Standard

Suitability of basins in Russia for aquifer CO2 storage: evaluation strategy. / Novikov, Dmitry A.; Fomina, Yana V.; Yurchik, Irina I. и др.

в: Journal of Sedimentary Environments, Том 9, № 2, 19.02.2024, стр. 375-395.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Novikov, DA, Fomina, YV, Yurchik, II, Derkachev, AS, Chernykh, AV, Dultsev, FF, Maximova, AA, Nikitenkov, AN & Golovin, SV 2024, 'Suitability of basins in Russia for aquifer CO2 storage: evaluation strategy', Journal of Sedimentary Environments, Том. 9, № 2, стр. 375-395. https://doi.org/10.1007/s43217-024-00165-x

APA

Novikov, D. A., Fomina, Y. V., Yurchik, I. I., Derkachev, A. S., Chernykh, A. V., Dultsev, F. F., Maximova, A. A., Nikitenkov, A. N., & Golovin, S. V. (2024). Suitability of basins in Russia for aquifer CO2 storage: evaluation strategy. Journal of Sedimentary Environments, 9(2), 375-395. https://doi.org/10.1007/s43217-024-00165-x

Vancouver

Novikov DA, Fomina YV, Yurchik II, Derkachev AS, Chernykh AV, Dultsev FF и др. Suitability of basins in Russia for aquifer CO2 storage: evaluation strategy. Journal of Sedimentary Environments. 2024 февр. 19;9(2):375-395. doi: 10.1007/s43217-024-00165-x

Author

Novikov, Dmitry A. ; Fomina, Yana V. ; Yurchik, Irina I. и др. / Suitability of basins in Russia for aquifer CO2 storage: evaluation strategy. в: Journal of Sedimentary Environments. 2024 ; Том 9, № 2. стр. 375-395.

BibTeX

@article{b2038a88616f4b808df19ee5fbe66314,
title = "Suitability of basins in Russia for aquifer CO2 storage: evaluation strategy",
abstract = "A preliminary conceptual approach is suggested to assess the suitability of onshore deep saline aquifers in major sedimentary basins of Russia for carbon capture and sequestration (CCS). The assessment is based on several regional and subregional criteria developed especially concerning the existing international and national legislation on the disposal of CO2, plant effluents, and toxic wastes, and to the construction and monitoring of underground gas storage sites. Potential long-term storage of CO2 in deep saline aquifers is evaluated according to hydrogeological, hydrodynamic, tectonic, lithological, geothermal, and environmental conditions. Russia's sedimentary basins and aquifers are classified as highly, moderately, poorly suitable, or unsuitable for CO2 disposal. As a result, 42 highly suitable, 17 moderately suitable, and 32 poorly suitable aquifers have been identified on the regional scale. The best prospects are expected from basins in the East European, East Siberian, and West Siberian hydrogeological provinces. The artesian basins of Azov-Kuban, East-Fore-Caucasus, Ergen, East-Donets, Kama-Vyatka, and Emben in the East European province, the Pechora basin in the Pechora-Barents Sea plate, and the Taz-Pur and Irtysh-Ob basins in West Siberia show high suitability for CCS projects. East Siberia has the Pyasina-Yenisei and Balakhna basins in the Arctic sector and the Putorana, Lower Tunguska, Katanga, and Angara basins farther in the south. This is the case of the Moscow artesian basin where 16 traps have been revealed, with a primary storage capacity of 150.6 Gt for dissolved CO2 and 13.4 Gt for supercritical CO2.",
author = "Novikov, {Dmitry A.} and Fomina, {Yana V.} and Yurchik, {Irina I.} and Derkachev, {Anton S.} and Chernykh, {Anatoliy V.} and Dultsev, {Fedor F.} and Maximova, {Anastasia A.} and Nikitenkov, {Alexsey N.} and Golovin, {Sergey V.}",
note = "The work was supported by the Novosibirsk State University under the Priority 2030 Program and by the Ministry of Science and Higher Education of the Russian Federation under Projects No. FWZZ-2022-0014.",
year = "2024",
month = feb,
day = "19",
doi = "10.1007/s43217-024-00165-x",
language = "English",
volume = "9",
pages = "375--395",
journal = "Journal of Sedimentary Environments",
issn = "2662-5571",
number = "2",

}

RIS

TY - JOUR

T1 - Suitability of basins in Russia for aquifer CO2 storage: evaluation strategy

AU - Novikov, Dmitry A.

AU - Fomina, Yana V.

AU - Yurchik, Irina I.

AU - Derkachev, Anton S.

AU - Chernykh, Anatoliy V.

AU - Dultsev, Fedor F.

AU - Maximova, Anastasia A.

AU - Nikitenkov, Alexsey N.

AU - Golovin, Sergey V.

N1 - The work was supported by the Novosibirsk State University under the Priority 2030 Program and by the Ministry of Science and Higher Education of the Russian Federation under Projects No. FWZZ-2022-0014.

PY - 2024/2/19

Y1 - 2024/2/19

N2 - A preliminary conceptual approach is suggested to assess the suitability of onshore deep saline aquifers in major sedimentary basins of Russia for carbon capture and sequestration (CCS). The assessment is based on several regional and subregional criteria developed especially concerning the existing international and national legislation on the disposal of CO2, plant effluents, and toxic wastes, and to the construction and monitoring of underground gas storage sites. Potential long-term storage of CO2 in deep saline aquifers is evaluated according to hydrogeological, hydrodynamic, tectonic, lithological, geothermal, and environmental conditions. Russia's sedimentary basins and aquifers are classified as highly, moderately, poorly suitable, or unsuitable for CO2 disposal. As a result, 42 highly suitable, 17 moderately suitable, and 32 poorly suitable aquifers have been identified on the regional scale. The best prospects are expected from basins in the East European, East Siberian, and West Siberian hydrogeological provinces. The artesian basins of Azov-Kuban, East-Fore-Caucasus, Ergen, East-Donets, Kama-Vyatka, and Emben in the East European province, the Pechora basin in the Pechora-Barents Sea plate, and the Taz-Pur and Irtysh-Ob basins in West Siberia show high suitability for CCS projects. East Siberia has the Pyasina-Yenisei and Balakhna basins in the Arctic sector and the Putorana, Lower Tunguska, Katanga, and Angara basins farther in the south. This is the case of the Moscow artesian basin where 16 traps have been revealed, with a primary storage capacity of 150.6 Gt for dissolved CO2 and 13.4 Gt for supercritical CO2.

AB - A preliminary conceptual approach is suggested to assess the suitability of onshore deep saline aquifers in major sedimentary basins of Russia for carbon capture and sequestration (CCS). The assessment is based on several regional and subregional criteria developed especially concerning the existing international and national legislation on the disposal of CO2, plant effluents, and toxic wastes, and to the construction and monitoring of underground gas storage sites. Potential long-term storage of CO2 in deep saline aquifers is evaluated according to hydrogeological, hydrodynamic, tectonic, lithological, geothermal, and environmental conditions. Russia's sedimentary basins and aquifers are classified as highly, moderately, poorly suitable, or unsuitable for CO2 disposal. As a result, 42 highly suitable, 17 moderately suitable, and 32 poorly suitable aquifers have been identified on the regional scale. The best prospects are expected from basins in the East European, East Siberian, and West Siberian hydrogeological provinces. The artesian basins of Azov-Kuban, East-Fore-Caucasus, Ergen, East-Donets, Kama-Vyatka, and Emben in the East European province, the Pechora basin in the Pechora-Barents Sea plate, and the Taz-Pur and Irtysh-Ob basins in West Siberia show high suitability for CCS projects. East Siberia has the Pyasina-Yenisei and Balakhna basins in the Arctic sector and the Putorana, Lower Tunguska, Katanga, and Angara basins farther in the south. This is the case of the Moscow artesian basin where 16 traps have been revealed, with a primary storage capacity of 150.6 Gt for dissolved CO2 and 13.4 Gt for supercritical CO2.

UR - https://www.webofscience.com/wos/woscc/full-record/WOS:001160072500001

UR - https://www.mendeley.com/catalogue/b328ffc5-29d6-372b-a197-94e106a8d1be/

U2 - 10.1007/s43217-024-00165-x

DO - 10.1007/s43217-024-00165-x

M3 - Article

VL - 9

SP - 375

EP - 395

JO - Journal of Sedimentary Environments

JF - Journal of Sedimentary Environments

SN - 2662-5571

IS - 2

ER -

ID: 61165750