SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4381191736> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W4381191736 endingPage "9109" @default.
W4381191736 startingPage "9102" @default.
W4381191736 abstract "Liquid permeability is a key petrophysical parameter that quantifies the ability of a liquid to flow through porous rock/soil and can be used in determining the efficiency of many subsurface processes, including enhanced hydrocarbon recovery, groundwater transport, carbon dioxide geostorage, underground hydrogen storage, etc. However, it is time-consuming (usually >16–240 h) and challenging to measure the liquid permeability for tight/shale rocks, particularly when the permeability is 100 nD or lower. The objective of this study is to develop a rapid and simple approach to determine liquid (brine or oil) permeability in tight siltstones/shales. Specifically, the developed method is based on the combination of one-dimensional (1D) vacuum imbibition experiments in tight/shale core plugs and a modified Lucas–Washburn model. For our proof-of-concept study, the results have demonstrated that (1) only 44–116 h are required to determine the liquid permeability (98–608 nD) for the analyzed samples from the Montney and Yanchang Formations; and (2) the acquired brine permeability was 28.3–28.5% lower than the slip-corrected nitrogen (N2) permeability derived from the pulse-decay permeability tests. This is the first attempt to determine the absolute permeability of a liquid according to a 1D vacuum imbibition experiment and theory. This study provides a promising technique for the fast characterization of ultratight formation permeability of around 100 nD." @default.
W4381191736 created "2023-06-20" @default.
W4381191736 creator A5008414472 @default.
W4381191736 creator A5011286576 @default.
W4381191736 creator A5046441953 @default.
W4381191736 creator A5051602136 @default.
W4381191736 creator A5057024880 @default.
W4381191736 creator A5067196673 @default.
W4381191736 creator A5083886577 @default.
W4381191736 date "2023-06-19" @default.
W4381191736 modified "2023-10-12" @default.
W4381191736 title "Liquid Permeability Determination from Vacuum Imbibition in Tight/Shale Core Plugs" @default.
W4381191736 cites W1482423069 @default.
W4381191736 cites W1533563182 @default.
W4381191736 cites W1752061138 @default.
W4381191736 cites W1820512088 @default.
W4381191736 cites W1857552492 @default.
W4381191736 cites W1979942119 @default.
W4381191736 cites W1990424725 @default.
W4381191736 cites W1998623298 @default.
W4381191736 cites W2012842247 @default.
W4381191736 cites W2018122198 @default.
W4381191736 cites W2018407264 @default.
W4381191736 cites W2027065708 @default.
W4381191736 cites W2066237496 @default.
W4381191736 cites W2068648992 @default.
W4381191736 cites W2069384407 @default.
W4381191736 cites W2093445429 @default.
W4381191736 cites W2101974313 @default.
W4381191736 cites W2121197030 @default.
W4381191736 cites W2137702931 @default.
W4381191736 cites W2143912906 @default.
W4381191736 cites W2160502327 @default.
W4381191736 cites W2170139060 @default.
W4381191736 cites W2185487814 @default.
W4381191736 cites W2312777321 @default.
W4381191736 cites W2335341730 @default.
W4381191736 cites W2346647106 @default.
W4381191736 cites W2551195070 @default.
W4381191736 cites W2610545603 @default.
W4381191736 cites W2678089383 @default.
W4381191736 cites W2788521973 @default.
W4381191736 cites W2796806014 @default.
W4381191736 cites W2894046213 @default.
W4381191736 cites W2898263590 @default.
W4381191736 cites W2903259290 @default.
W4381191736 cites W2945140305 @default.
W4381191736 cites W2948740339 @default.
W4381191736 cites W2968636807 @default.
W4381191736 cites W2980119136 @default.
W4381191736 cites W2980405940 @default.
W4381191736 cites W2984601425 @default.
W4381191736 cites W2996011489 @default.
W4381191736 cites W3001114797 @default.
W4381191736 cites W3023959747 @default.
W4381191736 cites W3084870538 @default.
W4381191736 cites W3088037386 @default.
W4381191736 cites W3095271422 @default.
W4381191736 cites W3096621701 @default.
W4381191736 cites W3117273453 @default.
W4381191736 cites W3134296856 @default.
W4381191736 cites W3145595860 @default.
W4381191736 cites W3173855053 @default.
W4381191736 cites W3188699757 @default.
W4381191736 cites W3189534250 @default.
W4381191736 cites W3196800942 @default.
W4381191736 cites W3203007075 @default.
W4381191736 cites W3207435752 @default.
W4381191736 cites W4229028126 @default.
W4381191736 cites W4283009340 @default.
W4381191736 cites W4283121464 @default.
W4381191736 cites W4286432800 @default.
W4381191736 cites W4308487892 @default.
W4381191736 cites W4312181044 @default.
W4381191736 cites W4323655323 @default.
W4381191736 cites W4366608322 @default.
W4381191736 cites W595626121 @default.
W4381191736 doi "https://doi.org/10.1021/acs.energyfuels.3c00876" @default.
W4381191736 hasPublicationYear "2023" @default.
W4381191736 type Work @default.
W4381191736 citedByCount "0" @default.
W4381191736 crossrefType "journal-article" @default.
W4381191736 hasAuthorship W4381191736A5008414472 @default.
W4381191736 hasAuthorship W4381191736A5011286576 @default.
W4381191736 hasAuthorship W4381191736A5046441953 @default.
W4381191736 hasAuthorship W4381191736A5051602136 @default.
W4381191736 hasAuthorship W4381191736A5057024880 @default.
W4381191736 hasAuthorship W4381191736A5067196673 @default.
W4381191736 hasAuthorship W4381191736A5083886577 @default.
W4381191736 hasConcept C100701293 @default.
W4381191736 hasConcept C113378726 @default.
W4381191736 hasConcept C120882062 @default.
W4381191736 hasConcept C121332964 @default.
W4381191736 hasConcept C127313418 @default.
W4381191736 hasConcept C151730666 @default.
W4381191736 hasConcept C153127940 @default.
W4381191736 hasConcept C185544564 @default.
W4381191736 hasConcept C185592680 @default.