Abstract
A finite-volume numerical model is constructed and applied to evaluate the time-dependent heat-transfer characteristics of longitudinal fins with a rectangular profile. To facilitate comparisons with analytical solutions, the problem is taken to be one-dimensional with constant thermal properties. Two base boundary conditions are considered: (1) a step change and (2) a periodic change in temperature. Parametric studies are carried out to investigate the effects of grid size, time step, fin parameter, Fourier number, amplitude and frequency of base-temperature oscillation on the fin temperature distribution, heat-transfer rate and efficiency. The study shows an excellent agreement between the numerical and analytical results and investigates the importance of the initial transient effects.
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