№4|2019

SURFACE RUNOFF TREATMENT

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UDC 628.32:628.221

Skolubovich Yu. L., Voytov E. L., Tsyba A. A., Balchugov D. V., Kamaletdinov A. R.

Purification of storm water from the territories of industrial enterprises

Summary

The state of surface runoff disposal systems in Russia has been considered. In many cities the systems of atmospheric precipitation removal are in an extremely unsatisfactory condition since they have hardly undergone any upgrade. During intensive precipitation and heavy snowmelt rain and melt water accumulate on the territory of industrial enterprises. At the same time the treatment of surface runoff is complicated by the increase in volumes of wastewater and the physical deterioration of treatment facilities. As a result surface runoff containing suspended solids, oil products and other pollutants enters water bodies without treatment producing a negative impact on the ecosystem of water bodies. The characteristic of the composition of surface runoff of industrial enterprises is given on the example of a coal preparation plant in the city of Novosibirsk. Methods of treatment are considered. In order to reduce the harmful effects of surface runoff on water bodies at the Novosibirsk State University of Architecture and Civil Engineering (Sibstrin) storm water treatment technology has been developed that provides for the effluent discharge into open water bodies or usage in recirculating water supply of enterprises.

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REFERENCES

  1. Molokov M. V. Dozhdevaia kanalizatsia ploshchadok promyshlennykh predpriiatii: proizvodstvenno-prakticheskoe izdanie [Storm water drainage of industrial sites: production and practical edition. Мoscow-Leningrad, Stroiizdat Publ., 1964, 184 p.].
  2. Volchek А. А., Bul’skaia I. V. [Storm water as a source of surface water pollution]. Vestnik Brestskogo Gosudarstvennogo Tekhnicheskogo Universiteta, 2012, issue 2, pp. 41–43. (In Russian).
  3. Govorova Zh. M., Govorov O. B., Gandurina L. V., Butseva L. N. [Storm water treatment in clarification-sorption filters with the use of cationic flocculants. Wastewater treatment. Collection of papers of NII VODGEO]. Мoscow, 2004, issue 7, pp. 52–61. (In Russian).
  4. Rekomendatsii po raschetu sistem sbora, otvedeniia i ochistki poverkhnostnogo stoka s selitebnykh territorii, ploshchadok predpriiatii i opredeleniiu usloviy vypuska ego v vodnyye obekty [Recommendations for designing the systems of collection, removal and treatment of the runoff from residential areas, industrial sites; and determining the conditions for its discharge into the water bodies. Мoscow, «NII VODGEO» JSC Publ., 2014, 88 p.].
  5. Ignat’eva L. P., Potapova M. O. Sanitarnaia okhrana vodnykh obektov:uchebnoe posobie [Sanitary protection of water bodies: study guide. Irkutsk, IGMU Publ., 2016, 97 p.].
  6. Vremennye rekomendatsii po predotvrashcheniiu zagriazneniya, otvedeniiu i ochistke poverkhnostnogo stoka s territorii predpriiatii ugol’noi promyshlennosti [Temporary recommendations for the prevention of pollution, removal and cleaning of surface runoff from the territory of the coal industry. Perm, VNIIOSugol’ Publ., 1985, 78 p.].
  7. Fleck A. M., Lacki M. J., Sutherland J. Response by white birch (Betula papyrifera) to road salt applications at Cascade Lakes, New York. Journal of Environmental Management, 1988, v. 12, no. 1, pp. 369–377.
  8. Hofstra G., Smith D. W. The effects of road de-icing salt on the levels of ions in roadside soils in southern Ontario. Journal of Environmental Management, 1984, no. 19 (3), pp. 261–272.
  9. Voitov E. L., Skolubovich Iu. L., Skolubovich A. Iu. [Pat. 181324, RF. MPC СО2F 3/10, СО2F 3/26, СО2F 1/52. Device for water purification]. Izobreteniia. Poleznye Modeli, 2017, no. 19. (In Russian).
  10. Krutkov A. E., Skolubovich Iu. L., Voitov E. L., Tsyba A. A. Effektivnost’ ochistki stochnykh vod predpriiatii ugledobyvaiushchei promyshlennosti [Efficiency of wastewater treatment of coal mining enterprises]. Proceedings of the Novosibirsk State University of Architecture and Civil Engineering (Sibstrin), 2017, v. 20, no. 1 (64), pp. 57–69. (In Russian).

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