SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4296905627> ?p ?o ?g. }

Showing items 1 to 100 of ±109 with 100 items per page.

W4296905627 endingPage "107942" @default.
W4296905627 startingPage "107942" @default.
W4296905627 abstract "The application of porous medium for enhancing heat transfer within parabolic trough solar system (EuroTrough-150-PTSC) is investigated. Several configurations of porous foam with step and uniform porosity are studied. The Monte Carlo Ray Tracing (MCRT) method, the surface-to-surface model, and the Darcy-Brinkman-Forchheimer model are used for heat flux profile, radiation, and the porous medium, respectively. The simulation results show that the rebuilding of the velocity field and the absence of hotspot formation on the absorber tube are achieved by using porous insert. Moreover, the usage of porous medium decreases the thermal resistance. Using porous medium leads to an increase in heat transfer and more pressure drop. If the porous foam is used in the bottom of the absorber tube, the Nusselt number can be increased 3 times as much as the clear absorber tube, but the Darcy friction factor increases by 2.2 times, so the PEC value would be above 1. Moreover, if the absorber tube is partly filled with the porous medium, it has a better performance compared to full-porous. In addition, if the foam is made of SiC, the heat transfer is achieved more effectively in comparison to bronze." @default.
W4296905627 created "2022-09-24" @default.
W4296905627 creator A5032447879 @default.
W4296905627 creator A5055362921 @default.
W4296905627 creator A5069483457 @default.
W4296905627 creator A5076511014 @default.
W4296905627 date "2023-02-01" @default.
W4296905627 modified "2023-10-16" @default.
W4296905627 title "Thermo-hydraulic analysis of EuroTrough-150 solar receiver with porous foam by using CFD and MCRT techniques" @default.
W4296905627 cites W1807137559 @default.
W4296905627 cites W1900257663 @default.
W4296905627 cites W1981045011 @default.
W4296905627 cites W1995179757 @default.
W4296905627 cites W2008560595 @default.
W4296905627 cites W2009452241 @default.
W4296905627 cites W2009722134 @default.
W4296905627 cites W2037923404 @default.
W4296905627 cites W2055700355 @default.
W4296905627 cites W2059416939 @default.
W4296905627 cites W2083434140 @default.
W4296905627 cites W2090241924 @default.
W4296905627 cites W2113990503 @default.
W4296905627 cites W2158135713 @default.
W4296905627 cites W2208540013 @default.
W4296905627 cites W2216020224 @default.
W4296905627 cites W2218689222 @default.
W4296905627 cites W2364372233 @default.
W4296905627 cites W2586135937 @default.
W4296905627 cites W2615401031 @default.
W4296905627 cites W2731191392 @default.
W4296905627 cites W2745004122 @default.
W4296905627 cites W2770345876 @default.
W4296905627 cites W2889173965 @default.
W4296905627 cites W2903077717 @default.
W4296905627 cites W2909112752 @default.
W4296905627 cites W2945317703 @default.
W4296905627 cites W2956056095 @default.
W4296905627 cites W2970181153 @default.
W4296905627 cites W2974400603 @default.
W4296905627 cites W2991297387 @default.
W4296905627 cites W3092222032 @default.
W4296905627 cites W3093106211 @default.
W4296905627 cites W3110724873 @default.
W4296905627 cites W3115213383 @default.
W4296905627 cites W3122212951 @default.
W4296905627 cites W3127264159 @default.
W4296905627 cites W3129744780 @default.
W4296905627 cites W3137975667 @default.
W4296905627 cites W3190567052 @default.
W4296905627 cites W3207728593 @default.
W4296905627 cites W3212152975 @default.
W4296905627 cites W4226262997 @default.
W4296905627 doi "https://doi.org/10.1016/j.ijthermalsci.2022.107942" @default.
W4296905627 hasPublicationYear "2023" @default.
W4296905627 type Work @default.
W4296905627 citedByCount "3" @default.
W4296905627 countsByYear W42969056272023 @default.
W4296905627 crossrefType "journal-article" @default.
W4296905627 hasAuthorship W4296905627A5032447879 @default.
W4296905627 hasAuthorship W4296905627A5055362921 @default.
W4296905627 hasAuthorship W4296905627A5069483457 @default.
W4296905627 hasAuthorship W4296905627A5076511014 @default.
W4296905627 hasConcept C105569014 @default.
W4296905627 hasConcept C114088122 @default.
W4296905627 hasConcept C120665830 @default.
W4296905627 hasConcept C121332964 @default.
W4296905627 hasConcept C121483023 @default.
W4296905627 hasConcept C130230704 @default.
W4296905627 hasConcept C159985019 @default.
W4296905627 hasConcept C182748727 @default.
W4296905627 hasConcept C192562407 @default.
W4296905627 hasConcept C196558001 @default.
W4296905627 hasConcept C50517652 @default.
W4296905627 hasConcept C57879066 @default.
W4296905627 hasConcept C6648577 @default.
W4296905627 hasConcept C82744980 @default.
W4296905627 hasConceptScore W4296905627C105569014 @default.
W4296905627 hasConceptScore W4296905627C114088122 @default.
W4296905627 hasConceptScore W4296905627C120665830 @default.
W4296905627 hasConceptScore W4296905627C121332964 @default.
W4296905627 hasConceptScore W4296905627C121483023 @default.
W4296905627 hasConceptScore W4296905627C130230704 @default.
W4296905627 hasConceptScore W4296905627C159985019 @default.
W4296905627 hasConceptScore W4296905627C182748727 @default.
W4296905627 hasConceptScore W4296905627C192562407 @default.
W4296905627 hasConceptScore W4296905627C196558001 @default.
W4296905627 hasConceptScore W4296905627C50517652 @default.
W4296905627 hasConceptScore W4296905627C57879066 @default.
W4296905627 hasConceptScore W4296905627C6648577 @default.
W4296905627 hasConceptScore W4296905627C82744980 @default.
W4296905627 hasLocation W42969056271 @default.
W4296905627 hasOpenAccess W4296905627 @default.
W4296905627 hasPrimaryLocation W42969056271 @default.
W4296905627 hasRelatedWork W1053418660 @default.
W4296905627 hasRelatedWork W1988724597 @default.
W4296905627 hasRelatedWork W1990424813 @default.
W4296905627 hasRelatedWork W2001970923 @default.
W4296905627 hasRelatedWork W2053620875 @default.