DOI | 10.24411/1816-1863-2018-13064 |
Section | Environmental Safety Construction and Town Economy |
Title | MONNITORING OF DRINKING WATER QUALITY IN THE DISTRICTS OF THE MUNICIPALITY OF THE CITY OF NORILSK |
Сontributors | - O.V. Nosova, Ph. D. (Agricul. Sc.), Associate Professor, Head of Department at the Norilsk State Industrial Institute, This email address is being protected from spambots. You need JavaScript enabled to view it.,
- N. V. Karmanovskaya, Ph. D. (Tech. Sc.), Associate Professor at the Norilsk State Industrial Institute, This email address is being protected from spambots. You need JavaScript enabled to view it.,
- M. O. Efanov, Student of the 4th Year at the Norilsk State Industrial Institute, This email address is being protected from spambots. You need JavaScript enabled to view it.,
- A.F. Kurbanov, Student of the 4th Year at the Norilsk State Industrial Institute, This email address is being protected from spambots. You need JavaScript enabled to view it.,
- V. I. Chernetsky, Student of the 4th Year at the Norilsk State Industrial Institute, This email address is being protected from spambots. You need JavaScript enabled to view it.,
- E.V. Timchenko, Student of the 4th Year at the Norilsk State Industrial Institute, This email address is being protected from spambots. You need JavaScript enabled to view it.
|
Abstract | According to UN estimates is known that a shortage of benign drinking water can be one of the most acute and painful problems. The specificity of this problem for Russia lies not in the scarcity of water resources, but in their pollution and the continuing degradation of water bodies. As the quality of water is understood as the totality of its properties, due to the nature and concentration of impurities contained in the water, the analysis of water is the only tool to control its state and properties. During the experiment, a team of researchers sampled drinking water from a water supply network in various areas of the Norilsk industrial region (without prior discharge and after a 5-minute drain), the dependence of water quality characteristics on location and sampling methodology was studied, and conclusions were drawn on the basis of the results obtained quality of drinking water. |
Keywords | ecological safety, water supply, water resources, conductometer, organoleptic properties. |
References | - Poryadin A. F. Lessons of Water Supply in Russia // Water Supply and Sanitary Engineering. — 2000. — No 7. — P. 2—4.
- Kuzmin S. V., Vlasov I. A., Kiyamova E. L., Wagner I. N. On the State of Water Supply to Populated Areas of the Sverdlovsk Region // Water Treatment. Water Supply: Industrial-Technical and Scientific- Practical Journal. — 2014. — No. 2. — P. 42—47.
- Sizova Yu. S. Institutional Support as a Tool for Enhancing Entrepreneurial Culture at Different Stages of the Organizations Life Cycle // Regional Problems of Economic Transformation. — 2017. — No. 3 (77). — P. 97—104.
- GOST 17.1.1.04—80 Protection of Nature (SVSO). Hydrosphere. Classification of Groundwater by the Purposes of Water Use. Enter. 1981-07-01. Available at: http://docs.cntd.ru/document/1200008292 (accessed 09.03.2018).
- Measurement of Electrical Conductivity and Salinity of Water by Conductometric method. Available at: http://www.o8ode.ru/article/answer/method/Measurement_of_conductivity (accessed 10.03.2018).
- Alekseev L. S., Gladkov V. A. Improvement of Soft Water quality. — Moscow: Stroiizdat, 1994. — 148 p.
- Traube P. R., Baranova A. G. Chemistry and microbiology of Water. — Moscow: High School, 1983. — 280 p.
- GOST R 57164—2016 Drinking Water. Methods for Determining Odor, Taste and Turbidity. Enter. 2018-01-01. Available at: http://docs.cntd.ru/document/1200140391 (accessed 04.03.2018).
- Hydrogen Acidity Index (pH). Available at: https://www.calc.ru/214.html (accessed 06.03.2018).
- GOST R 52407—2005 Drinking Water. Methods for Determining Rigidity. Enter.2007-01-01. Available at: http://www.internet-law.ru/gosts/gost/565/ (accessed 03.03.2018).
|