Determination of Wastewater Purification Index under Joint Action of Several Pollution Sources in Marine Water Areas

Sergey Bezborodov; Nina Zemlynaya

doi:10.4028/www.scientific.net/AMM.725-726.1350

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 725-726Determination of Wastewater Purification Index...

Determination of Wastewater Purification Index under Joint Action of Several Pollution Sources in Marine Water Areas

Abstract:

Active use of marine water areas makes necessitate a rational ecological planning of human activities in the coastal zones. The difficulty of solving environmental problem is that in marine water aria come pollutants from many sources of all kinds. In our research for solve the problem of determining the requirements for water users on the basis of prediction formed functional for each pollutant and source of pollution. Minimizing this functional under various constraints define the requirements for each water users.

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Periodical:

Applied Mechanics and Materials (Volumes 725-726)

Pages:

1350-1356

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.725-726.1350

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Online since:

January 2015

Authors:

Sergey Bezborodov*, Nina Zemlynaya

Keywords:

Computer Modeling, Marine Water Areas, Wastewater Purification

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References

[1] Ministry of Natural Resources of Russia Federation Order number 333 from 17. 12. 2007 On Approval of the Methodology development standards for allowable discharges of substances and micro-organisms in water objects for water users.

Google Scholar

[2] Zemlyanaya, N.V., Lyakhov, V.N. Long term forecast water quality in marine water areas 4 (2003) J. Water Resources, 485, p.492.

Google Scholar

[3] Zemlyanaya, N.V., Lyakhov, V.N., Nadezhkina, A.A. Determination of permissible anthropogenic pressures on marine water area (2008) J. VAS, 7, pp.42-47.

Google Scholar

[4] Zemlyanaya, N.V., Bezborodov, S.A. Solving biosphere compatibility problems for settlements located at sea coasts (2012) J. ACADEMIA. Architecture and constructing, 2, pp.111-114.

Google Scholar

[5] Zemlynaya, N., Lyakhov, V., Bezborodov, S. The application of simulation technique for modeling marine water areas silting in production of hydro engineering works. Abstract, ICCCBE (2012), 14, pp.437-439.

Google Scholar

[6] Information on http: /www. distance. msstate. edu/gradcourses/pdf/CE8933. pdf. Water Quality Modeling II Spring, (2009).

Google Scholar

[7] GRANT HL, MOILLIET A, VOGEL W.M. SOME OBSERVATIONS OF OCCURRENCE OF TURBULENCE IN AND ABOVE THERMOCLINE (1968) Journal of Fluid Mechanics, 34 (pt 3), pp.443-448.

DOI: 10.1017/s0022112068002004

Google Scholar

[8] Klevannyy, K.A., Shavykin, A.V. 2009. Spreading and sedimentation simulation of the suspended matters at underwater gas pipeline installation. Information on http: /cardinal. x-users. ru/publications. htm.

Google Scholar

[9] Kurganov, A.M., Feodorov, N.F. Hydraulic calculations of water supply and water removal systems. The directory. Stroyizdat, Leningrad, (1986).

Google Scholar

[10] Resources of surface waters of the USSR. Vol. 18, The Far East. Gidrometeoizdat, (1972).

Google Scholar

[11] Zemlyanaya, N.V., Savel'eva, N.I. Spreading of Rainfall Runoff Materials over Amur Bay. Technology of Studies of the World Ocean, Vladivostok: Proc. FED RAS, (1994).

Google Scholar