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Identification of early opportunities for CO2 sequestration—worldwide screening for CO2-EOR and CO2-ECBM projects

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  • Damen, Kay
  • Faaij, André
  • van Bergen, Frank
  • Gale, John
  • Lysen, Erik

Abstract

A study has been performed to identify potential worldwide opportunities for early application of CO2 sequestration. An early opportunity is defined as a high-purity CO2 point source, which can provide CO2 at low costs to oil or coal fields, where the CO2 is sequestered, and simultaneously enhance oil production (CO2-EOR) or coal bed methane production (CO2-ECBM). A Geographical Information System (GIS) was used to combine worldwide CO2 point sources and oil and coal fields. This resulted in 429 potential source–oil field and 79 source–coal field combinations. A multi-criteria analysis (MCA), in which technical and socio-economic criteria are taken into account, was applied to rank the source–reservoir combinations generated by the GIS exercise. Some of the most promising cases were considered in more detail to select four illustrative cases for further study: two potential enhanced oil recovery (EOR) projects and two potential enhanced coal bed methane recovery (ECBM) projects. Case 1 consists of a hydrogen plant in Saudi Arabia, which could sequester 0.26Mt/year CO2 in a depleted oil reservoir at a net saving of approximately 3€/t CO2. EOR case 2 is a hydrogen plant in California, USA, which has to be retrofitted in order to generate a pure CO2 stream. Approximately 0.28Mt CO2 could be stored annually. Mitigation costs have been estimated at 9–19€/t CO2, depending on the availability of steam for CO2 regeneration. In cases 3 and 4, circa 0.68 and 0.29Mt CO2 from ammonia plants in China and Canada could be sequestered annually in coal fields for ECBM production at approximately 5 and 6€/t CO2, respectively.

Suggested Citation

  • Damen, Kay & Faaij, André & van Bergen, Frank & Gale, John & Lysen, Erik, 2005. "Identification of early opportunities for CO2 sequestration—worldwide screening for CO2-EOR and CO2-ECBM projects," Energy, Elsevier, vol. 30(10), pages 1931-1952.
  • Handle: RePEc:eee:energy:v:30:y:2005:i:10:p:1931-1952
    DOI: 10.1016/j.energy.2004.10.002
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    Cited by:

    1. Hansson, Anders & Bryngelsson, Mårten, 2009. "Expert opinions on carbon dioxide capture and storage--A framing of uncertainties and possibilities," Energy Policy, Elsevier, vol. 37(6), pages 2273-2282, June.
    2. Gang Wang & Ke Wang & Yujing Jiang & Shugang Wang, 2018. "Reservoir Permeability Evolution during the Process of CO 2 -Enhanced Coalbed Methane Recovery," Energies, MDPI, vol. 11(11), pages 1-21, November.
    3. Nasvi, M.C.M. & Ranjith, P.G. & Sanjayan, J. & Haque, A., 2013. "Sub- and super-critical carbon dioxide permeability of wellbore materials under geological sequestration conditions: An experimental study," Energy, Elsevier, vol. 54(C), pages 231-239.
    4. Perera, M.S.A. & Ranjith, P.G. & Peter, M., 2011. "Effects of saturation medium and pressure on strength parameters of Latrobe Valley brown coal: Carbon dioxide, water and nitrogen saturations," Energy, Elsevier, vol. 36(12), pages 6941-6947.
    5. Sikandar Khan & Yehia Abel Khulief & Abdullatif Al-Shuhail, 2019. "Mitigating climate change via CO2 sequestration into Biyadh reservoir: geomechanical modeling and caprock integrity," Mitigation and Adaptation Strategies for Global Change, Springer, vol. 24(1), pages 23-52, January.
    6. Buttinelli, M. & Procesi, M. & Cantucci, B. & Quattrocchi, F. & Boschi, E., 2011. "The geo-database of caprock quality and deep saline aquifers distribution for geological storage of CO2 in Italy," Energy, Elsevier, vol. 36(5), pages 2968-2983.
    7. Perera, M.S.A. & Ranjith, P.G. & Choi, S.K. & Airey, D., 2011. "The effects of sub-critical and super-critical carbon dioxide adsorption-induced coal matrix swelling on the permeability of naturally fractured black coal," Energy, Elsevier, vol. 36(11), pages 6442-6450.
    8. Hu, Haixiang & Li, Xiaochun & Fang, Zhiming & Wei, Ning & Li, Qianshu, 2010. "Small-molecule gas sorption and diffusion in coal: Molecular simulation," Energy, Elsevier, vol. 35(7), pages 2939-2944.
    9. Wang, Kai & Gong, Haoran & Wang, Gongda & Yang, Xin & Xue, Haiteng & Du, Feng & Wang, Zhie, 2024. "N2 injection to enhance gas drainage in low-permeability coal seam: A field test and the application of deep learning algorithms," Energy, Elsevier, vol. 290(C).
    10. Jing Liu & Shike Li & Yang Wang, 2019. "Molecular Dynamics Simulation of Diffusion Behavior of CH 4 , CO 2 , and N 2 in Mid-Rank Coal Vitrinite," Energies, MDPI, vol. 12(19), pages 1-21, September.
    11. Chang, Yuan & Gao, Siqi & Ma, Qian & Wei, Ying & Li, Guoping, 2024. "Techno-economic analysis of carbon capture and utilization technologies and implications for China," Renewable and Sustainable Energy Reviews, Elsevier, vol. 199(C).
    12. Zhang, Xiaogang & Jin, Chao & Zhang, Decheng & Zhang, Chengpeng & Ranjith, P.G. & Yuan, Yong, 2023. "Carbon dioxide flow behaviour in macro-scale bituminous coal: An experimental determination of the influence of effective stress," Energy, Elsevier, vol. 268(C).
    13. Yang, Renfeng & Zhang, Jinqing & Chen, Han & Jiang, Ruizhong & Sun, Zhe & Rui, Zhenhua, 2019. "The injectivity variation prediction model for water flooding oilfields sustainable development," Energy, Elsevier, vol. 189(C).
    14. Zhang, Baoxin & Deng, Ze & Fu, Xuehai & Yu, Kun & Zeng, Fanhua (Bill), 2023. "An experimental study on the effects of acidization on coal permeability: Implications for the enhancement of coalbed methane production," Energy, Elsevier, vol. 280(C).
    15. Gunde, Akshay C. & Bera, Bijoyendra & Mitra, Sushanta K., 2010. "Investigation of water and CO2 (carbon dioxide) flooding using micro-CT (micro-computed tomography) images of Berea sandstone core using finite element simulations," Energy, Elsevier, vol. 35(12), pages 5209-5216.

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