SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2753812532> ?p ?o ?g. }

Showing items 1 to 100 of ±131 with 100 items per page.

W2753812532 endingPage "12" @default.
W2753812532 startingPage "1" @default.
W2753812532 abstract "Abstract A relative permeability model for gas-water two phase flow in water-wet nanoporous media is proposed based on the continuity equation with modified non-slip boundary in a single nanotube and the pore size distribution (PSD) of the media. The present model takes into account the nanoscale effects including gas slippage in the entire Knudsen range, multilayer sticking (near-wall structural water film) and the quantified thickness of water film. The flow model in single nanotube and relative permeability model in nanoporous media have been validated by comparing with the various molecular simulations, experimental data, and analytical models. The results show the nanoscale effects play an extremely significant role in determining both the gas and water phase relative permeability in nanoporous media: the gas phase relative permeability increases dramatically due to the gas slippage effect, especially at low water saturation; the multilayer sticking of the water film will reduce the water phase relative permeability as well as slightly decrease gas phase relative permeability; the flow of water film has a negative impact on both the gas and water phase relative permeability. Additionally, logarithmic normal distribution function is adopted to characterize PSD, and the sensitivity analysis of PSD on the relative permeability are examined as well." @default.
W2753812532 created "2017-09-15" @default.
W2753812532 creator A5000886976 @default.
W2753812532 creator A5015337121 @default.
W2753812532 creator A5028935321 @default.
W2753812532 creator A5035701638 @default.
W2753812532 creator A5055207440 @default.
W2753812532 creator A5063982441 @default.
W2753812532 creator A5085307924 @default.
W2753812532 date "2017-12-01" @default.
W2753812532 modified "2023-10-17" @default.
W2753812532 title "An analytical model for relative permeability in water-wet nanoporous media" @default.
W2753812532 cites W1652711717 @default.
W2753812532 cites W1795539325 @default.
W2753812532 cites W1966660974 @default.
W2753812532 cites W1986094355 @default.
W2753812532 cites W1992853623 @default.
W2753812532 cites W1992945611 @default.
W2753812532 cites W1993288443 @default.
W2753812532 cites W1993395017 @default.
W2753812532 cites W1996460793 @default.
W2753812532 cites W2005439678 @default.
W2753812532 cites W2007283787 @default.
W2753812532 cites W2008981917 @default.
W2753812532 cites W2019006773 @default.
W2753812532 cites W2021093276 @default.
W2753812532 cites W2023659595 @default.
W2753812532 cites W2029961853 @default.
W2753812532 cites W2031469440 @default.
W2753812532 cites W2031776722 @default.
W2753812532 cites W2040389897 @default.
W2753812532 cites W2044118236 @default.
W2753812532 cites W2046917943 @default.
W2753812532 cites W2048193311 @default.
W2753812532 cites W2053578140 @default.
W2753812532 cites W2057220674 @default.
W2753812532 cites W2073505460 @default.
W2753812532 cites W2073989518 @default.
W2753812532 cites W2081620193 @default.
W2753812532 cites W2082848989 @default.
W2753812532 cites W2082854483 @default.
W2753812532 cites W2085069746 @default.
W2753812532 cites W2085781919 @default.
W2753812532 cites W2086546357 @default.
W2753812532 cites W2092700474 @default.
W2753812532 cites W2094680340 @default.
W2753812532 cites W2108117230 @default.
W2753812532 cites W2114878967 @default.
W2753812532 cites W2128752264 @default.
W2753812532 cites W2134744763 @default.
W2753812532 cites W2140460370 @default.
W2753812532 cites W2257633806 @default.
W2753812532 cites W2273418142 @default.
W2753812532 cites W2279788781 @default.
W2753812532 cites W2282968739 @default.
W2753812532 cites W2319244357 @default.
W2753812532 cites W2330878997 @default.
W2753812532 cites W2333921391 @default.
W2753812532 cites W2409847933 @default.
W2753812532 cites W2462900278 @default.
W2753812532 cites W2475285842 @default.
W2753812532 cites W2503367805 @default.
W2753812532 cites W2520466307 @default.
W2753812532 cites W2594983482 @default.
W2753812532 cites W2621035650 @default.
W2753812532 cites W3105328833 @default.
W2753812532 doi "https://doi.org/10.1016/j.ces.2017.08.023" @default.
W2753812532 hasPublicationYear "2017" @default.
W2753812532 type Work @default.
W2753812532 sameAs 2753812532 @default.
W2753812532 citedByCount "111" @default.
W2753812532 countsByYear W27538125322017 @default.
W2753812532 countsByYear W27538125322018 @default.
W2753812532 countsByYear W27538125322019 @default.
W2753812532 countsByYear W27538125322020 @default.
W2753812532 countsByYear W27538125322021 @default.
W2753812532 countsByYear W27538125322022 @default.
W2753812532 countsByYear W27538125322023 @default.
W2753812532 crossrefType "journal-article" @default.
W2753812532 hasAuthorship W2753812532A5000886976 @default.
W2753812532 hasAuthorship W2753812532A5015337121 @default.
W2753812532 hasAuthorship W2753812532A5028935321 @default.
W2753812532 hasAuthorship W2753812532A5035701638 @default.
W2753812532 hasAuthorship W2753812532A5055207440 @default.
W2753812532 hasAuthorship W2753812532A5063982441 @default.
W2753812532 hasAuthorship W2753812532A5085307924 @default.
W2753812532 hasConcept C113378726 @default.
W2753812532 hasConcept C120882062 @default.
W2753812532 hasConcept C127413603 @default.
W2753812532 hasConcept C159985019 @default.
W2753812532 hasConcept C171250308 @default.
W2753812532 hasConcept C185592680 @default.
W2753812532 hasConcept C192562407 @default.
W2753812532 hasConcept C41625074 @default.
W2753812532 hasConcept C42360764 @default.
W2753812532 hasConcept C48940184 @default.
W2753812532 hasConcept C55493867 @default.
W2753812532 hasConcept C6648577 @default.