Abstract
Seawater has been widely used as an injection fluid for maintaining pressure in sandstone and carbonate reservoirs. In the literature related to EOR research, it was noted that diluted seawater (low-salinity water) can highly improve recovery due to the specific ions (such as Ca2+, Mg2+, and SO42−). Such conclusions lead to the application of “Smart Water” in which changing the ion composition of injected water alters wettability and enhances recovery. Although many theories have been established to explain the mechanism of this phenomenon, almost all of them are limited to sandstone rocks, and the impact of smart water on carbonated reservoirs has rarely been explored. This study experimentally investigates the impact of the injection of high- and low-salinity and smart water on the change of wettability and recovery improvement in an Iranian South oil reservoir. Two different sets of experimental work were conducted. In the first set of experiments, the effect of formation water, diluted formation water (from 223,969 to 5000 ppm and 2000 ppm), seawater (initially 51,400 ppm), and diluted seawater on wettability alteration is investigated by monitoring the contact angle and relative permeability variation. The results showed that dilution of seawater to 2000 ppm has the most impact on wettability alteration. The relative permeability changed, and the contact angle decreased by a significant value of 100°, and recovery increased by about 71%. In the second set, the effect of ion change on the result was studied. For this purpose, the sulfate ion of diluted seawater (2000 ppm) is substituted by phosphate ion (H2PO4−). The results show the wettability alteration similar to the sulfate one. This study sheds light on the possible mechanism of wettability alteration in the carbonate reservoir, and the result will help to design a better low-salinity injection scenario.
Highlights
Oil and gas still play a critical and fundamental role in securing world energy supplies (Sun et al 2020)
Amirian et al (2017) results showed that the wettability alteration was observed after injecting low-salinity water (LSW) into oil-wet systems and the wettability status shifted toward more water-wet
They showed that the wettability alteration decreases by increasing the calcium ion concentration which is opposite in lower total dissolved solids (TDS) (5000–20,000 ppm) cases
Summary
Oil and gas still play a critical and fundamental role in securing world energy supplies (Sun et al 2020). Hosseini et al (2018) experimentally investigated the EOR using low-salinity water and nanoparticles in a carbonate reservoir They concluded that the value of IFT decreases as the concentration of magnesium is increased and the effect of calcium ion concentration change is negligible. In high TDS, they observed a negligible change in IFT They showed that (high TDS, i.e., 40,000 ppm) the wettability alteration decreases by increasing the calcium ion concentration which is opposite in lower TDS (5000–20,000 ppm) cases. The effect of Ca2+ ions on LSW injection was investigated by AlSarihi et al (2019) They performed laboratory core floods with a variation in the sodium and calcium concentrations in the injected brine. This work is a case study focusing on one of the Iranian oil fields to investigate the impact of salinity and composition of injected water on the EOR recovery. Elimination of sulfate ion and substitution with phosphate ion was the step to challenge the mechanism
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