SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3134720078> ?p ?o ?g. }

Showing items 1 to 100 of ±139 with 100 items per page.

W3134720078 endingPage "126124" @default.
W3134720078 startingPage "126124" @default.
W3134720078 abstract "The present study deals with a thermal analysis of porous fins subjected to internal heat generation, convection, and radiation energy transfer considering an actual system of analysis under the moving condition of the fin. The main aspiration to carryout this analysis is to establish a correct approach to derive the governing equation for energy transfer in porous fins. The physical explanation was given to require the modification of all existing analyses of porous fins to exchange heat with the surroundings. Three types of fins, namely longitudinal, annular, and spine, have been analyzed with the common mathematical expressions. The temperature distribution in fins has been obtained by employing the differential transform method for solving a high class nonlinear governing equation for all temperature dependent design variables adopted to develop an actual case study. The present approximate analytical method has been authenticated by the numerical technique based on the finite difference method. An excellent agreement of results between these two analyses has been investigated. Unlike all the published works allied with the porous fin, the present work establishes a correct thermal analysis with the key parameter porosity. A clear demonstration has been discussed to distinguish between the solid and porous fins which can be only conjunction with the porosity. The present method of analysis is equally suited for the solid fin also considering only the zero value of porosity to convert the porous fin into a solid fin directly. An optimization study has also been carried out for the maximization of heat transfer rate for a given volume of the solid fraction of a porous fin. The optimum results indicate that under a given design condition, there is an optimum value of porosity for which the heat transfer rate attains a maximum and it is always higher than the solid fin. Therefore, the enhancement of heat transfer can be significantly done by using porous fins for a constant volume of solid or weight of a fin. Finally, the results have been presented in a direction adopted to clearly visualize the superiority of the present study over that of the existing analyses, and to exhibit a difference between solid and porous fins." @default.
W3134720078 created "2021-03-15" @default.
W3134720078 creator A5044436578 @default.
W3134720078 creator A5077448541 @default.
W3134720078 date "2021-08-01" @default.
W3134720078 modified "2023-10-18" @default.
W3134720078 title "An accurate approach for thermal analysis of porous longitudinal, spine and radial fins with all nonlinearity effects – analytical and unified assessment" @default.
W3134720078 cites W1964532325 @default.
W3134720078 cites W1967722412 @default.
W3134720078 cites W1971059327 @default.
W3134720078 cites W1977505496 @default.
W3134720078 cites W1977562526 @default.
W3134720078 cites W1995488162 @default.
W3134720078 cites W2007990465 @default.
W3134720078 cites W2009500882 @default.
W3134720078 cites W2013847485 @default.
W3134720078 cites W2021812981 @default.
W3134720078 cites W2021987411 @default.
W3134720078 cites W2021995209 @default.
W3134720078 cites W2025601900 @default.
W3134720078 cites W2026773778 @default.
W3134720078 cites W2031970373 @default.
W3134720078 cites W2039243207 @default.
W3134720078 cites W2039358210 @default.
W3134720078 cites W2042152753 @default.
W3134720078 cites W2049332317 @default.
W3134720078 cites W2057495778 @default.
W3134720078 cites W2059954703 @default.
W3134720078 cites W2061856167 @default.
W3134720078 cites W2062734353 @default.
W3134720078 cites W2064492515 @default.
W3134720078 cites W2068174199 @default.
W3134720078 cites W2071886454 @default.
W3134720078 cites W2073701521 @default.
W3134720078 cites W2077343007 @default.
W3134720078 cites W2147885737 @default.
W3134720078 cites W2155071288 @default.
W3134720078 cites W2225450659 @default.
W3134720078 cites W2228821758 @default.
W3134720078 cites W2342356177 @default.
W3134720078 cites W2397850206 @default.
W3134720078 cites W2465611241 @default.
W3134720078 cites W2528280460 @default.
W3134720078 cites W2558429686 @default.
W3134720078 cites W2588310930 @default.
W3134720078 cites W2588495619 @default.
W3134720078 cites W2592890506 @default.
W3134720078 cites W2612014082 @default.
W3134720078 cites W2615015477 @default.
W3134720078 cites W2688037200 @default.
W3134720078 cites W2728245734 @default.
W3134720078 cites W2746964795 @default.
W3134720078 cites W2765474148 @default.
W3134720078 cites W2770485413 @default.
W3134720078 cites W2778618512 @default.
W3134720078 cites W2800218523 @default.
W3134720078 cites W2888255859 @default.
W3134720078 cites W2890297734 @default.
W3134720078 cites W2890409330 @default.
W3134720078 cites W2899384807 @default.
W3134720078 cites W2907700231 @default.
W3134720078 cites W2911240218 @default.
W3134720078 cites W2913550953 @default.
W3134720078 cites W2920954125 @default.
W3134720078 cites W2921611791 @default.
W3134720078 cites W2934282800 @default.
W3134720078 cites W2942214024 @default.
W3134720078 cites W2942712852 @default.
W3134720078 cites W2958556369 @default.
W3134720078 cites W2960137683 @default.
W3134720078 cites W2984067768 @default.
W3134720078 doi "https://doi.org/10.1016/j.amc.2021.126124" @default.
W3134720078 hasPublicationYear "2021" @default.
W3134720078 type Work @default.
W3134720078 sameAs 3134720078 @default.
W3134720078 citedByCount "12" @default.
W3134720078 countsByYear W31347200782021 @default.
W3134720078 countsByYear W31347200782022 @default.
W3134720078 countsByYear W31347200782023 @default.
W3134720078 crossrefType "journal-article" @default.
W3134720078 hasAuthorship W3134720078A5044436578 @default.
W3134720078 hasAuthorship W3134720078A5077448541 @default.
W3134720078 hasConcept C105569014 @default.
W3134720078 hasConcept C107706546 @default.
W3134720078 hasConcept C10899652 @default.
W3134720078 hasConcept C121332964 @default.
W3134720078 hasConcept C134306372 @default.
W3134720078 hasConcept C158622935 @default.
W3134720078 hasConcept C159985019 @default.
W3134720078 hasConcept C18762648 @default.
W3134720078 hasConcept C192562407 @default.
W3134720078 hasConcept C33923547 @default.
W3134720078 hasConcept C48753275 @default.
W3134720078 hasConcept C50478463 @default.
W3134720078 hasConcept C50517652 @default.
W3134720078 hasConcept C57879066 @default.
W3134720078 hasConcept C62520636 @default.
W3134720078 hasConcept C6648577 @default.