1 To determine the flow patterns and the temperature distributions of air flowing through the extended surfaces under magnetic and electric fields.
2 To analyze the effect of all concerning parameters to the heat transfer coefficient such as primary fluid velocity, geometry and dimension of the extended surface, intensity of magnetic field, magnetic pole arrangement, number of magnetic pole, supplied voltage at wire electrode, electrode arrangement, distance between wire electrodes, etc.
3 To find out the optimized heat exchanger design of the superposition between magnetohydrodynamics, electrohydrodynamics, and extended surfaces techniques.
