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Журналы →  Gornyi Zhurnal →  2022 →  №8 →  Назад

ENVIRONMENTAL PROTECTION
HYDROCARBON DEGASSING AND FAVORABLE UNDERGROUND STORAGE OF CARBON DIOXIDE
Название Underground storage of carbon dioxide
DOI 10.17580/gzh.2022.08.12
Автор Kerimov V. Yu.
Информация об авторе

Sergo Ordzhonikidze Russian State University for Geological Prospecting, Moscow, Russia:
V. Yu. Kerimov, Head of Department, Professor, Doctor of Geological and Mineralogical Sciences, vagif.kerimov@mail.ru
Реферат

Decarbonization in the global economy is impossible without large-scale implementation of trapping, disposal and storage of carbon. Holding colossal resources for natural storage, Russia can greatly reduce its carbon footprint by burying carbon dioxide. Reliability of carbon dioxide burial depends on the geological, geochemical and methodological conditions of underground storage of this gas. Researchers have found that favorable underground storages are the depleted oil and gas reservoirs, nonminable coal seams, deep-level salt-bearing strata and other porous media in the Earth’s crust. It recommended to introduce a three-level monitoring of atmospheric emission of carbon dioxide as a result of natural phenomena (outgassing from the Earth) and human activities both on land and sea. The first level is the space monitoring: monitoring of atmospheric concentrations of methane and carbon dioxide in various ranges; monitoring of natural gas and oil occurrences on land and sea. The second level is the use of unmanned vehicles. The third level is the ground surface monitoring: real-time monitoring of the underground geological environment from a geophysical observatory; spectral laser and radar detection; monitoring of carbon dioxide concentrations using laser absorption spectroscopy and distributed sensor networks.
Ключевые слова Monitoring, geological conditions, geochemical lithological conditions, underground storages, carbon dioxide, oil, coal seams, salt-bearing formations, outgassing of the Earth
Библиографический список

1. Shnyukov E. F., Kobolev V. P., Lyubitskiy A. A. et al. Gas flames in the Black Sea. Kiev : GNU “MorGeoEkoTsentr” NAN Ukrainy, 2021. 508 p.
2. Borobev A. E., Malyukov V. P. Technological innovations in underground gas storage in depleted gas reservoirs. Moscow : RUDN, 2009. 104 p.
3. Guliev I. S., Mustaev R. N., Kerimov V. Yu., Yudin M. N. Degassing of the Earth: Scale and implications. Gornyi Zhurnal. 2018. No. 11. pp. 38–42. DOI: 10.17580/gzh.2018.11.06
4. Bogoyavlenskiy V. I., Kerimov V. Yu., Olkhovskaya O. O. Dangerous gas-saturated objects in the World Ocean: the Sea of Okhotsk. Oil Industry. 2016. No. 6. pp. 43–47.
5. Dyadkin Yu. D., Pariyskiy Yu. M., Romanov V. V. Heat Exchange in Deep Wells and in Permeation Zones in Extraction of Heat From Dry Rocks : Soviet–American Symposium. Leningrad : LGI, 1974. 40 p.
6. Dyadkin Yu. D. Development of geothermal fields. Moscow : Nedra, 1989. 229 p.
7. Kononov V. I. Geochemistry of thermal water in the modern volcanism zones (rifting and island arcs). Moscow : Nauka, 1983. 215 p.
8. Karin V. N. Our Earth (origination, composition, structure and development of the initially hydride Earth). Moscow : Agar, 2005. 242 p.
9. Lysak S. V. Heat flow in continental rifting zones. Novosibirsk : Nauka, 1988. 199 p.
10. Shcherban A. N. (Ed.). Earth’s heat and its recovery. Kiev : Naukova dumka, 1974. 263 p.
11. Khutorskiy M. D. Geothermy of the Middle Asian Folded Belt. Moscow : Izdatelstvo RUDN, 1996. 289 p.
12. Kozlovskiy E. A., Belozerov I. M., Minin V. A., Sharov G. N. Explosion hazard of gas in underground coal mining. New Ideas in the Earth’s Sciences : X International Conference Proceedings. Moscow : RGGRU, 2011. Vol. 2. pp. 144.
13. Belozerov I. M., Sharov G. N., Minin V. A. Evolution of the Earth : On the way to a new paradigm. New Ideas in the Earth’s Sciences : X International Conference Proceedings. Moscow : RGGRU, Vol. 1. p. 12.
14. Belozerov I. M., Minin V. A., Sharov G. N. Gravitational spring as a physical framework for the volumetric dynamics of the Earth and other objects in the Universe. Volcanism and Geodynamics : V All-Russian Volcanology and Paleovolcanology Symposium Proceedings. Yekaterinburg : IGG UrO RAN, 2011. pp. 10–11.
15. Kozlovskiy E. A., Kuznetsov F. A., Gritsko G. I., Belozerov I. M., Minin V. A. et al. Explosion hazard of gas in underground coal mining, specifically, in Kuzbass, Coal Chemistry and Ecology of Kuzbass : Proceedings of III All-Russian Symposium with International Participation. Kemerovo : IUKhM SO RAN, 2013. p. 61.
16. Voytov G. I. Chemistry and scale of current flows of natural gases in different Earth’s geostructures. Zhurnal Vsesoyuznogo khimicheskogo obshchestva im. D. I. Mendeleeva. 1986. Vol. 31, No. 5. pp. 533–539.
17. Voitov G. I., Rudakov V. P. Hydrogen in the air of subsoil deposits: Its monitoring and application potential. Izvestiya. Physics of the Solid Earth. 2000. Vol. 36, No. 6. P. 511–518.

18. Shogenov K., Shogenova A., Vizika-Kavvadias O. Potential structures for CO2 geological storage in the Baltic Sea: case study offshore Latvia. Bulletin of the Geological Society of Finland. 2013. Vol. 85(1-2). pp. 65–81.
19. Metz B., Davidson O., de Coninck H., Loos M., Meyer L. Carbon Dioxide Capture and Storage : IPCC Special Report. Cambridge : Cambridge University Press, 2005. 481 p.
20. Khan S. A. The analysis of world projects of catching and a burial place of carbonic gas. Georesursy. 2010. No. 4(36). pp. 55–62.
21. Uspenskiy A. B. Satellite data-based changes in greenhouse gas concentrations in the atmosphere. Space Remote Sensing : All-Russian Seminar. 2021. Available at: http://smiswww.iki.rssi.ru/files/seminar%20dzz/presentations/uspenskii_23.12.2021.pdf (accessed: 15.06.2022).
22. Guliev I. S., Kerimov V. Yu., Etirmishli G. D., Yusubov N. P., Mustaev R. N. et al. и др. Modern Geodynamic Processes and Their Impact on Replenishment of Hydrocarbon Resources in the Black Sea–Caspian Region. Geotectonics. 2021. Vol. 55, No. 3, pp. 393–407.
23. Aghayeva V., Sachsenhofer R. F., van Baak C. G. C., Bechtel A., Hoyle T. M. et al. New geochemical insights into Cenozoic source rocks in Azerbaijan: implications for petroleum systems in the South Caspian region. Journal of Petroleum Geology. 2021. Vol. 44, No. 3. pp. 349–384.
24. Cherepovitsyn A. E., Sidorova K. I., Smirnova N. V. CCS technologies and feasibility of their application CO2 in Russia. Neftegazovoe delo. 2013. No. 5. pp. 459–473.
25. Arsan Sh. A., Yagafarov A. K., Baganov Yu. V. Detailed classification of underground gas storage facilities. Izvestiya vuzov. Neft i gaz. 2018. No. 3. pp. 44–50.
26. Klubkov S., Emelyanov K., Zotov N. CCUS: Monetization of CO2 emissions. Moscow : VYGON Consulting, 2021. No. 8. 48 p.
27. Eliseev A. V. Global carbon cycle : Basic processes and interaction with climate characteristics. Space Remote Sensing : All-Russian Seminar. 2021. Available at: http://smiswww.iki.rssi.ru/files/seminar%20dzz/presentations/cc.iki%20(1).pdf (accessed: 15.06.2022).
28. Bogoyavlenskiy V. I. Fundamental aspects of the catastrophic gas blowout genesis and the formation of giant craters in the Arctic. Arktika: ekologiya i ekonomika. 2021. Vol. 11, No. 1. pp. 51–66.
29. Bogoyavlensky V., Bogoyavlensky I., Nikonov R., Kargina T., Chuvilin E. et al. New Catastrophic Gas Blowout and Giant Crater on the Yamal Peninsula in 2020: Results of the Expedition and Data Processing. Geosciences. 2021. Vol. 11, Iss. 2. 71. DOI: 10.3390/geosciences11020071
30. Ivanov A. Yu., Ermoshkin I. S. Mapping oil spills in the Caspian Sea using ERS-1/ERS-2 SAR image quick-looks and GIS. Gayana (Concepción). 2004. Vol. 68, No. 2. pp. 297–304.
31. Alekseev M. N. (Ed.). Geology and minerals of shelfs in Russia. Moscow : GEOS, 2002. 425 p.
32. Kerimov V. Yu., Osipov A. V., Mustaev R. N., Hai V. N., Leonov M. G. Hydrocarbons in the Basement of the South China Sea (Vietnam) Shelf and Structural–Tectonic Model of Their Formation. Geotectonics. 2019. Vol. 53, No. 1. pp. 42–59.
33. Kerimov V. Yu., Mustaev R. N., Osipov A. V. Features of the Generation of Hydrocarbons at Great Depths of the Earth’s Crust. Doklady Earth Sciences. 2018. Vol. 483, No. 3. pp. 299–303.
34. Kerimov V. Yu., Gordadze G. N., Mustaev R. N., Bondarev A. V. Formation Conditions of Hydrocarbon Systems on the Sakhalin Shelf of the Sea of Okhotsk Based on the Geochemical Studies and Modeling. Oriental Journal of Chemistry. 2018. Vol. 34, No. 2. pp. 934–947.
35. Kerimov V. Yu., Osipov A. V., Mustaev R. N., Monakova A. S. Modeling hydrocarbon systems in regions with complex geological structure. Geomodel-2014 : Proceedings of the 16th EAGE science and applied research conference on oil and gas geological exploration and development. Gelendzhik, 2014. DOI: 10.3997/2214-4609.20142245
36. Kerimov V. Yu., Shilov G. Ya., Mustayev R. N., Dmitrievskiy S. S. Thermobaric conditions of hydrocarbons accumulations formation in the low-permeability oil reservoirs of Khadum suite of the Pre-Caucasus. Oil Industry. 2016. No. 2. pp. 8–11.
37. Kerimov V. Yu., Bondarev A. V. Mustaev R. N., Khoshtariya V. N. Estimation of geological risks in searching and exploration of hydrocarbon deposits. Oil Industry. 2017. No. 8. pp. 36–41.
38. Lapidus A. L., Kerimov V. Yu., Mustaev R. N., Movsumzade E. M., Salikhova I. M. et al. Natural Bitumens: Physicochemical Properties and Production Technologies. Solid Fuel Chemistry. 2018. Vol. 52. No. 6. pp. 344–355.
39. Gutman I. S., Saakyan M. I. Methods of appraisal of oil and gas resources. Moscow : Nedra, 2017. 366 p.
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