Abramov V.Yu.
abramov@hydec.ru
Graduated from the Leningrad Mining Institute (1984), specialization "hydrogeology and engineering geology".
PhD in Geology and Mineralogy.
Chief specialist of HYDEC.
Area of scientific interests: hydrogeology, hydrogeochemistry.
Author of 65 publications and 4 patents.
Discussion
Article # 4_2021 | submitted on 02/12/2021 displayed on website on 02/26/2021 |
18 p. | Abramov V.Yu., Pyataev A.A. |
The possibility of hydrocarbon systems formation by thermometamorphical genesis and the role of hydrothermal super critical fluids | |
Using the example of supercritical fluids of carbon dioxide and water acssociation from the standpoint of supercritical fluid extraction of organic substances from sedimentary rocks and supercritical cracking of hydrocarbons, the possibility of formation of accumulations of hydrocarbons of magmatic and thermometamorphic genesis is substantiated. Keywords: supercritical fluids of carbon dioxide and water, formation of hydrocarbon accumulation, supercritical cracking of hydrocarbons. |
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article citation | Abramov V.Yu., Pyataev A.A. Vozmozhnost' formirovaniya uglevodorodnykh sistem termometamorficheskogo genezisa i rol' gidrotermal'nykh sverkhkriticheskikh flyuidov [The possibility of hydrocarbon systems formation by thermometamorphical genesis and the role of hydrothermal super critical fluids]. Neftegazovaya Geologiya. Teoriya I Praktika, 2021, vol. 16, no. 1, available at: http://www.ngtp.ru/rub/2021/4_2021.html |
DOI | https://doi.org/10.17353/2070-5379/4_2021 |
References
Abramov V.Yu. Formirovanie khimicheskogo sostava podzemnykh vod v ekstremal'nykh termodinamicheskikh usloviyakh (na primere Nagutskogo mestorozhdeniya uglekislykh mineral'nykh vod) [The chemical composition of groundwater in extreme thermodynamic conditions (for example of the Nagut field of carbonic mineral waters)]. Nedropol'zovanie XXI vek, 2013, no. 5, pp. 67-71.
Abramov V.Yu. Formirovanie organicheskogo sostava uglekislykh mineral'nykh vod Essentukskogo i Nagutskogo mestorozhdeniy [Formation of the organic composition of carbonic mineral waters of the Essentuki and Nagut fields]. Razvedka i okhrana nedr, 2014, no.5, pp. 47-51.
Abramov V.Yu., Borevskiy B.V., Ershov G.E., Yazvin A.L. Opyt pereotsenki zapasov i prognoznykh resursov mineral'nykh vod Essentukskogo i Beshtaugorskogo mestorozhdeniy [Experience in reassessment of reserves and inferred resources of mineral waters of the Essentuki and Beshtaugor fields]. Nedropol'zovanie XXI vek, 2013, no. 5, pp. 37-45.
Abramov V.Yu., Borevskiy B.V., Lizogubov V.A., Yazvin A.L. Novyy vzglyad na formirovanie resursov i termo-gazokhimicheskogo sostava uglekislykh mineral'nykh vod Essentukskogo i Nagutskogo mestorozhdeniy [A new look at the formation of resources and thermo-gas-chemical composition of carbon dioxide mineral waters of the Essentuki and Nagut fields]. Geologicheskaya evolyutsiya vzaimodeystviya vody s gornymi porodami: trudy Vserossiyskoy konferentsii s uchastiem inostrannykh uchenykh, Tomsk, 2012, pp. 288-192.
Abramov V.Yu., Pyataev A.A. O roli gidrotermal'nykh sverkhkriticheskikh flyuidov v formirovanii zalezhey uglevodorodnykh sistem magmaticheskogo i termometamorficheskogo genezisa [On the role of hydrothermal supercritical fluids in the formation of hydrocarbon systems of magmatic and thermometamorphic genesis]. Razvedka i okhrana nedr, 2020, no. 5, pp. 57-63.
Abramov V.Yu., Vavichkin A.Yu. Osobennosti formirovaniya termogazokhimicheskogo sostava mineral'nykh vod Essentukskogo mestorozhdeniya [Features of the formation of the thermogas-chemical composition of mineral waters of the Essentuki field]. Razvedka i okhrana nedr. - 2010. - №10. - S.27-32.
Armannsson H., Fridriksson T., Gudfinnsson G.H., Ólafsson M., Óskarsson F., Thorbjörnsson D. IDDP - The chemistry of the IDDP-01 well fluids in relation to the geochemistry of the Krafla geothermal system, Gеotermics, 2014, no. 49, pp. 66-75. DOI: https://doi.org/10.1016/j.geothermics.2013.08.005
Balitskiy V.S., Bondarenko G.V., Pironon Zh., Penteley S.V., Balitskaya L.V., Golunova M.A., Bublikova T.M. O prichinakh vertikal'noy zonal'nosti raspredeleniya uglevodorodov v nedrakh zemli: eksperimental'nye dokazatel'stva krekinga syroy nefti v vysokotemperaturnykh vodno-uglevodorodnykh flyuidakh [On the causes of vertical zoning of hydrocarbon distribution in the Earth's interior: experimental evidence of crude oil cracking in high-temperature hydrocarbon fluids]. Sverkhkriticheskie flyuidy: teoriya i praktika, 2013, no. 2, pp. 39-60.
Borts B.V., Kazarinov Yu.G., Neklyudov I.M., Sirenko S.A., Skoromnaya S.F., Tkachenko V.I. Eksperimental'noe issledovanie obrazovaniya (mikro)kapel' iz rastvora vody v sverkhkriticheskom diokside ugleroda [Experimental study of the formation of (micro) droplets from a water solution in supercritical carbon dioxide]. Sverkhkriticheskie flyuidy: teoriya i praktika, 2013, no. 2, pp. 68-76.
Gumerov F., Yarullin R. Sverkhkriticheskie flyuidy i SKF-tekhnologii [Supercritical fluids and SCF technologies]. The Chemical Journal, 2008 (Oct), pp. 26-30.
Handbook of Chemistry and Physics, 41st edition. Cleveland, Ohio, Chemical Rubber Publishing Co., 1959, 2303-2305.
Krapivner R.B., Abramov V.Yu. Proiskhozhdenie unikal'noy geokhimicheskoy anomalii v zone perekhoda ot kontinenta k okeanu mezhdu Sval'bardom i khrebtom Knipovicha [Origin of a unique geochemical anomaly in the continent-to-ocean transition zone between Svalbard and the Knipovich Ridge]. Litologiya i poleznye iskopaemye, 2015, no. 5, pp. 408-419.
Lifshits S.Kh., Chalaya O.N. Vozmozhnyy mekhanizm obrazovaniya nefti v potoke sverkhkriticheskogo flyuida na primere dioksida ugleroda [Possible mechanism of oil formation in a supercritical fluid flow by the example of carbon dioxide]. Sverkhkriticheskie flyuidy: teoriya i praktika, 2010, no. 2, pp. 44-55.
Livshits S.Kh. Mekhanizm obrazovaniya nefti v sverkhkriticheskom potoke glubinnykh flyuidov [The mechanism of oil formation in a supercritical flow of deep fluids]. Vestnik RAN, 2009, vol. 79, no. 3, pp. 261-265.
Uglevodorody v neftyanoy geokhimii. Teoriya i praktika [Hydrocarbons in petroleum geochemistry. Theory and practice]. G.N. Gordadze. Moscow: RGU nefti i gaza im. I.M. Gubkina, 2015, 559 p.
Vostrikov A.A., Shishkin A.V., Fedyaeva O.N., Sokol M.Ya. Obrazovanie goryuchikh gazov pri vzaimodeystvii vol'frama i tsirkoniya so sverkhkriticheskim flyuidom H2O/CO2 [Formation of combustible gases in the interaction of tungsten and zirconium with a supercritical fluid H2O/CO2]. Sverkhkriticheskie flyuidy: teoriya i praktika, 2012, no. 4, pp. 95-103.
Abramov V.Yu. Formirovanie organicheskogo sostava uglekislykh mineral'nykh vod Essentukskogo i Nagutskogo mestorozhdeniy [Formation of the organic composition of carbonic mineral waters of the Essentuki and Nagut fields]. Razvedka i okhrana nedr, 2014, no.5, pp. 47-51.
Abramov V.Yu., Borevskiy B.V., Ershov G.E., Yazvin A.L. Opyt pereotsenki zapasov i prognoznykh resursov mineral'nykh vod Essentukskogo i Beshtaugorskogo mestorozhdeniy [Experience in reassessment of reserves and inferred resources of mineral waters of the Essentuki and Beshtaugor fields]. Nedropol'zovanie XXI vek, 2013, no. 5, pp. 37-45.
Abramov V.Yu., Borevskiy B.V., Lizogubov V.A., Yazvin A.L. Novyy vzglyad na formirovanie resursov i termo-gazokhimicheskogo sostava uglekislykh mineral'nykh vod Essentukskogo i Nagutskogo mestorozhdeniy [A new look at the formation of resources and thermo-gas-chemical composition of carbon dioxide mineral waters of the Essentuki and Nagut fields]. Geologicheskaya evolyutsiya vzaimodeystviya vody s gornymi porodami: trudy Vserossiyskoy konferentsii s uchastiem inostrannykh uchenykh, Tomsk, 2012, pp. 288-192.
Abramov V.Yu., Pyataev A.A. O roli gidrotermal'nykh sverkhkriticheskikh flyuidov v formirovanii zalezhey uglevodorodnykh sistem magmaticheskogo i termometamorficheskogo genezisa [On the role of hydrothermal supercritical fluids in the formation of hydrocarbon systems of magmatic and thermometamorphic genesis]. Razvedka i okhrana nedr, 2020, no. 5, pp. 57-63.
Abramov V.Yu., Vavichkin A.Yu. Osobennosti formirovaniya termogazokhimicheskogo sostava mineral'nykh vod Essentukskogo mestorozhdeniya [Features of the formation of the thermogas-chemical composition of mineral waters of the Essentuki field]. Razvedka i okhrana nedr. - 2010. - №10. - S.27-32.
Armannsson H., Fridriksson T., Gudfinnsson G.H., Ólafsson M., Óskarsson F., Thorbjörnsson D. IDDP - The chemistry of the IDDP-01 well fluids in relation to the geochemistry of the Krafla geothermal system, Gеotermics, 2014, no. 49, pp. 66-75. DOI: https://doi.org/10.1016/j.geothermics.2013.08.005
Balitskiy V.S., Bondarenko G.V., Pironon Zh., Penteley S.V., Balitskaya L.V., Golunova M.A., Bublikova T.M. O prichinakh vertikal'noy zonal'nosti raspredeleniya uglevodorodov v nedrakh zemli: eksperimental'nye dokazatel'stva krekinga syroy nefti v vysokotemperaturnykh vodno-uglevodorodnykh flyuidakh [On the causes of vertical zoning of hydrocarbon distribution in the Earth's interior: experimental evidence of crude oil cracking in high-temperature hydrocarbon fluids]. Sverkhkriticheskie flyuidy: teoriya i praktika, 2013, no. 2, pp. 39-60.
Borts B.V., Kazarinov Yu.G., Neklyudov I.M., Sirenko S.A., Skoromnaya S.F., Tkachenko V.I. Eksperimental'noe issledovanie obrazovaniya (mikro)kapel' iz rastvora vody v sverkhkriticheskom diokside ugleroda [Experimental study of the formation of (micro) droplets from a water solution in supercritical carbon dioxide]. Sverkhkriticheskie flyuidy: teoriya i praktika, 2013, no. 2, pp. 68-76.
Gumerov F., Yarullin R. Sverkhkriticheskie flyuidy i SKF-tekhnologii [Supercritical fluids and SCF technologies]. The Chemical Journal, 2008 (Oct), pp. 26-30.
Handbook of Chemistry and Physics, 41st edition. Cleveland, Ohio, Chemical Rubber Publishing Co., 1959, 2303-2305.
Krapivner R.B., Abramov V.Yu. Proiskhozhdenie unikal'noy geokhimicheskoy anomalii v zone perekhoda ot kontinenta k okeanu mezhdu Sval'bardom i khrebtom Knipovicha [Origin of a unique geochemical anomaly in the continent-to-ocean transition zone between Svalbard and the Knipovich Ridge]. Litologiya i poleznye iskopaemye, 2015, no. 5, pp. 408-419.
Lifshits S.Kh., Chalaya O.N. Vozmozhnyy mekhanizm obrazovaniya nefti v potoke sverkhkriticheskogo flyuida na primere dioksida ugleroda [Possible mechanism of oil formation in a supercritical fluid flow by the example of carbon dioxide]. Sverkhkriticheskie flyuidy: teoriya i praktika, 2010, no. 2, pp. 44-55.
Livshits S.Kh. Mekhanizm obrazovaniya nefti v sverkhkriticheskom potoke glubinnykh flyuidov [The mechanism of oil formation in a supercritical flow of deep fluids]. Vestnik RAN, 2009, vol. 79, no. 3, pp. 261-265.
Uglevodorody v neftyanoy geokhimii. Teoriya i praktika [Hydrocarbons in petroleum geochemistry. Theory and practice]. G.N. Gordadze. Moscow: RGU nefti i gaza im. I.M. Gubkina, 2015, 559 p.
Vostrikov A.A., Shishkin A.V., Fedyaeva O.N., Sokol M.Ya. Obrazovanie goryuchikh gazov pri vzaimodeystvii vol'frama i tsirkoniya so sverkhkriticheskim flyuidom H2O/CO2 [Formation of combustible gases in the interaction of tungsten and zirconium with a supercritical fluid H2O/CO2]. Sverkhkriticheskie flyuidy: teoriya i praktika, 2012, no. 4, pp. 95-103.