(1). Gosstandart of Russia. ОK 032-2002 All-Russian classifier of minerals and groundwater. https://files.stroyinf.ru/Data2/1/4293853/4293853488. htm

(2). M. Mastalerz, A. Drobniak, Coalbed Methane. Future Energy (3rd Ed.) 2020, p. 97–109. Crossref

(3). N.M. Storonskiy, V.T. Khryukin, D.V. Mitronov, E.V. Shvachko, Rus. Chem. Journal. 6 (2008) 63–72. (In Russ.).

(4). E.Yu. Makarova, D.V. Mitronov, Resource base and prospects for coalbed methane production in Russia. Georesursy [Georesources] 2 (2015) 101‒106. Crossref

(5). 2006 IPCC Guidelines for National Greenhouse Gas Inventories. Chapter 4: Fugitive Emissions. https://www.ipcc-nggip.iges.or.jp/public/2006gl/pdf/2_Volume2/V2_4_Ch4_ Fugitive_Emissions.pdf

(6). Top coal mine methane emitters, IEA, 2020. Electronic resource. https://www.iea.org/data-and-statistics/charts/top-coal-mine-methane-emitters-2020

(7). Global Non-CO2 Greenhouse Gas Emission Projections & Mitigation: 2015–2050, United States Environmental Protection Agency (2019). https://www.epa.gov/sites/default/files/2020-05/documents/epa_non-co2_ greenhouse_gases_rpt-epa430r19010.pdf

(8). S.A. Lolon, J.F. Brune, G.E. Bogin, A. Juganda, Mining, Metall. Explor. 37 (2020) 1437–1449. Crossref

(9). United Nations Economic Commission for Europe. Best Practice Guidance for Effective Methane Drainage and Use in Coal Mines. 2016.

(10). Trends in Atmospheric Methane. Global CH4 Monthly Means. https://gml.noaa.gov/ccgg/trends_ch4/

(11). D. Archer, Global Warming. Understanding the Forecast. Wiley-Blackwell; 2012.

(12). CMM and AMM Projects: Analysis of the 2021 CMM Project List. https://www.globalmethane.org/documents/PNNL_2021_CMM_Project Status and Trends_v4.pdf

(13). History and Outlooks of the Project. https://kuznetsk-dobycha.gazprom.ru/about/history/

(14). The outlooks for coal-bed gas production in Russia. Electronic resource. https://www.gazprom.ru/about/production/extraction/metan/

(15). Reduction of mine methane emission from the facilities of Vorkutaugol. https://www.barentsinfo.fi/beac/docs/Hot_Spot_Ko1_Vorkutaugol.pdf

(16). V.Yu. Zhiryakov, M.Yu. Tarasov, S.S. Ivanov, A.A. Zobnin, Oil gas territory [Territorija neftegaz] 8 (2013) 82–85 (In Russ.).

(17). The state and Protection of the Environment in the Russian Federation in 2020. State Report. Moscow, Ministry of Natural Resources of the Russian Federation; Lomonosov MSU: 2021. (In Russ.).

(18). G.V. Belov, B.G. Trusov. Thermodynamic modeling of chemically reacting systems. Moscow, Bauman MSTU; 2013. (In Russ.).

(19). E.V. Matus, O.B. Sukhova, I.Z. Ismagilov, L.T. Tsikoza, Z.R. Ismagilov, React. Kinet. Catal. Lett. 98 (2009) 59–67. Crossref

(20). I.Z. Ismagilov, E.V. Matus, V.V. Kuznetsov, S.A. Yashnik, M.A. Kerzhentsev, G. Gerritsen, H.C.L. Abbenhuis, Z.R. Ismagilov, Eurasian Chem.-Technol. J. 19 (2017) 3–16. Crossref

(21). E.V. Matus, D.V. Nefedova, V.V. Kuznetsov, V.A. Ushakov, O.A. Stonkus, I.Z. Ismagilov, M.A. Kerzhentsev, Z.R. Ismagilov, Kinet. Catal. 58 (2017) 610–621. Crossref

(22). I.Z. Ismagilov, A.V. Vosmerikov, L.L. Korobitsyna, E.V. Matus, M.A. Kerzhentsev, A.A. Stepanov, E.S. Mihaylova, Z.R. Ismagilov, Eurasian Chem.-Technol. J. 23 (2021) 147–168. Crossref

(23). M.A. Kerzhentsev, E.V. Matus, I.A. Rundau, V.V. Kuznetsov, I.Z. Ismagilov, V.A. Ushakov, S.A. Yashnik, Z.R. Ismagilov, Kinet. Catal. 58 (2017) 601–609. Crossref