SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3157792012> ?p ?o ?g. }

Showing items 1 to 100 of ±182 with 100 items per page.

W3157792012 endingPage "1414" @default.
W3157792012 startingPage "1414" @default.
W3157792012 abstract "Nowadays, the addition of nanoparticles to polymer solutions would be of interest; however, the feasible property of nanoparticles and their impact on oil recovery has not been investigated in more detail. This study investigates the rheology and capillary forces (interfacial tension and contact angle) of nanoparticles in the polymer performances during oil recovery processes. Thereby, a sequential injection of water, polymer, and nanoparticles; Nanosilica (SiO2) and nano-aluminium oxide (Al2O3) was performed to measure the oil recovery factor. Retention decrease, capillary forces reduction, and polymer viscoelastic behavior increase have caused improved oil recovery due to the feasible mobility ratio of polymer–nanoparticle in fluid loss. The oil recovery factor for polymer flooding, polymer–Al2O3, and polymer–SiO2 is 58%, 63%, and 67%, respectively. Thereby, polymer–SiO2 flooding would provide better oil recovery than other scenarios that reduce the capillary force due to the structural disjoining pressure. According to the relative permeability curves, residual oil saturation (Sor) and water relative permeability (Krw) are 29% and 0.3%, respectively, for polymer solution; however, for the polymer–nanoparticle solution, Sor and Krw are 12% and 0.005%, respectively. Polymer treatment caused a dramatic decrease, rather than the water treatment effect on the contact angle. The minimum contact angle for water and polymer treatment are about 21 and 29, respectively. The contact angle decrease for polymer treatment in the presence of nanoparticles related to the surface hydrophilicity increase. Therefore, after 2000 mg L−1 of SiO2 concentration, there are no significant changes in contact angle." @default.
W3157792012 created "2021-05-10" @default.
W3157792012 creator A5008877659 @default.
W3157792012 creator A5011050153 @default.
W3157792012 creator A5032869496 @default.
W3157792012 creator A5038184574 @default.
W3157792012 creator A5083716072 @default.
W3157792012 date "2021-04-27" @default.
W3157792012 modified "2023-09-26" @default.
W3157792012 title "Hybrid Application of Nanoparticles and Polymer in Enhanced Oil Recovery Processes" @default.
W3157792012 cites W1227374044 @default.
W3157792012 cites W1228126584 @default.
W3157792012 cites W1973774856 @default.
W3157792012 cites W1976692590 @default.
W3157792012 cites W1996664697 @default.
W3157792012 cites W2053449094 @default.
W3157792012 cites W2057709731 @default.
W3157792012 cites W2064987376 @default.
W3157792012 cites W2075233116 @default.
W3157792012 cites W2114965750 @default.
W3157792012 cites W2321558833 @default.
W3157792012 cites W2556157220 @default.
W3157792012 cites W2594309008 @default.
W3157792012 cites W2596329033 @default.
W3157792012 cites W2609807751 @default.
W3157792012 cites W2781525555 @default.
W3157792012 cites W2789765169 @default.
W3157792012 cites W2802464799 @default.
W3157792012 cites W2804362456 @default.
W3157792012 cites W2807164247 @default.
W3157792012 cites W2809500952 @default.
W3157792012 cites W2838960957 @default.
W3157792012 cites W2900216862 @default.
W3157792012 cites W2910207527 @default.
W3157792012 cites W2916200601 @default.
W3157792012 cites W2916770847 @default.
W3157792012 cites W2921167980 @default.
W3157792012 cites W2930786780 @default.
W3157792012 cites W2938152550 @default.
W3157792012 cites W2938425911 @default.
W3157792012 cites W2943196042 @default.
W3157792012 cites W2946329645 @default.
W3157792012 cites W2949259706 @default.
W3157792012 cites W2949385255 @default.
W3157792012 cites W2950226044 @default.
W3157792012 cites W2950364195 @default.
W3157792012 cites W2964098936 @default.
W3157792012 cites W2966293340 @default.
W3157792012 cites W2970793461 @default.
W3157792012 cites W2974888186 @default.
W3157792012 cites W2977098565 @default.
W3157792012 cites W2977334401 @default.
W3157792012 cites W2979734923 @default.
W3157792012 cites W2993678303 @default.
W3157792012 cites W3002262600 @default.
W3157792012 cites W3006468897 @default.
W3157792012 cites W3007019828 @default.
W3157792012 cites W3008893116 @default.
W3157792012 cites W3010898847 @default.
W3157792012 cites W3012434696 @default.
W3157792012 cites W3015202882 @default.
W3157792012 cites W3032938831 @default.
W3157792012 cites W3033365268 @default.
W3157792012 cites W3035014642 @default.
W3157792012 cites W3036047014 @default.
W3157792012 cites W3036591438 @default.
W3157792012 cites W3040350133 @default.
W3157792012 cites W3042424091 @default.
W3157792012 cites W3044119490 @default.
W3157792012 cites W3045659971 @default.
W3157792012 cites W3047926331 @default.
W3157792012 cites W3049377648 @default.
W3157792012 cites W3082298551 @default.
W3157792012 cites W3082465848 @default.
W3157792012 cites W3085407725 @default.
W3157792012 cites W3085443135 @default.
W3157792012 cites W3090773231 @default.
W3157792012 cites W3091817200 @default.
W3157792012 cites W3095184843 @default.
W3157792012 cites W3100435017 @default.
W3157792012 cites W3116542479 @default.
W3157792012 cites W3120001750 @default.
W3157792012 cites W3121947712 @default.
W3157792012 cites W3127862015 @default.
W3157792012 cites W3128854956 @default.
W3157792012 cites W3131581899 @default.
W3157792012 cites W3132621033 @default.
W3157792012 cites W3133724772 @default.
W3157792012 cites W3133899235 @default.
W3157792012 cites W3137718119 @default.
W3157792012 cites W3139533111 @default.
W3157792012 cites W3142335525 @default.
W3157792012 cites W3143173753 @default.
W3157792012 cites W3144080121 @default.
W3157792012 cites W3170223958 @default.
W3157792012 cites W3171572517 @default.
W3157792012 cites W3205876174 @default.
W3157792012 cites W4254299888 @default.