CO2 storage in depleted oil and gas reservoirs: A review
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Abstract
Geological storage of CO2 in depleted oil and gas reservoirs is approved due to its advantages, such as strong storage capacity, good sealing performance, and complete infrastructure. This review clarified the existing projects, advantages, significances, influencing factors, mechanisms, and storage potential evaluation procedures of CO2 storage in depleted oil and gas reservoirs. In this review, the storage capability of depleted oil and gas reservoirs has been confirmed, and factors affecting the CO2 storage potential, including geological factors and engineering factors, are concluded. CO2 trapping mechanisms of different storage processes in depleted oil and gas reservoirs are elaborated and divided into three stages. The evaluation stages of CO2 storage potential of depleted oil and gas reservoirs are summarized as basin selection evaluation stage, oil and gas reservoir selection evaluation stage, storage security evaluation using the bowtie method, and storage capacity calculation stage. The calculation accuracy of CO2 storage capacity in depleted oil and gas reservoirs can be optimized by determining the mineralization storage volume and the actual reservoir characteristics of the dissolution storage coefficient numerically. This work intends to provide support for the storage of CO2 by analyzing and studying the geological theory and engineering achievements of CO2 storage in depleted oil and gas reservoirs.
Document Type: Invited review
Cited as: Wei, B., Wang, B., Li, X., Aishan, M., Ju, Y. CO2 storage in depleted oil and gas reservoirs: A review. Advances in Geo-Energy Research, 2023, 9(2): 76-93. https://doi.org/10.46690/ager.2023.08.02
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Adu, E., Zhang, Y., Liu, D. Current situation of carbon dioxide capture storage and enhanced oil recovery in the oil and gas industry. The Canadian Journal of Chemical Engineering, 2018, 97(5): 1048-1076.
Ajayi, T., Gomes, J. S., Bera, A. A review of CO2 storage in geological formations emphasizing modeling, monitoring and capacity estimation approaches. Petroleum Science, 2019, 16(5): 1028-1063.
Akindipe, D., Saraji, S., Piri, M. Salt precipitation in carbonates during supercritical CO2 injection: A pore-scale experimental investigation of the effects of wettability and heterogeneity. International Journal of Greenhouse Gas Control, 2022, 121: 103790.
Ali, M., Jha, N. K., Pal, N., et al. Recent advances in carbon dioxide geological storage, experimental procedures, influencing parameters, and future outlook. Earth-Science Reviews, 2022, 225: 103895.
Alkan, H., Cinar, Y., Ülker, E. B. Impact of capillary pressure, salinity and in situ conditions on CO2 injection into saline aquifers. Transport in Porous Media, 2010, 84(3): 799-819.
Al-Khdheeawi, E., Vialle, S., Barifcani, A., et al. Impact of reservoir wettability and heterogeneity on CO2-plume migration and trapping capacity. International Journal of Greenhouse Gas Control, 2017, 58: 142-158.
Altman, S. J., Aminzadeh, B., Balhoff, M. T., et al. Chemical and hydrodynamic mechanisms for long-term geological carbon storage. The Journal of Physical Chemistry, 2014, 118(28): 15103-15113.
Aminu, M. D., Nabavi, S. A., Rochelle, C. A., et al. A Review of developments in carbon dioxide storage. Applied Energy, 2017, 208(15): 1389-1419.
Anderson, J. S., Romanak, K. D., Yang, C., et al. Gas source attribution techniques for assessing leakage at geologic CO2 storage sites: Evaluating a CO2 and CH4 soil gas anomaly at the Cranfield CO2-EOR site. Chemical Geology, 2017, 454: 93-104.
Ao, W. J., Zhao, R. B., Li, H., et al. Solution-diffusion law of CO2 in crude oil and brine. Complex Hydrocarbon Reservoirs, 2019, 12(3): 51-55. (in Chinese)
Arild, O., Ford, E. P., Lohne, H. P., et al. A comparison of FEP-analysis and barrier analysis for CO2 leakage risk assessment on an abandoned Czech oilfield. Energy Procedia, 2017, 114: 4237-4255.
Bachu, S. Sequestration of CO2 in geological media: Criteria and approach for site selection in response to climate change. Energy Conversion and Management, 2000, 41(9): 953-970.
Bachu, S, Bonijoly, D., Bradshaw, J., et al. Phase II final report from the task force for review and identification of standards for CO2 storage capacity estimation. Carbon Sequestration Leadership Forum (CSLF), 2007.
Bachu, S., Shaw, J. Evaluation of the CO2 sequestration capacity in Alberta’s oil and gas reservoirs at depletion and the effect of underlying aquifers. Journal of Canadian Petroleum Technology, 2003, 42(9): 51-60.
Bachu, S., Shaw, J., Robert, M. Estimation of oil recovery and CO2 storage capacity in CO2 EOR incorporating the effect of underlying aquifers. Paper SPE 89340 Presented at the SPE/DOE Symposium on Improved Oil Recovery, Tulsa, Oklahoma, 17-21 April, 2004.
Bagheri, M., Shariatipour, S. M., GanJian, E. Prediction of the lifespan of cement at a specific depth based on the coupling of geomechanical and geochemical processes for CO2 storage. International Journal of Greenhouse Gas Control, 2019, 86: 43-65.
Bai, M., Song, K., Li, Y., et al. Development of a novel method to evaluate well integrity during CO2 underground storage. SPE Journal, 2014, 20(3): 628-641.
Boyd, A. D., Liu, Y., Stephens, J. C., et al. Controversy in technology innovation: Contrasting media and expert risk perceptions of the alleged leakage at the Weyburn carbon dioxide storage demonstration project. International Journal of Greenhouse Gas Control, 2013, 14: 259-269.
Cai J, Jin T, Kou J, et al. Lucas-Washburn equation-based modeling of capillary-driven flow in porous systems. Langmuir, 2021, 37(5): 1623-1636.
Cao, C., Liu, H., Hou, Z., et al. A review of CO2 storage in view of safety and cost-effectiveness. Energies, 2020, 13(3): 600.
Carey, J. W., Svec, R., Grigg, R., et al. Experimental investigation of wellbore integrity and CO2-brine flow along the casing-cement microannulus. International Journal of Greenhouse Gas Control, 2010, 4: 272-282.
Carles, P., Bachaud, P., Lasseur, E., et al. Confining properties of carbonated dogger caprocks (Parisian Basin) for CO2 storage purpose. Oil & Gas Science and Technology, 2010, 65(3): 461-472.
Carroll, S., Carey, J. W., Dzombak, D., et al. Review: Role of chemistry, mechanics, and transport on well integrity in CO2 storage environments. International Journal of Greenhouse Gas Control, 2016, 49: 149-160.
Carroll, S. A., Iyer, J., Walsh, S. D. C. Influence of chemical, mechanical, and transport processes on wellbore leakage from geologic CO2 storage reservoirs. Accounts of Chemical Research, 2017, 50(8): 1829-1837.
Chen, Y., Liao, X., Zhao, H., et al. Determination two key dissolution coefficients in calculation of CO2 storage capacity. Science & Technology Review, 2010, 28(1): 98-101. (in Chinese)
Chen, Y., Saeedi, A., Xie, Q. Interfacil interactions of CO2-brine-rock system in saline aquifers for CO2 geological storage: A critical review. International Journal of Coal Geology, 2023, 20: 104272.
Chen, J., Thomas, J. J., Taylor, H. F. W., et al. Solubility and structure of calcium silicate hydrate. Cement and Concrete Research, 2004, 34(9): 1499-1519.
Cheng, Q., Li, Z., Zhu, G. Research and application of CO2 flooding to improve oil recovery in low permeability oilfield. Advances in Engineering Research, 2017, 7: 1435-1440.
Chu, H. Y., Liao, X. W., Chen, Z. M., et al. A new methodology to assess the maximum CO2 geo-sequestration capacity of shale reservoirs with SRV based on wellbore pressure. Journal of CO2 Utilization, 2019, 34: 239-255.
Cui, G., Hu, Z., Ning, F., et al. A review of salt precipitation during CO2 injection into saline aquifers and its potential impact on carbon sequestration projects in China. Fuel, 2023, 334: 126615.
Cui, G., Ren, S., Zhang, L., et al. Formation water evaporation induced salt precipitation and its effect on gas production in high temperature natural gas reservoirs. Petroleum Exploration and Development, 2016, 43(5): 815-824.
Ding, S., Xi, Y., Jiang, H., et al. CO2 storage capacity estimation in oil reservoirs by solubility and mineral trapping. Applied Geochemistry, 2018, 89: 121-128.
Duguid, A., Glier, J., Heinrichs, M., et al. Practical leakage risk assessment for CO2 assisted enhanced oil recovery and geologic storage in Ohio’s depleted oil fields. International Journal of Greenhouse Gas Control, 2021, 109: 103338.
Freifeld, B., Zakim, S., Pan, L. H., et al. Geothermal energy production coupled with CCS: A field demonstration at the SECARB Cranfield site, Cranfield, Mississippi, USA. Energy Procedia, 2013, 37: 6595-6603.
Gao, H., He, Y., Zhou, X. Research progress on CO2 EOR technology. Special Oil & Gas Reservoirs, 2009, 16(1): 6-12. (in Chinese)
Gholami, R., Raza, A., Iglauer, S. Leakage risk assessment of a CO2 storage site: A review. Earth-Science Reviews, 2021, 223: 103849.
Goodman, A. Comparison of CO2 storage resource methodologies. Paper Presented at Carbon Storage R&D Project Review Meeting Developing the Technologies and Building the Infrastructure for CCUS, Pittsburgh, 21-23 August, 2012.
Goodman, A., Hakala, A., Bromhal, G., et al. U.S. DOE methodology for the development of geologic storage potential for carbon dioxide at the national and regional scale. International Journal of Greenhouse Gas Control, 2011, 5: 952-965.
Gutiérrez, F., Lizaga, I. Sinkholes, collapse structures and large landslides in an active salt dome submerged by a reservoir: The unique case of the Ambal ridge in the Karun River, Zagros Mountains, Iran. Geomorphology, 2016, 254: 88-103.
Hager, B. H., Dieterich, J., Frohlich, C., et al. A process-based approach to understanding and managing triggered seismicity. Nature, 2021, 595: 684-689.
Haggerty, S. M. Legal requirements for widespread implementation of CO2 sequestration in depleted oil reservoirs. Pace Environmental Law Review, 2004, 21(1): 197-217.
Haghi, R. K., Chapoy, A., Peirera, L. M. C., et al. pH of CO2 saturated water and CO2 saturated brines: Experimental measurements and modelling. International Journal of Greenhouse Gas Control, 2017, 66: 190-203.
Hamza, A., Hussein, I. A., Al-Marri, M. J., et al. CO2 enhanced gas recovery and sequestration in depleted gas reservoirs: A review. Journal of Petroleum Science and Engineering, 2021, 196: 107685.
He, D., Jiang, P., Xu, R. The influence of heterogeneous structure on salt precipitation during CO2 geological storage. Advances in Geo-Energy Research, 2023, 7(3): 189-198.
Hematpur, H., Abdollahi, R., Rostami, S., et al. Review of underground hydrogen storage: Concepts and challenges. Advances in Geo-Energy Research, 2023, 7(2): 111-131.
Hill, L. B., Li, X., Wei, N. CO2-EOR in China: A comparative review. International Journal of Greenhouse Gas Control, 2020, 103: 103173.
Hortle, A., Caritat, P. D., Stalvies, C., et al. Groundwater monitoring at the Otway project site, Australia. Energy Procedia, 2011, 4: 5495-5503.
Hughes, D. S. Carbon storage in depleted gas fields: Key challenges. Energy Procedia, 2009, 1: 3007-3014.
Humez, P., N´egrel, P., Lagneau, V., et al. CO2-water-mineral reactions during CO2 leakage: Geochemical and isotopic monitoring of a CO2 injection field test. Chemical Geology, 2014, 368: 11-30.
Hutcheon, I., Shevalier, M., Durocher, K., et al. Interactions of CO2 with formation waters, oil and minerals and CO2 storage at the Weyburn IEA EOR site, Saskatchewan, Canada. International Journal of Greenhouse Gas Control, 2016, 53: 354-370.
Iglauer, S., Al-Yaseri, A. Improving basalt wettability to derisk CO2 geo-storage in basaltic formations. Advances in Geo-Energy Research, 2021, 5(3): 347-350.
Iglauer, S., Pentland, C., Busch, A. CO2 wettability of seal and reservoir rocks and the implications for carbon geosequestration. Water Resources Research, 2015, 51(1): 729-774.
Ingram, G. M., Urai, J. L., Naylor, M. A. Sealing processes and top seal assessment. Norwegian Petroleum Society Special Publications, 1997, 7: 165-174.
Jiang, H., Li, T., Liu, S., et al. Quantitative characterization of salting out during development of deep high temperature gas reservoirs. Journal of Petroleum Science and Engineering, 2022a, 211: 110125.
Jiang, S., Li, Y., Wan, F., et al. A state-of-the-art review of CO2 enhanced oil recovery as a promising technology to achieve carbon neutrality in China. Environmental Research, 2022b, 210: 112986.
Khurshid, I., Fujii, Y. Geo-mechanical analysis of formation deformation and permeability enhancement due to low-temperature CO2 injection in subsurface oil reservoirs. Journal of Petroleum Exploration and Production, 2021, 11: 1915-1923.
Koide, H., Tazaki, Y., Noguchi, Y., et al. Subterranean containment and long-term storage of carbon dioxide in unused aquifers and in depleted natural gas reservoirs. Energy Conversion and Management, 1992, 33: 619-626.
Kovscek, A. R. Screening criteria for CO2 storage in oil reservoirs. Petroleum Science and Technology, 2002, 20(7-8): 841-866.
Kumar, S., Foroozesh, J., Edlmann, K., et al. A comprehensive review of value-added CO2 sequestration in subsurface saline aquifers. Journal of Natural Gas Science and Engineering, 2020, 81: 103437.
Li, Q., Liu, X., Zhang, J., et al. A novel shallow well monitoring system for CCUS: With application to Shengli oilfield CO2-EOR project. Energy Procedia, 2014, 63: 3956-3962.
Li, W., Nan, Y., Zhang, Z., et al. Hydrophilicity/hydrophobicity driven CO2 solubility in kaolinite nanopores in relation to carbon sequestration. Chemical Engineering Journal, 2020, 398: 125449.
Liu, Y., Berg, S., Ju, Y., et al. Systematic investigation of corner flow impact in forced imbibition. Water Resources Research, 2022, 58(10): e2022WR032402.
Liu, Y., Li, X., Fang, Z., et al. Preliminary estimation of CO2 storage capacity in gas fields in China. Rock and Soil Mechanics, 2006, 12: 2277-2281. (in Chinese)
Liu, L., Li, Q., Zhang, J., et al. Toward a framework of environmental risk management for CO2 geological storage in China: Gaps and suggestions for future regulations. Mitigation & Adaptation Strategies for Global Change, 2016, 21(2): 191-207.
Lu, Y., Tian, R., Liu, W., et al. Mechanisms of shale water wettability alteration with chemical groups after CO2 injection: Implication for shale gas recovery and CO2 geostorage. Journal of Natural Gas Science and Engineering, 2021, 90: 103992.
Luo, J., Xie, Y., Hou, M., et al. Advances in subsea carbon dioxide utilization and storage. Energy Reviews, 2023, 2: 100016.
Lv, G., Zhang, J., Wang, F., et al. Research on CO2 EOR mechanism and application in Shengli oilfield. International Conference on Advanced Materials and Computer Science, 2011, 474: 758-761.
Ma, J., Wang, X., Gao, R., et al. Monitoring the safety of CO2 sequestration in Jingbian field, China. Energy Procedia, 2013, 37: 3469-3478.
Ma, J., Wang, X., Gao, R., et al. Jingbian CCS project, China: Second year of injection, measurement, monitoring and verification. Energy Procedia, 2014, 63: 2921-2938.
Mi, Z., Wang, F., Yang, Y., et al. Evaluation of the potentiality and suitability for CO2 geological storage in the Junggar basin, northwestern China. International Journal of Greenhouse Gas Control, 2018, 78: 62-72.
Miri, R., Hellevang, H. Salt precipitation during CO2 storage-a review. International Journal of Greenhouse Gas Control, 2016, 51: 136-147.
Orlic, B. Geomechanical effects of CO2 storage in depleted gas reservoirs in the Netherlands: Inferences from feasibility studies and comparison with aquifer storage. Journal of Rock Mechanics and Geotechnical Engineering, 2016, 8(6): 846-859.
Orlic, B. Some geo-mechanical aspects of geological CO2 sequestration. Journal of Civil Engineering, 2009, 13(4): 225-232.
Ouyang, Z. Y., Shi, Z., Shi, M., et al. Challenges and countermeasures of “carbon peak and carbon neutrality”. Journal of Hebei University of Economics and Business, 2021, 42(5): 1-11. (in Chinese)
Ozotta, O., Ostadhassan, M., Liu, K. Q., et al. Reassessment of CO2 sequestration in tight reservoirs and associated formations. Journal of Petroleum Science and Engineering, 2021, 206: 109071.
Pamukcu, Y., Hurter, S., Jammes, L., et al. Characterizing and predicting short term performance for the in Salah Krechba field CCS joint industry project. Energy Procedia, 2011, 4: 3371-3378.
Panduro, E. A. C., Cordonnier, B., Gawel, K., et al. Real time 3D observations of Portland cement carbonation at CO2 storage conditions. Environmental Science and Technology, 2020, 54(13): 8323-8332.
Pawar, R., Bromhal, G. S., Chu, S., et al. The national risk assessment partnership’s integrated assessment model for carbon storage: A tool to support decision making amidst uncertainty. International. Journal of Greenhouse Gas Control, 2016, 52: 175-189.
Popik, S., Pevzner, R., Tertyshnikov, K., et al. 4D surface seismic monitoring the evolution of a small CO2 plume during and after injection: CO2 CRC Otway project study. Exploration Geophysics, 2020, 51(5): 570-580.
Preston, C., Monea, M., Jazrawi, W., et al. IEA GHG Weyburn CO2 monitoring and storage project. Fuel Processing Technology, 2005, 86: 1547-1568.
Raza, A., Rezaee, R., Gholami, R., et al. Injectivity and quantification of capillary trapping for CO2 storage: A review of influencing parameters. Journal of Natural Gas Science and Engineering, 2015, 26: 510-517.
Raza, A., Rezaee, R., Gholami, R., et al. A screening criterion for selection of suitable CO2 storage sites. Journal of Natural Gas Science and Engineering, 2016, 28: 317-327.
Recasens, M., Garcia, S., Mackay, E., et al. Experimental study of wellbore integrity for CO2 geological storage. Energy Procedia, 2017, 114: 5249-5255.
Rezaeyan, A., Tabatabaei-Nejad, S. A., Khodapanah, E., et al. Parametric analysis of caprock integrity in relation with CO2 geo-sequestration: Capillary breakthrough pressure of caprock and gas effective permeability. Greenhouse Gases Science & Technology, 2015, 5(6): 714-731.
Shaw, J., Bachu, S. Screening, evaluation, and ranking of oil reservoirs suitable for CO2-flood EOR and carbon dioxide sequestration. Journal of Canadian Petroleum Technology, 2002, 41(9): 51-61.
Shen, P., Liao, X., Liu, Q. Methodology for estimation of CO2 storage capacity in reservoirs. Petroleum Exploration and Development, 2009, 36(2): 216-220.
Shukla, R., Ranjith, P., Haque, A., et al. A review of studies on CO2 sequestration and caprock integrity. Fuel, 2010, 89(10): 2651-2664.
Silva, G. P. D., Ranjith, P. G., Perera, M. S. A. Geochemical aspects of CO2 sequestration in deep saline aquifers: A review. Fuel, 2015, 155: 128-143.
Solomon, S. Criteria for intermediate storage of carbon dioxide in geological formations. The Bellona Foundation, Oslo, Norway, 2006.
Song, H., Huang, G., Li, T., et al. Analytical model of CO2 storage efficiency in saline aquifer with vertical heterogeneity. Journal of Natural Gas Science and Engineering, 2014, 18: 77-89.
Song, Y., Ju, S., Na, Y., et al. Geo-mechanical challenges during geological CO2 storage: A review. Chemical Engineering Journal, 2023, 456: 140968.
Song, J., Zhang, D. Comprehensive review of caprock-sealing mechanisms for geologic carbon sequestration. Environmental Science & Technology, 2013, 47(1): 9-22.
Steeper, T. CO2 CRC Otway project social research: Assessing CCS community consultation. Energy Procedia, 2013, 37: 7454-7461.
Stevens, S. H. Sequestration of CO2 in depleted oil and gas fields: Barriers to overcome in implementation of CO2 capture and storage. International Energy Agency, 1999.
Stork, A. L., Verdon, J. P., Kendall, J. M. The micro-seismic response at the in salah carbon capture and storage (CCS) site. International Journal of Greenhouse Gas Control, 2015, 32: 159-171.
Sun, Q., Ampomah, W., Kutsienyo, E. J., et al. Assessment of CO2 trapping mechanisms in partially depleted oil-bearing sands. Fuel, 2020, 278: 118356.
Sun, T., Liu, S., Wang, T. Research advances on evaluation of CO2 geological storage potential in China. Coal Science and Technology, 2021, 49(11): 10-20. (in Chinese)
Tang, Y., Yang, R., Bian, X. A review of CO2 sequestration projects and application in China. The Scientific World Journal, 2014, 2014: 381854.
Wang, X., Chen, J., Zhang, T., et al. Research progress in CO2 adsorption using activated carbon. Chemical Research, 2018, 29(1): 1-11. (in Chinese)
Wang, Z., Li, H., Liu, S., et al. Risk evaluation of CO2 leakage through fracture zone in geological storage reservoir. Fuel, 2023, 342: 127896.
White, J. A., Chiaramonte, L., Ezzedine, S., et al. Geomechanical behavior of the reservoir and caprock system at the in Salah CO2 storage project. Proceedings of the National Academy of Sciences of the United States of America, 2014, 111(24): 8747-8752.
Wu, Y., Li, P. The potential of coupled carbon storage and geothermal extraction in a CO2-enhanced geothermal system: A review. Geotherm Energy, 2020, 8: 19.
Xu, T., Tian, H., Zhu, H., et al. China actively promotes CO2 capture, utilization and storage research to achieve carbon peak and carbon neutrality. Advances in Geo-Energy Research, 2022, 6(1): 1-3.
Yang, W., Peng, B., Wu, M., et al. Evaluation for CO2 geo-storage potential and suitability in Dagang oilfield. Energy Procedia, 2016, 86: 41-46.
Yang, B., Shao, C., Hu, X., et al. Advances in carbon dioxide storage projects: Assessment and perspectives. Energy & Fuels, 2023, 37: 1757-1776.
Yang, H., Zhao, X., Kang, Y., et al. Evaluation on geological sequestration suitability and potential of CO2 in ordos basin. Climate Change Research, 2019, 15(1): 95-102. (in Chinese)
Yu, L., Zhang, W., Wu, S., et al. Research progress on the dissolution and storage of carbon dioxide in deep saline aquifer. New Energy Progress, 2015, 3(1): 75-80.
Zapata, Y., Kristensen M. R., Huerta, N., et al. CO2 geological storage: Critical insights on plume dynamics and storage efficiency during long-term injection and post-injection periods. Journal of Natural Gas Science and Engineering, 2020, 83: 103542.
Zhang, L., Jiang, M., Yang, Q., et al. Evolution of fault-induced salt precipitation due to convection of CO2 and brine along fault during CO2 storage in multilayered saline aquifer-caprock. Energy, 2023, 278: 127758.
Zhang, L., Ren, B., Huang, H., et al. CO2 EOR and storage in Jilin oilfield China: Monitoring program and preliminary results. Journal of Petroleum Science & Engineering, 2015, 125: 1-12.
Zhang, D., Song, J. Mechanisms for geological carbon sequestration. Procedia IUTAM, 2014, 10: 319-327.
Zhang, Y., Vouzis, P., Sahinidis, N. V. GPU simulations for risk assessment in CO2 geologic sequestration. Computers and Chemical Engineering, 2011, 35: 1631-1644.
Zhang, L., Wang, S., Zhang, L., et al. Assessment of CO2 EOR and its geostorage potential in mature oil reservoirs, Shengli oilfield, China. Petroleum Exploration and Development, 2009, 36(6): 737-742.
Zhao, X., Liao, X. Evaluation method of CO2 sequestration and enhanced oil recovery in an oil reservoir, as applied to the Changqing oilfields, China. Energy and Fuels, 2012, 26: 5350-5354.
Zhao, X., Liao, X., Wang, W., et al. Evaluative model of CO2 geological sequestration and determination of key parameters. Special Oil and Gas Reservoirs, 2013, 20(6): 72-74. (in Chinese)
Zhao, X., Liao X., Wang, W., et al. The CO2 storage capacity evaluation: Methodology and determination of key factors. Journal of the Energy Institute, 2014, 87(4): 297-305.
Zhou, H., Chen, B., Wang, S., et al. CO2/N2 mixture sequestration in depleted natural gas hydrate reservoirs. Journal of Petroleum Science and Engineering, 2019, 175: 72-82.
Zhu, M. The research of CO2 storage capacity in reservoir. Petrochemical Technology, 2015, 22(6): 181-183. (in Chinese)
Zhu, D., Peng, S., Zhao, S., et al. Comprehensive review of sealant materials for leakage remediation technology in geological CO2 capture and storage process. Energy & Fuels, 2021, 35(6): 4711-4722.
DOI: https://doi.org/10.46690/ager.2023.08.02
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