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Warianty tytułu
Języki publikacji
Abstrakty
The migration of the moving dangerous chemicals in soil-water systems represents significant risk to public health and environment. At the present time there is growing scientific concern about the available predicting procedures for environmental assessment of contaminated sites and chemical spills. After considering the various approaches and geodata that may be involved, the stagnate zones model was recognized. The key problem to be considered here deals with the surface concentration distribution, risk evaluation and allowable residue levels for chemicals. It is possible to make forecast and ecology monitoring based on the proposed mathematical model with tabulated migration parameters of the contaminants and soils. The considered method can complement experimental work on the contaminated sites and assist with soil-geochemistry mapping.
Czasopismo
Rocznik
Tom
Strony
101--112
Opis fizyczny
Bibliogr. 15 poz., rys.
Twórcy
autor
- Sumy National Agrarian University Safety Vital Activities Department 40021, Sumy, G.Kondrat’eva str., 160
autor
- Sumy National Agrarian University Safety Vital Activities Department 40021, Sumy, G.Kondrat’eva str., 160
Bibliografia
- Arias E., Loredo J., Ordonez A. & Garcia-Iglesias J. 1998. Mercury and arsenic content of soils plants in the area of an abandoned mercury mine at “El Terronal”(Mieres, Spain). Proc. of the GREEN 2: Int. Symposium. Thomas Telford, London, 162–165.
- Bell F.G. & Jermy C.A. 1995. A seepage problem associated with an old landfill in the greater Durban area. Proc. of the GREEN’93 Int. Symposium. Balkema Publishing, Bolton, UK, 607–614.
- Boron K., Ryczec M. 1993. The effect of the power-plant ash yard in przezchlebie on pollution of soils and plants in the adjacent area. Proc. of the 4-th Int. Symposium on the Reclamation and Utilization of Coal Mining Wastes. Drukarnia Narodowa, Kraków, 553–559.
- Bresler E., McNeal B.E. and Carter D.L. 1982. Saline and sodic soils. Springer-Verlag Publishing, Berlin – Geidelberg – New York.
- Jessberger H.L., Manassero M., Soyez B., Street A. 1995. Engineering waste disposal (geotechnics of landfill design and remedial works). Proc. of the GREEN’93 Int. Symposium. Balkema Publishing, Bolton, UK, 21–33.
- Kremlenkova N.P. 1993. Technogenic Fluorine Accumulation and Redistribution in soils of non-chernozemic zone.”Pochvovedenie”, N 9, Moscow, 87–93.
- Mohamed A.M.O., Yong R.N., Galvez-Cloutier R. 1995. Land disposal of dredged mud. Proc. of the GREEN’93 Int. Symposium. Balkema Publishing, Bolton, UK, 649–654.
- Hulten A-M., Norin M. Chemical composition of leakage water from asphalt.). Proc. of the GREEN 2: Int. Symposium. Thomas Telford, London, 162–165.
- Patrzalek A., Twardowska I., Szczepanska J. 1994. Biological reclamation of coal mining waste tip as an essential factor in its resultant environmental impact. Proc. of the 4-th Int. Symposium on the Reclamation and Utilization of Coal Mining Wastes. Drukarnia Narodowa, Kraków, 807–816.
- Rasig H. 1996. Editing environmental data with a PC-based GIS. Technol. Environ., 2, 190–192.
- Rowell D. 1994. Soil science: methods and applications. Longman Group UK Limited, London.
- Saarela J. 1997. Hydraulic approximation of infiltration characteristics of surface structures on closed landfills. Helsinki, Finnish Environment Inst. Publ.
- Shandyba A.B., Vakal S.V., Chivanov V.D. 1998. Pollution removal by washing of contaminated soils. Proc. of the GREEN 2 Int. Conference, London, Thomas Telford, 313–316.
- Shandyba A.B. 1995. Ecology forecast for migration of the chemical substances into ground and surface water. Fresenius Env. Bulletin, 4, 80–85.
- Verygin N.N., Oradovskaya A.E. 1960. Leaching theory under filtration around gydrotechnical constructions. Vodgeo, Moscow.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-91f5c0e5-0ca5-4eb7-ac70-acdd5455f444