SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4293506358> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W4293506358 endingPage "106318" @default.
W4293506358 startingPage "106318" @default.
W4293506358 abstract "This paper uses numerical simulations to investigate heat transfer in a heat exchanger with porous longitudinal fins and a counter-flow double tube. To improve the heat exchanger's overall heat transfer, porous media with uniform porosity is selected in longitudinal fins. To this end, the Darcy and Forchheimer models and the k-ɛ model are used to consider porous media effects and predict the turbulent flow structure. Furthermore, the energy equation was solved using the Local Thermal Non-Equilibrium method. According to the results, it has been noticed that there is a substantial increase in heat transfer upon decreasing the porosity. However, further decreases in porosity cause a growth in the porous material's resistance against fluid flow, which pushes it outside and prevents further increases. Finally, the heat exchanger's total performance variation shows that the optimum values of the permeability and porosity are equal to 10e-6 and 0.85, respectively. The results show the highest efficiency is achieved by a heat exchanger configuration associated with 40 porous fins, where the porous volume is considered as a constant portion of the total volume." @default.
W4293506358 created "2022-08-30" @default.
W4293506358 creator A5002998312 @default.
W4293506358 creator A5042116740 @default.
W4293506358 creator A5054610672 @default.
W4293506358 creator A5072862742 @default.
W4293506358 date "2022-11-01" @default.
W4293506358 modified "2023-09-25" @default.
W4293506358 title "Optimization of porous finned heat exchanger configuration using the comprehensive performance methodology" @default.
W4293506358 cites W1053418660 @default.
W4293506358 cites W1268667610 @default.
W4293506358 cites W1806700356 @default.
W4293506358 cites W1935623664 @default.
W4293506358 cites W1966600046 @default.
W4293506358 cites W1966831100 @default.
W4293506358 cites W1968505198 @default.
W4293506358 cites W1972506548 @default.
W4293506358 cites W1973162561 @default.
W4293506358 cites W1980074033 @default.
W4293506358 cites W1982937555 @default.
W4293506358 cites W1994137643 @default.
W4293506358 cites W1994991583 @default.
W4293506358 cites W1999692858 @default.
W4293506358 cites W2000380444 @default.
W4293506358 cites W2002728487 @default.
W4293506358 cites W2006970818 @default.
W4293506358 cites W2009026870 @default.
W4293506358 cites W2012044844 @default.
W4293506358 cites W2015972300 @default.
W4293506358 cites W2016072227 @default.
W4293506358 cites W2018495262 @default.
W4293506358 cites W2035082881 @default.
W4293506358 cites W2039369721 @default.
W4293506358 cites W2048676797 @default.
W4293506358 cites W2049661438 @default.
W4293506358 cites W2055015912 @default.
W4293506358 cites W2056322862 @default.
W4293506358 cites W2066263489 @default.
W4293506358 cites W2071454883 @default.
W4293506358 cites W2077441624 @default.
W4293506358 cites W2078225288 @default.
W4293506358 cites W2083434140 @default.
W4293506358 cites W2086077377 @default.
W4293506358 cites W2088657825 @default.
W4293506358 cites W2117886739 @default.
W4293506358 cites W2117998094 @default.
W4293506358 cites W2124865431 @default.
W4293506358 cites W2177340330 @default.
W4293506358 cites W2286851149 @default.
W4293506358 cites W2354455133 @default.
W4293506358 cites W2512493486 @default.
W4293506358 cites W2529083248 @default.
W4293506358 cites W2600311576 @default.
W4293506358 cites W2614322064 @default.
W4293506358 cites W2739340483 @default.
W4293506358 cites W2757263137 @default.
W4293506358 cites W2763313055 @default.
W4293506358 cites W2900177258 @default.
W4293506358 cites W2908262084 @default.
W4293506358 cites W2913475767 @default.
W4293506358 cites W2940652499 @default.
W4293506358 cites W2958552116 @default.
W4293506358 cites W2968503701 @default.
W4293506358 cites W2969057753 @default.
W4293506358 cites W2976340001 @default.
W4293506358 cites W2979432868 @default.
W4293506358 cites W2979978310 @default.
W4293506358 cites W2985552779 @default.
W4293506358 cites W2991251587 @default.
W4293506358 cites W3000826839 @default.
W4293506358 cites W3007297381 @default.
W4293506358 cites W3011037365 @default.
W4293506358 cites W3011558381 @default.
W4293506358 cites W3033454843 @default.
W4293506358 cites W3045337047 @default.
W4293506358 cites W3116906161 @default.
W4293506358 cites W3176548207 @default.
W4293506358 cites W3212456125 @default.
W4293506358 cites W3214328836 @default.
W4293506358 cites W3214352244 @default.
W4293506358 cites W4282023535 @default.
W4293506358 doi "https://doi.org/10.1016/j.icheatmasstransfer.2022.106318" @default.
W4293506358 hasPublicationYear "2022" @default.
W4293506358 type Work @default.
W4293506358 citedByCount "2" @default.
W4293506358 countsByYear W42935063582023 @default.
W4293506358 crossrefType "journal-article" @default.
W4293506358 hasAuthorship W4293506358A5002998312 @default.
W4293506358 hasAuthorship W4293506358A5042116740 @default.
W4293506358 hasAuthorship W4293506358A5054610672 @default.
W4293506358 hasAuthorship W4293506358A5072862742 @default.
W4293506358 hasConcept C105569014 @default.
W4293506358 hasConcept C107706546 @default.
W4293506358 hasConcept C120882062 @default.
W4293506358 hasConcept C121332964 @default.
W4293506358 hasConcept C159985019 @default.
W4293506358 hasConcept C185592680 @default.
W4293506358 hasConcept C192562407 @default.