SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4285087651> ?p ?o ?g. }

Showing items 1 to 100 of ±154 with 100 items per page.

W4285087651 endingPage "8127" @default.
W4285087651 startingPage "8115" @default.
W4285087651 abstract "Oil recovery from a matured oilfield is challenging due to the low recovery factor. These challenges became opportunities for existing low-salinity water (LSW)-based enhanced oil recovery (EOR) methods. The performance of the LSW in recovering the residual oil from a matured oilfield is improved with the help of additives, viz., surfactant, water-soluble polymer, and silica nanoparticles (NPs). In the present study, series of experiments have been carried out to understand the pore-scale oil displacement phenomena of the novel nanofluids (SMART LowSal) using a microfluidic chip (lab-on-a-chip) integrated with an inverted microscope. The microfluidic chip is saturated with oil and is flooded with different nanofluids (NFs) to recover oil. The efficacy of oil displacement is evaluated using two unique methods (series and parallel). The oil displacement efficacy from the chip matrix, the interaction between rock–oil–nanofluid, and wettability alteration of the rock representative surface have been visually investigated. The oil displacement results are compared with the oil recovery results from the sand-pack reactor and Amott cell. Oil displacement was found to increase with increasing concentration of nanoparticles in NFs and slightly decreases beyond 1000 ppm of NPs. Visual observation clarified the complex interaction of rock–oil–nanofluid systems. A significant reduction in the interfacial tension of the fluid–fluid phase in the presence of surfactant leads to elongation of the oil globules and higher oil recovery. A thin layer of a film of water is noticed between the grain and the fluid phase, which could be the reason for the wettability alteration and improved oil recovery. The lab-on-a-chip method adopted for evaluating the efficacy of oil recovery due to the various nanofluids could help better understand the displacement phenomena and screening of additives for the best formulation of injection fluid for EOR application." @default.
W4285087651 created "2022-07-14" @default.
W4285087651 creator A5015936093 @default.
W4285087651 creator A5025670827 @default.
W4285087651 creator A5054406271 @default.
W4285087651 date "2022-07-13" @default.
W4285087651 modified "2023-10-05" @default.
W4285087651 title "Pore-Scale Investigation and Performance Evaluation of SMART LowSal Flooding for Enhanced Oil Recovery from Matured Reservoirs Using a Lab-on-a-Chip" @default.
W4285087651 cites W1965873483 @default.
W4285087651 cites W1978301785 @default.
W4285087651 cites W1981771742 @default.
W4285087651 cites W2006125825 @default.
W4285087651 cites W2011093800 @default.
W4285087651 cites W2024746271 @default.
W4285087651 cites W2030307404 @default.
W4285087651 cites W2033390838 @default.
W4285087651 cites W2048197073 @default.
W4285087651 cites W2074452382 @default.
W4285087651 cites W2078921993 @default.
W4285087651 cites W2162152093 @default.
W4285087651 cites W2165848507 @default.
W4285087651 cites W2204042040 @default.
W4285087651 cites W2213710221 @default.
W4285087651 cites W2313547657 @default.
W4285087651 cites W2342493610 @default.
W4285087651 cites W2462558660 @default.
W4285087651 cites W2515536225 @default.
W4285087651 cites W2520432803 @default.
W4285087651 cites W2555517835 @default.
W4285087651 cites W2558994519 @default.
W4285087651 cites W2605129355 @default.
W4285087651 cites W2607681370 @default.
W4285087651 cites W2621196515 @default.
W4285087651 cites W2744164955 @default.
W4285087651 cites W2792753489 @default.
W4285087651 cites W2792783401 @default.
W4285087651 cites W2801362906 @default.
W4285087651 cites W2802971012 @default.
W4285087651 cites W2803794636 @default.
W4285087651 cites W2891814430 @default.
W4285087651 cites W2917257997 @default.
W4285087651 cites W2921564253 @default.
W4285087651 cites W2943958720 @default.
W4285087651 cites W2955435023 @default.
W4285087651 cites W2969531267 @default.
W4285087651 cites W2973587638 @default.
W4285087651 cites W2989419786 @default.
W4285087651 cites W3010413171 @default.
W4285087651 cites W3012512673 @default.
W4285087651 cites W3012663606 @default.
W4285087651 cites W3013232547 @default.
W4285087651 cites W3015689526 @default.
W4285087651 cites W3022257217 @default.
W4285087651 cites W3038732077 @default.
W4285087651 cites W3039792234 @default.
W4285087651 cites W3042665605 @default.
W4285087651 cites W3049595175 @default.
W4285087651 cites W3082465848 @default.
W4285087651 cites W3109470120 @default.
W4285087651 cites W3115667035 @default.
W4285087651 cites W3119157918 @default.
W4285087651 cites W3180029400 @default.
W4285087651 cites W3194145759 @default.
W4285087651 cites W3197246951 @default.
W4285087651 cites W4205390780 @default.
W4285087651 cites W4229012713 @default.
W4285087651 cites W4233167418 @default.
W4285087651 cites W4233251471 @default.
W4285087651 cites W1964164773 @default.
W4285087651 doi "https://doi.org/10.1021/acs.energyfuels.2c01009" @default.
W4285087651 hasPublicationYear "2022" @default.
W4285087651 type Work @default.
W4285087651 citedByCount "2" @default.
W4285087651 countsByYear W42850876512023 @default.
W4285087651 crossrefType "journal-article" @default.
W4285087651 hasAuthorship W4285087651A5015936093 @default.
W4285087651 hasAuthorship W4285087651A5025670827 @default.
W4285087651 hasAuthorship W4285087651A5054406271 @default.
W4285087651 hasConcept C105569014 @default.
W4285087651 hasConcept C107551265 @default.
W4285087651 hasConcept C121332964 @default.
W4285087651 hasConcept C127313418 @default.
W4285087651 hasConcept C127413603 @default.
W4285087651 hasConcept C134514944 @default.
W4285087651 hasConcept C155672457 @default.
W4285087651 hasConcept C15744967 @default.
W4285087651 hasConcept C159985019 @default.
W4285087651 hasConcept C171250308 @default.
W4285087651 hasConcept C178790620 @default.
W4285087651 hasConcept C185592680 @default.
W4285087651 hasConcept C190119865 @default.
W4285087651 hasConcept C192562407 @default.
W4285087651 hasConcept C21946209 @default.
W4285087651 hasConcept C2776124570 @default.
W4285087651 hasConcept C2779681308 @default.
W4285087651 hasConcept C2780383887 @default.
W4285087651 hasConcept C2780927383 @default.
W4285087651 hasConcept C42360764 @default.