350 rub
Journal Science Intensive Technologies №11 for 2016 г.
Article in number:
Methods for studying environmentally sustainable industrial development in the region by the example of the Kaluga region centre
Authors:
Y.P. Kornyushin - Dr. Sc. (Eng.), Professor, Head of Department of Automatic Control Systems, Kaluga branch of the Bauman MSTU E-mail: theroland@yandex.ru O.A. Padalka - Senior Engineer, Ecoanalytica LLC (Kaluga); Post-graduate Student, Kaluga branch of the Bauman MSTU E-mail: ecoanalyt.kaluga@yandex.ru V.P. Marin - Dr. Sc. (Eng.), Professor, Moscow State University of Information Technologies, Radio Engineering and Electronics (MIREA)
Abstract:
Selected and tested methods of rational study environmentally sustainable industrial development in the region by the example of the Kaluga region. The study of anthropogenic load on the air and the water body shows that total emissions of greenhouse gases from residential areas, industrial facilities, transport and landfill disposal of solid waste in the whole object of research in 2015 amounted to more than 5.6 million tonnes of CO2 equivalent, where greenhouse gas proportion of the energy sector is 55%, while pollution of natural (Yachenskogo) of the reservoir due to the discharge of sewage into it led to his intensive silting. Recommendations to reduce the human impacts that will lead to greater environmental sustainability industrialized region of Russia. Further expansion of the volume of industrial activity, in compliance with the recommendations made, will not lead to a breach of the environmental sustainability of the investigated object by virtue of its good geographical location (forest structure, the rivers, the wind rose and the characteristic of the area). Recommendations for further research on the optimization of complex research methods.
Pages: 50-57
References

 

  1. Indicators of Sustainable Development, UN Department for Policy Coordination and Sustainable Development. December, 1994. www.spark-interfax.ru.
  2. Lazar A.V. Ustojjchivoe razvitie Vologodskojj oblasti na osnove sistemy indikatorov // Naukoemkie tekhnologii. 2011. T. 12. № 10. S. 66−70.
  3. O sostojanii prirodnykh resursov i okhrane okruzhajushhejj sredy na territorii Kaluzhskojj oblasti v 2015 godu. Doklad Ministerstva prirodnykh resursov i ehkologii Kaluzhskojj oblasti. Kaluga: OOO «Vash dom». 2016. 278 s.
  4. Sostojanie i okhrana okruzhajushhejj sredy v Kaluge. Sb. materialov. Kaluga: OOO firma «EHkoanalitika». 2016. 80 s.
  5. Lykov I.N., SHestakova G.A. Tekhnogennye sistemy i ehkologicheskijj risk: Ucheb. posobie dlja studentov vuzov. M.: IPC «Globus». 2005. 262 s.
  6. Smetanin V.I., Nasonov A.N., Cvetkov I.V., Cvetkov V.P. Multifraktalnyjj analiz ustojjchivosti prirodno-tekhnogennykh sistem s ispolzovaniem normirovannykh spektrov Reni // Nelinejjnyjj mir. 2015. T. 13. № 5. S. 59−67.
  7. Kapustin V.I., Korzhavyjj A.P. Fiziko-khimicheskie metody ehkologicheskogo monitoringa. Kn. 1. Naznachenie, skhemy, konstrukcii: Ucheb. posobie / Pod red. A.P. Korzhavogo. M.: MGTU im. N.EH. Baumana. 2014. 208 s.
  8. Aitov R.D., Bondarenko G.G., Korzhavyjj A.P., Kristja V.I. Model poslerazrjadnojj ehmissii metallicheskikh kholodnykh katodov gazorazrjadnykh priborov // Metally. 1997. № 3. S. 150−153.
  9. Bondarenko G.G., Korzhavyi A.P., Chistyakov G.A. Behavior of aluminum-based composite cold cathodes in a glow discharge // Russian metallurgy (Metally). 2005. № 3. P. 269−272.
  10. Korzhavyi A.P. Advanced metallic materials for vacuum devices // Journal of Advanced Materials. 1994. V. 1. № 1. P. 46.
  11. Korzhavyjj A.P., Marin V.P., Sigov A.S. Nekotorye aspekty sozdanija tekhnologijj i konstrukcijj izdelijj kvantovojj ehlektroniki // Naukoemkie tekhnologii. 2002. T. 3. № 4. S. 20−31.
  12. Nikiforov D.K., Korzhavyjj A.P., Marin V.P., CHistjakov G.A. Novye tekhnologii dlja povyshenija nadezhnosti ehlementov lazernykh sistem ehkologicheskogo monitoringa // Naukoemkie tekhnologii. 2006. T. 7. № 4−5. S. 64−66.
  13. Korzhavyjj A.P., Smelcov M.A. Lazernyjj analizator v metodakh issledovanija svojjstv mnogokomponentnykh zhidkikh sred // Naukoemkie tekhnologii. 2013. T. 14. № 7. S. 43−54.
  14. 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.: MGTU im. N.EH. Baumana. 2012. 352 s.
  15. Kozmin G.V., Korzhavyjj A.P., Sanzharova N.I. EHkologicheski bezopasnye i ehnergosberegajushhie naukoemkie tekhnologii s ispolzovaniem vakuumnykh i plazmennykh priborov // Naukoemkie tekhnologii. 2012. T. 13. № 10. S. 64−74.
  16. Korzhavyjj A.P. Problemy zarubezhnojj i otechestvennojj netradicionnojj ehlektroehnergetiki // Naukoemkie tekhnologii. 2012. T. 13. № 2. S. 73−78.
  17. Dmitrieva T.V., Korzhavyjj A.P., CHernova M.V., Lapa N.N. Izuchenie degradacii fenolnykh soedinenijj pod vozdejjstviem presnovodnogo simbioticheskogo biocenoza // Izvestija Tulskogo gos. un-ta. Estestvennye nauki. 2008. № 1. S. 239−245.
  18. Prokhorova T.M., Padalka O.A., Molodyk A.D., Korzhavyjj A.P. Vybrosy parnikovykh gazov osnovnymi ehmitentami Kaluzhskojj oblasti [ehlektronnyjj resurs]. http://nto-journal.ru/.
  19. Belorusceva E.V., SHapovalov D.A. Ocenka dinamiki i prognoz razvitija negativnykh processov na zemljakh selskokhozjajjstvennogo naznachenija Kaluzhskojj oblasti s primeneniem GIS-tekhnologijj // Zemleustrojjstvo, kadastr i monitoring zemel. 2009. № 9(57). S. 34−43.