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STUDY OF DIFFERENT FORMS OF COAL SUBSTANCE IN CARBONIFEROUS SEDIMENTS AND CALCULATION OF ITS TOTAL CONTENT IN THE BOREHOLE

Duraj, Milos, Heviankova, Silvie, Kyncl, Miroslav, Bestova, Iva, Marschalko, Marian, Yilmaz, Isik, Penaz, Tomas, Drusa, Marian, Orlando, Arencibia Montero

First published: 2013-06-20https://doi.org/10.5593/sgem2013/ba1.v1/s01.025View metrics

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Title
STUDY OF DIFFERENT FORMS OF COAL SUBSTANCE IN CARBONIFEROUS SEDIMENTS AND CALCULATION OF ITS TOTAL CONTENT IN THE BOREHOLE
Authors
Duraj, Milos, Heviankova, Silvie, Kyncl, Miroslav, Bestova, Iva, Marschalko, Marian, Yilmaz, Isik, Penaz, Tomas, Drusa, Marian, Orlando, Arencibia Montero
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 13th SGEM GeoConference on SCIENCE AND TECHNOLOGIES IN GEOLOGY, EXPLORATION AND MINING
Publisher
Stef92 Technology
Year
2013
Pages
179 - 186 pp
ISSN
1314-2704
ISBN
Not available yet
Language
en
Publication type
Conference Paper
References50
  1. Andras P.; Dirner V.; Harnakova A., 2011. Determination Of (238)U, (232)Th And (40)K Activity in The Rocks Used in Civil Engineering from the Male Karpaty Mts. (Slovakia), Carpathian Journal of Earth and Environmental Sciences 6 (2): 5-14

  2. Bednarik, M., Yilmaz, I., Marschalko, M., 2012. Landslide hazard and risk assessment: a case study from the Hlohovec-Sered landslide area in south-west Slovakia. Natural Hazards, 64, 1, 547-575

  3. Borkovcová, I., Čáslavský, J., Eichler, F., Firýt, P. et al.: Fyzikálně chemické metody stanovení organických sloučenin v přírodninách. Metodická příručka, 3, ÚÚG, Praha, 1986, 114 p.

  4. Bouška, V.: Geochemie uhlí. Academia, Praha, 1997, 208 p.

  5. Cała, M., Paluch, M., Tajduś, A., 2011, Static formulation of mass points method for calculation of joint displacement and axial forces in the members of space truss. Archives of Mining Sciences, 56 (3), pp. 427-440. Section Geology

  6. Dopita, M., Aust, J., Brieda, J., Černý, I. et al.: Geologie české části hornoslezské pánve. Praha, MŽP ČR, 1997, 278 p.

  7. Drusa, M., Giang, N. 2004. Stress and compressibility calculation in subsoil of high embankments and effectiveness of speeding up subsoil consolidation. Komunikacie 6 (3): 5-9

  8. Drusa, M., Gróf, V. 2004. Geotechnical aspects of railway tunnel construction near rudoltice Komunikacie. 6 (3): 51-54

  9. Drusa, M., Vlček, J., Kalmánová, A., Verification of limit states of reinforced soil structures, Proceedings of XIX1 RuPlSk seminar, Žilina 12.– 16. sept.2010, ISBN 978-5-93093-763-3

  10. Hubáček, J., Kessler, M.F., Ludmila, J., Tejnický, B.: Chemie uhlí, SNTL, Praha a SVTL Bratislava, 1962, 472 p.

  11. Kempa, T., Marschalko, M., Yilmaz, I., Lacková, E., Kubečka, K., Stalmachová, B., Bouchal, T., Bednárik, M., Drusa, M., Bendová, M., 2013. In-situ remediation of the contaminated soils in Ostrava city (Czech Republic) by steam curing/vapor. Engineering Geology 154, 42-55

  12. Malgot, J., Baliak, F., Kopecky, M., Benko B. Engineering geological problems of tunnel construction for new highways in Slovakia. 8th International Congress International Association For Engineering Geology And The Environment, Proceedings, Vols 1-5, pp.3739-3742, 1998 Vancouver, Canada

  13. Marek, P., Gustar, M., Krejsa, M. Simulation-based reliability assessment: Tool for efficient steel design. (1998) Journal of Constructional Steel Research, 46 (1-3), pp. 156-158.

  14. Marschalko, M., Bednarik, M., Yilmaz, I., 2012 Evaluation of engineering- geological conditions for conurbation of Ostrava (Czech Republic) within GIS environment. Environmental Earth Sciences, 67, 4, 1007-1022

  15. Marschalko, M., Bednárik, M., Yilmaz, I., Kubečka, K., Bouchal, T., Zavada, J., 2012. Subsidence map of underground mining influence for urban planning: an example from the Czech Republic. Quarterly Journal of Engineering Geology and Hydrogeology 45 (2), pp. 231-241

  16. Marschalko, M., Yilmaz, I., Bednárik, M., Kubečka, K. 2011. Variations in the building site categories in the underground mining region of Doubrava (Czech Republic) for land use planning. Engineering Geology 122 (3-4), pp. 169-178

  17. Marschalko, M., Yilmaz, I., Bednarik, M., Kubecka, K., 2012. Deformation of slopes as a cause of underground mining activities: three case studies from Ostrava- Karviná coal field (Czech Republic). Environmental Monitoring and Assessment, 184, 11, 6709-6733

  18. Marschalko, M., Yilmaz, I., Bednarik, M., Kubecka, K., 2012. Influence of mining activity on slope deformations genesis: Doubrava Vrchovec, Doubrava Ujala and Staric case studies from Czech Republic. Engineering Geology, 147-148, 37-51.

  19. Raclavská, H., Matýsek, D., Škrobánková, H.: Problémové parametry při posuzování využitelnosti hlušin v OKR. Praha. Uhlí, rudy, geologický průzkum, 2003, p. 20 – 26 GeoConference on Science and Technologies in Geology, Exploration and Mining

  20. Šešulka, V.: Analýza paliv. SNTL, Praha a Alfa, Bratislava, 1970, 260 p.

  21. Tajdus, A., Cala, M., 1994, Influence of chosen factors on stability of mine shafts Geomechanics 93. Proc. conference, Ostrava, 1993, pp. 131-127.

  22. Turnau, E.: Mikroflora i paleogeografia karbonu produktywnego w polskiej częśći Karpat. Biul. Inst. geol., 235, 13, Warszawa, 1970, p. 163 – 229

  23. Yilmaz I., Marschalko M., 2012. A leaning historical monument formed by underground mining effect: An example from Czech Republic. Engineering geology 133, pp.43-48

  24. Yilmaz, I. Marschalko, M., Bednárik, M., Kaynar, O., Fojtova, L., 2012. Neural computing models for prediction of permeability coefficient of coarse-grained soils, Neural Computing & Applications 21 (5), pp. 957-968

  25. Zeman, J.: Prognóza rozšíření uhlonosného karbonu pod vnějším flyšem Západních Karpat. Geol. průzk., 19, Praha, 1977, p. 353 – 357

  26. Andras P.; Dirner V.; Harnakova A., 2011. Determination Of (238)U, (232)Th And (40)K Activity in The Rocks Used in Civil Engineering from the Male Karpaty Mts. (Slovakia), Carpathian Journal of Earth and Environmental Sciences 6 (2): 5-14

  27. Bednarik, M., Yilmaz, I., Marschalko, M., 2012. Landslide hazard and risk assessment: a case study from the Hlohovec-Sered landslide area in south-west Slovakia. Natural Hazards, 64, 1, 547-575

  28. Borkovcová, I., Čáslavský, J., Eichler, F., Firýt, P. et al.: Fyzikálně chemické metody stanovení organických sloučenin v přírodninách. Metodická příručka, 3, ÚÚG, Praha, 1986, 114 p.

  29. Bouška, V.: Geochemie uhlí. Academia, Praha, 1997, 208 p.

  30. Cała, M., Paluch, M., Tajduś, A., 2011, Static formulation of mass points method for calculation of joint displacement and axial forces in the members of space truss. Archives of Mining Sciences, 56 (3), pp. 427-440. Section Geology

  31. Dopita, M., Aust, J., Brieda, J., Černý, I. et al.: Geologie české části hornoslezské pánve. Praha, MŽP ČR, 1997, 278 p.

  32. Drusa, M., Giang, N. 2004. Stress and compressibility calculation in subsoil of high embankments and effectiveness of speeding up subsoil consolidation. Komunikacie 6 (3): 5-9

  33. Drusa, M., Gróf, V. 2004. Geotechnical aspects of railway tunnel construction near rudoltice Komunikacie. 6 (3): 51-54

  34. Drusa, M., Vlček, J., Kalmánová, A., Verification of limit states of reinforced soil structures, Proceedings of XIX1 RuPlSk seminar, Žilina 12.– 16. sept.2010, ISBN 978-5-93093-763-3

  35. Hubáček, J., Kessler, M.F., Ludmila, J., Tejnický, B.: Chemie uhlí, SNTL, Praha a SVTL Bratislava, 1962, 472 p.

  36. Kempa, T., Marschalko, M., Yilmaz, I., Lacková, E., Kubečka, K., Stalmachová, B., Bouchal, T., Bednárik, M., Drusa, M., Bendová, M., 2013. In-situ remediation of the contaminated soils in Ostrava city (Czech Republic) by steam curing/vapor. Engineering Geology 154, 42-55

  37. Malgot, J., Baliak, F., Kopecky, M., Benko B. Engineering geological problems of tunnel construction for new highways in Slovakia. 8th International Congress International Association For Engineering Geology And The Environment, Proceedings, Vols 1-5, pp.3739-3742, 1998 Vancouver, Canada

  38. Marek, P., Gustar, M., Krejsa, M. Simulation-based reliability assessment: Tool for efficient steel design. (1998) Journal of Constructional Steel Research, 46 (1-3), pp. 156-158.

  39. Marschalko, M., Bednarik, M., Yilmaz, I., 2012 Evaluation of engineering- geological conditions for conurbation of Ostrava (Czech Republic) within GIS environment. Environmental Earth Sciences, 67, 4, 1007-1022

  40. Marschalko, M., Bednárik, M., Yilmaz, I., Kubečka, K., Bouchal, T., Zavada, J., 2012. Subsidence map of underground mining influence for urban planning: an example from the Czech Republic. Quarterly Journal of Engineering Geology and Hydrogeology 45 (2), pp. 231-241

  41. Marschalko, M., Yilmaz, I., Bednárik, M., Kubečka, K. 2011. Variations in the building site categories in the underground mining region of Doubrava (Czech Republic) for land use planning. Engineering Geology 122 (3-4), pp. 169-178

  42. Marschalko, M., Yilmaz, I., Bednarik, M., Kubecka, K., 2012. Deformation of slopes as a cause of underground mining activities: three case studies from Ostrava- Karviná coal field (Czech Republic). Environmental Monitoring and Assessment, 184, 11, 6709-6733

  43. Marschalko, M., Yilmaz, I., Bednarik, M., Kubecka, K., 2012. Influence of mining activity on slope deformations genesis: Doubrava Vrchovec, Doubrava Ujala and Staric case studies from Czech Republic. Engineering Geology, 147-148, 37-51.

  44. Raclavská, H., Matýsek, D., Škrobánková, H.: Problémové parametry při posuzování využitelnosti hlušin v OKR. Praha. Uhlí, rudy, geologický průzkum, 2003, p. 20 – 26 GeoConference on Science and Technologies in Geology, Exploration and Mining

  45. Šešulka, V.: Analýza paliv. SNTL, Praha a Alfa, Bratislava, 1970, 260 p.

  46. Tajdus, A., Cala, M., 1994, Influence of chosen factors on stability of mine shafts Geomechanics 93. Proc. conference, Ostrava, 1993, pp. 131-127.

  47. Turnau, E.: Mikroflora i paleogeografia karbonu produktywnego w polskiej częśći Karpat. Biul. Inst. geol., 235, 13, Warszawa, 1970, p. 163 – 229

  48. Yilmaz I., Marschalko M., 2012. A leaning historical monument formed by underground mining effect: An example from Czech Republic. Engineering geology 133, pp.43-48

  49. Yilmaz, I. Marschalko, M., Bednárik, M., Kaynar, O., Fojtova, L., 2012. Neural computing models for prediction of permeability coefficient of coarse-grained soils, Neural Computing & Applications 21 (5), pp. 957-968

  50. Zeman, J.: Prognóza rozšíření uhlonosného karbonu pod vnějším flyšem Západních Karpat. Geol. průzk., 19, Praha, 1977, p. 353 – 357

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