SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4311989412> ?p ?o ?g. }

Showing items 1 to 95 of 95 with 100 items per page.

W4311989412 endingPage "119813" @default.
W4311989412 startingPage "119813" @default.
W4311989412 abstract "The rapid rise in temperature of perovskite tandem solar cells under a high concentration ratio has introduced a huge decline in the efficiency of photoelectric conversion. To solve this problem, an array finned channel coupled jet heat sink has been designed. The ratio of height to diameter of the jet (H/d) on heat transfer, channel aspect ratio, pumping power, and other factors on heat transfer and flow characteristics are examined by the computational fluid dynamics and experimental methods. The results suggest that the trough micro-jet heat sink demonstrates better performance than the smooth cooled surface heat sink. The smaller the H/d, the better the heat transfer performance, and the larger the jet Reynolds number, the better the heat exchange effect. The key influence factor of pressure loss is the heat sink structure. With the increasing pumping power, the overall thermal resistance decreases, and the trend tends to be flatter when the pumping power exceeds 0.15 W. For constant Rea, the larger the input heat flux Q, the larger the energy efficiency ratio and the higher the utilization rate of energy." @default.
W4311989412 created "2023-01-03" @default.
W4311989412 creator A5000147332 @default.
W4311989412 creator A5002787788 @default.
W4311989412 creator A5002993923 @default.
W4311989412 creator A5027438517 @default.
W4311989412 creator A5046161763 @default.
W4311989412 creator A5081064293 @default.
W4311989412 creator A5082682695 @default.
W4311989412 creator A5085681282 @default.
W4311989412 date "2023-02-01" @default.
W4311989412 modified "2023-09-27" @default.
W4311989412 title "Flow and heat transfer performance of array finned channel coupled jet heat sink" @default.
W4311989412 cites W1482699530 @default.
W4311989412 cites W1546917527 @default.
W4311989412 cites W1971497080 @default.
W4311989412 cites W1974164591 @default.
W4311989412 cites W1975970479 @default.
W4311989412 cites W1981024323 @default.
W4311989412 cites W1982628409 @default.
W4311989412 cites W2035594157 @default.
W4311989412 cites W2041418322 @default.
W4311989412 cites W2055272620 @default.
W4311989412 cites W2069805030 @default.
W4311989412 cites W2073883230 @default.
W4311989412 cites W2077993436 @default.
W4311989412 cites W2100382078 @default.
W4311989412 cites W2159761487 @default.
W4311989412 cites W2582669072 @default.
W4311989412 cites W2615465115 @default.
W4311989412 cites W2782112730 @default.
W4311989412 cites W2782325717 @default.
W4311989412 cites W2791982025 @default.
W4311989412 cites W2900034456 @default.
W4311989412 cites W2908123904 @default.
W4311989412 cites W3031602337 @default.
W4311989412 cites W3036052871 @default.
W4311989412 cites W848813094 @default.
W4311989412 doi "https://doi.org/10.1016/j.applthermaleng.2022.119813" @default.
W4311989412 hasPublicationYear "2023" @default.
W4311989412 type Work @default.
W4311989412 citedByCount "3" @default.
W4311989412 countsByYear W43119894122023 @default.
W4311989412 crossrefType "journal-article" @default.
W4311989412 hasAuthorship W4311989412A5000147332 @default.
W4311989412 hasAuthorship W4311989412A5002787788 @default.
W4311989412 hasAuthorship W4311989412A5002993923 @default.
W4311989412 hasAuthorship W4311989412A5027438517 @default.
W4311989412 hasAuthorship W4311989412A5046161763 @default.
W4311989412 hasAuthorship W4311989412A5081064293 @default.
W4311989412 hasAuthorship W4311989412A5082682695 @default.
W4311989412 hasAuthorship W4311989412A5085681282 @default.
W4311989412 hasConcept C121332964 @default.
W4311989412 hasConcept C137693562 @default.
W4311989412 hasConcept C159188206 @default.
W4311989412 hasConcept C182748727 @default.
W4311989412 hasConcept C186937647 @default.
W4311989412 hasConcept C192562407 @default.
W4311989412 hasConcept C196558001 @default.
W4311989412 hasConcept C29700514 @default.
W4311989412 hasConcept C48632124 @default.
W4311989412 hasConcept C50517652 @default.
W4311989412 hasConcept C57879066 @default.
W4311989412 hasConcept C97355855 @default.
W4311989412 hasConceptScore W4311989412C121332964 @default.
W4311989412 hasConceptScore W4311989412C137693562 @default.
W4311989412 hasConceptScore W4311989412C159188206 @default.
W4311989412 hasConceptScore W4311989412C182748727 @default.
W4311989412 hasConceptScore W4311989412C186937647 @default.
W4311989412 hasConceptScore W4311989412C192562407 @default.
W4311989412 hasConceptScore W4311989412C196558001 @default.
W4311989412 hasConceptScore W4311989412C29700514 @default.
W4311989412 hasConceptScore W4311989412C48632124 @default.
W4311989412 hasConceptScore W4311989412C50517652 @default.
W4311989412 hasConceptScore W4311989412C57879066 @default.
W4311989412 hasConceptScore W4311989412C97355855 @default.
W4311989412 hasLocation W43119894121 @default.
W4311989412 hasOpenAccess W4311989412 @default.
W4311989412 hasPrimaryLocation W43119894121 @default.
W4311989412 hasRelatedWork W2018453247 @default.
W4311989412 hasRelatedWork W2115443918 @default.
W4311989412 hasRelatedWork W226508478 @default.
W4311989412 hasRelatedWork W2355458725 @default.
W4311989412 hasRelatedWork W2398242751 @default.
W4311989412 hasRelatedWork W2797447523 @default.
W4311989412 hasRelatedWork W3132898670 @default.
W4311989412 hasRelatedWork W3197499101 @default.
W4311989412 hasRelatedWork W3214573246 @default.
W4311989412 hasRelatedWork W4285519058 @default.
W4311989412 hasVolume "221" @default.
W4311989412 isParatext "false" @default.
W4311989412 isRetracted "false" @default.
W4311989412 workType "article" @default.