The development of mathematical tools for ecological safe of atmosfere on the drilling well area

Authors: L.E. Shkitsa, T.M. Yatsyshyn (Ivano-Frankivsk National Technical University of Oil and Gas, Ukraine, Ivano-Frankivsk), A.A. Popov (European University, Ukraine, Kiev), V.A. Artemchuk (Pukhov Institute for Modeling in Energy Engineering, Ukraine, Kiev)

Key words: pump-circulating, drilling fluid, evaporation, pollution of atmosphere, environmental safety of atmosphere.

This article presents the developed mathematical models of the pollutants extension on the surface layer from the line and area sources that allow the predict pollution of the atmosphere.

Based on the model example in the software Matlab 7 possible applications of models for calculating concentrations of the components of the drilling fluid evaporating from different parts of the drill: the surface of elevated drill pipe and ditch system - line sources, sludge pits drive - area sources. The developed models are an effective tool to support decision making on the problems of environmental safety of the atmosphere.
References
1. Shktsa L.., Yatsishin T.M., Collected papers Suchasn problemi ta shlyakhi
kh virshennya v nauts, transport, virobnitstv ta osvt 2012 (Current problems
and their solutions in science, transportation, manufacturing and education,
2012), Proceedings of the International Scientific and Practical Internet Conference, URL: http://www.sworld.com.ua/konfer29/1018.pdf.
2. Shktsa L.., Yatsishin T.M., Popov O.O., Naukoviy vsnik FNTUNG, 2012, no. 3 (33), pp. 56-62.
3. RD 39-133-94. Instruktsiya po okhrane okruzhayushchey sredy pri stroitel'stve
skvazhin na neft' i gaz na sushe (Instructions for the protection of the environment
during the construction of wells for oil and gas onshore), Moscow: Publ.
of NPO Burovaya tekhnika, 1994, 118 p.
4. RD 39-142-00. Metodika rascheta vybrosov vrednykh veshchestv v
okruzhayushchuyu sredu ot neorganizovannykh istochnikov neftegazovogo
oborudovaniya (Method of calculating the emission of harmful substances
into the environment from fugitive sources of oil and gas equipment),
Krasnodar: Publ. of NIPIgazpererabotka, 2000, 15 p.
5. Metodika raschetno-eksperimental'nogo opredeleniya vybrosov zagryaznyayushchikh veshchestv s poverkhnostey ispareniya na predpriyatiyakh
neftekhimii i neftepererabotki (Computational and experimental
method of determining emissions of pollutants from surfaces of evaporation
at petrochemical plants and oil refining), Krasnodar: Publ. of Kuban'eko,
1996, 23 p.
6. Yatsishin T.M., Modelyuvannya ta nformatsyn tekhnolog, 2012, no. 65,
pp. 45-55.
7. Berlyand M.E., Prognoz i regulirovanie zagryazneniya atmosfery (Prediction
and control of atmospheric pollution), Leningrad: Gidrometeoizdat Publ., 1975, 267p.
8. Metodika rascheta kontsentratsiy v atmosfernom vozdukhe vrednykh
veshchestv, soderzhashchikhsya v vybrosakh predpriyatiy (Method of calculating
the concentrations in the atmosphere of harmful substances contained
in the plant's emissions), Leningrad: Gidrometeoizdat Publ., 1987, 126 p.

Key words: pump-circulating, drilling fluid, evaporation, pollution of atmosphere, environmental safety of atmosphere.

This article presents the developed mathematical models of the pollutants extension on the surface layer from the line and area sources that allow the predict pollution of the atmosphere.

Based on the model example in the software Matlab 7 possible applications of models for calculating concentrations of the components of the drilling fluid evaporating from different parts of the drill: the surface of elevated drill pipe and ditch system - line sources, sludge pits drive - area sources. The developed models are an effective tool to support decision making on the problems of environmental safety of the atmosphere.
References
1. Shktsa L.., Yatsishin T.M., Collected papers Suchasn problemi ta shlyakhi
kh virshennya v nauts, transport, virobnitstv ta osvt 2012 (Current problems
and their solutions in science, transportation, manufacturing and education,
2012), Proceedings of the International Scientific and Practical Internet Conference, URL: http://www.sworld.com.ua/konfer29/1018.pdf.
2. Shktsa L.., Yatsishin T.M., Popov O.O., Naukoviy vsnik FNTUNG, 2012, no. 3 (33), pp. 56-62.
3. RD 39-133-94. Instruktsiya po okhrane okruzhayushchey sredy pri stroitel'stve
skvazhin na neft' i gaz na sushe (Instructions for the protection of the environment
during the construction of wells for oil and gas onshore), Moscow: Publ.
of NPO Burovaya tekhnika, 1994, 118 p.
4. RD 39-142-00. Metodika rascheta vybrosov vrednykh veshchestv v
okruzhayushchuyu sredu ot neorganizovannykh istochnikov neftegazovogo
oborudovaniya (Method of calculating the emission of harmful substances
into the environment from fugitive sources of oil and gas equipment),
Krasnodar: Publ. of NIPIgazpererabotka, 2000, 15 p.
5. Metodika raschetno-eksperimental'nogo opredeleniya vybrosov zagryaznyayushchikh veshchestv s poverkhnostey ispareniya na predpriyatiyakh
neftekhimii i neftepererabotki (Computational and experimental
method of determining emissions of pollutants from surfaces of evaporation
at petrochemical plants and oil refining), Krasnodar: Publ. of Kuban'eko,
1996, 23 p.
6. Yatsishin T.M., Modelyuvannya ta nformatsyn tekhnolog, 2012, no. 65,
pp. 45-55.
7. Berlyand M.E., Prognoz i regulirovanie zagryazneniya atmosfery (Prediction
and control of atmospheric pollution), Leningrad: Gidrometeoizdat Publ., 1975, 267p.
8. Metodika rascheta kontsentratsiy v atmosfernom vozdukhe vrednykh
veshchestv, soderzhashchikhsya v vybrosakh predpriyatiy (Method of calculating
the concentrations in the atmosphere of harmful substances contained
in the plant's emissions), Leningrad: Gidrometeoizdat Publ., 1987, 126 p.


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