FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1969136888> ?p ?o ?g. }

• W1969136888 endingPage "116" @default.
• W1969136888 startingPage "110" @default.
• W1969136888 abstract "Abstract Eolian sandstone hydrocarbon-bearing reservoirs have been target of CO 2 enhanced oil recovery as well as potential CO 2 sequestration sites. These sandy reservoirs are compartmentalized by the presence of bounding surfaces, which can function as flow barriers. In this study, eolian packages of a specific outcrop are modeled and their bounding surfaces effects on multiphase flow in CO 2 upward migration are simulated through adequate enforcement of capillary barriers in a compositional simulator. We investigate how two-scale dune foresets strike directions of the outcrop could hint on the choice of well direction to increase storage in this particular model. The genetic unit of eolian strata is small and therefore their corresponding heterogeneity features, such as bounding surfaces, require higher resolution than that available through well logs. We build a synthetic eolian simulation model with associated bounding surfaces, geometrically inspired by the Permian Cedar Mesa Sandstone in southern Utah, USA. Permeability values of sand bodies and bounding surfaces are taken from actual outcrop reported data and surface examples to produce a lower bound of absolute permeability contrast. Capillary pressure is parameterized by the gridblock permeability, which implies that the capillary pressure contrast also represents a lower bound on the basis of published information. Our results show that bounding surfaces markedly reduce accessibility ratio (sweep efficiency), up to 55%, compared with cases where bounding surfaces are ignored, resulting in a larger plume size beneath the caprock and also higher leakage risk. Interestingly, well direction with respect to foreset strike direction has negligible effects on trapping and accessibility ratio for the low inclination angle. The methodology developed in this study could be applied to study CO 2 storage in other eolian formations." @default.
• W1969136888 created "2016-06-24" @default.
• W1969136888 creator A5047875400 @default.
• W1969136888 creator A5052458395 @default.
• W1969136888 creator A5059668888 @default.
• W1969136888 date "2012-11-01" @default.
• W1969136888 modified "2023-10-18" @default.
• W1969136888 title "Modeling CO2 saturation distribution in eolian systems" @default.
• W1969136888 cites W1964990053 @default.
• W1969136888 cites W1968229119 @default.
• W1969136888 cites W1983457220 @default.
• W1969136888 cites W2021956727 @default.
• W1969136888 cites W2031328613 @default.
• W1969136888 cites W2054220859 @default.
• W1969136888 cites W2059690245 @default.
• W1969136888 cites W2077289100 @default.
• W1969136888 cites W2079798664 @default.
• W1969136888 cites W2083571965 @default.
• W1969136888 cites W2156164149 @default.
• W1969136888 cites W2316526141 @default.
• W1969136888 doi "https://doi.org/10.1016/j.ijggc.2012.08.004" @default.
• W1969136888 hasPublicationYear "2012" @default.
• W1969136888 type Work @default.
• W1969136888 sameAs 1969136888 @default.
• W1969136888 citedByCount "8" @default.
• W1969136888 countsByYear W19691368882014 @default.
• W1969136888 countsByYear W19691368882015 @default.
• W1969136888 countsByYear W19691368882016 @default.
• W1969136888 countsByYear W19691368882017 @default.
• W1969136888 countsByYear W19691368882018 @default.
• W1969136888 countsByYear W19691368882022 @default.
• W1969136888 crossrefType "journal-article" @default.
• W1969136888 hasAuthorship W1969136888A5047875400 @default.
• W1969136888 hasAuthorship W1969136888A5052458395 @default.
• W1969136888 hasAuthorship W1969136888A5059668888 @default.
• W1969136888 hasConcept C114614502 @default.
• W1969136888 hasConcept C114793014 @default.
• W1969136888 hasConcept C127313418 @default.
• W1969136888 hasConcept C180093795 @default.
• W1969136888 hasConcept C192562407 @default.
• W1969136888 hasConcept C33923547 @default.
• W1969136888 hasConcept C39432304 @default.
• W1969136888 hasConcept C9930424 @default.
• W1969136888 hasConceptScore W1969136888C114614502 @default.
• W1969136888 hasConceptScore W1969136888C114793014 @default.
• W1969136888 hasConceptScore W1969136888C127313418 @default.
• W1969136888 hasConceptScore W1969136888C180093795 @default.
• W1969136888 hasConceptScore W1969136888C192562407 @default.
• W1969136888 hasConceptScore W1969136888C33923547 @default.
• W1969136888 hasConceptScore W1969136888C39432304 @default.
• W1969136888 hasConceptScore W1969136888C9930424 @default.
• W1969136888 hasLocation W19691368881 @default.
• W1969136888 hasOpenAccess W1969136888 @default.
• W1969136888 hasPrimaryLocation W19691368881 @default.
• W1969136888 hasRelatedWork W1550267885 @default.
• W1969136888 hasRelatedWork W2054594623 @default.
• W1969136888 hasRelatedWork W2067635472 @default.
• W1969136888 hasRelatedWork W2168123999 @default.
• W1969136888 hasRelatedWork W2192964817 @default.
• W1969136888 hasRelatedWork W2359031939 @default.
• W1969136888 hasRelatedWork W2898370298 @default.
• W1969136888 hasRelatedWork W2899084033 @default.
• W1969136888 hasRelatedWork W3146489925 @default.
• W1969136888 hasRelatedWork W4242274159 @default.
• W1969136888 hasVolume "11" @default.
• W1969136888 isParatext "false" @default.
• W1969136888 isRetracted "false" @default.
• W1969136888 magId "1969136888" @default.
• W1969136888 workType "article" @default.