SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2570833770> ?p ?o ?g. }

Showing items 1 to 100 of ±111 with 100 items per page.

W2570833770 endingPage "1114" @default.
W2570833770 startingPage "1103" @default.
W2570833770 abstract "Evaporation in a thin film induces pronounced temperature gradient and surface tension gradient along the liquid-vapor interface and in turn engenders thermocapillary flow. This study aims to investigate the fluid flow characteristics attributed to the thermocapillarity in an evaporating thin liquid film of polar and nonpolar liquids. A numerical steady-flow model is derived based on the fundamental principles of fluid flow and heat transfer by applying the long-wave evolution technique. To scrutinize the underlying physical transport phenomena associated with the significance of thermocapillary effect in an evaporating thin liquid film, we investigate the hydrodynamic characteristics of thermocapillary convection which is typically characterized by the recirculation flow patterns. The two-dimensional recirculation flow patterns in different excess-temperature regimes are analyzed and a critical turning point at where the flow is reversed due to the thermocapillary action can be identified. Compared to other working fluids, water depicts a unique thermocapillary flow characteristic where its flow lines manifests in the form of swirls along the liquid-vapor interface. The normal and the shear stress distributions further provide a clearer picture on the strength of thermocapillarity to identify the manifestation of thermocapillary flow. The analysis of flow patterns and hydrodynamic behaviors of evaporating thin liquid films provide essential insights in discerning the occurrence of thermocapillary flow as well as the significance of thermocapillarity in polar and nonpolar liquids." @default.
W2570833770 created "2017-01-13" @default.
W2570833770 creator A5047376642 @default.
W2570833770 creator A5049659944 @default.
W2570833770 creator A5087536324 @default.
W2570833770 date "2017-05-01" @default.
W2570833770 modified "2023-10-07" @default.
W2570833770 title "A hydrodynamic analysis of thermocapillary convection in evaporating thin liquid films" @default.
W2570833770 cites W1971723555 @default.
W2570833770 cites W1977561875 @default.
W2570833770 cites W1978859269 @default.
W2570833770 cites W1987227932 @default.
W2570833770 cites W1991643572 @default.
W2570833770 cites W1994894561 @default.
W2570833770 cites W1998437020 @default.
W2570833770 cites W2011863650 @default.
W2570833770 cites W2012109124 @default.
W2570833770 cites W2020413428 @default.
W2570833770 cites W2024483257 @default.
W2570833770 cites W2027831837 @default.
W2570833770 cites W2030811094 @default.
W2570833770 cites W2032362526 @default.
W2570833770 cites W2033948125 @default.
W2570833770 cites W2036383469 @default.
W2570833770 cites W2036540993 @default.
W2570833770 cites W2036624129 @default.
W2570833770 cites W2040001948 @default.
W2570833770 cites W2043932558 @default.
W2570833770 cites W2046770317 @default.
W2570833770 cites W2047784926 @default.
W2570833770 cites W2048001567 @default.
W2570833770 cites W2050616547 @default.
W2570833770 cites W2051130006 @default.
W2570833770 cites W2052437886 @default.
W2570833770 cites W2057453890 @default.
W2570833770 cites W2060220362 @default.
W2570833770 cites W2061204365 @default.
W2570833770 cites W2063931389 @default.
W2570833770 cites W2081738586 @default.
W2570833770 cites W2083146322 @default.
W2570833770 cites W2089836159 @default.
W2570833770 cites W2102925412 @default.
W2570833770 cites W2110728813 @default.
W2570833770 cites W2117915059 @default.
W2570833770 cites W2128981294 @default.
W2570833770 cites W2129824005 @default.
W2570833770 cites W2135320254 @default.
W2570833770 cites W2136666991 @default.
W2570833770 cites W2153165284 @default.
W2570833770 cites W2295435887 @default.
W2570833770 cites W2316228117 @default.
W2570833770 cites W3105367226 @default.
W2570833770 cites W324066568 @default.
W2570833770 doi "https://doi.org/10.1016/j.ijheatmasstransfer.2016.12.111" @default.
W2570833770 hasPublicationYear "2017" @default.
W2570833770 type Work @default.
W2570833770 sameAs 2570833770 @default.
W2570833770 citedByCount "9" @default.
W2570833770 countsByYear W25708337702017 @default.
W2570833770 countsByYear W25708337702018 @default.
W2570833770 countsByYear W25708337702019 @default.
W2570833770 countsByYear W25708337702020 @default.
W2570833770 countsByYear W25708337702022 @default.
W2570833770 countsByYear W25708337702023 @default.
W2570833770 crossrefType "journal-article" @default.
W2570833770 hasAuthorship W2570833770A5047376642 @default.
W2570833770 hasAuthorship W2570833770A5049659944 @default.
W2570833770 hasAuthorship W2570833770A5087536324 @default.
W2570833770 hasConcept C10899652 @default.
W2570833770 hasConcept C121332964 @default.
W2570833770 hasConcept C137109543 @default.
W2570833770 hasConcept C153294291 @default.
W2570833770 hasConcept C192562407 @default.
W2570833770 hasConcept C38349280 @default.
W2570833770 hasConcept C57879066 @default.
W2570833770 hasConcept C61441594 @default.
W2570833770 hasConcept C63219958 @default.
W2570833770 hasConcept C8892853 @default.
W2570833770 hasConcept C97355855 @default.
W2570833770 hasConceptScore W2570833770C10899652 @default.
W2570833770 hasConceptScore W2570833770C121332964 @default.
W2570833770 hasConceptScore W2570833770C137109543 @default.
W2570833770 hasConceptScore W2570833770C153294291 @default.
W2570833770 hasConceptScore W2570833770C192562407 @default.
W2570833770 hasConceptScore W2570833770C38349280 @default.
W2570833770 hasConceptScore W2570833770C57879066 @default.
W2570833770 hasConceptScore W2570833770C61441594 @default.
W2570833770 hasConceptScore W2570833770C63219958 @default.
W2570833770 hasConceptScore W2570833770C8892853 @default.
W2570833770 hasConceptScore W2570833770C97355855 @default.
W2570833770 hasFunder F4320321709 @default.
W2570833770 hasLocation W25708337701 @default.
W2570833770 hasOpenAccess W2570833770 @default.
W2570833770 hasPrimaryLocation W25708337701 @default.
W2570833770 hasRelatedWork W2005559035 @default.
W2570833770 hasRelatedWork W2027541428 @default.
W2570833770 hasRelatedWork W2036716530 @default.
W2570833770 hasRelatedWork W2056097830 @default.