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Thermal and capillary effects on the caprock mechanical stability at In Salah, Algeria

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  • Víctor Vilarrasa
  • Jonny Rutqvist
  • Antonio Pio Rinaldi

Abstract

Thermo‐mechanical effects are important in geologic carbon storage because CO 2 will generally reach the storage formation colder than the rock, inducing thermal stresses. Capillary functions, i.e., retention and relative permeability curves, control the CO 2 plume shape, which may affect overpressure and thus, caprock stability. To analyze these thermal and capillary effects, we numerically solve non‐isothermal injection of CO 2 in deformable porous media considering the In Salah, Algeria, CO 2 storage site. We find that changes in the capillary functions have a negligible effect on overpressure and thus, caprock stability is not affected by capillary effects. However, we show that for the strike slip stress regime prevalent at In Salah, stability decreases in the lowest parts of the caprock during injection due to cooling‐induced thermal stresses. Simulations show that shear slip along pre‐existing fractures may take place in the cooled region, whereas tensile failure is less likely to occur. Indeed, only the injection zone and the lowest tens of meters of the 900‐m‐thick caprock at In Salah might be affected by cooling effects, which would thus not jeopardize the overall sealing capacity of the caprock. Furthermore, faults are likely to remain stable far away from the injection well because outside the cooled region the injection‐induced stress changes are not sufficient to exceed the anticipated shear strength of minor faults. Nevertheless, we recommend that thermal effects should be considered in the site characterization and injection design of future CO 2 injection sites to assess caprock stability and guarantee a permanent CO 2 storage.

Suggested Citation

  • Víctor Vilarrasa & Jonny Rutqvist & Antonio Pio Rinaldi, 2015. "Thermal and capillary effects on the caprock mechanical stability at In Salah, Algeria," Greenhouse Gases: Science and Technology, Blackwell Publishing, vol. 5(4), pages 449-461, August.
  • Handle: RePEc:wly:greenh:v:5:y:2015:i:4:p:449-461
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    File URL: http://hdl.handle.net/10.1002/ghg.1486
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    References listed on IDEAS

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    1. Jie Bao & Zhangshuan Hou & Yilin Fang & Huiying Ren & Guang Lin, 2013. "Uncertainty quantification for evaluating impacts of caprock and reservoir properties on pressure buildup and ground surface displacement during geological CO 2 sequestration," Greenhouse Gases: Science and Technology, Blackwell Publishing, vol. 3(5), pages 338-358, October.
    2. Antonio P. Rinaldi & Pierre Jeanne & Jonny Rutqvist & Frédéric Cappa & Yves Guglielmi, 2014. "Effects of fault‐zone architecture on earthquake magnitude and gas leakage related to CO 2 injection in a multi‐layered sedimentary system," Greenhouse Gases: Science and Technology, Blackwell Publishing, vol. 4(1), pages 99-120, February.
    3. Streit, Jürgen E & Hillis, Richard R, 2004. "Estimating fault stability and sustainable fluid pressures for underground storage of CO2 in porous rock," Energy, Elsevier, vol. 29(9), pages 1445-1456.
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    Cited by:

    1. Samin Raziperchikolaee & Vivek Singh & Mark Kelley, 2020. "The effect of Biot coefficient and elastic moduli stress–pore pressure dependency on poroelastic response to fluid injection: laboratory experiments and geomechanical modeling," Greenhouse Gases: Science and Technology, Blackwell Publishing, vol. 10(5), pages 980-998, October.
    2. Arshad Raza & Raoof Gholami & Reza Rezaee & Vamegh Rasouli & Amanat Ali Bhatti & Chua Han Bing, 2018. "Suitability of depleted gas reservoirs for geological CO2 storage: A simulation study," Greenhouse Gases: Science and Technology, Blackwell Publishing, vol. 8(5), pages 876-897, October.
    3. Masoud Ahmadinia & Seyed M. Shariatipour, 2021. "A study on the impact of storage boundary and caprock morphology on carbon sequestration in saline aquifers," Greenhouse Gases: Science and Technology, Blackwell Publishing, vol. 11(1), pages 183-205, February.

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