ArticleName |
Studies of total harmful gas flows on the ground surface from spontaneous mine fires in Kuzbass |
ArticleAuthorData |
Yurga Institute of Technology, Tomsk Polytechnic University, Yurga, Russia:
Lugovtsova N. Yu., Assistant, lnyu-70583@bk.ru Demenkova L. G., Senior Lecturer Filonov A. V., Assistant
National Research Irkutsk State Technical University, Irkutsk, Russia
Timofeeva S. S., Professor, Doctor of Engineering Sciences |
References |
1. Golynskaya F. A. Characteristics of more effective factors of spontaneous combustion of coals in layers. Gornyy informatsionno-analiticheskiy byulleten. 2011. No. 2. pp. 19–23. 2. Erastov A. Yu. The rock pressure effects on coal spontaneous combustion in the goaf of longwall face. Vestnik nauchnogo tsentra po bezopasnosti rabot v ugolnoy promyshlennosti. 2013. No. 1.1. pp. 5–8. 3. Zakharov E. I., Malakhova D. D. Evaluating coal spontaneous combustion dangerous at early stage of low-temperature oxidation. Izvestiya Tulskogo gosudarstvennogo universiteta. Nauki o Zemle. 2015. No. 1. pp. 22–30. 4. Kachurin N. M., Efimov V. I., Vorobev S. A. Forecasting procedure for ecological implications of underground coal mining in Russia. Gornyi Zhurnal. 2014. No. 9. pp. 138–142. 5. Zhu H.-Q., Gu B.-F., Zhang Z. Goaf zone division and index gases of residual coal spontaneous combustion prediction. Metallurgical and Mining Industry. 2015. Vol. 7, Iss. 2. pp. 316–327. 6. Igishev V. G. New method of definition of spontaneous fires. Localization and extinguishing of underground fires: collection of scientific proceedings. Kemerovo, 1989. pp. 15–20. 7. Zauer V. A. Definition of a seat of spontaneous fire in mines. Ugol. 1997. No. 11. pp. 35–37. 8. Portola V. A. Definition of an earlier stage of a process of spontaneous combustion of coal in mines: monograph. Tomsk: Yurginskiy tekhnologicheskiy institut, Izdatelstvo Tomskogo politekhnicheskogo universiteta, 2001. 133 p. 9. Domrachev A. N., Krivolapov V. G., Paleev D. Yu., Lipatin V. I. Using the phenomena of low-temperature emanation of indicator gases during the forecasting of spontaneous combustion of coals. Naukoemkie tekhnologii razrabotki i ispolzovaniya mineralnykh resursov. 2014. No. 1. pp. 315–319. 10. Cygankiewicz J. Determination of Critical Conditions of Spontaneous Combustion of Coal in Longwall Gob Areas. Archives of Mining Sciences. 2015. Vol. 60, Iss. 3. pp. 761–776. 11. Xie J., Xue S., Cheng W., Wang G. Early detection of spontaneous combustion of coal in underground coal mines with development of an ethylene enriching system. International Journal of Coal Geology. 2011. No. 1. pp. 123–127. 12. Chubarov B. V., Chizhov O. V., Tokarev O. S., Vibe Yu. V. Modern method of definition of early stages of spontaneous combustion of coals by radon release. Bezopasnost truda v promyshlennosti. 2014. No. 9. pp. 59–62. 13. Burchart-Korol D., Fugiel A., Czaplicka-Kolarz K., Turek M. Model of environmental life cycle assessment for coal mining operations. Science of the Total Environment. 2016. Vol. 562. pp. 61–72. 14. Koshovskiy B. I., Grekov S. P., Karaseva V. V. Gas-analysis methods of determination of endogenous fires and of control of process of their fire-fighting. Nauchnyy vestnik NIIGD «Respirator». 2011. No. 1. pp. 74–83. 15. Sechman H., Kotarba M. J., Fiszer J., Dzieniewicz M. Distribution of methane and carbon dioxide concentrations in the near-surface zone and their genetic characterization at the abandoned «Nowa Ruda» coal mine (Lower Silesian Coal Basin, SW Poland). International Journal of Coal Geology. 2013. Vol. 116–117. pp. 1–16. 16. Portola V. A. Location of seats of underground fires from the surface: monograph. Ed.: V. A. Kolmakov. Kemerovo : KuzGTU, 2001. 176 p. 17. Reports about the state and protection of environment of Kemerovo Oblast in 2006–2015. Department of natural resources and ecology of Kemerovo Oblast, Kemerovo, 2006–2015. 18. La Fosse L., Cummins M. Modern-Foam-Injection Technology for Extinguishing Coal Fires. Coal and Peat Fires: A Global Perspective. 2011. pp. 327–333. 19. Portola V. A., Lugovtsova N. Yu., Torosyan E. S. Methods of preventing of spontaneous combustion of coal and blasts of coal dusts in mines. Gornyy informatsionno-analiticheskiy byulleten. 2012. No. OV7. pp. 119–124. 20. Portola V. A. Assessment of rock permeability over the mined layers. Vestnik KuzGTU. 2003. No. 3. pp. 30–32. |