1 Dnipro University of Technology (Dnipro, Ukraine)
2 Dnipro University of Technology (Dnipro, Ukraine)
Received: October 3, 2018 / Accepted: November 5, 2018 / Published: January 25, 2019
Keywords: wave astrodynamics; zonal disintegration of rocks; capsulation of mine working; largescale level of system; convergence of research results
Baisarov, Leonid, Mikhail Iliashov, and Viktor Levitet (2006) Discovery No. 318 Ukraine. Regularity of self-organization of soil and rock masses around elongated underground workings. International Academy of Authors of Scientific Discoveries and Inventions, Application No. 399 dated 20.04.2006.
Batiushkova, Irina (1966) Internal structure of the Earth. Moscow, Nauka.
Bolotov, Boris (2012) Human health in an unhealthy world. St. Petersburg, PITER.
Chechelnitsky, Albert (1980) Extremum, stability, resonance in astrodynamics and cosmonautics. Moscow, Mashinostroyenie.
Chechelnitsky, Albert (1988) Uranium System, Solar System and wave astrodynamics. Forecast of the theory and “Voyager-2” observations. Reports of the AS of the USSR. Volume 303(5), 1082–1088.
Kaido, Ilmar (2009) On the nature of phenomenon of zonal rock breaking around underground workings (hypothesis). Mining Informational and Analytical Bulletin, Volume 1, 16–21.
Khomenko, Oleh, Maksym Kononenko, and Maksym Netecha (2016) Industrial research into massif zonal fragmentation around mine workings. Mining of Mineral Deposits, Volume 10 (1), 50–56.
Khomenko, Oleh, Maksym Kononenko, and Aleksandr Dronov (2016) Laboratory research on zonal structuring of a massif around mine workings. Fiziko-tekhnicheskie problemy gornogo proizvodstva. Volume 18, 22–30.
Khomenko, Oleh (2007) Sources of zoning the matter. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu. Volume 3, 29-33.
Khomenko, Oleh (2012) Implementation of energy method in study of zonal disintegration of rocks. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu. Volume 4, 44–54.
Khomenko, Oleh (2016) Geoenergetics of underground development of ore deposits: monograph. Dnipro: DVNZ “NGU.”
Khomenko, Oleh, Andriy Sudakov, Zinjviy Malanchuk, and Yeygen Malanchuk (2017) Principles of rock pressure energy usage during underground mining of deposits. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, Volume 2, 35–43.
Kirichenko, Vladimir, Yefim Zvyagilskiy, and Aleksandr Lishin (2002) Discovery No. 188 Ukraine. Phenomenon of formation of traversing fractured zones in stressed rocks. Collection of scientific discoveries, ideas, hypotheses. Moscow, RAEN, 62–63.
Kirillov, Andrey (2005) Outbursts of methane and coal concerning cosmophysical factors. Solar activity as the factor of space weather. Saint Petersburg, 75–80.
Kononenko, Maksym, Oleh Khomenko, Andrey Sudakov, Sergiy Drobot, and Tsendzgav Lkhagva (2016) Numerical modelling of massif zonal structuring around underground working. Mining of Mineral Deposits, Volume 12 (3), 101–106.
Kumchenko, Yakov (2006) Cosmic (Universal) sources of wave energy of the near space and far space by the example of rotation and circulation of the planets of the solar System and the Sun itself. Its wave invariant. Energy of the Earth, its geological-economic evidence, research and practice application. Kiev: IPC “KIEVSKIY UNIVERSITET.”
Kumchenko, Yakov (2005) Cosmic (Universal) sources of wave energy “KASHTUL” as a cause of creating the living matter. Its energetic leading the processes of origin, support and loss of life by the example of the terrestrial biosphere. Space and Biosphere, 55–57.
Lavrinenko, Vladimir, and Valentina Lysak (1977) Method for defining initial state of stress of hard rock masses. Razrabotka rudnykh mestorozhdeniy, Volume 24, 16–20.
Nieto, Michael Martin (1976) The Titus-Bode Law of Planetary Distances: Its History and Theory. Translated by Yu.A. Riabov.
Shemiakin, Yevgeniy, and Kurlenia, Mihkail (1992) Oparin et al. Discovery No. 400 USSR. Phenomenon of zonal rock breaking around underground workings. BI SSSR. Volume 1.
Schmidt, Otto (1957) A Theory of Earth’s Origin: Four Lectures. Moscow, AN SSSR.
Yavorskiy, Boris, and Andriy Detlaf (1965) Reference book on Physics. Moscow, Nauka.