SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3209503247> ?p ?o ?g. }

Showing items 1 to 100 of ±141 with 100 items per page.

W3209503247 abstract "Abstract Soils and other geologic porous media often have contrasting grain size layers associated with a grain size transition zone between layers. However, this transition zone is generally simplified to a plane of zero thickness for modeling assumption, and its influence has always been neglected in previous studies. In this study, an approach combining a deposition process and a random packing process was developed to generate 3D porous media without and with consideration of the transition zone. The direct numerical models for solving the flow and concentration fields were implemented to investigate the influence of the grain size transition on flow and solute transport. Our results showed that although the transition zone occupied 13.6% of the entire layered porous medium, it had little influence on the distribution of flow velocity at the scale of the entire layered porous medium. However, the transition zone had a significant influence on the local flow field, which was associated with the increased spatial variability of velocity and the varied distribution of flow velocity. This varied local flow field could increase the solute residence time and delay the breakthrough time for solute transport. Although using both the advection-dispersion equation (ADE) and the mobile and immobile (MIM) models to fit the breakthrough curves (BTCs) for solute transport through layered porous media resulted in trivial errors, the ADE model failed to capture the influence induced by the local flow field, especially the influence of the transition zone. In contrast, the MIM model was shown to be able to capture the influence of the transition on solute transport. It was found that the mass transfer rate α, a parameter of the MIM model, was significantly improved by the presence of the transition zone, while it decreased as the transition zone fraction increased. Our study emphasized that the transition zone can vary the local flow field at the pore scale, while it has little influence on the hydraulic properties (e.g., hydraulic conductivity) of the macroscale flow field. However, the local flow field varied by the transition zone has a significant influence on solute transport." @default.
W3209503247 created "2021-11-08" @default.
W3209503247 creator A5005692562 @default.
W3209503247 creator A5017498516 @default.
W3209503247 creator A5019936018 @default.
W3209503247 creator A5040417498 @default.
W3209503247 creator A5064195548 @default.
W3209503247 creator A5085662691 @default.
W3209503247 date "2021-10-26" @default.
W3209503247 modified "2023-10-18" @default.
W3209503247 title "Influence of Grain Size Transition on Flow and Solute Transport through 3D Layered Porous Media" @default.
W3209503247 cites W103851308 @default.
W3209503247 cites W1488272194 @default.
W3209503247 cites W1571501235 @default.
W3209503247 cites W1592644903 @default.
W3209503247 cites W1829080853 @default.
W3209503247 cites W1963713322 @default.
W3209503247 cites W1977745027 @default.
W3209503247 cites W1988881837 @default.
W3209503247 cites W1994321405 @default.
W3209503247 cites W2003972535 @default.
W3209503247 cites W2008981917 @default.
W3209503247 cites W2027715956 @default.
W3209503247 cites W2044008495 @default.
W3209503247 cites W2047242270 @default.
W3209503247 cites W2049407633 @default.
W3209503247 cites W2049569859 @default.
W3209503247 cites W2050207962 @default.
W3209503247 cites W2056771643 @default.
W3209503247 cites W2057138816 @default.
W3209503247 cites W2065814297 @default.
W3209503247 cites W2073775990 @default.
W3209503247 cites W2075342653 @default.
W3209503247 cites W2077162192 @default.
W3209503247 cites W2094592834 @default.
W3209503247 cites W2097864503 @default.
W3209503247 cites W2103794064 @default.
W3209503247 cites W2105172064 @default.
W3209503247 cites W2113893519 @default.
W3209503247 cites W2138534521 @default.
W3209503247 cites W2144027984 @default.
W3209503247 cites W2150920000 @default.
W3209503247 cites W2167354362 @default.
W3209503247 cites W2176338862 @default.
W3209503247 cites W2293856635 @default.
W3209503247 cites W2423922494 @default.
W3209503247 cites W2466616368 @default.
W3209503247 cites W2537544091 @default.
W3209503247 cites W2569281406 @default.
W3209503247 cites W2576651517 @default.
W3209503247 cites W2606797548 @default.
W3209503247 cites W2763097094 @default.
W3209503247 cites W2771302112 @default.
W3209503247 cites W2773075090 @default.
W3209503247 cites W2789556449 @default.
W3209503247 cites W2790977583 @default.
W3209503247 cites W2791923628 @default.
W3209503247 cites W2793675927 @default.
W3209503247 cites W2794011047 @default.
W3209503247 cites W2892171904 @default.
W3209503247 cites W2907863050 @default.
W3209503247 cites W2912719241 @default.
W3209503247 cites W2928695976 @default.
W3209503247 cites W2933851065 @default.
W3209503247 cites W2948932047 @default.
W3209503247 cites W2953736430 @default.
W3209503247 cites W2988795234 @default.
W3209503247 cites W3013687688 @default.
W3209503247 cites W3185263943 @default.
W3209503247 cites W987277126 @default.
W3209503247 doi "https://doi.org/10.2113/2021/7064502" @default.
W3209503247 hasPublicationYear "2021" @default.
W3209503247 type Work @default.
W3209503247 sameAs 3209503247 @default.
W3209503247 citedByCount "2" @default.
W3209503247 countsByYear W32095032472022 @default.
W3209503247 crossrefType "journal-article" @default.
W3209503247 hasAuthorship W3209503247A5005692562 @default.
W3209503247 hasAuthorship W3209503247A5017498516 @default.
W3209503247 hasAuthorship W3209503247A5019936018 @default.
W3209503247 hasAuthorship W3209503247A5040417498 @default.
W3209503247 hasAuthorship W3209503247A5064195548 @default.
W3209503247 hasAuthorship W3209503247A5085662691 @default.
W3209503247 hasBestOaLocation W32095032471 @default.
W3209503247 hasConcept C105569014 @default.
W3209503247 hasConcept C120665830 @default.
W3209503247 hasConcept C121332964 @default.
W3209503247 hasConcept C127313418 @default.
W3209503247 hasConcept C159985019 @default.
W3209503247 hasConcept C163686574 @default.
W3209503247 hasConcept C166693061 @default.
W3209503247 hasConcept C177562468 @default.
W3209503247 hasConcept C187320778 @default.
W3209503247 hasConcept C192191005 @default.
W3209503247 hasConcept C192562407 @default.
W3209503247 hasConcept C2775913793 @default.
W3209503247 hasConcept C38349280 @default.
W3209503247 hasConcept C5072599 @default.
W3209503247 hasConcept C57879066 @default.
W3209503247 hasConcept C6648577 @default.