Numerical investigation for improved heat transfer characteristics in micro-fin tubes

Generally, internal micro-fin tubes are used for increasing the life and performance of electronic devices. The micro-fins enhance the heat transfer rate by increasing the surface area with an increase of the pressure drop. In this study, heat transfer and pressure drop are analyzed by varying Reynolds number with the increase in the number of fins in tubes. Heat transfer and pressure drop, together with turbulence kinetic energy of micro-fin tubes (helical and straight) and a smooth tube, have been evaluated for different Reynolds numbers (60 000, 40 000, 20 000, and 2000) at a constant temperature of 350 K, which clearly establishes laminar to turbulent flow. It is observed that the helical micro-fin tube has a better result compared with the straight micro-fin tube and smooth tube at Reynolds numbers 60 000, 40 000, and 20 000 at velocity 2, 1, and 0.5 m/s, respectively. This study is an attempt to establish a comparison of different micro-fin geometries with varying Reynolds numbers, concluding that a high Reynolds number is suitable for the same.