Numerical study of heat transfer due to twinjets impingement onto an isothermal moving plate
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Date
2013
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Abstract
In this study, heat transfer from a moving isothermal hot plate due to double impinging vertical slot jets was investigated for a laminar flow. The rectangular geometry consists of a confining adiabatic wall placed parallel to the moving impingement. The jets are located symmetrically at mid point of upper wall. Water and Al2O3 nanoparticles mixture with different volumetric fraction was used as working medium. In considered jet impingement problem, the effects of the jet exit Reynolds numbers, ranging from 50 to 200, the normalized plate velocity, ranging from 0 to 2, and volumetric fractions of nanofluid, ranging from 0% to 6% were investigated. The commercial software package based on finite volume method FLUENT (version 6.3.26) is used in this study for the computations. It has been observed that increasing normalized plate velocity increases the heat transfer from bottom surface. Similarly, increasing Reynolds number of slot jets leads to enhancement of heat transfer. Besides, increasing volumetric fraction of nanofluid conributes to heat transfer enhancement.
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Alumina , Aluminum oxide , Computational fluid dynamics , Finite volume method , Isotherms , Laminar flow , Nanofluidics , Reynolds number , Commercial software , Enhancement of heat transfer , Heat Transfer enhancement , Jet flow , Jet impingement , Nanofluids , Rectangular geometry , Volumetric fractions , Heat transfer