Title :
Electrohydrodynamic Augmentation of Forced Convection Heat Transfer
Author :
Bradley, Richard F. ; Hoburg, James F.
Author_Institution :
National Radio Astronomy Laboratory, P.O. Box 2, Greenbank, WV 24944.
Abstract :
Augmentation of heat transfer due to injection of an ion flux through a thermal boundary layer is measured in a forced convection heat transfer apparatus. A nickel mesh injection grid is used to minimize the effect of the ``corona wind´´ associated with point discharges and thus to isolate an electrohydrodynamic (EHD) instability mechanism. The EHD instability is shown to be a viable mechanism in augmenting forced convection heat transfer. Change in the Nusselt number is documented as a function of an EHD instability interaction parameter, Reynolds number, and temperature gradient.
Keywords :
Corona; Electrohydrodynamics; Force measurement; Heat transfer; Industry Applications Society; Nickel; Rough surfaces; Surface roughness; Temperature; Thermal force;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.1985.349593
