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Cooling Performance of a Novel Circulatory Flow Concentric Multi-Channel Heat Sink with Nanofluids

Ravindra Jilte, Mohammad Hossein Ahmadi, Ravinder Kumar, Vilas R. Kalamkar, Amirhosein Mosavi

2020Nanomaterials29 citationsDOIOpen Access PDF

Abstract

Heat rejection from electronic devices such as processors necessitates a high heat removal rate. The present study focuses on liquid-cooled novel heat sink geometry made from four channels (width 4 mm and depth 3.5 mm) configured in a concentric shape with alternate flow passages (slot of 3 mm gap). In this study, the cooling performance of the heat sink was tested under simulated controlled conditions.The lower bottom surface of the heat sink was heated at a constant heat flux condition based on dissipated power of 50 W and 70 W. The computations were carried out for different volume fractions of nanoparticles, namely 0.5% to 5%, and water as base fluid at a flow rate of 30 to 180 mL/min. The results showed a higher rate of heat rejection from the nanofluid cooled heat sink compared with water. The enhancement in performance was analyzed with the help of a temperature difference of nanofluid outlet temperature and water outlet temperature under similar operating conditions. The enhancement was ~2% for 0.5% volume fraction nanofluids and ~17% for a 5% volume fraction.

Topics & Concepts

Heat sinkNanofluidMaterials scienceHeat fluxVolume fractionVolumetric flow rateThermodynamicsMechanicsHeat transferComposite materialNanoparticleNanotechnologyPhysicsNanofluid Flow and Heat TransferHeat Transfer and OptimizationHeat Transfer Mechanisms
Cooling Performance of a Novel Circulatory Flow Concentric Multi-Channel Heat Sink with Nanofluids | Litcius