A recrosslinkable CO-resistant branched preformed particle gel (CO-BRPPG) was developed for controlling CO injection conformance, particularly in reservoirs with super-permeable channels. Previous work focused on a millimeter-sized CO-BRPPG in open fractures, but its performance in high-permeability channels with pore throat networks remained unexplored. This study used a sandpack model to evaluate a micro-sized CO-BRPPG under varying conditions of salinity, gel concentration, and pH. At ambient conditions, the equilibrium swelling ratio (ESR) of the gel reached 76 times its original size. This ratio decreased with increasing salinity but remained stable at low pH values, demonstrating the gel's resilience in acidic environments. Rheological tests revealed shear-thinning behavior, with gel strength improving as salinity increased (the storage modulus rose from 113 Pa in 1% NaCl to 145 Pa in 10% NaCl). Injectivity tests showed that lower gel concentrations reduced the injection pressure, offering flexibility in deep injection treatments. Gels with higher swelling ratios had lower injection pressures due to increased strength and reduced deformability. The gel maintained stable plugging performance during two water-alternating-CO cycles, but a decline was observed in the third cycle. It also demonstrated a high CO breakthrough pressure of 177 psi in high salinity conditions (10% NaCl). The permeability reduction for water and CO was influenced by gel concentration and salinity, with higher salinity increasing the permeability reduction and higher gel concentrations decreasing it. These findings underscore the effectiveness of the CO-BRPPG in improving CO sweep efficiency and managing CO sequestration in reservoirs with high permeability.

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http://dx.doi.org/10.3390/gels10120765DOI Listing

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