurgy, 10-19 (2006).

Date

2022.03.28

Type

Article

Identifier

DOI: 10.24425/ams.2022.140703