Heat transfer and melting flow ofa Reiner-Philippoff fluid over a surface with Darcy-Forchheimer medium
The thermo-dynamical modeling is a powerful tool for predicting the optimal melting of heat transfer; this is because there is a good correlation between numerical and analytical heattransfers via thermodynamic predicted results. A mathematical model is constructed underflow of a non-Newtonian (Rein...
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oai:doaj.org-article:2731e326076249deb45dd7a3752f47d32021-11-18T04:48:57ZHeat transfer and melting flow ofa Reiner-Philippoff fluid over a surface with Darcy-Forchheimer medium2214-157X10.1016/j.csite.2021.101649https://doaj.org/article/2731e326076249deb45dd7a3752f47d32021-12-01T00:00:00Zhttp://www.sciencedirect.com/science/article/pii/S2214157X21008121https://doaj.org/toc/2214-157XThe thermo-dynamical modeling is a powerful tool for predicting the optimal melting of heat transfer; this is because there is a good correlation between numerical and analytical heattransfers via thermodynamic predicted results. A mathematical model is constructed underflow of a non-Newtonian (Reiner-Philippoff) fluid based on certain assumptions. Such mathematical model flow is handled by invoking similarity solutions for governing equations. The obtained system of nonlinear equations is solved numerically by utilizing fourth-fifth order Runge-Kutta-Fehlberg method. The consequences of distinguished parameters onfluid flow are analyzed in details through the plotted graphic visuals. Physical quantities are also considered numerically by tables. The claimed results reveal that the velocity profile reduce due to Forchheimer parameter and porosity parameter. The growing nature of temperature field is observed against temperature ratio parameter. The numerical values of local Nusselt number decline with radiation parameter and surface heating parameter. The obtained results presents novel role in the heat transfer phenomenon, electronic cooling, microheat pipes, electronic cooling, reaction processes, nuclear reactors etc.K. Ganesh KumarM. Gnaneswara ReddyM. Ijaz KhanFaris AlzahraniM. Imran KhanEssam Roshdy El-ZaharElsevierarticleReiner-Philippoff fluidDarcy Forchheimer analysisMelting heat transferSlip effectsEngineering (General). Civil engineering (General)TA1-2040ENCase Studies in Thermal Engineering, Vol 28, Iss , Pp 101649- (2021) |
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Reiner-Philippoff fluid Darcy Forchheimer analysis Melting heat transfer Slip effects Engineering (General). Civil engineering (General) TA1-2040 |
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Reiner-Philippoff fluid Darcy Forchheimer analysis Melting heat transfer Slip effects Engineering (General). Civil engineering (General) TA1-2040 K. Ganesh Kumar M. Gnaneswara Reddy M. Ijaz Khan Faris Alzahrani M. Imran Khan Essam Roshdy El-Zahar Heat transfer and melting flow ofa Reiner-Philippoff fluid over a surface with Darcy-Forchheimer medium |
description |
The thermo-dynamical modeling is a powerful tool for predicting the optimal melting of heat transfer; this is because there is a good correlation between numerical and analytical heattransfers via thermodynamic predicted results. A mathematical model is constructed underflow of a non-Newtonian (Reiner-Philippoff) fluid based on certain assumptions. Such mathematical model flow is handled by invoking similarity solutions for governing equations. The obtained system of nonlinear equations is solved numerically by utilizing fourth-fifth order Runge-Kutta-Fehlberg method. The consequences of distinguished parameters onfluid flow are analyzed in details through the plotted graphic visuals. Physical quantities are also considered numerically by tables. The claimed results reveal that the velocity profile reduce due to Forchheimer parameter and porosity parameter. The growing nature of temperature field is observed against temperature ratio parameter. The numerical values of local Nusselt number decline with radiation parameter and surface heating parameter. The obtained results presents novel role in the heat transfer phenomenon, electronic cooling, microheat pipes, electronic cooling, reaction processes, nuclear reactors etc. |
format |
article |
author |
K. Ganesh Kumar M. Gnaneswara Reddy M. Ijaz Khan Faris Alzahrani M. Imran Khan Essam Roshdy El-Zahar |
author_facet |
K. Ganesh Kumar M. Gnaneswara Reddy M. Ijaz Khan Faris Alzahrani M. Imran Khan Essam Roshdy El-Zahar |
author_sort |
K. Ganesh Kumar |
title |
Heat transfer and melting flow ofa Reiner-Philippoff fluid over a surface with Darcy-Forchheimer medium |
title_short |
Heat transfer and melting flow ofa Reiner-Philippoff fluid over a surface with Darcy-Forchheimer medium |
title_full |
Heat transfer and melting flow ofa Reiner-Philippoff fluid over a surface with Darcy-Forchheimer medium |
title_fullStr |
Heat transfer and melting flow ofa Reiner-Philippoff fluid over a surface with Darcy-Forchheimer medium |
title_full_unstemmed |
Heat transfer and melting flow ofa Reiner-Philippoff fluid over a surface with Darcy-Forchheimer medium |
title_sort |
heat transfer and melting flow ofa reiner-philippoff fluid over a surface with darcy-forchheimer medium |
publisher |
Elsevier |
publishDate |
2021 |
url |
https://doaj.org/article/2731e326076249deb45dd7a3752f47d3 |
work_keys_str_mv |
AT kganeshkumar heattransferandmeltingflowofareinerphilippofffluidoverasurfacewithdarcyforchheimermedium AT mgnaneswarareddy heattransferandmeltingflowofareinerphilippofffluidoverasurfacewithdarcyforchheimermedium AT mijazkhan heattransferandmeltingflowofareinerphilippofffluidoverasurfacewithdarcyforchheimermedium AT farisalzahrani heattransferandmeltingflowofareinerphilippofffluidoverasurfacewithdarcyforchheimermedium AT mimrankhan heattransferandmeltingflowofareinerphilippofffluidoverasurfacewithdarcyforchheimermedium AT essamroshdyelzahar heattransferandmeltingflowofareinerphilippofffluidoverasurfacewithdarcyforchheimermedium |
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