ПРО ГІДРОДИНАМІЧНУ ЗОНАЛЬНІСТЬ І ВОДООБМІН У ГІДРОГЕОЛОГІЧНИХ СТРУКТУРАХ

Автор(и)

  • V.M. Shestopalov Відділення наук про Землю НАН України, Україна

DOI:

https://doi.org/10.30836/igs.1025-6814.2014.4.139174

Ключові слова:

гідродинамічні зони, водообмін, комірчаста структура фільтрації, флюїди

Анотація

Виконано аналіз сформованих раніше і нових уявлень про гідродинамічну зональність і характер регіонального водообміну в гідрогеологічних структурах. Виділено гідродинамічні зони орогідрографо-кліматичного впливу, проміжна і флюїдогеодинамічної дії. Показано важливу роль висхідних флюїдів з великих глибин у формуванні та функціонуванні нижньої гідродинамічної зони.

Посилання

Abramov S.K., Bindeman N.N., Bochever F.M., Verigin N.N., 1960. Influence of water reservoirs on hydrogeological conditions of adjacent areas. Moscow: Gosstroyizdat, 319 p. (in Russian).

Artyushkov E.V., 2012. Vertical movements of earth’s crust on continents as a reflection of deep earth’s crust and mantle processes: geological consequences. Vestnik RAN, vol. 82, № 12, p. 1075- 1091 (in Russian).

Belevtsev R. Ya., Shestopalov V.M., 2002. Fracture waters of a deep disintegration horizon in the Earth’s crust as a source of hydrothermal ore-bearing solutions. Geokhimiya i ecologiya. Zbirnik nauk prats, is. 5/6, p. 65-75 (in Russian).

Water exchange in hydrogeological structures of Ukraine. Water exchange in natural conditions, 1989 / Shestopalov V.M. (Ed.). Kiev: Naukova Dumka, 285 p. (in Russian).

Vsevologhskiy V.A., Dyunin V.I., 1996. Analysis of hydrodynamics regularities of deep aquifer systems. Vestnik MGU. Ser. geol., № 3, p. 61-72 (in Russian).

Gatalskiy M.A., 1954. Ground waters and gases of Paleozoic of the north half of Russian Platform. Moscow: Gosgeoltehkizdat, 172 p. (in Russian).

Geyko T.S., Lukin A.E., Omelchenko V.V., Tsekha O.G., 2013. Tectonic-geodynamical criteria of oilgas presence in the crystalline base of North margin of the Dnieper-Donets avlacogene. Geologichnyy zhurnal, № 4 (345), p. 7-23 (in Russian).

Gordienko V.V., Gogdienko I.V., Zavgorodnyaya O.V., Logvinov I.M., Tarasov V.N., Usenko O.V., 2004. Geothermal Atlas of Ukraine / Institute of Geophysics of NAS of Ukraine. Kiev, 59 p. (in Russian).

Dmitrievskiy A.N., Valyaev B.M., 2002. Localized fluxes of deep hydrocarbon fluids. In: Earth’s degassing: geodynamics, geofluids, oil and gas. Moscow: GEOS, p. 319-322 (in Russian).

Dyunin V.I., Korzun V.I., 2005. Hydrogeodynamics of oil-gas basins. Moscow: Nauchnyy Mir, 524 p. (in Russian).

Zverev V.P., 2011. Underground hydrosphere. Problems of basic hydrogeology. Moscow: Nauchnyy Mir, 260 p. (in Russian).

Ignatovich N.K., 1950. Zonality, formation and activity of groundwater in relation with geostructures development. In: Questioins of hydrogeology and engineering geology. Moscow: Izdatelstvo MGU, vol. 13, p. 6-22 (in Russian).

Kozin A.N., 1978. Influence of endogenic factor on the formation of chloride groundwater. Geologiya i geokhimiya goryuchikh iskopaemikh, iss. 50, p. 16-22 (in Russian).

Korobov Yu.I., Malyushko L.D., 2002. Fluid-dynamical model of formation of hydrocarbon deposits. Theoretical base for gas and oil deposits exploration. In: Degassing of the Earth: geodynamics, geofluids, oil and gas. Moscow: GEOS, p. 360-362 (in Russian).

Kraynov S.R., Ryzhenko B.N., Shvets V.M., 2004. Groundwater Geochemistry. Moscow: Nauka, 677 p. (in Russian).

Krayushkin V.A., 1984. Abiogenous-mantle genesis of oil. Kiev: Naukova Dumka, 174 p. (in Russian).

Kulikov G.V., Vartanyan G.S., 1984. On the mechanisms of deep aquifer groundwater movement: XXVII International Geological Congres, Mos - cow, August 4-14, 1984, Section 16, vol. 16. Moscow: Nauka, p. 10-15 (in Russian).

Kuprienko P.Ya., Makarenko I.B., Starostenko V.I., Legostayeva O.V., Savchenko A.S., 2010. Three-dimensional density model of Earth’s crust and upper mantle of Dnieper-Donets depression and Donbass. Geofizicheskiy zhurnal, vol. 32, № 6, p. 175-214 (in Russian).

Larin N.V., Larin V.N., Gorbatikov A.V., 2010. Ring structures caused by deep hydrogen fluxes. In: Earth’s degassing: geotectonics, geodynamics, geofluids; oil and gas; hydrocarbons and the life: Proceedings of All-Russian and International Conference devoted to 100-anniversary of Academician P.N. Kropotkin, 16-22 October 2010. Moscow: GEOS, 712 p. (in Russian).

Larin V.N., 2005. Our Earth (origin, composition, construction and development of initially hydride Earth). Moscow: Agar, 242 p. (in Russian).

Lithosphere of Central and Eastern Europe. Geotraverses IV, VI, VIII, 1988 / Ed. V.B. Sollogub. Kiev: Naukova Dumka, 1988. 178 p. (in Russian).

Lukin A.E., 1997. Litogeodynamical factors of oil-gas accumulation in avlacogene basins. Kiev: Naukova Dumka, 223 p. (in Russian).

Lukin A.E., 2005. Deep hydrogeological inversion as a global phenomenon: theoretical and applied aspects. Paper 2. Tectonic-geodynamical aspects of deep hydrogeological inversion. Geologichnyy zhurnal, № 1 (311), p. 50-67 (in Russian).

Myatiev A.N., 1947. Confined groundwater complex and wells. Izvestiya AN SSSR. Otdelenie tekhnicheskikh nauk, №9, p. 33-47 (іn Russian).

Nivin V.A., Ikorsky S.V., 2002. Isotopes of helium as indicators of sources and degassing degree of mantle during formation of Paleozoic alkaline and carbonate complexes of Kola Province. In: Degassing of the Earth: geodynamics, geofluids, oil and gas. Moscow: GEOS, p. 204-206 (in Russian).

Nikitin S.N., 1896. Ground and artesian waters of Russian Plain. St. Peterburg, 132 p. (in Russian).

Fundamentals of hydrogeology. Hydrogeodynamics / I.S. Zektser (Ed.). Novosibirsk: Nauka, 1983, 241 p. (in Russian).

Perchuk L.L., 2000. Fluids in the lower crust and upper mantle. Vestnik MGU. Ser. geol.,№ 4, p. 25- 45 (in Russian).

Pogrebov N.F., 1913. On the results of hydrogeological studies implemented for clarifying questions about the possibility of water supply of Saint Petersburg with so-called spring water: Proceedings of II All-Russian Congress of personalities in practical geology and exploration in Saint Petersburg, 1911- 1912. St. Peterburg, p. 60-79 (in Russian).

Proshlyakov B.N., Kholodova V.N. (Eds.), 1985. Collector properties of rocks at high depths. Moscow: Nauka, 256 p. (in Russian).

Rozin A.A., 1977. Groundwaters of West-Siberian artesian basin and their formation. Novosibirsk: Nauka, 99 p. (in Russian).

Sokolov B.A., Konyukhov A.I., Klimushina L.P., 1995. Innovational geology of sedimentary basins and oil-gas presence: Abstracts of reports of yearly scientific conference «Lomonosov’s readings». Moscow: Izdatelstvo MGU, 44 p. (in Russian).

Fedorova T.A., Bochko R.A., 1991. Water-soluble salts of Baghenian suite as a criterion for identifying collector zones. Geologiya nefti i gaza, № 2, p. 23-26 (in Russian).

Fedorov Yu.N., Krinochkin V.G., Ivanov K.S., Krasnobayev A.A., Kaleganov B.A., 2004. Stages of tectonic activization of West Siberian Platform (by K-Ar dating method). Doklady RAN, vol. 397, № 2, p. 239-242 (in Russian).

Chepikov K.R., Medvedeva A.M., Klimushina L.P., 1980. On the question of self-dependency of Paleozoic complex of West Siberia by data of palynological analysis of oil. In: Rocks-collectors and oil migration. Moscow: Nauka, p. 84-94 (in Russian).

Chistyakova N.F., Rudkevich M.Ya., 1993. Hydrochemical indicators of formation conditions of hydrocarbon deposits (as applied to West Siberian oil-gas basin). Geologiya nefti i gaza, № 5, p. 29-33 (in Russian).

. Shestopalov V.M., 1968. On the principal regularities of groundwater dynamics in pre-Mesozoic formations of Volyn-Podolian boundary of the Russian Platform. Sovetskaya geologiya, № 10, p. 122- 125 (in Russian).

Shestopalov V.M., 1981. Natural groundwater resources of platform artesian basins of Ukraine. Kiev: Naukova Dumka, 196 p. (in Russian).

Shestopalov V.M., 1988. Methods of studying the groundwater natural resources. Moscow: Nauka, 168 p. (in Russian).

Shestopalov V.M., Makarenko A.N., 2013. On some research results developing the idea of V.I. Vernadsky about the Earth’s «gas breathing». Paper 1. Surface and near-surface manifestations of anomalous degassing. Geologichnyy zhurnal, № 3 (344), p. 7-25 (in Russian).

Moss I.L., Cartwright J., Moore B., 2012. Evidence for fluid migration following pockmark formation: Examples from the Nile Deep Sea Fan. Manne Geologic, vol. 303-306, p. 1-13.

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2014-11-16

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