A critical review of ScCO2-enhanced gas recovery and geologic storage in shale reservoirs

被引:10
作者
Chang, Xin [1 ]
Lin, Shuangshuang [1 ,2 ]
Yang, Chunhe [1 ]
Wang, Kai [2 ]
Liu, Shimin [3 ]
Guo, Yintong [1 ]
机构
[1] Chinese Acad Sci, Inst Rock & Soil Mech, State Key Lab Geomech & Geotech Engn, Wuhan 430071, Peoples R China
[2] China Univ Min & Technol Beijing, Sch Emergency Management & Safety Engn, Beijing 100083, Peoples R China
[3] Penn State Univ, G3 Ctr & Energy Inst, Dept Energy & Mineral Engn, University Pk, PA 16802 USA
来源
GAS SCIENCE AND ENGINEERING | 2024年 / 125卷
基金
中国国家自然科学基金;
关键词
Shale gas; ScCO2; Storage technology; Carbon capture; Leakage risks; SUPERCRITICAL CARBON-DIOXIDE; LOW-PERMEABILITY RESERVOIR; CO2CRC OTWAY PROJECT; DEEP SALINE AQUIFERS; KETZIN PILOT SITE; FIRED POWER-PLANT; PART II; MECHANICAL CHARACTERISTICS; WELLBORE TEMPERATURE; NUMERICAL-SIMULATION;
D O I
10.1016/j.jgsce.2024.205317
中图分类号
TE [石油、天然气工业]; TK [能源与动力工程];
学科分类号
0807 ; 0820 ;
摘要
Carbon dioxide-enhanced shale gas recovery (CO2-ESGR) has been identified as a promising technology for carbon emission mitigation as well as for its additional benefits regarding energy recovery. This review aims to consolidate comprehensive and contemporary findings concerning SC-CO2 injection in shale formations. These findings indicate that CO2 has a significantly greater adsorption capacity in shale than CH4. Moreover, shale reservoirs possess the potential for large-scale carbon sequestration. Additionally, SC-CO2 injection can lead to various CO2 uptake-induced physicochemical reservoir rock alterations reflected by multimechanism-adsorption-dissolution-precipitation-transportation-wettability changes. This coupling mechanism can suppress the mechanical properties of shale, causing matrix swelling and crack sprouting, which in turn affects its storage capacity.
引用
收藏
页数:28
相关论文
共 225 条
[1]   Process simulation and optimal design of membrane separation system for CO2 capture from natural gas [J].
Ahmad, Faizan ;
Lau, K. K. ;
Shariff, A. M. ;
Murshid, Ghulam .
COMPUTERS & CHEMICAL ENGINEERING, 2012, 36 :119-128
[2]   A review of CO2 storage in geological formations emphasizing modeling, monitoring and capacity estimation approaches [J].
Ajayi, Temitope ;
Gomes, Jorge Salgado ;
Bera, Achinta .
PETROLEUM SCIENCE, 2019, 16 (05) :1028-1063
[3]   Utilization of supercritical carbon dioxide for mechanical degradation of organic matters contained in shales [J].
Alafnan, Saad .
FUEL, 2022, 316
[4]   Caprock interaction with CO2: A laboratory study of reactivity of shale with supercritical CO2 and brine [J].
Alemu, Binyam L. ;
Aagaard, Per ;
Munz, Ingrid Anne ;
Skurtveit, Elin .
APPLIED GEOCHEMISTRY, 2011, 26 (12) :1975-1989
[5]   Swelling of Shales by Supercritical Carbon Dioxide and Its Relationship to Sorption [J].
Ao, Xiang ;
Qi, Zhilin ;
Xiang, Zuping ;
Li, Zhiqiang ;
Qu, Hai ;
Wang, Ziyi .
ACS OMEGA, 2020, 5 (31) :19606-19614
[6]   Investigation on the physics structure and chemical properties of the shale treated by supercritical CO2 [J].
Ao, Xiang ;
Lu, Yiyu ;
Tang, Jiren ;
Chen, Yuting ;
Li, Honglian .
JOURNAL OF CO2 UTILIZATION, 2017, 20 :274-281
[7]   CO2 storage capacity estimation:: Methodology and gaps [J].
Bachu, Stefan ;
Bonijoly, Didier ;
Bradshaw, John ;
Burruss, Robert ;
Holloway, Sam ;
Christensen, Niels Peter ;
Mathiassen, Odd Magne .
INTERNATIONAL JOURNAL OF GREENHOUSE GAS CONTROL, 2007, 1 (04) :430-443
[8]   Study on the Wellbore Flow for Carbon Dioxide Fracturing [J].
Bai, Jianwen ;
Xiao, Caiyun ;
Mu, Chunguo ;
Zheng, Lihui .
APPLIED SCIENCES-BASEL, 2019, 9 (09)
[9]  
Baker R. W., 2024, MEMBRANE TECHNOLOGY
[10]   Parametric Study of Carbon Dioxide Sequestration in Deep Saline Aquifers [J].
Basbug, B. ;
Gumrah, F. .
ENERGY SOURCES PART A-RECOVERY UTILIZATION AND ENVIRONMENTAL EFFECTS, 2009, 31 (03) :255-272
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