FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2322869673> ?p ?o ?g. }

• W2322869673 endingPage "1273" @default.
• W2322869673 startingPage "1262" @default.
• W2322869673 abstract "In this study, the performance of secondary carbonated water injection (CWI) was investigated at various operating pressures (i.e., P = 0.7–10.3 MPa). Prior to CWI tests, CO2 solubility in both brine and oil samples was measured using a high pressure visual cell. Next, through a series of flooding experiments, the effect of various operating conditions on the efficiency of CWI as a means of secondary oil recovery technique was investigated. Results showed that the ultimate oil recovery of secondary CWI can be increased by about 19% as compared to that of conventional water flooding (WF). It was also observed that in secondary CWI mode, an increase in operating pressure enhances the oil recovery, which is mainly attributed to higher CO2 solubility in the injected brine. It was also found that the recovery factor (RF) substantially increases to the pressure of P = 5.9 MPa followed by slow growth until the pressure reaches P = 10.3 MPa. The same turning point of P = 5.9 MPa was also observed in the plot of CO2 solubility in brine versus the operating pressure. Therefore, it was concluded that the value of CO2 solubility in brine controls the efficiency of CWI process. Additionally, less recovery factor was obtained when temperature was increased from T = 25 to 40 °C. The same impact was observed when the carbonation level of the injected brine was reduced from CL = 100% to CL = 50%. However, it was seen that the carbonated water (CW) injection rate minimally affect the efficiency of the CWI. From the CO2 storage point of view, the amount of CO2 that was stored at the end of secondary CWI for different operating pressures was determined, and the values ranged from 23% to 36% of total injected CO2. Thus, it was concluded that CWI considerably has great potential to permanently store the injected CO2 while significantly improving oil recovery in light oil systems." @default.
• W2322869673 created "2016-06-24" @default.
• W2322869673 creator A5014308759 @default.
• W2322869673 creator A5048956311 @default.
• W2322869673 date "2013-12-27" @default.
• W2322869673 modified "2023-10-02" @default.
• W2322869673 title "Performance of Secondary Carbonated Water Injection in Light Oil Systems" @default.
• W2322869673 cites W1994220584 @default.
• W2322869673 cites W1995481729 @default.
• W2322869673 cites W2004004611 @default.
• W2322869673 cites W2004333602 @default.
• W2322869673 cites W2019316734 @default.
• W2322869673 cites W2041780639 @default.
• W2322869673 cites W2068470970 @default.
• W2322869673 cites W2069402217 @default.
• W2322869673 cites W2076317158 @default.
• W2322869673 cites W2082467303 @default.
• W2322869673 cites W2082849141 @default.
• W2322869673 cites W2082954507 @default.
• W2322869673 cites W2089533408 @default.
• W2322869673 cites W2135471309 @default.
• W2322869673 cites W2142323005 @default.
• W2322869673 cites W2322052308 @default.
• W2322869673 cites W2410445477 @default.
• W2322869673 doi "https://doi.org/10.1021/ie402381z" @default.
• W2322869673 hasPublicationYear "2013" @default.
• W2322869673 type Work @default.
• W2322869673 sameAs 2322869673 @default.
• W2322869673 citedByCount "58" @default.
• W2322869673 countsByYear W23228696732014 @default.
• W2322869673 countsByYear W23228696732015 @default.
• W2322869673 countsByYear W23228696732016 @default.
• W2322869673 countsByYear W23228696732017 @default.
• W2322869673 countsByYear W23228696732018 @default.
• W2322869673 countsByYear W23228696732019 @default.
• W2322869673 countsByYear W23228696732020 @default.
• W2322869673 countsByYear W23228696732021 @default.
• W2322869673 countsByYear W23228696732022 @default.
• W2322869673 countsByYear W23228696732023 @default.
• W2322869673 crossrefType "journal-article" @default.
• W2322869673 hasAuthorship W2322869673A5014308759 @default.
• W2322869673 hasAuthorship W2322869673A5048956311 @default.
• W2322869673 hasConcept C113196181 @default.
• W2322869673 hasConcept C120809312 @default.
• W2322869673 hasConcept C155574463 @default.
• W2322869673 hasConcept C178790620 @default.
• W2322869673 hasConcept C185592680 @default.
• W2322869673 hasConcept C192562407 @default.
• W2322869673 hasConcept C2776957854 @default.
• W2322869673 hasConcept C43617362 @default.
• W2322869673 hasConceptScore W2322869673C113196181 @default.
• W2322869673 hasConceptScore W2322869673C120809312 @default.
• W2322869673 hasConceptScore W2322869673C155574463 @default.
• W2322869673 hasConceptScore W2322869673C178790620 @default.
• W2322869673 hasConceptScore W2322869673C185592680 @default.
• W2322869673 hasConceptScore W2322869673C192562407 @default.
• W2322869673 hasConceptScore W2322869673C2776957854 @default.
• W2322869673 hasConceptScore W2322869673C43617362 @default.
• W2322869673 hasIssue "3" @default.
• W2322869673 hasLocation W23228696731 @default.
• W2322869673 hasOpenAccess W2322869673 @default.
• W2322869673 hasPrimaryLocation W23228696731 @default.
• W2322869673 hasRelatedWork W2086539896 @default.
• W2322869673 hasRelatedWork W2326635080 @default.
• W2322869673 hasRelatedWork W2359097144 @default.
• W2322869673 hasRelatedWork W2393511487 @default.
• W2322869673 hasRelatedWork W2606730472 @default.
• W2322869673 hasRelatedWork W2890799861 @default.
• W2322869673 hasRelatedWork W2899084033 @default.
• W2322869673 hasRelatedWork W3136667979 @default.
• W2322869673 hasRelatedWork W3157956608 @default.
• W2322869673 hasRelatedWork W3201565289 @default.
• W2322869673 hasVolume "53" @default.
• W2322869673 isParatext "false" @default.
• W2322869673 isRetracted "false" @default.
• W2322869673 magId "2322869673" @default.
• W2322869673 workType "article" @default.