SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3099312736> ?p ?o ?g. }

Showing items 1 to 100 of ±171 with 100 items per page.

W3099312736 endingPage "677" @default.
W3099312736 startingPage "651" @default.
W3099312736 abstract "Abstract Apparent liquid permeability (ALP) in ultra-confined permeable media is primarily governed by the pore confinement and fluid–rock interactions. A new ALP model is required to predict the interactive effect of the above two on the flow in mixed-wet, heterogeneous nanoporous media. This study derives an ALP model and integrates the compiled results from molecular dynamics (MD) simulations, scanning electron microscopy, atomic force microscopy, and mercury injection capillary pressure. The ALP model assumes viscous forces, capillary forces, and liquid slippage in tortuous, rough pore throats. Predictions of the slippage of water and octane are validated against MD data reported in the literature. In up-scaling the proposed liquid transport model to the representative-elementary-volume scale, we integrate the geological fractals of the shale rock samples including their pore size distribution, pore throat tortuosity, and pore-surface roughness. Sensitivity results for the ALP indicate that when the pore size is below 100 nm pore confinement allows oil to slip in both hydrophobic and hydrophilic pores, yet it also restricts the ALP due to the restricted intrinsic permeability. The ALP reduces to the well-established Carman–Kozeny equation for no-slip viscous flow in a bundle of capillaries, which reveals a distinguishable liquid flow behavior in shales versus conventional rocks. Compared to the Klinkenberg equation, the proposed ALP model reveals an important insight into the similarities and differences between liquid versus gas flow in shales." @default.
W3099312736 created "2020-11-23" @default.
W3099312736 creator A5023670564 @default.
W3099312736 creator A5074738164 @default.
W3099312736 creator A5091416099 @default.
W3099312736 date "2020-08-17" @default.
W3099312736 modified "2023-10-09" @default.
W3099312736 title "Apparent Liquid Permeability in Mixed-Wet Shale Permeable Media" @default.
W3099312736 cites W1228126584 @default.
W3099312736 cites W1585383936 @default.
W3099312736 cites W1857552492 @default.
W3099312736 cites W1966799339 @default.
W3099312736 cites W1972568575 @default.
W3099312736 cites W1975222998 @default.
W3099312736 cites W1977268055 @default.
W3099312736 cites W1983133073 @default.
W3099312736 cites W1984102652 @default.
W3099312736 cites W1993288443 @default.
W3099312736 cites W1994420047 @default.
W3099312736 cites W1996460793 @default.
W3099312736 cites W1999993304 @default.
W3099312736 cites W2000733905 @default.
W3099312736 cites W2001979196 @default.
W3099312736 cites W2006339000 @default.
W3099312736 cites W2007277032 @default.
W3099312736 cites W2023750054 @default.
W3099312736 cites W2025883984 @default.
W3099312736 cites W2027869344 @default.
W3099312736 cites W2029961853 @default.
W3099312736 cites W2031093641 @default.
W3099312736 cites W2031272029 @default.
W3099312736 cites W2040092779 @default.
W3099312736 cites W2041228052 @default.
W3099312736 cites W2045273773 @default.
W3099312736 cites W2052152729 @default.
W3099312736 cites W2063180495 @default.
W3099312736 cites W2063665017 @default.
W3099312736 cites W2068558476 @default.
W3099312736 cites W2069950286 @default.
W3099312736 cites W2072613134 @default.
W3099312736 cites W2077976078 @default.
W3099312736 cites W2084289984 @default.
W3099312736 cites W2085781919 @default.
W3099312736 cites W2091882131 @default.
W3099312736 cites W2100040728 @default.
W3099312736 cites W2108187138 @default.
W3099312736 cites W2109104585 @default.
W3099312736 cites W2124339383 @default.
W3099312736 cites W2129148878 @default.
W3099312736 cites W2135535608 @default.
W3099312736 cites W2140962967 @default.
W3099312736 cites W2167355155 @default.
W3099312736 cites W2168953470 @default.
W3099312736 cites W2175757078 @default.
W3099312736 cites W2222429467 @default.
W3099312736 cites W2239291202 @default.
W3099312736 cites W2315333129 @default.
W3099312736 cites W2334440785 @default.
W3099312736 cites W2339945160 @default.
W3099312736 cites W23657706 @default.
W3099312736 cites W2400869467 @default.
W3099312736 cites W2408590780 @default.
W3099312736 cites W2494343957 @default.
W3099312736 cites W2509844572 @default.
W3099312736 cites W2531128986 @default.
W3099312736 cites W2531334083 @default.
W3099312736 cites W2554680808 @default.
W3099312736 cites W2569749013 @default.
W3099312736 cites W2605437439 @default.
W3099312736 cites W2625391439 @default.
W3099312736 cites W2627038580 @default.
W3099312736 cites W2734774076 @default.
W3099312736 cites W2747162709 @default.
W3099312736 cites W2765181513 @default.
W3099312736 cites W2767173061 @default.
W3099312736 cites W2769182252 @default.
W3099312736 cites W2774990785 @default.
W3099312736 cites W2810702096 @default.
W3099312736 cites W2908539373 @default.
W3099312736 cites W2909660856 @default.
W3099312736 cites W2912225005 @default.
W3099312736 cites W2912714529 @default.
W3099312736 cites W2926249829 @default.
W3099312736 cites W2937409868 @default.
W3099312736 cites W2945810647 @default.
W3099312736 cites W2946471064 @default.
W3099312736 cites W2947687136 @default.
W3099312736 cites W2952564979 @default.
W3099312736 cites W2964548871 @default.
W3099312736 cites W2985584498 @default.
W3099312736 cites W3098710637 @default.
W3099312736 cites W4247921280 @default.
W3099312736 cites W653188449 @default.
W3099312736 cites W948907462 @default.
W3099312736 doi "https://doi.org/10.1007/s11242-020-01462-5" @default.
W3099312736 hasPublicationYear "2020" @default.
W3099312736 type Work @default.
W3099312736 sameAs 3099312736 @default.