DEVELOPMENT OF EFFECTIVE ALGORITHMS OF SURFACE WATER POLLUTION DIAGNOSTICATION
DOI:
https://doi.org/10.17721/17282713.81.15Keywords:
water objects, diagnostics, monitoring, geo-information system, mathematical modelAbstract
The paper presents the following algorithm for the diagnosis of pollution of water objects: the theoretical bases for diagnosing the characteristics of the deterioration of the water objects condition (occurrence of malfunctions) with the deviation of their parameters from the standard ones on the steady or close to the steady (quasi-steady) modes of pollution development and further assessment of the level of risk of occurrence of a dangerous situation, the approval of management decisions on liquidation or minimization of this pollution impact on the ecology of the water object. The development of effective algorithms of pollution identification at the initial stages of pollution of water resources will enable an assessment of the nature and level of water pollution with the increasing number of chemicals associated with an increase of anthropogenic pressure on water objects. To simulate the processes occurring in the aquatic environment, it is proposed to use the geographic information system (GIS). The conducted studies indicate that the borders of identification of the initial development of the process of pollution spreading (the occurrence of malfunction) is largely determined by the number of parameters that are measured in the process of diagnosis. The sensitivity of this diagnostic method for the majority of one-dimensional malfunctions is proved.
References
Arkhipova, L.M. Environmental aspects of the assessment of the quality of natural waters. Collection of materials of the II All-Ukrainian Congress of Ecologists. Ivano-Frankivsk, Ukraine. URL: http://eco.com.ua/sites/ eco.com.ua/files/lib1/konf/2vze/zb_m/0028_zb_m_2VZE.pdf. [in Ukrainian].
Bortakovskyi, A.S., Panteleev, A.V. (2005). Linear algebra in examples and problems. M.: Higher school, 591. [in Russian].
Vodop'yanov, V.E., Zatserkovnyi, V.I., Nikityn, V.I. (1989). Estimation of recognizability of one-dimensional defects of GTE in diagnostics by gasdynamic parameters GTE. Thesis report of scient.-techn. conference: Theory of aviation engines. March 28-29th 1989. Kharkiv, 8, 83-87. [in Russian].
Zatserkovnyi, V.I., Tishaev, I.V., Virshylo, I.V, Demidov, V.K. (2016). Geoinformation systems in sciences about Earth. Nizhyn: M. Gogol NSU, 510. [in Ukrainian].
Mokienko, A.V. (2009). Ecological and hygienic bases of water safety, decontaminated with chlorine dioxide: abstract. diss. of M.D.: 14.02.01. State institution "Institute of hygiene and medical ecology in the name of O.M. Marseev "Academy of Medical Sciences of Ukraine". Kiev, 28. [in Russian].
Snizhko, S.I. (2001). Estimation and prediction of the quality of natural waters. Kiev: Nika-Center, 264. [in Ukrainian].
Spirina, M.S., Spirin, P.A. (2011). Probability Theory and Mathematical Statistics. М.: Academy, 352. [in Russian].
Too, J., Gonsales, R. (1978). Principles of images recognition. М.: Mir, 414. [in Russian].
Khilchevsky, V.K., Marinych, V.V., Savitsky, V.M. (2002). Comparative assessment of the quality of river waters of the Dnipro basin. Hydrology, hydrochemistry and hydroecology. Kiev, Lutsk: RVV LDTU, 4, 167-169. [in Russian].
Yatsyk, A.V., Romanenko, V.D. (1998). Methodology of ecological assessment of surface water quality according to the relevant categories. Кiev, 28. [in Ukrainian].
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