Calculation algorithm of technogenic load from pollutants emissions to atmosphere

Authors

  • Володимир Михайлович Шмандій Kremenchuk Mykhailo Ostrohradskyi National University 20, Pershotravneva Street, Kremenchuk, Ukraine, 39600, Ukraine
  • Дмитро Леонідович Пляцук Sumy State University Str. Rymskogo-Korsakova 2, Sumy, Ukraine, 40007, Ukraine
  • Лариса Леонидовна Гурец Sumy State University Str. Rymskogo-Korsakova 2, Sumy, Ukraine, 40007, Ukraine

DOI:

https://doi.org/10.15587/2313-8416.2015.42635

Keywords:

atmosphere, pollutants, technogenic load, algorithm, estimation of anthropogenic impact, bioindication

Abstract

The successive stages of a general analysis of the environmental contamination by emissions of stationary sources were offered for the development of the simulation algorithm of anthropogenic impact in the region. In this way article focused on the systems approach that was used for analysis of the natural-anthropogenic systems. This analysis shown that any territory should be viewed as a set of two environments: natural and man-made

Author Biographies

Володимир Михайлович Шмандій, Kremenchuk Mykhailo Ostrohradskyi National University 20, Pershotravneva Street, Kremenchuk, Ukraine, 39600

Professor, Doctor of Technical Sciences

The department of environmental safety and environmental management organization

Дмитро Леонідович Пляцук, Sumy State University Str. Rymskogo-Korsakova 2, Sumy, Ukraine, 40007

Assistant

The department of applied ecology

Лариса Леонидовна Гурец, Sumy State University Str. Rymskogo-Korsakova 2, Sumy, Ukraine, 40007

Associate professor, Candidate of technical science

The department of applied ecology

References

Basil, E. E., Gogunskiy, V. D., Rudenko, S. V. (2003). Conception of technogenic risk control. Trudy Odesskogo politehn.un-ta, 1 (19), 218–221.

Safranov, T. A. (2003). EkologIchnI osnovi prirodokoristuvannya [Ecological bases of nature]. Lviv: Noviy Svit 2000, 248.

Marshal, V. (1989). Osnovnyie opasnosti himicheskih proizvodstv [The main danger of chemical production]. Moscow: Mir, 672.

Kuzmin, I. I. (1990). Safety and technological risks. Zhurnal Vsesoyuzn. himich. obschestva im. D. I. Mendeleeva, 35, 415–421.

Baryshnikov, I. I., Musiychuk, Yu. I. (1992). Human health - system-forming factor in the development of ecological problems of modern cities. Mediko-geograficheskie aspektyi otsenki urovnya zdorovya naseleniya i sostoyaniya okruzhayuschey sredyi, 11–36.

Yastrebenetskiy, M. A., Vasilchenko, V. N., Vinogradskaya S. V. et. al. (2004). Bezopasnost atomnyih stantsiy: informatsionnyie i upravlyayuschie sistemyi [Safety of nuclear power plants: information and control Systems]. Kiev: Tehnika.

Bushtueva, K. A., Sluchanko, I. S. (1979). Metodyi i kriterii otsenki sostoyaniya zdorovya naseleniya v svyazi s zagryazneniem okruzhayuschey sredyi [Methods and criteria for evaluating the health status of the population due to pollution]. Moscow: Nauka, 176.

Gogunskiy, V. D., Tsyikalo, A. L. (1995). Environmental risks and method to assess it. Ekologicheskie problemyi Odesskogo regiona i ih reshenie: trudyi mezhdunarod. konf. Gosudarstvennoe upravlenie ekologicheskoy bezopasnosti po Odesskoy obl, 11–15.

Bulyanitsa, A. L., Kurochkin V. E., Knop, I. S. (2005). Metodyi statisticheskoy obrabotki ekologicheskoy informatsii: diskriminantnyiy, korrelyatsionnyiy i regressionnyiy analiz [The statistical treatment of environmental information: discriminant, correlation and regression analysis]. Saint Petersburg: RAN In-t prib-ya, 48.

Published

2015-05-19

Issue

Section

Technical Sciences