Titre :	Étude Numérique de la Convection Mixte dans un Canal Horizontal Contenant des Ailettes
Type de document :	texte imprimé
Auteurs :	Moussa Khentoul, Auteur ; R. Bessaih, Auteur
Editeur :	جامعة الإخوة منتوري قسنطينة
Année de publication :	2016
Importance :	131 f.
Format :	30 cm.
Note générale :	2 copies imprimées disponibles
Langues :	Français (fre)
Catégories :	Français - Anglais Génie Mécanique
Tags :	Convection mixte  Canal horizontal  Refroidissement  nanofluide  Ailettes  Mixed convection  horizontal channel  Cooling  nanofluid  fins  الحمل المزدوج  قناة أفقية  تبريد  مائع النانوي  الّزعانف
Index. décimale :	620 Génie Mécanique
Résumé :	Heat transfer is very important for good design and reliable operation of a system. Reliability and system performance are highly dependent on the operating temperature, in particular, in electronic equipment. Several cooling methods have been proposed in order to improve the heat transfer. These techniques include two: which consists in grafting blades offering a greater contact surface with the environment; and which consists of using nanofluids comprising metallic particles or carbon nanotubes. The latter is currently present the best solution. In the first part of the thesis, a numerical study of 2D laminar mixed convection in a horizontal channel with three fins nanofluid has been carried out made. The influence of Reynolds and Richardson numbers and concentration of nanoparticles (Al2O3, Cu, Ag and TiO2) dispersed in a base fluid (water), on the flow and thermal fields is presented. A computer code in Fortran, based on finite volume method was used to simulate 2D flow with heat transfer. The results indicate that the addition of nanoparticles in pure water can improve the cooling performance, in particular, low Richardson number. The influence of the solid volume fraction on increasing the heat transfer is more sensitive to higher values of Reynolds number. Although, the addition of nanofluids (TiO2 and Al 2O3) also increases heat transfer, their influence is not important for Cu-Ag-water and water. The second part is to find an optimal geometry for good cooling. Numerical calculations were carried out using the software ""FLUENT 6.3"" to simulate 3D laminar mixed convection flow in a channel containing fins with nanofluid. The effects of Reynolds number, height, and distance between the fins are presented and discussed.
Diplôme :	Doctorat
En ligne :	../theses/gmecanique/KHE6947.pdf
Format de la ressource électronique :	pdf
Permalink :	index.php?lvl=notice_display&id=10324

Étude Numérique de la Convection Mixte dans un Canal Horizontal Contenant des Ailettes [texte imprimé] / Moussa Khentoul, Auteur ; R. Bessaih, Auteur . - جامعة الإخوة منتوري قسنطينة, 2016 . - 131 f. ; 30 cm.
2 copies imprimées disponibles

Langues : Français (fre)

Catégories :	Français - Anglais Génie Mécanique
Tags :	Convection mixte  Canal horizontal  Refroidissement  nanofluide  Ailettes  Mixed convection  horizontal channel  Cooling  nanofluid  fins  الحمل المزدوج  قناة أفقية  تبريد  مائع النانوي  الّزعانف
Index. décimale :	620 Génie Mécanique
Résumé :	Heat transfer is very important for good design and reliable operation of a system. Reliability and system performance are highly dependent on the operating temperature, in particular, in electronic equipment. Several cooling methods have been proposed in order to improve the heat transfer. These techniques include two: which consists in grafting blades offering a greater contact surface with the environment; and which consists of using nanofluids comprising metallic particles or carbon nanotubes. The latter is currently present the best solution. In the first part of the thesis, a numerical study of 2D laminar mixed convection in a horizontal channel with three fins nanofluid has been carried out made. The influence of Reynolds and Richardson numbers and concentration of nanoparticles (Al2O3, Cu, Ag and TiO2) dispersed in a base fluid (water), on the flow and thermal fields is presented. A computer code in Fortran, based on finite volume method was used to simulate 2D flow with heat transfer. The results indicate that the addition of nanoparticles in pure water can improve the cooling performance, in particular, low Richardson number. The influence of the solid volume fraction on increasing the heat transfer is more sensitive to higher values of Reynolds number. Although, the addition of nanofluids (TiO2 and Al 2O3) also increases heat transfer, their influence is not important for Cu-Ag-water and water. The second part is to find an optimal geometry for good cooling. Numerical calculations were carried out using the software ""FLUENT 6.3"" to simulate 3D laminar mixed convection flow in a channel containing fins with nanofluid. The effects of Reynolds number, height, and distance between the fins are presented and discussed.
Diplôme :	Doctorat
En ligne :	../theses/gmecanique/KHE6947.pdf
Format de la ressource électronique :	pdf
Permalink :	index.php?lvl=notice_display&id=10324