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Journal Science Intensive Technologies №9 for 2016 г.
Article in number:
The quality of spring water from springs located on the territory of modern industrial developed region of Russia
Authors:
V.V. Domozhir - Ph. D. (Econ.), Associate Professor, Kaluga branch of the Bauman MSTU. E-mail: domojir@adm.kaluga.ru S.N. Nikulina - Ph. D. (Eng.), Associate Professor, Kaluga branch of the Bauman MSTU. E-mail: voinsveta579@mail.ru N.A. Shakhmatova - Master, Kaluga branch of the Bauman MSTU. E-mail: nina.shahmatova@yandex.ru
Abstract:
The article analyzes the results of the study of the natural quality of water taken from the springs located in the vicinity of the city of Kaluga. An important subject in the study of modern quality of natural water springs may be due to exceptional sensitivity to the effects of man-made factors. The aim of the study was to assess the current quality of the spring water in natural sources concentrated near industrialized regions. The object of the study was 34 natural water springs. Study ways to improve water quality, sampling, carried out their research on techniques and equipment already recognized and widely proven. A series of studies of control samples made with spring water in relation to the determination of nitrate in these concentrations, nitrite, mineral oil, and total count in some cases, water hardness. From the analysis of the research results of the control samples of water from the springs of the selected locations it is determined that it is the quality of matches SanPin, but with a high probability of the threat of anthropogenic pollution caused by the rapid development of industry in the Kaluga region. The methods of nonchemical treatment of fresh water with the use of laboratory equipment to develop a spring of water treatment technologies for drinking purposes. Spring water from the sources of the Kaluga region is not suitable for use without a conclusion of sanitary-epidemiological service.
Pages: 56-65
References

 

  1. Lifljandskijj V.G. Umnaja voda: dobraja sila prirody. SPb.: OOO «Petroglif». 2015. 64 s.
  2. Korzhavyjj A.P., CHelenko A.V. Sposoby i tekhnologii ochistki presnojj vody, zagrjaznennojj v sovremennojj tekhnosfere // Naukoemkie tekhnologii. 2015. T. 16. № 9. S. 66−77.
  3. Domozhir V.V., ZHukova JU.M., Nikulina S.N., Nikolaeva T.S. Novye metody obrabotki i diagnostiki presnojj vody posle ee promyshlennogo ispolzovanija // Naukoemkie tekhnologii. 2014. T. 15. № 10. S. 36−41.
  4. Nikulina S.N. Rol bezreagentnojj ochistki presnykh vod pri proizvodstvennojj dejatelnosti promyshlennykh predprijatijj v sokhranenii zdorovja rabotnikov. Avtoref. dis. - kand. tekhn. nauk. M. S. 48−56.
  5. Dmitrieva T.V., Korzhavyjj A.P., Lapa A.P. Vlijanie ehlektromagnitnogo izluchenija na izmenenie koncentracii metallov iz vodnykh modelnykh rastvorakh // Naukoemkie tekhnologii. 2006. T. 7. № 4−5. S. 48−56.
  6. Sokolov EH.M., SHejjnkman L.EH., Korzhavyjj A.P. Vlijanie ehlektromagnitnogo izluchenija na izmenenie koncentracii metallov v modelnykh rastvorakh // Izvestija Tulskogo gosudarstvennogo universiteta. EHkologija i racionalnye prirodopolzovanija. Moskva−Tula: Izd-vo TulGu. 2006. S. 21−29.
  7. Vlasko N.K., Oreshkin A.A., Korzhavyjj A.P., Kotunov S.V. Tekhnicheskie i ehkologicheskie aspekty magnitnojj obrabotki zhidkikh i tverdykh vysokodispersnykh veshhestv // Naukoemkie tekhnologii. 2009. T. 10. № 5. S. 52−59.
  8. Korzhavyjj A.P., Kapustin V.I., Kozmin G.V. Metody ehksperimentalnojj fiziki v izbrannykh tekhnologijakh zashhity prirody i cheloveka / Pod red. A.P. Korzhavogo. M.: Izd-vo MGTU im. N.EH. Baumana. 2012. 352 s.
  9. Molodyk A.D., Morozova L.N., Manshin V.S. Sostojanie, ispolzovanie i okhrana vodnykh resursov: issledovanie kachestva vody v rodnikakh gorodskogo okruga «Gorod Kaluga» // Sb. materialov «Sostojanie i okhrana okruzhajushhejj sredy v Kaluge». Kaluga: Izd-vo OOO Firma «EHkoanalitika». 2015. S. 19−21.
  10. Kapustin V.I., Korzhavyjj A.P. Fiziko-khimicheskie metody ehkologicheskogo monitoringa. Kn. 1. Naznachenie, skhemy, konstrukcii: Ucheb. posobie / Pod red. A.P. Korzhavogo. M.: Izd-vo MGTU im. N.EH. Baumana. 2014. 208 s.
  11. Kapustin V.I., Korzhavyjj A.P., Vlasko N.K. Fiziko-khimicheskie metody ehkologicheskogo monitoringa. Kn. 2. Obespechenie kachestva vody: Ucheb. posobie / Pod red. N.K. Vlasko. M.: Izd-vo MGTU im. N.EH. Baumana. 2014. 232 s.
  12. Kapustin V.I., Korzhavyjj A.P. Poverkhnostno-ionizacionnaja drejjf-spektrometrija. Monografija. M.: INFRA-M. 2015. 286 s.
  13. Kapustin V.I., Korzhavyjj A.P. Drejjf-spektrometrija: tradicionnye metody i perspektivy razvitija // Rossijjskijj tekhnologicheskijj zhurnal. 2016. № 2(10). S. 3−24.
  14. Shvartsburg A.A. Differential Ion Mobility Spectrometry: Nonlinear Ion Transport and Applications. CRC Press. 2010. 374 p.
  15. Bunkowsky A. Software tool for coupling chromatographic total ion current dependencies of GC/MSD and MCC/IMS // Int. J. Ion Mobil. Spec. 2010. № 13. P. 169−175.
  16. EHlektronnyjj resurs: http://www.gastronom.ru/article_diet.aspx-id=1003487.
  17. EHlektronnyjj resurs: http://www.dissercat.com/content/geoekologiya-rodnikovykh-vod-sergievo-posadskogo-raiona-moskovskoi-oblasti.
  18. EHlektronnyjj resurs: http://vestnik-mgou.ru/Articles/Doc/7.
  19. EHlektronnyjj resurs: http://www.profiz.ru/sec/2_2014/rodniki_i_osadki/.
  20. EHlektronnyjj resurs: http://imz-2000.narod.ru/ygn_21.html.
  21. Dzjubo V.V. Podgotovka podzemnykh vod dlja pitevogo vodosnabzhenija malykh naselennykh punktov Zapadno-Sibirskogo regiona. Avtoref. dis. - dokt. tekhn. nauk. SPb.: 2007. 37 s.
  22. Dzjubo V.V., Alferova L.I. K voprosu o vybore sposoba degazacii pri obezzarazhivanii podzemnykh vod // Vodoochistka. Vodopodgotovka. Vodosnabzhenie. 2016. № 4(100). S. 18−23.