Groundwater Monitoring at the Facilities of Oil and Gas Complex
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Abstract
The environmental aspects of the development of oil and gas deposits are considered. The methodological principles of the formation of a hydrogeological monitoring system in the general structure of comprehensive geoenvironmental monitoring of oil-and-gas facilities are discussed. The structure of comprehensive geoenvironmental monitoring and subsurface-hydrosphere monitoring is presented. It consists of observation, estimate, and forecast subsystems. Requirements are formulated to the source data that forms the basis, on which the observational network is designed; the state of the subsurface hydrosphere is assessed both at the stages of designing the facilities being examined and their monitoring system and during the process of operation of the facilities and systems of monitoring. Changes in the environment and subsurface hydrosphere as its component are predicted.
Keywords
Waste Water Water Management Water Pollution General Structure Monitoring SystemPreview
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REFERENCES
- 1.Belousova, A.P., Kachestvo podzemnykh vod. Sovremennye podkhody k otsenke (Groundwater Quality. Present-Day Approaches to Its Assessment), Moscow: Nauka, 2001.Google Scholar
- 2.Bondarik, G.K., Metodika inzhenerno-geologicheskikh issledovanii (Methods of Engineering-Geological Studies), Moscow: Nedra, 1986.Google Scholar
- 3.Gidrogeologicheskie aspekty vybora ploshchadok dlya atomnykh elektrostantsii. Ser. izdanii po bezopasnosti no. 50-SS-S7. Rukovodstvo MAGATE po bezopasnosti (Hydrogeological Aspects of the Choice of Sites for Nuclear Power Plants. Series of Publ. on Safety, no. 50-SS-S7. IAEA Safety Guidelines), IAEA, Vienna, 1986, p. 98.Google Scholar
- 4.Izrael', Yu. A., Ekologiya i kontrol' sostoyaniya prirodnoi sredy (Ecology and Environmental Condition Control), Moscow: Nauka, 1984.Google Scholar
- 5.Izrael' Yu A., Global Observational System: Prediction and Assessment of the Environmental Conditions, Meteorol. Gidrol., 1974, no. 7, pp. 3–8.Google Scholar
- 6.Sobolev, I.A., Korenkov, I.P., Khomchik, I.M., and Prokazova, L.M., Okhrana okruzhayushchei sredy pri obezvrezhivanii radioaktivnykh otkhodov (Environmental Protection at Radioactive Waste Treatment), Moscow: Energoatomizdat, 1989.Google Scholar
- 7.Stil, T.D., Water Quality, in Gidrogeologicheskoe prognozirovanie (Hydrogeological Forecasting), Moscow: Mir, 1988, pp. 335–371.Google Scholar
- 8.Trofimov, V.T. and Epishin, V.K., Lithomonitoring: Content, Structure, and the Role of Negineering Geology in Its Development, in Tez. dokl. Pervogo Vsesoyuznogo s”ezda inzhenerov-geologov, gidrogeologov i geokriologov (Abstracts of Papers. First All-Union Congress of Engineers-Geologists, Hydrogeologists, and Geocryologists), Kiev: Naukova Dumka, 1988, Part 6, pp. 159–161.Google Scholar
- 9.Munn, R.E., Global Environmental Monitoring System, Toronto, 1973.Google Scholar
- 10.Starks, Th.H., A Model Approach for RCRA Groundwater Regulations, Chemometrics Intil. Lab. Syst, 1988, vol. 3, no.1/2, pp. 151–157.Google Scholar