COMPARATIVE ANALYSIS OF HEAT TRANSFER PERFORMANCE FOR VARIOUS FIN GEOMETRIES TO PERFORM THE OPTIMUM HEAT SINK
• 2009
معلومات البحث
المؤلفون
Z. S. ABDEL-REHIM AND ASHRAF LASHINE
الكلمات المفتاحية
CFD Code, Forced Convection, Heat Sink
المجلة العلمية
Not Available
الناشر
Not Available
المجلد
Not Available
العدد
Not Available
الصفحات
16
publication.type
Local
رابط البحث
Not Available
المواد المرفقة
Not Available
الملخص
ABSTRACT
The comparative analysis of the heat transfer performances for various commonly used fin geometries is investigated in this work. Design geometries are optimized for minimizing thermal resistance at moderate laminar air velocities. The basis of comparison was chosen to be a circular array of 1mm diameter pin-fins with a 2mm pitch. The pitch-to-width ratio of the other geometries was chosen to provide equal ratios of fin area to base area. Computational fluid Dynamic (CFD) simulation is carried out on a two-dimensional computational domain bounded by planes of symmetry parallel to the flow. The air velocity was in the range of 0.5 to 5m/s. A comparison of heat transfer coefficient and pressure drop is presented. The results showed that the staggered geometries perform better than inline. At lower values of pressure drop and pumping power, elliptical fins work best. At higher values of pressure drop and pumping power, circular pin-fins offer highest performance.
The comparative analysis of the heat transfer performances for various commonly used fin geometries is investigated in this work. Design geometries are optimized for minimizing thermal resistance at moderate laminar air velocities. The basis of comparison was chosen to be a circular array of 1mm diameter pin-fins with a 2mm pitch. The pitch-to-width ratio of the other geometries was chosen to provide equal ratios of fin area to base area. Computational fluid Dynamic (CFD) simulation is carried out on a two-dimensional computational domain bounded by planes of symmetry parallel to the flow. The air velocity was in the range of 0.5 to 5m/s. A comparison of heat transfer coefficient and pressure drop is presented. The results showed that the staggered geometries perform better than inline. At lower values of pressure drop and pumping power, elliptical fins work best. At higher values of pressure drop and pumping power, circular pin-fins offer highest performance.
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