Molecules (Jun 2024)

Experimental Evaluation of Performance of a Low-Initial-Viscosity Gel Flooding System

  • Cheng Fu,
  • Bin Huang,
  • Wei Zhang,
  • Weisen Zhang,
  • Shibo He

DOI
https://doi.org/10.3390/molecules29133077
Journal volume & issue
Vol. 29, no. 13
p. 3077

Abstract

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In order to effectively adjust reservoir heterogeneity and further exploit the remaining oil, a new type of low-viscosity gel was prepared by adding a regulating agent, retarder, and reinforcing agent on the basis of a polymer + Cr3+ crosslinking system. The new gel has the advantages of low initial viscosity, a slow gel formation rate, and high strength after gel formation. The effectiveness of the gel was verified through three-layer core displacement experiments, and the injection scheme was optimized by changing the slug combination of the polymer and the gel. The results showed that the gel can effectively block the high-permeability layer and adjust reservoir heterogeneity. An injection of 0.1 pore volume (PV) low-initial-viscosity gel can improve oil recovery by 5.10%. By changing the slug combination of the gel and polymer, oil recovery was further increased by 3.12% when using an injection of 0.07 PV low-initial-viscosity gel +0.2 PV high-concentration polymer +0.05 PV low-initial-viscosity gel +0.5 PV high-concentration polymer.

Keywords