TY - JOUR ID - 142430 TI - Experimental and theoretical investigation on low salinity brine injection timing in high water cut reservoirs for residual oil reduction and improved oil recovery JO - Journal of Chemistry Letters JA - JCHEMLETT LA - en SN - 2821-0123 AU - Maiki, Ernest Peter AD - China University of Petroleum Y1 - 2021 PY - 2021 VL - 2 IS - 2 SP - 73 EP - 81 KW - low salinity flooding. High water cut KW - Sandstone KW - Residual oil saturation KW - Fines migration DO - 10.22034/jchemlett.2021.319588.1042 N2 - In this research, low salinity water flooding was used to investigate its low salinity effect in a high water cut sandstone reservoir to improve oil recovery. The application was done to five different sandstone cores in high water cut levels of 70%, 75%, 80%, 85% and 90% by injecting low salinity brines of 2000mg/L – 20,000mg/L NaCl concentrations. These Cores chosen for research had 27%-28% porosity and 280mD – 300 mD permeability. Different brine injection rates were considered from 0.5cm3/s to 3cm3/s in each experiment. The results showed that low salinity flooding can be used to harness more oil from high water cut reservoirs. However, water should be injected earlier to avoid porous particle dislodge by continuous flooding. Brines of 200mg/L-5,000mg/L NaCl yielded the highest Oil recovery compared to higher salinities of 10,000mg/L-20,000mg/L. This was partly due to increased jamin effect created as fluids flow at high water cut levels. Three water cut rising model levels were discussed for better timing to avoid porous particle detachment from the sandstone matrix. Early injection timing was discussed to be critical for low salinity injection to avoid the mentioned Particles phenomena and hence high water cut levels and low oil recovery. UR - https://www.jchemlett.com/article_142430.html L1 - https://www.jchemlett.com/article_142430_745226899f4005fec7c96c3639daff3c.pdf ER -