Experimental and Cfd Analysis of Heat Transfer Rate in Multi Air Jet Impingement Over A Flat Plate and Pin-Fin Heat Sink
Syed. Unees Babu1, Perumalla Vijay Kumar2, K. Lakshmi Prasad3
1SD. Unees Babu, M. Tech Student, Department of Mechanical Engineering, Lakireddy Balireddy College of Engineering, Mylavaram, India.
2P. Vijay Kumar, Professor, Department of Mechanical Engineering, Lakireddy Balireddy College of Engineering, Mylavaram, India.
3K. Lakshmi Prasad, Assistant Professor, Department of Mechanical Engineering, Lakireddy Balireddy College of Engineering, Mylavaram, India.
Manuscript received on September 21, 2020. | Revised Manuscript received on September 30, 2020. | Manuscript published on October 10, 2020. | PP: 329-337 | Volume-9 Issue-12, October 2020 | Retrieval Number: 100.1/ijitee.L79831091220 | DOI: 10.35940/ijitee.L7983.1091220
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Abstract: In this paper reports the results of investigation of heat transfer performance of in compression air jet impinging of heated surface over a flat plate & pin-fin heat sink. To mimic the computer processor of flat plate and pin fin dimensions are 120mm*75mm and pin height is 5cm and fin radius is 1cm and L/d ratios are 5,10,15respectively. By using this simulation in Ansys fluent software to perform the turbulent jet impingement on a surface. The bottom surface of the plate is supply constant heat flux and top surface of the plate is cooled by an impingement jet of air. It has two equations are used k-w model and shear stress transport to handle the turbulent jet. The result of flat plate heat sink is compare the Experimental and simulation is higher at 0.89% of experimental to compare numerical and Nusselt is higher at 3.35% of numerical to compare the experimental and heat transfer coefficient is higher at 4.51% of numerical to compare the Experimental and result of pin fin heat sink is compare the Experimental and numerical is higher at 0.23% of experimental to compare the numerical and Nusselt number is higher at 0.71% of numerical to compare the experimental and heat transfer coefficient is higher at 0.88% of numerical to compare the experimental. The effect of L/d ratios of jet impingement over a flat plate and pin fin heat sink on the heat transfer performance of the heated surface of investigated. 
Keywords:  Impingement of jet, convective heat transfer coefficient (h), target plate, thermal conductivity (k), Reynolds number and temperature range (%).
Scope of the Article: Heat Transfer

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