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2016 | 25 | 2 |
Tytuł artykułu

Mine subsidence as a post-mining effect in the Upper Silesia Coal Basin

Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
On the basis of three selected examples, some problems attributed to the presence of voids resulted from mining operations in already commissioned underground coal mines are discussed. Continuous and discontinuous deformations of the ground surface (sinkholes and subsidence troughs) of anthropogenic origination implicate hazards for the ground surface, even many decades after completion of mining work. Nowadays, when decommissioning and flooding of numerous mines happens, ground movements as well as seismic events related to flooding of abandoned underground mines can be observed. The first case study draws attention to the problems of effective voids localisation methods as well as the reliability of grout injection operations for road construction purposes. The second case emphasizes a problem occurring often in areas with long and complex mining histories, meaning appropriate determination of origin, process and protective measures regarding occurred ground deformations, or damage to buildings. The third case describes specific effects on the surface (shocks and ground surface elevation) generated by the flooding of decommissioned mines.
Słowa kluczowe
EN
Wydawca
-
Rocznik
Tom
25
Numer
2
Opis fizyczny
p.777-785,fig.,ref.
Twórcy
autor
  • Faculty of Mining and Geology, Silesian University of Technology, Akademicka 2A, 44-100 Gliwice, Poland
autor
  • Faculty of Mining and Geology, Silesian University of Technology, Akademicka 2A, 44-100 Gliwice, Poland
  • GeoRock Geotechnical Services Company, Armii Krajowej 14/I/10, 41-943 Piekary Slaskie, Poland
autor
  • Faculty of Mining and Geology, Silesian University of Technology, Akademicka 2A, 44-100 Gliwice, Poland
autor
  • Faculty of Mining and Geology, Silesian University of Technology, Akademicka 2A, 44-100 Gliwice, Poland
Bibliografia
  • 1. JURECZKA J., KRIEGER W., WILK S. Prospective hard coal resources in Upper Silesian Coal Basin. [W] XIX Conference "Novelties and perspectives of mineral resources management" Mineral and Energy Economy Research Institute of the Polish Academy of Sciences, Krakow, 3, 2009.
  • 2. STROZIK G. Filling of underground cavities in rock mass affected by mining operation. Silesian University of Technology Publishing, Gliwice, 4, 2015.
  • 3. STRZAŁKOWSKI P. Prognosis of time lapse of final stage of mining ground movement after exploitation. Polish Mining Review, 4, 4, 2014.
  • 4. STRZAŁKOWSKI P. Shallow cavities in mining areas in reference to sinkhole formation. Mining and Tunneling Construction, 21 (2), 5, 2015.
  • 5. STRZAŁKOWSKI P. Outline of mining grounds protection. Silesian University of Technology Publishing, Gliwice 5, 2010.
  • 6. KAWALEC J., GRYGIEREK M., CHLIPALSKI K. Communication line objects in mining areas. Motorways, 3, 6, 2015.
  • 7. ZYCH J., MACHOWSKI M., TONDERA M. Results of A4 motorway monitoring in MOP Halemba and Wirek area. Work Safety and Environmental Protection in Mining, 6, 6, 2015.
  • 8. JENDRUŚ R., STROZIK G., ZAJĄC J. Elimination of shallow, exploitation-caused cavities under building based on example of DK79 construction in Jaworzno. Sources for XIV International Symposium Geotechnika-Geotechnics, Gliwice - Ustroń 19-22 october, 6, 2010.
  • 9. JENDRUŚ R., STROZIK G. Problem of ground cavities detection under buildings based on measurements and decommissioning works. Science Conference Mining of diversified development, Silesian University of Technology; 7, 2011.
  • 10. PLEWA F., POPCZYK M., PIERZYNA P., ZAJĄC A. Use of materials with energetic waste content for elimination of sinkholes caused by mining operation. Polityka Energetyczna, 14 (2), 7, 2011.
  • 11. DODD W.E. Structural Monitoring at a Pressurized Grout Remote Backfilling AMLR Project at Beulah, North Dakota. National Association of Abandoned Mine Land Programs Annual Conference, August 19-22; Athens, Ohio, USA; X, 7, 2001.
  • 12. KUBAŃSKI A. Terrain remediation technologies for construction Modern Engineering Construction, 4 (19), 68, (page 7) 2008.
  • 13. Erzkarte des Oberschlesischen Erzbergbaus, sheet No. 16 -Scharley, printed by Obergberamt in Breslau, Germany; (8, Fig. 5), 1913.
  • 14. JENDRUŚ R., STROZIK G. Made ground as a source of discontinuous deformations and geotechnical hazards to buildings, based on example of electrical substation "Julian" in Piekary Slaskie. Science Conference Mining of diversified development, Silesian University of Technology; 8, 2012.
  • 15. BUKOWSKI P. Prognosis of water hazard caused by flooding of coal mining operation sites. Scientific Papers of Central Mining Institute, Katowice, 882, 11, 2010.
  • 16. FENK J. Eine analytische Lösung zur Berechnung von Hebung der Tagesoberfläche bei Flutung unterirdischer Bergwerksanlage. Das Markscheidewesen 107 (2), 11, 2000.
  • 17. HEITFELD M., ROSNER P., MüHLENKAMP M., SAHL H. Bergschäden im Erkelenzer Steinkohlenrevier. 4. Altbergbau-Kolloquium Leoben; 11, 2004.
  • 18. PöTTGENS J.J.E. Bodenhebung durch ansteigendes Grubenwasser. 6. International Congress of Mine Survey, Harrogate; 11, 1985.
  • 19. PALARSKI J. et. al. Final report from the project N N524 464236: Research on secondary movement of rock mass and vibrations of mining area surface, caused by decommissioning of coal mine by flooding. (Unpublished results) Silesian University of Technology, Gliwice; 11, 2012.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
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