SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4384306225> ?p ?o ?g. }

Showing items 1 to 100 of ±134 with 100 items per page.

W4384306225 endingPage "129218" @default.
W4384306225 startingPage "129218" @default.
W4384306225 abstract "The stability of CO2 foam seriously restricts its stimulation effect in low-permeability reservoirs, and the presence of foaming agents and foam stabilizers in the system will make the production fluid treatment more difficult. Therefore, in response to the above problems, this paper prepared a CO2-responsive worm-like micelles (WLMs) using N,N-dimethyl oleoaminde-propylamine (DOAPA) and sodium salicylate (NaSaI) as raw materials, and investigated its foam performance, fluidity-control ability, oil-displacement performance, microscopic-seepage law, and microcosmic, demulsification and defoaming analysis of the simulated produced-fluid. Experimental results showed that DOAPA-H+ increased the viscosity and stability of the foam-based solution under the action of organic salt. In homogeneous and heterogeneous models, worm-like micelle CO2 foam ([email protected]+) enhance oil recovery (EOR) by 26.2% and 27.3%, respectively, which were about 1.5 times that of traditional CO2 foam. After injecting N2 into the production fluid, the system can realize rapid and pollution-free demulsification and defoaming. The research shows that [email protected]+ has great potential to EOR and reduce the difficulty of production-fluid treatment, which provides a new idea for low permeability reservoirs combined with CO2 resource utilization and storage." @default.
W4384306225 created "2023-07-15" @default.
W4384306225 creator A5034594115 @default.
W4384306225 creator A5042241049 @default.
W4384306225 creator A5058514856 @default.
W4384306225 creator A5076500400 @default.
W4384306225 creator A5084606816 @default.
W4384306225 creator A5087968565 @default.
W4384306225 date "2023-12-01" @default.
W4384306225 modified "2023-10-18" @default.
W4384306225 title "Displacement characteristics of worm-like micelle CO2 foam and treatment of produced liquid" @default.
W4384306225 cites W1913615450 @default.
W4384306225 cites W1977343600 @default.
W4384306225 cites W2030570715 @default.
W4384306225 cites W2055543094 @default.
W4384306225 cites W2060030489 @default.
W4384306225 cites W2082971088 @default.
W4384306225 cites W2084017693 @default.
W4384306225 cites W2095470155 @default.
W4384306225 cites W2237117942 @default.
W4384306225 cites W2261352896 @default.
W4384306225 cites W2313823989 @default.
W4384306225 cites W2467094208 @default.
W4384306225 cites W2591106631 @default.
W4384306225 cites W2623311611 @default.
W4384306225 cites W2766660712 @default.
W4384306225 cites W2767847855 @default.
W4384306225 cites W2795283013 @default.
W4384306225 cites W2799564235 @default.
W4384306225 cites W2808193679 @default.
W4384306225 cites W2889730824 @default.
W4384306225 cites W2904224811 @default.
W4384306225 cites W2909292168 @default.
W4384306225 cites W2913637156 @default.
W4384306225 cites W2920811217 @default.
W4384306225 cites W2940961316 @default.
W4384306225 cites W2946170987 @default.
W4384306225 cites W2955775985 @default.
W4384306225 cites W2963330328 @default.
W4384306225 cites W2970653922 @default.
W4384306225 cites W2971510971 @default.
W4384306225 cites W2974484464 @default.
W4384306225 cites W3012464083 @default.
W4384306225 cites W3026401452 @default.
W4384306225 cites W3028142305 @default.
W4384306225 cites W3094304454 @default.
W4384306225 cites W3094344279 @default.
W4384306225 cites W3101249674 @default.
W4384306225 cites W3106771315 @default.
W4384306225 cites W3108557259 @default.
W4384306225 cites W3130128616 @default.
W4384306225 cites W3132117646 @default.
W4384306225 cites W3136998096 @default.
W4384306225 cites W3154118817 @default.
W4384306225 cites W3169657644 @default.
W4384306225 cites W3185402055 @default.
W4384306225 cites W3203703542 @default.
W4384306225 cites W4224979142 @default.
W4384306225 cites W4235409240 @default.
W4384306225 cites W4280634323 @default.
W4384306225 cites W4283397198 @default.
W4384306225 cites W4310012583 @default.
W4384306225 cites W4310818140 @default.
W4384306225 cites W4316038170 @default.
W4384306225 cites W4319336089 @default.
W4384306225 cites W4322012175 @default.
W4384306225 cites W4323869787 @default.
W4384306225 cites W4378450537 @default.
W4384306225 doi "https://doi.org/10.1016/j.fuel.2023.129218" @default.
W4384306225 hasPublicationYear "2023" @default.
W4384306225 type Work @default.
W4384306225 citedByCount "0" @default.
W4384306225 crossrefType "journal-article" @default.
W4384306225 hasAuthorship W4384306225A5034594115 @default.
W4384306225 hasAuthorship W4384306225A5042241049 @default.
W4384306225 hasAuthorship W4384306225A5058514856 @default.
W4384306225 hasAuthorship W4384306225A5076500400 @default.
W4384306225 hasAuthorship W4384306225A5084606816 @default.
W4384306225 hasAuthorship W4384306225A5087968565 @default.
W4384306225 hasConcept C11268172 @default.
W4384306225 hasConcept C120882062 @default.
W4384306225 hasConcept C127172972 @default.
W4384306225 hasConcept C127313418 @default.
W4384306225 hasConcept C127413603 @default.
W4384306225 hasConcept C159985019 @default.
W4384306225 hasConcept C178790620 @default.
W4384306225 hasConcept C184651966 @default.
W4384306225 hasConcept C185592680 @default.
W4384306225 hasConcept C192562407 @default.
W4384306225 hasConcept C2779681308 @default.
W4384306225 hasConcept C2994384808 @default.
W4384306225 hasConcept C41625074 @default.
W4384306225 hasConcept C42360764 @default.
W4384306225 hasConcept C55493867 @default.
W4384306225 hasConcept C6648577 @default.
W4384306225 hasConcept C74525527 @default.
W4384306225 hasConcept C78762247 @default.
W4384306225 hasConceptScore W4384306225C11268172 @default.