SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4200204593> ?p ?o ?g. }

Showing items 1 to 100 of ±112 with 100 items per page.

W4200204593 endingPage "107439" @default.
W4200204593 startingPage "107439" @default.
W4200204593 abstract "Water freezing in electrostatic field (EF) exists widely in industry and daily life. In this study, we visualized the freezing behavior of distilled droplet on the superhydrophobic aluminum-surface with varied surface temperatures and EF strengths. It is found that the presence of EF, either upward or downward, can promote the nucleation of water even on the superhydrophobic surfaces. Nucleation is more prominent in the upward EF than in the downward EF provided the same field strength. Stronger EF contributes to shorter freezing-delay time and thus accelerate the overall freezing, although the freezing time becomes longer in stronger EF. Particularly, the interflow of the freezing droplet in EFs was exploited by micro-particle image velocimetry (μPIV). The average velocity of the internal flow was observed to increase with larger EF, implying the intensified internal cooling of water. This work unravels the underlying mechanism of the accelerated freezing behavior of water droplet in EFs and provides new insights into the modern applications in anti-icing and refrigeration industry." @default.
W4200204593 created "2021-12-31" @default.
W4200204593 creator A5000732070 @default.
W4200204593 creator A5005774255 @default.
W4200204593 creator A5036055396 @default.
W4200204593 creator A5056247328 @default.
W4200204593 creator A5056532764 @default.
W4200204593 creator A5057055806 @default.
W4200204593 creator A5063514061 @default.
W4200204593 date "2022-04-01" @default.
W4200204593 modified "2023-10-11" @default.
W4200204593 title "Fast-freezing behavior of water droplet on subcooled superhydrophobic surface in DC electrostatic field" @default.
W4200204593 cites W1414806932 @default.
W4200204593 cites W1587101236 @default.
W4200204593 cites W1979528348 @default.
W4200204593 cites W1999255066 @default.
W4200204593 cites W2001539726 @default.
W4200204593 cites W2020109314 @default.
W4200204593 cites W2022807291 @default.
W4200204593 cites W2025279101 @default.
W4200204593 cites W2032974486 @default.
W4200204593 cites W2034262161 @default.
W4200204593 cites W2037479650 @default.
W4200204593 cites W2041575674 @default.
W4200204593 cites W2045071200 @default.
W4200204593 cites W2045814053 @default.
W4200204593 cites W2048199503 @default.
W4200204593 cites W2062859605 @default.
W4200204593 cites W2071055146 @default.
W4200204593 cites W2074087563 @default.
W4200204593 cites W2082793540 @default.
W4200204593 cites W2087147565 @default.
W4200204593 cites W2093674996 @default.
W4200204593 cites W2094404631 @default.
W4200204593 cites W2099483752 @default.
W4200204593 cites W2131980091 @default.
W4200204593 cites W2141838187 @default.
W4200204593 cites W2171724453 @default.
W4200204593 cites W2225923242 @default.
W4200204593 cites W2284611616 @default.
W4200204593 cites W2320509329 @default.
W4200204593 cites W2323662044 @default.
W4200204593 cites W2328175560 @default.
W4200204593 cites W2333120143 @default.
W4200204593 cites W2430274953 @default.
W4200204593 cites W2497171701 @default.
W4200204593 cites W2529772022 @default.
W4200204593 cites W2724296100 @default.
W4200204593 cites W2746058715 @default.
W4200204593 cites W2771584185 @default.
W4200204593 cites W2794434327 @default.
W4200204593 cites W2808234516 @default.
W4200204593 cites W2888987173 @default.
W4200204593 cites W2914101630 @default.
W4200204593 cites W2943503503 @default.
W4200204593 cites W2953220013 @default.
W4200204593 cites W2995668496 @default.
W4200204593 cites W3040665199 @default.
W4200204593 cites W3086513041 @default.
W4200204593 cites W3150340575 @default.
W4200204593 cites W4237380750 @default.
W4200204593 doi "https://doi.org/10.1016/j.ijthermalsci.2021.107439" @default.
W4200204593 hasPublicationYear "2022" @default.
W4200204593 type Work @default.
W4200204593 citedByCount "5" @default.
W4200204593 countsByYear W42002045932022 @default.
W4200204593 countsByYear W42002045932023 @default.
W4200204593 crossrefType "journal-article" @default.
W4200204593 hasAuthorship W4200204593A5000732070 @default.
W4200204593 hasAuthorship W4200204593A5005774255 @default.
W4200204593 hasAuthorship W4200204593A5036055396 @default.
W4200204593 hasAuthorship W4200204593A5056247328 @default.
W4200204593 hasAuthorship W4200204593A5056532764 @default.
W4200204593 hasAuthorship W4200204593A5057055806 @default.
W4200204593 hasAuthorship W4200204593A5063514061 @default.
W4200204593 hasConcept C115139850 @default.
W4200204593 hasConcept C121332964 @default.
W4200204593 hasConcept C157777378 @default.
W4200204593 hasConcept C159467904 @default.
W4200204593 hasConcept C185592680 @default.
W4200204593 hasConcept C192562407 @default.
W4200204593 hasConcept C57879066 @default.
W4200204593 hasConcept C61048295 @default.
W4200204593 hasConcept C97355855 @default.
W4200204593 hasConceptScore W4200204593C115139850 @default.
W4200204593 hasConceptScore W4200204593C121332964 @default.
W4200204593 hasConceptScore W4200204593C157777378 @default.
W4200204593 hasConceptScore W4200204593C159467904 @default.
W4200204593 hasConceptScore W4200204593C185592680 @default.
W4200204593 hasConceptScore W4200204593C192562407 @default.
W4200204593 hasConceptScore W4200204593C57879066 @default.
W4200204593 hasConceptScore W4200204593C61048295 @default.
W4200204593 hasConceptScore W4200204593C97355855 @default.
W4200204593 hasLocation W42002045931 @default.
W4200204593 hasOpenAccess W4200204593 @default.
W4200204593 hasPrimaryLocation W42002045931 @default.
W4200204593 hasRelatedWork W1994160854 @default.
W4200204593 hasRelatedWork W1997578918 @default.