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HomeSolid State PhenomenaSolid State Phenomena Vol. 277Examination of Phase Transition of Mine Methane to...

Examination of Phase Transition of Mine Methane to Gas Hydrates and their Sudden Failure – Percy Bridgman’s Effect

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Abstract:

The analysis of sudden outbursts of coal and gas in coal mines is presented in the article. Phase transitions of gas to gashydrate state are investigated in the laboratory. Thermobaric parameters of phase transitions of mine methane are established. The new hypothesis is described of sudden outbursts of gas that is based on a gashydrate condition of methane in mines at depths (near 1000 m and more) and their explosion-like failure – Percy Bridgman’s effect.

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Periodical:

Solid State Phenomena (Volume 277)

Pages:

137-146

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.277.137

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Online since:

June 2018

Authors:

Volodymyr Bondarenko, Iryna Kovalevska, Denys Astafiev*, Olha Malova

Keywords:

Gas Hydrate, Gas-Dynamic Phenomena, Methane, Phase Transitions, Sudden Outbursts

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© 2018 Trans Tech Publications Ltd. All Rights Reserved

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[1] Makogon, Yu.F., & Morozov, I.F. (1973). Vnezapnye vybrosy i uchastie v nikh metana v gidratnom sostoyanii. Bezopasnost' Truda v Promyshlennosti, (12), 26-27.

[2] Moskalenko, E.M., Makogon, Yu.F., Gorbunov, I.A., & Dorofeev, D.I. (1980). Issledovanie izmeneniya temperatury vybrosoopasnogo ugol'nogo plasta. Ugol' Ukrainy, (3), 21-24.

[3] Dryndin, V.A., Makogon, Yu.F., & Moskalenko, E.M. (1982). Prognozirovanie Vybrosopasnykh Zon v Ugol'nykh Shakhtakh. Moskva: MGI.

[4] Skochinskiy, A.A., & Khodot, V.V. (1957). Gornaya Nauka i Bor'ba s Vnezapnymi Vybrosami Uglya i Gaza na Shakhtakh. Moskva: Ugletekhizdat.

[5] Bobrov, V.I., & Krichevskiy, V.I. (1964). Bor'ba s Vnezapnymi Vybrosami Uglya i Gaza. Kiev: Tekhnika.

[6] Nikolin, V.N., Meliksetov, S.S., & Berkovich, I.M. (1967). Vybrosy Porody i Gaza. Moskva: Nedra.

[7] Klyukin, G.K. (2009). Osobennosti vnezapnykh vybrosov uglya i porody i sostoyanie vybrosoaktivnogo gaza. Vestnik Kuzbasskogo Gosudarstvennogo Tekhnicheskogo Universiteta, (6), 38-41.

[8] Klyukin, G.K. (2010). Mekhanizm obrazovaniya vybrosoaktivnykh zon. Vestnik Kuzbasskogo Gosudarstvennogo Tekhnicheskogo Universiteta, (2), 56-58.

[9] Myuller, R.L. (1959). K voprosu o vozmozhnoy roli khimicheskikh protsessov pri vnezapnykh vybrosakh uglya i gaza v ugol'nykh shakhtakh. Voprosy Teorii Vnezapnykh Vybrosov Uglya i Gaza, 156-172.

[10] Skritskiy, V.A., Surkov, A.V., & Sobolev, V.V. (2013). Prichiny zarozh-deniya i razvitiya gazodinamicheskikh yavleniy v ugol'nykh shakhtakh. Nauchno-tekhnicheskiy Zhurnal Vestnik. Problemy i Suzhdeniya, (2), 102-108.

[11] Bondarenko, V.I., & Mossur, A.P. (2008).

[12] Bondarenko, V.I., & Mossur, A.P. (2009). Vybrosoopasnost' ugol'nykh plastov i protsessy gidratoobrazovaniya v metanoobil'nykh uglenosnykh otlozheniyakh. In Forum Gіrnikіv (pp.256-261). Dnіpropetrovsk: Natsionalnyi Hirnychyi Universytet.

[13] Bondarenko, V.I., Ovchinnikov, N.P., & Chernukha, L.I. (2010).

[14] Bondarenko, V., Svietkina, O., & Sai, K. (2018). Effect of Mechanoactivated Chemical Additives on the Process of Gas Hydrate Formation. Eastern-European Journal of Enterprise Technologies, 1-6(91), 17-26.

DOI: 10.15587/1729-4061.2018.123885

[15] Ovchynnikov, M., Ganushevych, K., & Sai, K. (2013). Methodology of Gas Hydrates Formation from Gaseous Mixtures of Various Compositions. Annual Scientific-Technical Collection ‒ Mining of Mineral Deposits, 203-205.

DOI: 10.1201/b16354-36

[16] Bondarenko, V., Svietkina, O., & Sai, K. (2017). Study of the Formation Mechanism of gas Hydrates of Methane in the Presence of Surface-Active Substances. Eastern-European Journal of Enterprise Technologies, 5-6(89), 48-55.

DOI: 10.15587/1729-4061.2017.112313

[17] Abramov, F.A., Zorin, A.N., & Efremov, E.I. (1978). Nekotorye aspekty teorii vybrosov uglya, porody i gaza. Osnovy Teorii Vnezapnykh Vybrosov Uglya, Porody i Gaza, 92-122.

[18] Yarunin, S.A., Koroleva, V.N., & Antilogov, Yu.G. (1997). Tekhnologiya Izvlecheniya Metana iz Ventilyatsionnykh Struy Shakht. Moskva: MGGU.

[19] Kats, D.L. (1965). Rukovodstvo po Dobyche, Transportu i Pererabotke Prirodnogo Gaza. Moskva: Nedra.

[20] Neftemagnat. (2018). Vlagosoderzhaniye prirodnykh gazov. http://www.neftemagnat.ru/enc/21.

[21] Kovalevska, I., Barabash, M., & Snihur, V. (2018). Development of a research methodology and analysis of the stress state of a parting under the joint and downward mining of coal seams. Mining of Mineral Deposits, 12(1), 76-84.

DOI: 10.15407/mining12.01.076

[22] Bondarenko, V., Hardygora, M., Symanovych, H., Sotskov, V., & Snihur, V. (2016). Numerical methods of geomechanics tasks solution during coal deposits' development. Mining of Mineral Deposits, 10(3), 1-12.

DOI: 10.15407/mining10.03.001

[23] Bondarenko, V.I., Ilyashov, M.A., Kovalevskaya I.A., Simanovich, G.A., & Fomichev, V.V. (2008). Prognoz peremeshcheniy kontura plastovoy vyrabotki v sloistom mas sive slabikh porod. Dnepropetrovsk: Sistemnyye tekhnologii.

[24] Ettinger, I.L. (1969). Vnezapnye Vybrosy Uglya i Gaza i Struktura Uglya. Moskva: Nedra.

[25] Saik, P.B. (2016). Revisiting the underground gasification of coal reserves from contiguous seams. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, (6), 60-66.

[26] Bondarenko, V.I., Kovalevskaya I.A., Simanovich, G.A., & Chervatyuk, V.G. (2012). Geomekhanika nagruzheniya krepi ochistnykh i podgotovitel'nykh vyrabotok v sloistom massive slabykh porod. Dnepropetrovsk: LizunovPress.

[27] Kozhevnikov, A.A., Sudakov, A.K., Dreus, A.Yu., & Lysenko, Ye.Ye. (2013). Study of heat transfer in cryogenic gravel filter during its transportation along a drillhole. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, (6), 49-54.

DOI: 10.33271/nvngu/2020-5/033

[28] Ettinger, I.L., & Shul'man, N.V. (1978). O vozmozhnosti obrazovaniya gazovykh gidratov v uvlazhnennykh ugol'nykh plastakh. Voprosy Teorii Vybrosov Uglya, Porody i Gaza, 11-18.

[29] Maevskiy, B.C., Reypol'skiy, P.A., & Kachko, V.Yu. (1989). Osobennosti izmereniy temperatury na vybroso i udaroopasnykh plastakh. Ugol' Ukrainy, (12), 32-33.

[30] Bondarenko, V., Kovalevs'ka, I., & Fomychov, V. (2012). Features of carrying out experiment using finite-element methodat multivariate calculation of mine massif – combined support system. Geomechanical Processes During Underground Mining, 7-13.

DOI: 10.1201/b13157-4