The Wastewater Disposal System Modernization during Processing of Amber Deposit as a Way to Reduce the Anthropogenic Load on the Baltic Sea Ecosystem

Strizhenok, Alexey V.; Korelskiy, Denis S.; Kuznetsov, Vladimir S.

doi:10.12911/22998993/99731

Artykuł - szczegóły

Tytuł artykułu

The Wastewater Disposal System Modernization during Processing of Amber Deposit as a Way to Reduce the Anthropogenic Load on the Baltic Sea Ecosystem

Autorzy

Strizhenok Alexey V. , Korelskiy Denis S. , Kuznetsov Vladimir S.

Treść / Zawartość

Pełne teksty:

5_Strizhenok_et al._The Wastewater Disposal_30-35.pdf

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Identyfikatory

DOI

10.12911/22998993/99731

Warianty tytułu

Języki publikacji

Abstrakty

The research is devoted to assessing the negative impact of the amber-succinite deposit in the Kaliningrad region as one of the sources of complex pollution of the Baltic Sea waters. The Baltic Sea is one of the most polluted water bodies in Europe today. There are many natural and anthropogenic factors that cause this ecological situation. Industry is one of the significant contributors to the pollution of the waters of the Baltic Sea. The industrial wastewater discharged into the Baltic Sea often does not comply with the state ecological standards. The wastewater disposal system modernization by creating a recycled water supply is one of the most effective ways to reduce the negative impact of industrial wastewater on the Baltic Sea ecosystem nowadays. This technological solution allows to significantly reduce or to completely prevent the discharge of wastewater into the Baltic Sea.

Słowa kluczowe

wastewater discharge pollution environmental monitoring Baltic Sea ecosystem tailing dump amber-succinite recycled water supply

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2019

Tom

Vol. 20, nr 3

Strony

30--35

Opis fizyczny

Bibliogr. 18 poz., rys., tab.

Twórcy

autor

Strizhenok Alexey V.

alexeystrizhenok@mail.ru

Saint-Petersburg Mining University, Vasilyevsky Island, 21st line 2, 199106, Saint-Petersburg, Russia

autor

Korelskiy Denis S.

Saint-Petersburg Mining University, Vasilyevsky Island, 21st line 2, 199106, Saint-Petersburg, Russia

autor

Kuznetsov Vladimir S.

Saint-Petersburg Mining University, Vasilyevsky Island, 21st line 2, 199106, Saint-Petersburg, Russia

Bibliografia

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2. Caruso B.S., Mirtskhulava M., Wireman M. 2011. Mine Water and the Environment, 31(1), 11-13.
3. Effectiveness of urban wastewater treatment policies in selected countries: an EEA pilot study. Copenhagen, European Environment Agency, Report No. 2/2005. URL: http://www.historylab.unina2.it/files/50.pdf (02.10.2018).
4. GOST 17.1.3.07-82 Protection of nature. Hydrosphere. Rules of water quality control of reservoirs and watercourses.
5. GOST 31861-2012 Water. General requirements for sampling.
6. Kartamysheva E.S., Ivanchenko D.S. 2017. Environmental problems of the Baltic Sea. Young scientist, No. 25. Kazan: Young Scientist Publishing House, 117-120.
7. Lundstrom E. 2010. A different approach to the ecotoxicological characterization of sewage effluent using sensitive and ecologically relevant methods. Department of Applied Environmental Science (ITM), Stockholm University, 21-27.
8. Matveeva V.A, Petrova T.A., Chukaeva M.A. 2018. Molybdenum removal from drainage waters of tailing dumps of Apatit JSC. Obogashchenie Rud, Vol. 2, 42-47.
9. Order of the Ministry of Agriculture of the Russian Federation of 13.12.2016, No. 552. On approval of water quality standards for water bodies of fisheries significance, including standards for maximum permissible concentrations of harmful substances in waters of water bodies of fisheries value.
10. Order of the Ministry of Natural Resources of the Russian Federation of 17.12.2007, No. 333. On Approval of the Methodology for the Development of Standards for Permissible Emissions of Substances and Microorganisms into Water Objects for Water Users.
11. Pashkevich M.A., Barkan M.Sh., Nachevkin F.S. 2013. The improvement of the wastewater treatment system at the apatite-nepheline factory. Journal of Mining Institute, 203 (2), 79-82.
12. Pashkevich M.A., Petrova T.A. 2019. Recyclability of ore beneficiation wastes at the Lomonosov Deposit. Journal of Ecological Engineering, 20(2), 27-33.
13. Scientific instrument base of the Saint-Petersburg Mining University. URL: http://old.spmi.ru/system/files/lib/sci/ckp/ekologicheskoe.pdf (02.10.2018).
14. Semyachkov A.I., Slawikowskaja Y.O., Pochechun V.A. 2018. Methodological features of the assessment of economic damage from adverse environmental consequences in conditions of territories with a developed mining complex. Ecology and Industry of Russia, 22(4), 46-51.
15. Sinisi L., Aertgeerts R. 2010. Guidance on Water Supply and Sanitation in Extreme Weather Events. Regional Office for Europe, DK-2100. Copenhagen, 45-50.
16. Sokolov E.M., Sheinkman L.E., Dergunov D.V. 2015. Provision of environmental safety of mine waters at mining enterprises based on neural network modelling. Journal of Mining Institute, Vol. 211, 96-103.
17. Vesman A.V. 2012. Modern problems of the Baltic Sea. Modern scientific research and innovation, No. 3. URL: http://web.snauka.ru/issues/2012/03/10613 (02.10.2018).
18. Wastewater treatment and access to improved sanitation. European Center for Environment and Health (ENHIS) 2009. URL: http://www.euro.who.int/__data/assets/pdf_file/0009/96957/1.3.-Access-to-improved-sanitation-and-wastewater-treatment-EDITED_layouted.pdf (02.10.2018).

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-74e84d69-6152-4e77-b74d-6c9de05d90eb