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Upper Silesian Geophysical Observation System - a unit of the EPOS project

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The aim of the paper is to present the structure and research potential of the newly created measurement and information system for observing dynamic phenomena occurring in the Earth's crust in the Upper Silesian Coal Basin (USCB) in Poland as a result of mining activities. The structure of the system is similar to the one developed for monitoring the movements of the European tectonic plate under the European Plate Observation System (EPOS) programme. The measurement part of the system consists of stationary devices and sensors working in monitoring mode, installed in various locations of the USCB, both on the surface and underground, as well as data sets from periodically performed measurements using land, air and satellite techniques. The IT part of the system will create a local data centre with specialized and dedicated processing and modelling software in which all measurement data will be archived and processed to a form which enables the analysis of the short and long-term impact of mining operations on the environment. As one of the elements of the system will be observations of the short and long-term gravity and morphology changes, the collected data will enable research in the field of the geodynamics of mining areas to be conducted.
Rocznik
Strony
198--207
Opis fizyczny
Bibliogr. 24 poz.
Twórcy
  • Central Mining Institute, 40-166, Katowice, Pl. Gwarków 1, Poland
  • Central Mining Institute, 40-166, Katowice, Pl. Gwarków 1, Poland
autor
  • Central Mining Institute, 40-166, Katowice, Pl. Gwarków 1, Poland
  • Institute of Geophysics, Polish Academy of Sciences, 01-452, Warszawa, Księcia Janusza 64, Poland
  • Institute of Geodesy and Cartography, 02-679, Warszawa, Jacka Kaczmarskiego 27, Poland
  • Wrocław University of Environmental and Life Sciences, 50-375, Wocław, CK Norwida 25, Poland
  • Military University of Technology, 00-908, Warszawa 46, Gen. Witolda Urbanowicza 2, Poland
  • Polish Mining Group S.A., 40-039, Katowice, Powstańców 30, Poland
Bibliografia
  • 1. Araszkiewicz, A., Figurski, M., & Jarosiński, M. (2016). Erroneous GNSS strain rate patterns and their application to investigate the tectonic credibility of GNSS velocities. Acta Geophysica, 64(5), 1412-1429. https://doi.org/10.1515/acgeo-2016-0057.
  • 2. Araszkiewicz, A., & Volksen, C. (2017). The impact of the antenna phase center models on the coordinates in the EUREF Permanent Network. GPS Solutions, 21(2), 747-757. https://doi.org/10.1007/s10291-016-0564-710.1007/s10291-016-0564-7.
  • 3. Cooper, H. H., Jr., Bredehoeft, J. D., Bredehoeft, I. S., Papadopulos, I. S., & Bennett, R. R. (1965). The response of well-aquifer systems to seismic waves. Journal of Geophysical Research, 70, 3915-3926. https://doi.org/10.1029/JZ070i016p03915.
  • 4. Doglioni, C., Barba, S., Carminati, E., & Riguzzi, F. (2014). Fault on - off versus coseismic fluids reaction. Geoscience Frontiers, 5(6), 767-780. https://doi.org/10.1016/j.gsf.2013.08.004.
  • 5. Dykowski, P., Krynski, J., & Skowski, M. (2014). Testing the suitability of the A10-020 absolute gravimeter for the establishment of new gravity control in Poland. In U. Marti (Vol. Ed.), Gravity, geoid and height systems. International association of Geodesy symposia: Vol. 141, (pp. 11-17). Cham: Springer. https://doi.org/10.1007/978-3-319-10837-7_2.
  • 6. Ilieva, M., Pawluszek, K., Mutke, G., Kura, K., Borkowski, A., & Rohm, W. (2018). Preliminary subsidence study for the Upper Silesian Coal Basin, Poland, based on Interferometry SAR and geophysical investigations (EPOS-PL project). Geophysical Research Abstracts, 20, EGU2018-15284 EGU General Assembly 2018.
  • 7. Ilieva, M., Polanin, P., Borkowski, A., Gruchlik, P., Smolak, K., Kowalski, A., et al. (2019). Mining deformation life cycle in the light of InSAR and deformation models. Remote Sensing, 11(7), 745. https://doi.org/10.3390/rs11070745.
  • 8. IS EPOS (2017). Episode: USCB. Retrieved February 15, 2019 from: https://tcs.ah-epos. eu/#episode:USCB. Jamroz, O., & Kaplon, J. (2005). Crust deformation monitoring in the polish part of snieżnik massif - continuing researches. Acta Geodynamica et Geomaterialia, 2, 17-20 (3 No. 3 (139)), Prague, Czech Republic 2005.
  • 9. Jóźków, G., Wieczorek, P., Karpina, M., Walicka, A., & Borkowski, A. (2017). Performance evaluation of sUAS equipped with Velodyne HDL-32e lidar sensor. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XLII-2/W6(Comm. I, ICWG I/II), 171-177. Göttingen, Germany 2017 https://doi.org/10.5194/isprs-archives-XLII-2-W6-171-201710.5194/isprs-archives-XLII-2-W6-171-2017.
  • 10. Kotyrba, A. (2014). Czasowe zmiany pola siły ciężkości w Górnośląskim Zagłębiu Węglowym i ich związek z eksploatacją górniczą [Temporal changes in the gravity field of the Upper Silesian Coal Basin and their relation to mining]. Przegląd Górniczy, 70(5), 48-57 (in Polish).
  • 11. Kotyrba, A., Balicki, A., & Kortas, Ł. (2005). Zmiany regionalnego pola grawitacji w połnocnej części Górnośląskiego Zagłębia Węglowego w latach 2002-2003. Przegląd Geologiczny, 53(4), 299-305.
  • 12. Kotyrba, A., & Mutke, G. (2015). Impact of deep mining on shallow voids stability and sinkhole hazard. AIMS 2015 -- fith int. Symp.: Mineral resources and mine development: Vol. 14, (pp. 561-567). RWTH Aachen University978-3-941277-22-9 (RWTH Aachen University).
  • 13. Lasocki, S., & Orlecka-Sikora, B. (2016). Integrated approach to geophysical hazards induced by exploration and exploitation of georesources - to facilitate the way of attaining excellence. EPOS Newsletter. 1, July 2016. Retrieved February 15, 2019 from: https://www.epos-ip.org/integrated-approach-geophysical-hazards-induced-explorationand-exploitation-georesources-facilitate.
  • 14. Leptokaropoulos, K., Cielesta, S., Staszek, M., Olszewska, D., Lizurek, G., Kocot, J., et al. (2018). IS-EPOS: A platform for anthropogenic seismicity research. Acta Geophysica, 67(1), 299-310. https://doi.org/10.1007/s11600-018-0209-z.
  • 15. Lurka, A., & Mutke, G. (2017). Underground seismic monitoring and seismic hazard assessment in bobrek coal mine, Poland with the use of flameproof seismic observation system SOS. 2017 Annual Meeting Seismological Society of America. Denver-Colorado.
  • 16. Marcak, H., & Mutke, G. (2013). Seismic activation of tectonic stresses by mining. Journal of Seismology, 17(4), 1139-1148. https://doi.org/10.1007/s10950-013-9382-3.
  • 17. Meurers, B. (2012). Superconducting gravimeter calibration by CoLocated gravity observations: Results from GWR C025, (2012). International Journal of Geophysics, 2012, 954271. 12 pages https://doi.org/10.1155/2012/954271.
  • 18. Mirek, K., & Mirek, J. (2016). Observation of underground exploitation influence on a surface in Budryk, Sośnica, and Makoszowy coal mine area. Polish Journal of Environmental Studies, 25, 57-61.
  • 19. Mutke, G., & Dubiński, J. (2016). Seismic intensity induced by mining in relations to weak earthquakes. In: Proc. Of the 24th world mining congress. Part. Underground mining. Rio de Janeiro (pp. 399-407). (Rio de Janeiro).
  • 20. Mutke, G., Lurka, A., & Dubiński, J. (2009). Seismic monitoring and rock burst hazard assessment in deep polish coal mines - case study of rock burst on April 16, 2008 in wujek-slask coal mine. In C. A. Tang (Ed.). 7th international symposium on rockburst and seismicity in mines (RASiM 7): Controlling seismic hazard and sustainable development of deep mines (pp. 1413-1424). Rinton Press.
  • 21. Mutke, G., Masny, W., & Prusek, S. (2016). Peak particle velocity as an indicator of the dynamic load exerted on the support of underground workings. Acta Geodynamica et Geomaterialia, 13, 367-378. https://doi.org/10.13168/AGG.2016.0019 No 4(184).
  • 22. Niebauer, T. M., Mac Queen, J., Aliod, D., & Francis, O. (2011). Monitoring earthquakes with gravity meters. Geodesy and Geodynamics, 2(3), 71-75.
  • 23. Wang, C. Y., & Manga, M. (2010). Earthquakes and water. Lecture notes in earth sciences: vol. 114Berlin Heidelberg: Springer-Verlag. Berlin Heidelberg. https://doi.org/10.1007/978-3-642-00810-810.1007/978-3-642-00810-8_5.
  • 24. Zembaty, Z., Mutke, G., Nawrocki, D., & Bobra, P. (2017). Rotational ground motion records from induced seismic events. Seismological Research Letters, 88(1/2017), https://doi.org/10.1785/0220160131.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c2b35078-659f-45ea-ac92-09dbdab49aa0
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