Slastunov Sergey Viktorovich

2014 — present: professor at the Department of Geoecology, then after the reorganization, of the Department of Safety and Ecology of Mining Production.

1996-2014: chair at the Department of Engineering Environmental Protection (later the Department of Geoecology, GE).

1994-2007: vice-rector of the Moscow State Mining University for research.

1988-1994: associate professor, professor, deputy chair at the Department of Aerology and Labor Protection.

1975-1988: Moscow Mining Institute / Moscow State Mining Institute. Senior engineer, junior researcher, lecturer at the Department of Underground Coal Mining Technology, senior and then a leading researcher at the Department of Aerology and Labor Protection.

1975: Moscow Mining Institute. Major — “Physical processes of mining production”. Mining engineer-physicist.

Additional Education

1999, 2004, 2006: advanced training at the University of Alabama on the courses “Problems of coal methane”, Tuscaloosa (USA).

2011: advanced training at Sigra as part of the development of the concept of ensuring methane safety at the Belvedere mine (Australia).

2005: advanced training at DMT on the use of coalbed methane (Germany).

He developed and scientifically justified a number of ways to control the properties and condition of the coal- and gas bearing rock mass to combat the main hazards in the coal mine.

He developed and implemented a number of new technologies for the advanced and preliminary degassing of high-gas coal seams in the mines of the Kuznetsk and Karaganda coal basins to ensure methane safety of underground mining operations.

Scopus Hirsch Index — 4.

Number of articles on Scopus — 15.

• Development of an environmentally safe technology for the development of coal and gas fields. Ministry of Education and Science. 2010-2012. Technology for managing the properties and condition of coal seams.
• Research and development of technological solutions for the prevention of dangerous geodynamic phenomena in coal mines. Ministry of Education and Science. 2013. Justification of the technology of multistage formation degassing.
• Research and development of methods for the preliminary and operational forecasting of the gas content of mine workings in the conditions of intensive mining of coal seams. Ministry of Education and Science. 2014-2015. Methodology for choosing a rational technology of formation degassing.
• Conduct mine tests of the technology of formation degassing with the use of hydraulic fracturing of coal seam from underground workings (PodzGRP) for the conditions of the S.M. Kirov mine of JSC SUEK — Kuzbass. S.M. Kirov mine of JSC SUEK — Kuzbass. 2017. New technology of formation degassing.
• Development and implementation of the advanced technology of integrated degassing of coal seams under development using their hydrodynamic treatment. Department of Degassing and Methane Disposal, JSC SUEK — Kuzbass. 2018. New technology of formation degassing.
• Development of an effective technology for early degassing of gas-bearing coal seams for the conditions of the S.M. Kirov mine. S.M. Kirov mine of JSC SUEK — Kuzbass. 2018. New parameters of the formation degassing technology.
• Implementation and evaluation of the effectiveness of the improved technology of integrated degassing of coal seams under development using their hydrodynamic treatment at the mines of JSC SUEK — Kuzbass. Department of Degassing and Methane Disposal, JSC SUEK — Kuzbass. 2019. New technology of formation degassing.
• Conduct mine testing and develop rational parameters of the technology of early degassing of gas-bearing coal seams by wells from the surface for the conditions of the S. M. Kirov mine of JSC SUEK — Kuzbass. S.M. Kirov mine of JSC SUEK — Kuzbass. 2019. New technology of formation degassing.
• Development and testing of the technology of multi-stage degassing treatment of high-gas coal seams for their intensive mining at the mines JSC SUEK — Kuzbass. Department of Degassing and Methane Disposal, JSC SUEK — Kuzbass. 2020. New parameters of the formation degassing technology.
• Develop an effective technology for the degassing preparation of the coal seam by wells from the surface for the conditions of prospective dredging sites of the S.M. Kirov mine. S.M. Kirov mine of JSC SUEK — Kuzbass. 2020. New technology of formation degassing.

• S.V. Slastunov, G.G. Karkashadze, K.S. Kolikov, G.P. Ermak. Analytical method for calculating the permissible load on the treatment face according to the gas factor. Journal “Physico-technical problems of resource development”, No. 6, 2013, pp. 53-59, 1.0 printed sheet.
• S.V. Slastunov, G.G. Karkashadze, E.P. Yutyaev, E.V. Mazanik. Preparation of a gas-bearing coal seam for safe mining. Mining Journal, No. 10, 2016, pp. 88-91.
• S.V. Slastunov, E.P. Yutyaev. Reasonable choice of the formation degassing technology for ensuring the safety of underground mining operations during intensive coal mining. St. Petersburg, Notes of the Mining Institute, vol. 223, 2017, pp. 125-130.
• S.V. Slastunov, E.P. Yutyaev, E.V. Mazanik, G.P. Ermak. Investigation of the efficiency of the improved technology of underground hydraulic fracturing of a coal seam for its degassing. Mining Journal, 2018, No. 1, pp. 83-87.
• S.V. Slastunov, E.V. Mazanik, I.A. Komissarov, A.M.-B. Khautiev. Identification of the rational parameters of the underground hydraulic fracturing technology in terms of optimizing the rate of injection of the working fluid. Mountain Information and Analytical Bulletin (GIAB), No. 9, 2018, pp. 90-95.
• S.V. Slastunov, A.A. Meshkov, E.V. Mazanik, I.A. Komissarov. Analysis of working fluid injection modes in the application of underground hydraulic fracturing technology. Mining Information and Analytical Bulletin (GIAB), No. 10, 2018, pp. 110-117.
• K.S. Kolikov, S.V. Slastunov, E.V. Mazanik. Improving the efficiency of degassing in high-performance coal bed mining. Occupational Safety in Industry, No. 1, 2019, pp. 71-76.
• 8. S.V. Slastunov, E.P. Yutyaev, E.V. Mazanik, A.P. Sadov, A.P. Ponizov. Ensuring the methane safety of mines based on a deep degassing of coal seams in their preparation for the heavy development, JULY, 2019, “COAL”, pp. 42-47.
• 9. S.V. Slastunov, E.V. Mazanik, A.P. Sadov, A.M.-B. Khautiev. Technology of deep degassing of preparation of the coal seam based on its hydroextension through wells from the surface // Mining Information and Analytical Bulletin. — 2020. — No. 1. — pp. 5-14. DOI: 10.25018/0236-1493-2020-1-0-5-14.
• 10. S.V. Slastunov, A.V. Ponizov, A.P. Sadov, A. B.-M. Khautiev. Development of a complex technology for multi-stage degassing treatment of coal seams for their intensive development. Mining Journal, 2021, No. 2, pp. 101-106.

• Certificate of state registration of computer programs No. 2015617827 dated 07/23/2015 (authors: G.G. Karkashadze, S.V. Slastunov, K.S. Kolikov). Program for calculating the maximum permissible load on the treatment face of a coal mine by the gas factor.
• Patent of the Russian Federation (S.V. Slastunov, G.G. Karkashadze, K.S. Kolikov, A.M.-B. Khautiev). Method for determining the well volume. Patent RU 2558563 C1. Bulletin. No. 22 dated 08/10/2015.
• Patent of the Russian Federation (S.V. Slastunov, G.G. Karkashadze, K.S. Kolikov). Mmethod for preventing gas-dynamic phenomena in the underground development of a gas-bearing coal seam. Patent of the Russian Federation No. 2539074 dated 11/26/2014.
• Patent of the Russian Federation (G.G. Karkashadze, K.S. Kolikov, E.V. Mazanik, S.V. Slastunov, P.N. Paschenkov). Method for determining the formation pressure of methane and sorption parameters of a coal seam. Patent for invention of the Russian Federation No. 2630343 dated 09/07/2017.
• Patent of the Russian Federation (S.V. Slastunov, G.G. Karkashadze,K.S. Kolikov, E.P. Yutyaev, E.V. Mazanik, A.P. Sadov, A.V. Ponizov, S.G. Nikitin). Method for preparing a gas-bearing coal seam for mining. Patent of the Russian Federation No. 2 659 298 Bulletin No. 19 (73), 06/29/2018.

Supervision over six doctor’s and 11 PhD theses.

Teaching

Courses:

• Technology of underground development of reservoir deposits, 51 hours, 1981-1984.
• Rock mass management, 68 hours, 1982-1984.
• Aerology of mining enterprises, 34 hours, 1987-1994.
• Occupational safety, 51 hours, 1988-1994
• Mining and environmental protection, 34 hours, 1996-2007
• Geoecology, 34 hours, 2008-2018
• Rock mass management, 30 hours, China, Suzhou University, 1995
• Mining and environmental protection, 68 hours, Kazakh Technological University, Alma-Ata, 2013

1997-2014: chairman of the doctoral dissertation council D 212.128.08 at the MSU, a member of several other dissertation councils.

Member of the NUST MISIS dissertation council.

Member of the editorial board of the journal “Physical and technical problems of mining production”. National Academy of Sciences of the Ukraine. Institute of Physics of Mining Processes, Donetsk, Ukraine.

Participation in the organizing committee of the international symposium “Miner’s Week” since 1996.

He was a member of a number of ad hoc expert groups on coal mine methane at the UN Economic Commission.

He was a member of a number of working groups of the Russian Ministry of Energy for the extraction and use of coalbed methane.