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Citation:
 Kailong Feng,Weilin Zhu,Kai Zhong,et al.Carbon Storage Dynamics in Lower Shimentan Formation of the Qiantang Sag, East China Sea Shelf Basin: Stratigraphy, Reservoir-Cap Analysis, and Source-Sink Compatibility[J].Journal of Marine Science and Application,2024,(3):565-574.[doi:10.1007/s11804-024-00562-8]
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Carbon Storage Dynamics in Lower Shimentan Formation of the Qiantang Sag, East China Sea Shelf Basin: Stratigraphy, Reservoir-Cap Analysis, and Source-Sink Compatibility

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Title:
Carbon Storage Dynamics in Lower Shimentan Formation of the Qiantang Sag, East China Sea Shelf Basin: Stratigraphy, Reservoir-Cap Analysis, and Source-Sink Compatibility
Author(s):
Kailong Feng1234 Weilin Zhu13 Kai Zhong14 Qiang Fu14 Weizhen Chen2 Zengyuan Zhou14 Guanyu Zhang14 Ji Teng14 Zhe Yang5
Affilations:
Author(s):
Kailong Feng1234 Weilin Zhu13 Kai Zhong14 Qiang Fu14 Weizhen Chen2 Zengyuan Zhou14 Guanyu Zhang14 Ji Teng14 Zhe Yang5
1. State Key Laboratory of Marine Geology, Tongji University, Shanghai, 200092, China;
2. Key Laboratory of Deep-time Geography and Environment Reconstruction and Applications of Ministry of Natural Resources, Chengdu University of Technology, Chengdu, 610059, China;
3. Naval Architecture and Shipping College, Guangdong Ocean University, Zhanjiang, 524088, China;
4. Center for Marine Resources, Tongji University, Shanghai, 200092, China;
5. School of Management, Guangdong Ocean University, Zhanjiang, 524088, China
Keywords:
Carbon storage|Qiantang Sag|Reservoir-cap|Source-sink dynamics|East China Sea Shelf Basin
分类号:
-
DOI:
10.1007/s11804-024-00562-8
Abstract:
Excessive carbon emissions have resulted in the greenhouse effect, causing considerable global climate change. Marine carbon storage has emerged as a crucial approach to addressing climate change. The Qiantang Sag (QTS) in the East China Sea Shelf Basin, characterized by its extensive area, thick sedimentary strata, and optimal depth, presents distinct geological advantages for carbon dioxide (CO2) storage. Focusing on the lower section of the Shimentan Formation in the Upper Cretaceous of the QTS, this study integrates seismic interpretation and drilling data with core and thin-section analysis. We reveal the vertical variation characteristics of the strata by providing a detailed stratigraphic description. We use petrophysical data to reveal the development characteristics of high-quality carbon-storage layers and favorable reservoir-caprock combinations, thereby evaluating the geological conditions for CO2 storage in various stratigraphic sections. We identify Layer B of the lower Shimentan Formation as the most advantageous stratum for marine CO2 storage. Furthermore, we analyze the carbon emission trends in the adjacent Yangtze River Delta region. Considering the characteristics of the source and sink areas, we suggest a strong correlation between the carbon emission sources of the Yangtze River Delta and the CO2 storage area of the QTS, making the latter a priority area for conducting experiments on marine CO2 storage.

References:

Al-Masgari AS, Elsaadany MM, Latiff AHA (2021) A guideline for seismic sequence stratigraphy interpretation. Journal of Engineering and Applied Sciences 16(2): 165-183
Aminu M, Nabavi S, Rochelle C, Manovi? V (2017) A review of developments in carbon dioxide storage. Applied Energy 208: 1389-1419. https://doi.org/10.1016/J.APENERGY.2017.09.015
Bachu S (2000) Sequestration of CO2 in geological media: Criteria and approach for site selection in response to climate change. Energy Conversion & Management 41(9): 953-970. DOI: 10.1016/S0196-8904(99)00149-1
Bian Xiangshan (2011) China’s low-carbon economy restructuring from the view of international climate negotiations. Journal of Political Science and Law (3): 19-25
Cai BF, Li Q, Zhang X (2021) China status of CO2 capture, utilization and storage (CCUS) 2021: China CCUS pathway. Technical Report, Chinese Academy of Environmental Planning, Beijing (in Chinese)
Carneiro JF, Boavida D, Silva R (2011) First assessment of sources and sinks for carbon capture and geological storage in Portugal. International Journal of Greenhouse Gas Control 5(3): 538-548. DOI: 10.1016/j.ijggc.2010.08.002
Chai QM, Xu HQ (2014) Modeling an emissions peak in china around 2030: synergies or trade-offs between economy, energy and climate security. Advances in Climate Change Research (5): 169-180
Chen Jianwen, Li Gang, Chen Guowei (2003) Petroleum prospects of Mesozoic and Paleocene in the western depression of the East China Sea shelf basin. Marine Geology Letters 19(8): 17-19. (in Chinese)
Chen Jianwen, Sun Jing, Yang Changqing, Yang Chuansheng, Xie Mingying, Sun Xiaona, Wang Jianqiang, Yuan Yong, Cao Ke (2023) Geological conditions and prospects of carbon dioxide storage in the Cenozoic saline water layers of the East China Sea Shelf Basin. Marine Geology Frontiers 39(10): 14-21. (in Chinese)
Cook J, Oreskes N, Doran PT, Anderegg WRL, Rice K (2016) Consensus on consensus: a synthesis of consensus estimates on human-caused global warming. Environmental Research Letters 11: 048002
Dashtian H, Jafari GR, Lai ZK, Masihi M, Sahimi M (2011) Analysis of cross correlations between well logs of hydrocarbon reservoirs. Transport in Porous Media 90: 445-464. https://doi.org/10.1007/S11242-011-9794-X
Ding W, Li J, Wu Z, Li S, Lin X (2017) Late Mesozoic transition from Andean-type to Western Pacific-type of the East China continental margin—is the East China Sea basement an allochthonous terrain. Geological Journal 53(2): 1994-2002. https://doi.org/10.1002/gj.3029
Faccenna C, Davy P, Brun J, Funiciello R, Giardini D, Mattei M, Nalpas T (1996) The dynamics of back-arc extension: An experimental approach to the opening of the Tyrrhenian Sea. Geophysical Journal International 126(3): 781-795
Fan QY, Yang S, Hu X (2020) Temporal and spatial characteristics and interaction process of urbanization coordination in the Yangtze River Delta region from the perspective of coupling. Geographical Research 39(2): 289-302. (in Chinese)
Feng Jinming, Fu Congbin (2007) Inter-comparison of long-term simulations of temperature and precipitation over China by different regional climate models. Chinese Journal of Atmospheric Sciences 31(5): 805-814. (in Chinese)
Feng K, Zhu W, Fu X, Zhong K, Zhao S, Chen W, Zhou Z, Hu L (2024) Study of cretaceous provenance tracing and sedimentary patterns in the Western Qiantang Sag, East China Sea Shelf Basin. Journal of Marine Science and Engineering 12(3): 474. https://doi.org/10.3390/jmse12030474
Fleming JR (1998) Historical perspectives on climate change. Oxford University Press, New York, 55-64
Freudenburg WR, Muselli V (2013) Reexamining climate change debates. American Behavioral Scientist 57: 777-795
Fu X, Ding W, Dadd K, Li J, Zhu W, Feng K, Geng J, Xu X (2022) An exotic origin of the eastern East China Sea basement before ~150 Ma. Science Bulletin 67(19): 1939-1942
Gao Xuejie, Zhao Zongci, Ding Yihui, Huang Ronghui, Filippo G (2001) Climate change due to greenhouse effects in China as simulated by a regional climate model. Advances in Atmospheric Sciences 18: 1224-1230. https://doi.org/10.1007/s00376-001-0036-y
Grana D, Verma S, Pafeng J, Lang X, Sharma H, Wu W, Mclaughlin F, Campbell E, Ng K, Alvarado V (2017) A rock physics and seismic reservoir characterization study of the Rock Springs Uplift, a carbon dioxide sequestration site in Southwestern Wyoming. International Journal of Greenhouse Gas Control 63: 296-309. DOI: 10.1016/j.ijggc.2017.06.004
Group CCJ (2015) The global status of CCS 2014. Carbon Capture Journal 43: 6-8
Hall R (2002) Cenozoic geological and plate tectonic evolution of SE Asia and the SW Pacific: computer-based reconstructions model and animations. Journal of Asian Earth Sciences 20(4): 353-431
Haszeldine RS, Flude S, Johnson G, Scott V (2018) Negative emissions technologies and carbon capture and storage to achieve the Paris Agreement commitments. Mathematical, Physical and Engineering Sciences 376(2119): 20160447. DOI: 10.1098/rsta.2016.044776(2119)
Holloway S (1997) An overview of the underground disposal of carbon dioxide. Energy Conversion and Management 38(S1): 193-198
Hu Shuyong, Guo Xueqiang, Zhang Jiayi, Chen Shiji (2023) CCUS improves oil and gas recovery technology under the vision of carbon neutral and carbon peak. World Petroleum Industry 31(1): 81-91. (in Chinese)
Huo Chuanlin, Li Guanbao, Pan Jianming, Zhang Yonghua, Yang Zhengxian, Zhang Zhendong, Guan Daoming (2014) Feasibility analysis of carbon dioxide sequestration under the seabed of China offshore and the corresponding countermeasures. Marine Environmental Science 33(1): 139-143. (in Chinese)
IPCC (2018) An IPCC Special Report on the impacts of global warming of 1.5 ℃ above pre-Industrial levels and related global greenhouse gas emission pathways, in the context of strengthening the global response to the threat of climate change, sustainable development. World Meteorological Organization, Geneva, Switzerland
IPCC (2022) Mitigation of climate change. IPCC Working Group III, Geneva, Switzerland
Jang LL, Song YC, Zhao YC (2010) Research progress on carbon dioxide storage and resource utilization. Energy and Environment (3): 71-72
Jiang Yiming, He Xingjian, Zhang Shaoliang (2016) The Characteristics of “Inverse-transform” Tectonic Migration Evolution of the East China Sea Shelf Basin—By Taking the Marginal Structure of Xihu Sag for Example. Journal of Yangtze University (Natural Science Edition) 13(26): 1-8. (in Chinese)
Jiang Yiming, Zou Wei, Liu Jinshui, Tang Xianjun, He Xinjian (2020) Genetic mechanism of inversion anticline structure at the end of Miocene in Xihu Sag, East China Sea: a new understanding of basement structure difference. Earth Science 45(3): 968-979. (in Chinese)
Ke Xing, Chen Jianwen, Gong Jianming, Yang Chuansheng, Yang Changqing, Xie Mingying, Wang Jianqiang, Yuan Yong (2023) Suitability evaluation of CO2 sequestration in the East China Sea Shelf Basin. Marine Geology Frontiers 39(7): 1-12. (in Chinese)
Lee GH, Kim B, Shin KS (2006) Geologic evolution and aspects of the petroleum geology of the northern East China Sea shelf basin. AAPG Bulletin 90(2): 237-260
Li Bo (2011) Effective way to address climate change: carbon dioxide capture and storage. China Population, Resources and Environment 21(3): 517-520. (in Chinese)
Li Jianbao, Chen Hongmei, Zhang Caili, Chuai Xiaowei, Zhou Yan (2023a) Spatiotemporal evolution characteristics of carbon sources and carbon sinks and carbon balance zoning in the Yangtze River Delta Region. Environmental Science. (in Chinese). DOI: 10.13227/j.hjkx.202308149
Li Jianghui, Yu Fengling, Niu Xiongwei, Zhou Tian, Zhang Yunxiu, Li Wenling (2023b) Advances and future development of monitoring technologies for marine carbon storage. Advances in Earth Science 38(11): 1121-1144. (in Chinese)
Li Sanzhong, Yu Shan, Zhao Shujuan, Liu Xin, Gong Shuyun, Suo Yanhui, Dai Liming, Ma Yun, Xu Liqing, Cao Xianzhi, Wang Pengcheng, Sun Wenjun, Yang Zhao, Zhu Junjiang (2013) Tectonic transition and plate reconstructions of the East Asian Continental Margin. Marine Geology & Quaternary Geology 33(3): 65-94. (in Chinese)
Liang Jie, Chen Jianwen, Zhang Yinguo, Yang Yanqiu, Li Gang, Li Qing, Dong Gang, Yang Chuansheng (2016) Type and origin of Mesozoic reservoirs in western depression zone of East China Sea shelf basin. Marine Geology & Quaternary Geology 36(5): 131-138. (in Chinese)
Lin AT, Watts AB, Hesselbo SP (2003) Cenozoic stratigraphy and subsidence history of the South China Sea margin in the Taiwan region. Basin Research 15(4): 453-478
Mamora DD, Seo JG (2002) Enhanced gas recovery by carbon dioxide sequestration in depleted gas reservoirs. SPE Annual Technical Conference and Exhibition, San Antonio, SPE-77347-MS. https://doi.org/10.2118/77347-MS
Manabe S, Wetherald RT (1967) Thermal equilibrium of the atmosphere with a given distribution of relative humidity. Journal of Atmospheric Sciences 24(3): 241-259
Manabe S, Wetherald RT (1975) The effects of doubling the CO2 concentration on the climate of a general circulation model. Journal of the Atmospheric Sciences 32(1): 3-15
Mandal S, Islam Md. S, Biswas Md. HA, Islam S (2021) Modeling with strategies to control the adverse effects of global warming on marine ecosystems. Modeling Earth Systems and Environment 8(3): 3073-3088
Metz B (2005) IPCC special report on carbon dioxide capture and storage. Cambridge University Press, Cambridge
Mou NX, Wang CY, Yang TF, Zhang LX (2020) Evaluation of development potential of ports in the Yangtze River Delta using FAHP-entropy model. Sustainability 12(2): 493
Ning Fulong, Liu Li, Li Shi, Zhang Ke, Jiang Guosheng, Wu Nengyou, Sun Changyu, Chen Guangjin (2013) Well logging assessment of natural gas hydrate reservoirs and relevant influential factors. Acta Petrolei Sinica 34(3): 591-606 (in Chinese). DOI: 10.7623/syxb201303026
Oldenburg CM, Pruess K, Benson SM (2000) Process modeling of CO2 injection into natural gas reservoirs for carbon sequestration and enhanced gas recovery. Energy & Fuels 15(2): 293-298
Orr FM (2004) Storage of carbon dioxide in geologic formations. Journal of Petroleum Technology 56(9): 90-97
Peckham J (2014) Global CCS institute: EU falling behind on carbon capture and storage. Gasification News 17(4): 13-14
Plass GN (1956) The influence of the 15μ carbon-dioxide band on the atmospheric infra-red cooling rate. Quarterly Journal of the Royal Meteorological Society 82(353): 310-324
Rasool MH, Ahmad M, Ayoub M (2023) Selecting geological formations for CO2 Storage: A comparative rating system. Sustainability 15(8): 6599. https://doi.org/10.3390/su15086599
Shepardson D, Niyogi D, Choi S, Charusombat U (2011) Students’ conceptions about the greenhouse effect, global warming, and climate change. Climatic Change 104(3-4): 481-507
Shukla R, Ranjith P, Choi S, Haque A (2011) Study of caprock integrity in geosequestration of carbon dioxide. International Journal of Geomechanics 11(4): 294-301. https://doi.org/10.1061/(ASCE)GM.1943-5622.0000015
Sim SSK, Turtata AT, Singhal AK, Hawkins BF (2008) Enhanced gas recovery: factors affecting gas-gas displacement efficiency. Journal of Canadian Petroleum Technology 48(8): 49-55
Sun Liang, Chen Wenying (2022) Impact of carbon tax on CCUS source-sink matching: Finding from the improved ChinaCCS DSS. Journal of Cleaner Production 333: 130027. DOI: 10.1016/j.jclepro.2021.130027
Sun Lili, Liu Qiang, Chen Hongju, Yu Hang, Li Ling, Li Lintao, Li Yanzun, Adenutsi CD (2024) Source-sink matching and cost analysis of offshore carbon capture, utilization, and storage in China. Energy 291: 130137. DOI: 10.1016/j.energy.2023.130137
Sun Tengmin, Liu Shiqi, Wang Tao (2021) Research advances on evaluation of CO2 geological storage potential in China. Coal Science and Technology 49(11): 10-20. (in Chinese)
Suo YH, Li SZ, Zhao SJ, Somerville ID, Yu S, Dai LM, Xu LQ, Cao XZ, Wang PC (2015) Continental margin basins in East Asia: tectonic implications of the Meso-Cenozoic East China Sea pullapart basins. Geological Journal 50(2): 139-156
Tang Xianjun, Jiang Yiming, Zhang Shaoliang (2018) Tectonic environment of volcanic rocks in the Pinghu slope belt and its petroleum geological significance. Geological Science and Technology Information 37(1): 27-36. (in Chinese)
Van Der Burgt MJ, Cantle J, Boutkan VK (1992) Carbon dioxide disposal from coal-based IGCC’s in depleted gas fields. Energy Conversion and Management 33(5-8): 603-610
Wang KL, Chung SL, Lo YM, Ching H (2012) Age and geochemical characteristics of Paleogene basalts drilled from western Taiwan: Records of initial rifting at the southeastern Eurasian continental margin. Lithos 155: 426-441
Wang W, Shao Q, Yang T, Yu Z, Xing W, Zhao C (2014) Multimodel ensemble projections of future climate extreme changes in the Haihe River Basin, China. Theoretical and Applied Climatology 118(3): 405-417
Xia Qingqing (2012) Cenozoic sedimentary system and Lithofacies Paleo-geography in the East China Sea shelf basin. PhD thesis, CUGB, Beijing. (in Chinese)
Xie Zhenhua, Kerry J (2023) The Sunnylands Statement on Enhancing Cooperation to Address the Climate Crisis. Ministry of Ecological Environment of the People’s Republic of China
Xu C, Zhang L, Shi H, Brix M. R, Huhma H, Chen L, Zhang M, Zhou Z (2017) Tracing an early Jurassic magmatic arc from South to East China Seas. Tectonics 36(3): 466-492
Xu Changhai, Deng Yuling, Barnes CG, Shi Hesheng, Pascal C, Li Yuanyuan, Gao Shunli, Jiang Donghui, Xie Jianlei, Ma Changqian (2023) Offshore-onshore tectonomagmatic correlations: Towards a Late Mesozoic non-Andean-type Cathaysian continental margin. Earth-Science Reviews 240: 104382
Yang Changqing, Yang Chuangsheng, Li Gang, Liao Jing, Gong Jianming (2013) Mesozoic Tectonic evolution and Prototype Basin Characters in the Southern East China Sea Shelf Basin. Marine Geology Quaternary Geology 32(3): 105-111. (in Chinese)
Yang Changqing, Yang Chuansheng, Yang Yanqiu, Sun Jing, Wang Jianqiang, Xiao Guolin, Wang Jiao, Yuan Yong (2022) Deep stratigraphic framework and hydrocarbon resource potential in the Southern East China Sea Shelf Basin. Marine Geology & Quaternary Geology 42(5): 158-171. (in Chinese)
Zhang Tian, Zhang Jianpei, Zhang Shaoliang, Yu Yifan, Tang Xianjun (2015) Tectonic characteristics and evolution of the west depression belt of the East China Sea Shelf Basin. Marine Geology Frontiers 31(5): 1-7. (in Chinese)
Zhang Zhendong, Yang Zhengxian, Zhang Yonghua, Qu Jianfeng, Yan Jishun, Huo Chanlin (2012) Study progress CO2 capture and storage and development prospect in China. Marine Environmental Science 31(3): 456-459. (in Chinese)
Zhao Lei (2019) Study on Paleogene Sedimentary System of East China Sea shelf basin. PhD thesis, China University of Geosciences, Beijing. (in Chinese)
Zhao Yongqiang (2005) Analysis of hydrocarbon-bearing conditions in the Mesozoic of the East China Sea Shelf Basin. PhD thesis, China University of Geosciences, Beijing. (in Chinese)
Zhong Kai, Wang Xuefeng, Zhang Tian, Zhang Minqiang, Fu Xiaowei, Guo Min (2019) Distribution of residual Mesozoic basins and their exploration potential in the western depression zone of East China Sea Shelf Basin. Marine Geology & Quaternary Geology 39(6): 41-51. (in Chinese)
Zhong Kai, Zhu Weilin, Gao Shunli, Fu Xiaowei (2018) Key geological questions of the formation and evolution and hydrocarbon accumulation of the East China Sea Shelf Basin. Earth Science 43(10): 3485-3497. (in Chinese)
Zhou Hongmei (2023) Analysis of the economic operation and situation of ports in the Yangtze River Delta Region in the First Half of 2023. Shipping Management 45(9): 1-4+13. (in Chinese)
Zhu Weilin, Xu Xuhui, Wang Bin, Cao Qian, Chen Chunfeng, Gao Shunli, Feng Kailong, Fu Xiaowei (2022a) Late Mesozoic continental arc migration in southern China and its effects on the evolution of offshore forearc basins. Earth Science Frontiers 29(6): 277-290. (in Chinese)
Zhu Weilin, Zhong Kai, Fu Xiaowei, Chen Chunfeng, Zhang Minqiang, Gao Shunli (2019) The formation and evolution of the East China Sea Shelf Basin: A new view. Earth-Science Reviews 190: 89-111
Zhu WL, Mi J (2010) Atlas of oil and Gas Basins, China Sea. Petroleum Industry Press, Beijing. (in Chinese)
Zhu Yiheng, Yang Shan, Yin Shanggang, Cai Anning (2022b) Process of change of the spatial polarization of population urbanization in the Yangtze River Delta Region. Progress in Geography 41(12): 2218-2230. (in Chinese)

Memo

Memo:
Received date:2024-1-14;Accepted date:2024-3-22。
Foundation item:Key Laboratory of Deep-time Geography and Environment Reconstruction and Applications of Ministry of Natural Resources, Chengdu University of Technology: DGERA20231110.
Corresponding author:Kai Zhong,E-mail:zhongkai@tongji.edu.cn
Last Update: 2024-09-29