Effect of Ultrasonic Vibration on Fluid-to-Particle Convective Heat Transfer Coefficients

The pubhshed heat transfer data obtamed from steady and nonsteady measurements are corrected for the axial thud thermal dispersion coefficient values proposed by Wakao[ I] The corrected data m the range of Reynolds number from 15 to 8500 are correlated by the analogous form of the mass correlation p

## Abstract In an effort to study the effect of acoustic vibration on forced convective heat transfer, sound at resonant frequencies of 198, 256, and 322 c./sec., as well as sound at nonresonant frequencies, was imposed on air flowing at Reynolds numbers of 560 to 5,900 in the core of a horizontal,

In this paper we numerically study the influence of particles suspended in flows on heat transfer enhancement. We consider two flat horizontal parallel plates kept at the same temperature, where hot air with particles flows in between. High-conductive and low-conductive particles are assumed to acco