Improvements on modelling wettability alteration by Engineered water injection: Surface complexation at the oil/brine/rock contact

“…Please refer to an extensive review of laboratory work and proposed mechanisms [2][3][4][5]. Finally, we propose our framework method and verify it using the wettability alteration model proposed by Sanaei et al [6] and Bordeaux-Rego et al [7] to predict oil recovery. We use laboratory data from Lima [8] from Brazilian Pre-Salt Carbonate experiments as an example that has never been modeled previously, as far as the authors know.…”

“…In summary, the approach applies surface complexation modeling to predict surface potentials, required to calculate the disjoining force between two parallel surfaces (rock and oil) separated by an aqueous phase using Extended-DLVO theory. Bordeaux-Rego et al [7] proposed improvements to the model suggested by Sanaei for a better wettability prediction and reported a review of main surface chemistry and interfacial phenomena aspects related to wettability. The authors succeeded in predicting dozens of contact angles using ZP to calibrate surface complexation reactions.…”

“…We apply the model proposed by Sanaei et al [6] and Bordeaux-Rego et al [7]. The method consists of first computing interfacial forces between oil and rock surfaces that are separated by an aqueous phase (the disjoining pressure).…”

“…The model's limitations reside in computing contact angle for oil-wet regions (θ > 120) and having a large number of parameters. In order to lessen this issue, we keep all parameters used in this model similar to as proposed by Sanaei et al [6] and Bordeaux-Rego et al [7] shown in Appendix A. Wettability alteration by calcite dissolution as a possible mechanism is not considered since the mineral assemblage is stable for all mixtures (Figure 1).…”

“…We use the same brine, oil, and mineralogy composition for surface potential and contact angle estimation for all simulations. However, since Lima [8] did not measure zeta-potential for rock and oil, we use the SCM equilibrium constants and reactions proposed by Bordeaux-Rego et al [7] that matched of Al-Mahrouqi et al [28] zeta-potential data (Appendix B). The simulation equilibrium condition is the same as presented in the previous section.…”

Modeling Oil Recovery in Brazilian Carbonate Rock by Engineered Water Injection Using Numerical Simulation

“…Please refer to an extensive review of laboratory work and proposed mechanisms [2][3][4][5]. Finally, we propose our framework method and verify it using the wettability alteration model proposed by Sanaei et al [6] and Bordeaux-Rego et al [7] to predict oil recovery. We use laboratory data from Lima [8] from Brazilian Pre-Salt Carbonate experiments as an example that has never been modeled previously, as far as the authors know.…”

“…In summary, the approach applies surface complexation modeling to predict surface potentials, required to calculate the disjoining force between two parallel surfaces (rock and oil) separated by an aqueous phase using Extended-DLVO theory. Bordeaux-Rego et al [7] proposed improvements to the model suggested by Sanaei for a better wettability prediction and reported a review of main surface chemistry and interfacial phenomena aspects related to wettability. The authors succeeded in predicting dozens of contact angles using ZP to calibrate surface complexation reactions.…”

“…We apply the model proposed by Sanaei et al [6] and Bordeaux-Rego et al [7]. The method consists of first computing interfacial forces between oil and rock surfaces that are separated by an aqueous phase (the disjoining pressure).…”

“…The model's limitations reside in computing contact angle for oil-wet regions (θ > 120) and having a large number of parameters. In order to lessen this issue, we keep all parameters used in this model similar to as proposed by Sanaei et al [6] and Bordeaux-Rego et al [7] shown in Appendix A. Wettability alteration by calcite dissolution as a possible mechanism is not considered since the mineral assemblage is stable for all mixtures (Figure 1).…”

“…We use the same brine, oil, and mineralogy composition for surface potential and contact angle estimation for all simulations. However, since Lima [8] did not measure zeta-potential for rock and oil, we use the SCM equilibrium constants and reactions proposed by Bordeaux-Rego et al [7] that matched of Al-Mahrouqi et al [28] zeta-potential data (Appendix B). The simulation equilibrium condition is the same as presented in the previous section.…”

Modeling Oil Recovery in Brazilian Carbonate Rock by Engineered Water Injection Using Numerical Simulation

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