Utilization of wastes of marble and drill cuttings in the process of building materials production

Number of journal: 4-2019

Oreshkin D.V.
Shadrunova I.V.
Chekushina T.V.
Proshlyakov A.N.

DOI: https://doi.org/10.31659/0585-430X-2019-769-4-65-72


AbstractAbout AuthorsReferences
The scientific bases of a comprehensive methodology of environmental assessment of man-made waste and their large-scale utilization in the production of building materials and products have been developed. Possibility to use the specified anthropogenic waste as raw materials for production of construction materials at the simultaneous solution of ecological problems of territories due to their large-scale utilization is substantiated. Technological operations, which make up the life cycle of fine marble waste, are identified and ranked. The main negative factors of formation of a large amount (about 50 thousand tons annually) of waste of various fractions are shown on the example of the Koelga white marble deposit. The properties of fine waste of white marble are given, the technology of their involvement as a raw component in the production of ceramic bricks is proposed. It is shown that the utilization of the total accumulated volume of fine waste of white marble will make it possible to produce more than 120 million pieces of ceramic bricks of different colors of the normal format. A block-scheme of the life cycle and negative environmental effects of drill cuttings placement has been developed. As an example, it is proposed to use the drilling cuttings of Bovanenkovskoye oil, gas and condensate field in the technology of production of ceramic bricks, the accumulated reserves of which are more than 1.2 million tons and occupy over 1000 hectares of land. By processing drill cuttings into ceramic bricks of semi-dry pressing it is possible to produce about 15 million pieces of bricks of normal format. Also due to the mineral and disperse composition the drill cuttings can be used in mortars and dry mixtures, the production of road bases, pavement tiles, large residues on the sieves can be used for the fiber-concrete mixture for ballasting underwater pipelines.
D.V. ORESHKIN, Doctor of Sciences (Engineering)
I.V. SHADRUNOVA, Doctor of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.)
T.V. CHEKUSHINA Candidate of Sciences (Engineering), (This email address is being protected from spambots. You need JavaScript enabled to view it.)
A.N. PROSHLYAKOV, research scientist (This email address is being protected from spambots. You need JavaScript enabled to view it.)

N.V. Mel’nikov Institute of Comprehensive Exploitation of Mineral Resources, Russian Academy of Sciences (4, Kryukovsky tupik, Moscow, 111020, Russian Federation)

1. Oreshkin D.V. Ecological problems of integrated development of the subsoil with large-scale utilization of technogenic mineral resources and wastes in the production of building materials. Stroitel’nye Materialy [Construction Materials]. 2017. No. 8, pp. 55–63. DOI:10.31659/0585-430X-2017-751-8-55-63 (In Russian).
2. Telichenko V.I., Oreshkin D.V. Materials science aspects of geo-ecological and environmental safety in construction. Ecology of urbanized territories. Ekologiya urbanizirovannykh territoriy. 2015. No. 2, pp. 31–33. (In Russian).
3. Meshcheryakov Yu.G., Kolev N.A., Fedorov S.V., Suchkov V.P. Production of granulated phosphogypsum for the cement industry and building products. Stroitel’nye Materialy [Construction Materials]. 2009. No. 5, pp. 104–106. (In Russian).
4. Chanturia V.A., Chaplygin N.N., Vigdergauz V.E. The strategy of reducing, recycling and recycling of mining waste in research of the Russian Academy of Sciences Proceedings of the international meeting “Modern problems of complex processing of natural and man-made mineral raw materials” (Plaksinsky readings-2005). Saint Petersburg: Roza Mira. 2005, pp. 230–235.
5. Trubetskoy K.N., Kaplunov D.R. and others. Kompleksnoe osvoenie mestorozhdenii i glubokaya pererabotka mineral’nogo syr’ya [Integrated development of deposits and deep processing of mineral raw materials]. Moscow: Nauka. 2010. 437 p.
6. Chaplygin N.N. Osnovaniya ekologicheskoi teorii kompleksnogo osvoeniya nedr [The basis of the ecological theory of integrated development of mineral resources]. Moscow: IPKON RAN. 2006. 102 p.
7. Ekologicheski orientirovannaya pererabotka gornopromyshlennykh otkhodov [Environmentally oriented processing of mining waste] / Chanturia V.A. end as., Ed. V.A. Chanturia and I.V. Shadrunova, Moscow: Sputnik+. 2018, 210 p.
8. Oreshkin D.V., Papichev V.I., Zemlyanushnov D.Yu., Popov P.V. Ecological problems of the territories in the mining process and the processing of marble, their solutions. Gornyy Zhurnal. 2018. V. 40. No. 1, pp. 88–91. DOI: 10.17580/gzh.2018.01.16. (In Russian).
9. Zemlyanushnov D.Yu., Sokov V.N., Oreshkin DV, Skanavi N.A. Utilization of fine wastes of marble processing in the production of facial ceramics. Herald of ISTU. Vestnik IRGTU. 2014. No. 9 (92), pp. 122–126. (In Russian).
10. Zemlyanushnov D.Yu., Sokov V.N., Oreshkin D.V. The use of fine wastes of marble processing in the technology of facing ceramics. Scientific and Technical Bulletin of the Volga region. Nauchno-tehnicheskii vestnik Povolgiya. 2014. No. 4, pp. 108–114. (In Russian).
11. Zemlyanushnov D.Yu., Sokov V.N., Oreshkin D.V. Ecological and economic aspects of the use of fine marble waste in the production of ceramic facing materials. Vestnik MGSU. 2014. No. 8, pp. 118–126. DOI: 10.22227/1997-0935.2014.8. (In Russian)
12. Moumouni A., Goki N.G. Chaanda M.S. Geological Exploration of Marble Deposits in Toto Area, Nasarawa State, Nigeria. Natural Resources. 2016. No. 7, pp. 83–92. http://dx.doi.org/10.4236/nr.2016.72008
13. Rekus I.G., Shorina O.S. Fundamentals of ecology and environmental management. Moscow: Publishing House of MGUP. 2012. 146 p.
14. Oreshkin D.V., Sakharov G.P., Chebotaev A.N., Kurbatova A.S. Geoecological problems of disposal of drill cuttings in Yamal. Vestnik MGSU. 2012. No. 2, pp. 125–129. DOI: 10.22227/1997-0935.2012.2. (In Russian).
15. Oreshkin D.V., Chebotarev A.N., Perfilov V.A. Disposal of drilling sludge in the production of building materials. Procedia Engineering. 2015. Vol. 111, pp. 607–611.
16. Chebotaev A.N. The possibility of disposal of drill cuttings from the Bovanenkovskoye field in the production of building materials. Construction of oil and gas wells on land and at sea. Stroitel’stvo neftyanykh i gazovykh skvazhin na sushe i na more. 2015. No. 9, pp. 25–28. (In Russian).
17. Epiphany V.I. Achievements and problems of exploration and fuel and energy complex of Russia. Drilling and oil. Bureniye i neft’ .2013. No. 3, pp. 3–7. (In Russian).

For citation: Oreshkin D.V., Shadrunova I.V., Chekushina T.V., Proshlyakov A.N. Disposal of waste marble and drill cuttings in the production of building materials.. Stroitel’nye Materialy [Construction Materials]. 2019. No. 4, pp. 65–72. DOI: https://doi.org/10.31659/0585-430X-2019-769-4-65-72 (In Russian).

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