SWS Academic Research eLibraryEarth & Planetary Sciences

Scholarly record

WORDWIDE EXAMPLES OF COAL MINE METHANE EMISSION AND GOB GAS PRODUCTION MODELING

Jacek Hendel, Jaroslaw Checko

First published: 2015https://doi.org/10.5593/sgem2015/b13/s3.099View metrics

Publication Impact Profile

PlumX
  • Captures
  • Mendeley - Readers: 1

Publication details

Title
WORDWIDE EXAMPLES OF COAL MINE METHANE EMISSION AND GOB GAS PRODUCTION MODELING
Authors
Jacek Hendel, Jaroslaw Checko
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 15th International Multidisciplinary Scientific GeoConference SGEM2015, SCIENCE AND TECHNOLOGIES IN GEOLOGY, EXPLORATION AND MINING
Publisher
Stef92 Technology
Year
2015
Pages
759-766
ISSN
1314-2704
ISBN
978-619-7105-33-9
Language
en
Publication type
Conference Paper
References36
  1. Cheng, Y. -P., Wang L., Zhang X.-L., Environmental impact of coal mine methane emissions and responding strategies in China. International Journal of Greenhouse Gas Control 5 (2011) 157–166

  2. U.S. EPA, 2008. Coalbed Methane Outreach Program Brochure. Coalbed Methane Outreach Program. United States Environmental Protection Agency.

  3. World Coal Association. http://www.worldcoal.org/coal/coal-seam- methane/abandoned-mine-methane

  4. Somers J., Coal Mine Ventilation Methane (VAM). Update on the World VAM Oxidizer Technology Market. 14 th North American Mine Ventilation Symposium. University of Utah, June 19, 2012

  5. Denman, K.L., Brasseur, G., Chidthaisong, A., Ciais, P., Cox, P.M., Dickinson, R.E.,Hauglustaine, D., Heinze, C., Holland, E., Jacob, D., Lohmann, U., Ramachandran, S., Dias, P.L.d.S., Wofsy, S.C., Zhang, X., 2007. Couplings between changes in the climate system and biogeochemistry. In: Solomon, S., Qin, D., Manning, M., Chen, Z., Marquis, M., Averyt, K.B., Tignor, M.,Miller, H.L. (Eds.), Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA.

  6. Karacan CO, Ruiz FA, Cote M, Phipps S. Coal mine methane: a review of capture and utilization practices with benefits to mining safety and to greenhouse gasreduction. Int J Coal Geol 2011;86:121– 56.

  7. Su, S., Beath, A., Guo, H., Mallett, C., 2005. An assessment of mine methane mitigation and utilisation technologies. Progress in Energy and Combustion Science 31, 123–170.

  8. Su, X., Lin, X., Liu, S., Zhao, M., Song, Y., 2005. Geology of coalbed methane reservoirs in the Southeast Qinshui Basin of China. International Journal of Coal Geology 62, 197–210.

  9. Su, S., Chen, H., Teakle, P., Xue, S., 2008. Characteristics of coal mine ventilation air flows. Journal of Environmental Management 86, 44–62.

  10. Kabiesz J. (red.). Raport Roczny (2013) o stanie podstawowych zagrożeń naturalnych i technicznych w górnictwie węgla kamiennego. Central Mining Insitute Press, Katowice, 2014

  11. Stopa J., Nawrat S., 2012. Computer Modeling of Coal Bed Methane Recovery in Coal Mines. Journal of Energy Resources Technology. Sep. 2012, Vol. 134

  12. Ren, T.X., Edwards, J.S., 2002. Goaf gas modeling techniques to maximize methane capture from surface gob wells. In: De Souza, Euler (Ed.), Mine Ventilation, pp. 279–286.

  13. Lunarzewski, L., 1998. Gas emission prediction and recovery in underground coal mines. International Journal of Coal Geology 35, 117–145. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org 15th International Multidisciplinary Scientific Conferences SGEM2015

  14. Tomita, S., Deguchi, G., Matsuyama, S., Li, H., Kawahara, H., 2003. Development of a simulation program to predict gas emission base d on 3D stress analysis. 30th International Conference of Safety in Mines Research Institutes. South African Institute of Mining and Metallurgy, pp. 69–76.

  15. Karacan C.Ö., Esterhuizen G.S., Schatzel S.J., Diamond W.P., Reservoir simulation-based modeling for characterizing longwall methane emissions and gob gas venthole production. International Journal of Coal Geology 71 (2007) 225–

  16. Esterhuizen, G., Karacan, C.Ö., 2005. Development of numerical models to investigate permeability changes and gas emission around longwall mining panels. Proc. Alaska Rocks 2005, 40th US Symposium on Rock Mechanics, Anchorage, Alaska, 25 –26 June.

  17. Gremla A., Rapantova N., Labus K., Doświadczenia dotyczące niekontrolowanych wypływów metanu na powierzchnię w obszarach kopalń likwidowanych przez zatapianie w czeskiej części GZW — strategia i taktyka ich eliminacji i minimalizacji. Gospodarka Surowcami Mineralnymi, Tom 22, 2006, Zeszyt 1, pp. 83-92

  18. Chećko J., Geologiczne aspekty migracji gazów kopalnianych w przypadku likwidacji kopalń węgla kamiennego. PhD thesis, Katowice, 2007 International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org

  19. Cheng, Y. -P., Wang L., Zhang X.-L., Environmental impact of coal mine methane emissions and responding strategies in China. International Journal of Greenhouse Gas Control 5 (2011) 157–166

  20. U.S. EPA, 2008. Coalbed Methane Outreach Program Brochure. Coalbed Methane Outreach Program. United States Environmental Protection Agency.

  21. World Coal Association. http://www.worldcoal.org/coal/coal-seam- methane/abandoned-mine-methane

  22. Somers J., Coal Mine Ventilation Methane (VAM). Update on the World VAM Oxidizer Technology Market. 14 th North American Mine Ventilation Symposium. University of Utah, June 19, 2012

  23. Denman, K.L., Brasseur, G., Chidthaisong, A., Ciais, P., Cox, P.M., Dickinson, R.E.,Hauglustaine, D., Heinze, C., Holland, E., Jacob, D., Lohmann, U., Ramachandran, S., Dias, P.L.d.S., Wofsy, S.C., Zhang, X., 2007. Couplings between changes in the climate system and biogeochemistry. In: Solomon, S., Qin, D., Manning, M., Chen, Z., Marquis, M., Averyt, K.B., Tignor, M.,Miller, H.L. (Eds.), Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA.

  24. Karacan CO, Ruiz FA, Cote M, Phipps S. Coal mine methane: a review of capture and utilization practices with benefits to mining safety and to greenhouse gasreduction. Int J Coal Geol 2011;86:121– 56.

  25. Su, S., Beath, A., Guo, H., Mallett, C., 2005. An assessment of mine methane mitigation and utilisation technologies. Progress in Energy and Combustion Science 31, 123–170.

  26. Su, X., Lin, X., Liu, S., Zhao, M., Song, Y., 2005. Geology of coalbed methane reservoirs in the Southeast Qinshui Basin of China. International Journal of Coal Geology 62, 197–210.

  27. Su, S., Chen, H., Teakle, P., Xue, S., 2008. Characteristics of coal mine ventilation air flows. Journal of Environmental Management 86, 44–62.

  28. Kabiesz J. (red.). Raport Roczny (2013) o stanie podstawowych zagrożeń naturalnych i technicznych w górnictwie węgla kamiennego. Central Mining Insitute Press, Katowice, 2014

  29. Stopa J., Nawrat S., 2012. Computer Modeling of Coal Bed Methane Recovery in Coal Mines. Journal of Energy Resources Technology. Sep. 2012, Vol. 134

  30. Ren, T.X., Edwards, J.S., 2002. Goaf gas modeling techniques to maximize methane capture from surface gob wells. In: De Souza, Euler (Ed.), Mine Ventilation, pp. 279–286.

  31. Lunarzewski, L., 1998. Gas emission prediction and recovery in underground coal mines. International Journal of Coal Geology 35, 117–145. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org 15th International Multidisciplinary Scientific Conferences SGEM2015

  32. Tomita, S., Deguchi, G., Matsuyama, S., Li, H., Kawahara, H., 2003. Development of a simulation program to predict gas emission base d on 3D stress analysis. 30th International Conference of Safety in Mines Research Institutes. South African Institute of Mining and Metallurgy, pp. 69–76.

  33. Karacan C.Ö., Esterhuizen G.S., Schatzel S.J., Diamond W.P., Reservoir simulation-based modeling for characterizing longwall methane emissions and gob gas venthole production. International Journal of Coal Geology 71 (2007) 225–

  34. Esterhuizen, G., Karacan, C.Ö., 2005. Development of numerical models to investigate permeability changes and gas emission around longwall mining panels. Proc. Alaska Rocks 2005, 40th US Symposium on Rock Mechanics, Anchorage, Alaska, 25 –26 June.

  35. Gremla A., Rapantova N., Labus K., Doświadczenia dotyczące niekontrolowanych wypływów metanu na powierzchnię w obszarach kopalń likwidowanych przez zatapianie w czeskiej części GZW — strategia i taktyka ich eliminacji i minimalizacji. Gospodarka Surowcami Mineralnymi, Tom 22, 2006, Zeszyt 1, pp. 83-92

  36. Chećko J., Geologiczne aspekty migracji gazów kopalnianych w przypadku likwidacji kopalń węgla kamiennego. PhD thesis, Katowice, 2007 International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org

View or Download full articleAccess options
Full paper accessChoose SWS login, librarian support, or instant article download.

SWS access login

Login as SWS Scientific Committee

Authors and approved SWS contributors will read and export their own linked papers after identity matching by SWS profile, email and SGEM GlobalID.

For librarian assistance: [email protected]

Purchase Instant Access

48-hour online accessComing soon
Online-only accessComing soon
Download the full article in PDF formatEUR 35
  • Article can be downloaded after successful payment.
  • Article may be used according to SWS library access terms.
  • Article cannot be redistributed.
Get full paper

Back to publication list