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Polymer enhanced foam for improving oil recovery in oil-wet carbonate reservoirs: A proof of concept and insights into the polymer-surfactant interactions

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Listed:
  • Wu, Qianhui
  • Ding, Lei
  • Zhang, Lei
  • Ge, Jijiang
  • Rahman, Mohammad Azizur
  • Economou, Ioannis G.
  • Guérillot, Dominique

Abstract

The feasibility of polymer enhanced foam (PEF) for enhanced oil recovery (EOR) in a strongly oil-wet and heterogeneous carbonate reservoir with medium temperature (131 °F) and high salinity was experimentally investigated. An Alkyl Poly-Glycoside (APG) surfactant was firstly selected because of its prominent foam behavior in oil-wet carbonates. The effect of polymer type, flow rate and brine composition on foam strength and stability were systematically investigated, aiming to understand how the interactions between polymer and surfactant could influence the transport behavior and performance of PEF in porous media. It was found that, with either an associative polymer or a nonionic polymer (PAM), the foam strength and foam stability could be largely enhanced, both in the absence and in the presence of oil. A significant improvement in oil recovery efficiency was obtained for PEF with an associative polymer, approximately 5% higher than that achieved for conventional polymer-free foam. The PEF behavior is intimately dependent on the interactions between the polymer and the surfactant. It is hypothesized that the increased foam strength by adding polymer at oil-wet conditions may be resulted from an increase of aqueous phase viscosity, the wettability alteration from oil-wet to less oil-wet, the generation of a highly viscoelastic film and (or) the creation of a more stable pseudo-emulsion film. This study provides a robust approach for PEF mobility control and reservoir conformance in oil-wet and heterogeneous carbonate reservoir under analogous reservoir conditions.

Suggested Citation

  • Wu, Qianhui & Ding, Lei & Zhang, Lei & Ge, Jijiang & Rahman, Mohammad Azizur & Economou, Ioannis G. & Guérillot, Dominique, 2023. "Polymer enhanced foam for improving oil recovery in oil-wet carbonate reservoirs: A proof of concept and insights into the polymer-surfactant interactions," Energy, Elsevier, vol. 264(C).
    • Handle: RePEc:eee:energy:v:264:y:2023:i:c:s0360544222031425
    DOI: 10.1016/j.energy.2022.126256
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    References listed on IDEAS

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    1. Tang, Jinyu & Vincent-Bonnieu, Sebastien & Rossen, William R., 2019. "CT coreflood study of foam flow for enhanced oil recovery: The effect of oil type and saturation," Energy, Elsevier, vol. 188(C).
    2. Hanamertani, Alvinda Sri & Ahmed, Shehzad, 2021. "Probing the role of associative polymer on scCO2-Foam strength and rheology enhancement in bulk and porous media for improving oil displacement efficiency," Energy, Elsevier, vol. 228(C).
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    Cited by:

    1. Siavashi, Javad & Mahdaviara, Mehdi & Shojaei, Mohammad Javad & Sharifi, Mohammad & Blunt, Martin J., 2024. "Segmentation of two-phase flow X-ray tomography images to determine contact angle using deep autoencoders," Energy, Elsevier, vol. 288(C).
    2. Chen, Zherui & Zhang, Yue & Sun, Jingyue & Tian, Yuxuan & Liu, Weiguo & Chen, Cong & Dai, Sining & Song, Yongchen, 2024. "The influence of cyclodextrin on hydrophobicity of pipeline and asphalt distribution: A green and efficient corrosion inhibitor," Energy, Elsevier, vol. 297(C).
    3. Wu, Qianhui & Ding, Lei & Zhao, Lun & Alhashboul, Almohannad A. & Almajid, Muhammad M. & Patil, Pramod & Zhao, Wenqi & Fan, Zifei, 2024. "CO2 soluble surfactants for carbon storage in carbonate saline aquifers with achievable injectivity: Implications from the continuous CO2 injection study," Energy, Elsevier, vol. 290(C).
    4. Ahmadi, Ali & Manshad, Abbas Khaksar & Akbari, Majid & Ali, Jagar A. & Jaf, Pshtiwan T. & Abdulrahman, Ahmed Fattah, 2024. "Nano-stabilized foam for enhanced oil recovery using green nanocomposites and anionic surfactants: An experimental study," Energy, Elsevier, vol. 290(C).

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