SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3028331382> ?p ?o ?g. }

Showing items 1 to 100 of ±114 with 100 items per page.

W3028331382 endingPage "119836" @default.
W3028331382 startingPage "119836" @default.
W3028331382 abstract "Abstract In the study, interconnected microchannels with reentrant cavities (IMRCs) were developed by using facile and effective microfabrication methods to enhance the pool boiling performance in industrial applications for high heat-flux electronics cooling. The pool boiling heat transfer characteristics of IMRCs were investigated in saturated and subcooled boiling with deionized water as the working fluid at atmospheric pressure. The effects of structural parameters on heat transfer were examined, and the heat transfer enhancement of IMRC was compared to that of other modifications in extant studies. The experimental results indicated that IMRCs exhibit a substantial improvement in pool boiling heat transfer when compared with smooth copper plates (SCPs). The interconnected pores and reentrant cavities significantly affected the heat transfer enhancement, which resulted in the optimum first ploughing–extrusion (P/E) pitches. IMRCs are comparable with modifications in other studies and exhibit significant industrial application prospects for high-power microelectronics cooling." @default.
W3028331382 created "2020-05-29" @default.
W3028331382 creator A5015200196 @default.
W3028331382 creator A5021541661 @default.
W3028331382 creator A5064704385 @default.
W3028331382 creator A5082388713 @default.
W3028331382 creator A5085545399 @default.
W3028331382 date "2020-08-01" @default.
W3028331382 modified "2023-10-06" @default.
W3028331382 title "Pool boiling enhancement of novel interconnected microchannels with reentrant cavities for high-power electronics cooling" @default.
W3028331382 cites W1815943658 @default.
W3028331382 cites W1843860436 @default.
W3028331382 cites W1966539218 @default.
W3028331382 cites W1970287424 @default.
W3028331382 cites W1976377918 @default.
W3028331382 cites W1990115499 @default.
W3028331382 cites W1990130502 @default.
W3028331382 cites W1999660589 @default.
W3028331382 cites W2015783229 @default.
W3028331382 cites W2016017169 @default.
W3028331382 cites W2023685207 @default.
W3028331382 cites W2027645294 @default.
W3028331382 cites W2027933112 @default.
W3028331382 cites W2037924066 @default.
W3028331382 cites W2046183786 @default.
W3028331382 cites W2047127869 @default.
W3028331382 cites W2048238498 @default.
W3028331382 cites W2052431663 @default.
W3028331382 cites W2063798257 @default.
W3028331382 cites W2082720267 @default.
W3028331382 cites W2083038142 @default.
W3028331382 cites W2112588978 @default.
W3028331382 cites W2134524792 @default.
W3028331382 cites W2146705691 @default.
W3028331382 cites W2155347088 @default.
W3028331382 cites W2174783318 @default.
W3028331382 cites W2221766800 @default.
W3028331382 cites W2338616394 @default.
W3028331382 cites W2399754006 @default.
W3028331382 cites W2468676118 @default.
W3028331382 cites W2521014766 @default.
W3028331382 cites W2524621890 @default.
W3028331382 cites W2555289824 @default.
W3028331382 cites W2610501400 @default.
W3028331382 cites W2751404228 @default.
W3028331382 cites W2752407790 @default.
W3028331382 cites W2767309379 @default.
W3028331382 cites W2799946716 @default.
W3028331382 cites W2890511330 @default.
W3028331382 cites W2900902291 @default.
W3028331382 cites W2908176740 @default.
W3028331382 doi "https://doi.org/10.1016/j.ijheatmasstransfer.2020.119836" @default.
W3028331382 hasPublicationYear "2020" @default.
W3028331382 type Work @default.
W3028331382 sameAs 3028331382 @default.
W3028331382 citedByCount "32" @default.
W3028331382 countsByYear W30283313822021 @default.
W3028331382 countsByYear W30283313822022 @default.
W3028331382 countsByYear W30283313822023 @default.
W3028331382 crossrefType "journal-article" @default.
W3028331382 hasAuthorship W3028331382A5015200196 @default.
W3028331382 hasAuthorship W3028331382A5021541661 @default.
W3028331382 hasAuthorship W3028331382A5064704385 @default.
W3028331382 hasAuthorship W3028331382A5082388713 @default.
W3028331382 hasAuthorship W3028331382A5085545399 @default.
W3028331382 hasConcept C119599485 @default.
W3028331382 hasConcept C121332964 @default.
W3028331382 hasConcept C127413603 @default.
W3028331382 hasConcept C138331895 @default.
W3028331382 hasConcept C157777378 @default.
W3028331382 hasConcept C161406801 @default.
W3028331382 hasConcept C163258240 @default.
W3028331382 hasConcept C178911571 @default.
W3028331382 hasConcept C192562407 @default.
W3028331382 hasConcept C26873012 @default.
W3028331382 hasConcept C2778952998 @default.
W3028331382 hasConcept C50517652 @default.
W3028331382 hasConcept C57879066 @default.
W3028331382 hasConcept C97355855 @default.
W3028331382 hasConceptScore W3028331382C119599485 @default.
W3028331382 hasConceptScore W3028331382C121332964 @default.
W3028331382 hasConceptScore W3028331382C127413603 @default.
W3028331382 hasConceptScore W3028331382C138331895 @default.
W3028331382 hasConceptScore W3028331382C157777378 @default.
W3028331382 hasConceptScore W3028331382C161406801 @default.
W3028331382 hasConceptScore W3028331382C163258240 @default.
W3028331382 hasConceptScore W3028331382C178911571 @default.
W3028331382 hasConceptScore W3028331382C192562407 @default.
W3028331382 hasConceptScore W3028331382C26873012 @default.
W3028331382 hasConceptScore W3028331382C2778952998 @default.
W3028331382 hasConceptScore W3028331382C50517652 @default.
W3028331382 hasConceptScore W3028331382C57879066 @default.
W3028331382 hasConceptScore W3028331382C97355855 @default.
W3028331382 hasFunder F4320321001 @default.
W3028331382 hasLocation W30283313821 @default.
W3028331382 hasOpenAccess W3028331382 @default.
W3028331382 hasPrimaryLocation W30283313821 @default.
W3028331382 hasRelatedWork W1507378872 @default.