Matches in SemOpenAlex for { <https://semopenalex.org/work/W2620560258> ?p ?o ?g. }
Showing items 1 to 48 of
48
with 100 items per page.
- W2620560258 abstract "Abstract The transport of fluids through a permeable rock can follow complex paths depending on the complexity of pore size distributions and connectivity. Understanding the contribution of individual pores to total flow helps to build representative relative permeability models for reservoir simulation of secondary and tertiary recovery applications. Whether or not micropores contribute to the flow will eventually affect the shape of the relative permeability curve of the two-phase flow. In addition, it affects the extent of the mixing zone during fluid displacement for any miscible enhanced oil recovery (EOR) processes. Through a single-phase dispersion test, mimicking miscible displacement with continuous nuclear magnetic resonance (NMR) T2 distribution measurements, fluid displacements relative to pore type were directly observed and quantified. The displacement data was modeled using the classical convective-dispersive model. Results illustrate that the micropores of the selected bimodal carbonate samples are preferentially connected and the micropores in M_1 petrophysical rock type (PRT) effectively contribute to the displacement/flow mechanism in these rocks. In addition, the experimental results from single-phase study suggests the contribution of micropores to the total displacment in the M_1 PRT should not be ignored when modeling relative permeability for reservoir simulation. The results from modeling the miscible fluid displacement data using the classical convective-dispersive model showed that micro- and macropores in M and M_1 PRTs communicate in parallel and in serial. This result should be accounted for designing any types of miscible and surfactant flooding for reservoirs with these PRTsas they are relevant to the extent of the mixing zone relative to pore types." @default.
- W2620560258 created "2017-06-09" @default.
- W2620560258 creator A5016905369 @default.
- W2620560258 creator A5072179993 @default.
- W2620560258 creator A5073488986 @default.
- W2620560258 date "2017-04-24" @default.
- W2620560258 modified "2023-10-17" @default.
- W2620560258 title "The Interpretation of Miscible Fluid Displacements in Multimodal Carbonates" @default.
- W2620560258 cites W2048163201 @default.
- W2620560258 cites W2067494976 @default.
- W2620560258 cites W2086708495 @default.
- W2620560258 cites W2944023070 @default.
- W2620560258 cites W2970821525 @default.
- W2620560258 cites W3014355492 @default.
- W2620560258 doi "https://doi.org/10.2118/188081-ms" @default.
- W2620560258 hasPublicationYear "2017" @default.
- W2620560258 type Work @default.
- W2620560258 sameAs 2620560258 @default.
- W2620560258 citedByCount "0" @default.
- W2620560258 crossrefType "proceedings-article" @default.
- W2620560258 hasAuthorship W2620560258A5016905369 @default.
- W2620560258 hasAuthorship W2620560258A5072179993 @default.
- W2620560258 hasAuthorship W2620560258A5073488986 @default.
- W2620560258 hasConcept C127313418 @default.
- W2620560258 hasConcept C199360897 @default.
- W2620560258 hasConcept C41008148 @default.
- W2620560258 hasConcept C527412718 @default.
- W2620560258 hasConceptScore W2620560258C127313418 @default.
- W2620560258 hasConceptScore W2620560258C199360897 @default.
- W2620560258 hasConceptScore W2620560258C41008148 @default.
- W2620560258 hasConceptScore W2620560258C527412718 @default.
- W2620560258 hasLocation W26205602581 @default.
- W2620560258 hasOpenAccess W2620560258 @default.
- W2620560258 hasPrimaryLocation W26205602581 @default.
- W2620560258 hasRelatedWork W2025293634 @default.
- W2620560258 hasRelatedWork W2026823885 @default.
- W2620560258 hasRelatedWork W2083258658 @default.
- W2620560258 hasRelatedWork W2090387746 @default.
- W2620560258 hasRelatedWork W2728276482 @default.
- W2620560258 hasRelatedWork W2911598369 @default.
- W2620560258 hasRelatedWork W2955930933 @default.
- W2620560258 hasRelatedWork W3205257583 @default.
- W2620560258 hasRelatedWork W44736433 @default.
- W2620560258 hasRelatedWork W59700550 @default.
- W2620560258 isParatext "false" @default.
- W2620560258 isRetracted "false" @default.
- W2620560258 magId "2620560258" @default.
- W2620560258 workType "article" @default.