AbstractAbout AuthorsReferences
Mining is a set of industrial branches engaged in exploration, extraction, primary processing and obtaining the initial semi-finished product of elements related to minerals. Deposits are ore, non-metallic and alluvial. These deposits are mined by open pit and closed pit methods. After the end of underground operations, empty mine fields remain, which on the surface are labeled as exclusion zones. The problem of cave-in zones, under which the waste mine fields of the mining industry are located, has been particularly acute for decades. These mines are located not only under the industrial zones of populated areas, but also under residential and public areas and cause irreversible transformation of the natural environment, which leads to catastrophic consequences. Transformation of underground space is the main task of redevelopment of industrial areas of this kind. It is possible to build underground structures for other purposes in worked-out mines. Due to the fact that these structures will be maintained and operated, the change in the secondary stress fields in the mountain massif will not have such catastrophic consequences as in the case of alienation-collapse zones. Besides, the reuse of worked-out workings is economically more favorable due to the fact that sinking will be minimal. In this paper only underground mining complexes and the possibility of their reuse will be considered.
A.V. MAN'KO, Candidate Sciences (Engineering), associate professor (This email address is being protected from spambots. You need JavaScript enabled to view it.),
O.V. KOPTEVA, Senior lecturer (This email address is being protected from spambots. You need JavaScript enabled to view it.)
O.V. KOPTEVA, Senior lecturer (This email address is being protected from spambots. You need JavaScript enabled to view it.)
National Research Moscow State University of Civil Engineering (26, Yaroslavskoe Highway, Moscow, 129337, Russian Federation)
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2. Basnukaev M.Sh., Shlafman A.I. Redevelopment industrial’nykh territoriy [Redevelopment of industrial territories]. SPb.: KultInformPress. 2013. 134 p.
3. Vlasova M.F., Leonova L.B. Redevelopment of industrial zones of large cities to create a comfortable urban environment in Russia. Ekonomika stroitel’stva. 2021. No. 5 (71), pp. 15–26. (In Russian).
4. Berezina M.V. Study of the feasibility of options for repairing and strengthening reinforced concrete structures of an industrial building. Engineering personnel are the future of Russia’s innovative economy. Materials of the V All-Russian Student Conference. Yoshkar-Ola. 2019. Vol. 5, pp. 10–12. (In Russian).
5. Kukina I.V. On the role of separating territories in the logical structure of a modern city. Journal of Siberian Federal University. Humanities and Social Sciences. 2012. Vol. 5. No. 5, pp. 647–661.
6. Malaya E.V., Perevednova G.V. Preservation of historical heritage in the process of renovation of enterprises (on the example of textile enterprises in Orekhovo-Zuyevo). Science, education and experimental design. Proceedings of the MAU (MARCHI): Materials of the international scientific and practical conference. Moscow. MAU. 2018. Vol. 2, pp. 473–475. (In Russian).
7. Seregina A.A. Trends in the formation of centers of historical settlements based on industrial heritage on the example of the cities of the Moscow region (Pavlovsky Posad, Orekhovo-Zuyevo, Drezna). Science, education and experimental design. Proceedings of the MAU (MARCHI): Materials of the international scientific and practical conference. Moscow. MAU. 2019, pp. 134–136. (In Russian).
8. Ulyanova G.N. Textile manufacturers Zimin and their family firms: production and trade. 1810–1918. Ekonomicheskaya istoriya (Yearbook). 2021. T. 2020, pp. 170–203. (In Russian).
9. Staritsyna I.A., Staritsyna N.A. Environmental problems of the Ural mining towns on the example of the Sverdlovsk region. Ekologicheskii vestnik Rossii. 2018. No. 2, pp. 51–55. (In Russian).
10. Collaton E., Bartsch Ch. Industrial site reuse and urban redevelopment – an overview. A Journal of Policy Development and Research. 1996. Vol. 2. No. 3, pp. 17–61.
11. Lai Y., Chen K., et al. Transformation of industrial land in urban renewal in Shenzhen, China. Land. 2020. No. 9. 371. DOI: 10.3390/land9100371
12. Popova D.D. Stages of socialization of industrial heritage in Moscow. Vestnik MSUCE. 2020. Vol. 15. No. 8, pp. 1090–1104. (In Russian). DOI: 10.22227/1997-0935.2020.8.1090-1104
13. Dmitrieva A.D., Inskirveli N. Renovation of industrial zones in modern conditions of Russian cities. Spring days of science: collection of reports of the International Conference of Students and Young Scientists. Yekaterinburg. 2021, pp. 781–786. (In Russian).
14. Petrishev V.P., Dubrovskaya S.A., Noreika S.Y. et al. About a problem of post-industrialisation of salt-mining Europian towns. Euro-eco Hannover 2014. International symposium Programm Abstracts: Internationaler Kongress Fachmesse «Okologische, Technologische und Rechtliche Aspekte der Lebensversorgung». 27–28 November 2014, pp. 133–134.
15. Babkin R.A. Industrial zones: potential for reorganization and role in the spatial development of the city (using the example of Moscow). Old and New Moscow: trends and problems of development. A collection of scientific articles presented in the form of reports at conferences within the framework of the project of the Moscow city branch of the Russian Geographical Society “The Unknown is Nearby: Five Years of New Moscow”. Moscow. 2018, pp. 37–57. (In Russian).
16. Zharaspaev M.A. Results of pilot industrial work on re-development at the Zhaman-Aybat field (Republic of Kazakhstan). Interaktivnaya nauka. 2017. No. 11, pp. 127–132. (In Russian). DOI: https://doi.org/10.21661/r-116633
17. Korchak A.V. Reuse of technogenic underground space of coal mines // Gornyi informatsionno-analiticheskii byulleten’ (scientific and technical journal). 1998. No. 6, pp. 22–27. (In Russian).
18. Collaton E., Bartsch Ch. Industrial site reuse and urban redevelopment – an overview. A Journal of Policy Development and Research. 1996. Vol. 2. No. 3, pp. 17–61.
19. Kazikaev D.M., Korotkov T.V. Features of production diversification in the combined development of mineral deposits. Gornyi informatsionno-analiticheskii byulleten’ (scientific and technical journal). 2007. No. 6, pp. 208–213. (In Russian).
20. Kokosadze A.E., Chesnokov S.A., Fridkin V.M. Features of engineering structures of underground power engineering. Izvestiya Tul’skogo gosudarstvennogo universiteta. Nauki o zemle. 2013. No. 3, pp. 55–72. (In Russian).
21. Langer P. “POST-MINING REALITY” in Western Europe: selected collieries in Belgium and France following discontinuation of coal mining. IOP Conf. Series: Materials Science and Engineering. 2019. Vol. 471. Iss. 11. DOI: 10.1088/1757-899X/471/11/112003
22. From a mine to a cultural complex. Internet journal about design and architecture BERLOGOS. Website. 2023. URL: http://berlogos.com/work/iz-shahty-v-kulturnyj-kompleks/ (Date of access 25.09.23). (In Russian).
23. Bogdanov Ya.A., Sokolova S.E., Manko A.V. Selection of the optimal type of chamber support in the rock salt massif at the Sol-Iletsk mine. Inzhenernyi vestnik Dona. 2023. No. 5 (101), pp. 607–615. (In Russian).
24. Dolotov Yu.A. Underground halotherapy in Europe and CIS. Speleologiya i spelestologiya. 2012. No. 3, pp. 270–275. (In Russian).
25. Vishnevskaya N.L. Speleotherapy in the recovery of industrial workers. Uspekhi sovremennogo estestvoznaniya. 2007. No. 10, pp. 126–127. (In Russian).
26. Prokhorenko S.N. Reuse of mine workings after the cessation of mineral extraction. Gornyi informatsionno-analiticheskii byulleten’ (scientific and technical journal). 2003. No. 7, pp. 81–83. (In Russian).
For citation: Man'ko A.V., Kopteva O.V. Method of redevelopment of underground mining facilities Stroitel’nye Materialy. Stroitel’nye Materialy [Construction Materials]. 2023. No. 12, pp. 55–60. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2023-820-12-55-60