Numerical analysis of mixed convection in pulsating flow for a horizontal channel with a cavity heated from below
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Date
2016
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Abstract
In this study, a channel with a cavity heated from below is numerically investigated for the mixed convection case in pulsating flow for a range of Richardson numbers (Ri = 0.1, 1, 10, 100) at Reynolds number of 50 in the laminar flow regime. At the inlet of the channel, pulsating velocity is imposed for Strouhal numbers between 0.1 to 1 and velocity amplitude ratio between 0.3 to 0.9. The effect of the pulsation frequency, amplitude, and Richardson number on the heat transfer enhancement is numerically analyzed. The results are presented in terms of streamlines, isotherm plots, and averaged Nusselt number plots. The fast Fourier transform plots for the Nusselt number response to single sinusoidal velocity forcing at the inlet and non-linearity in the response is also provided.
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Fast Fourier transforms , Laminar flow , Mixed convection , Nusselt number , Reynolds number , Amplitude ratios , Heat Transfer enhancement , Horizontal channels , Laminar flow regimes , Pulsating flow , Pulsating velocities , Pulsation frequency , Reynold number , Richardson number , Velocity amplitudes , Computational fluid dynamics