论文信息 - Mass transfer in a turbulent radial wall jet

Mass transfer in a turbulent radial wall jet

Experimental and theoretical coefficients are reported for mass transfer in a turbulent radial wall jet initiated by an impinging free jet. The hydrodynamic solution was obtained by the momentum integral technique, and mass transfer was predicted by analogy. Point mass transfer data were obtained for air-naphthalene and cinnamic acid-water systems. At low Schmidt numbers, experimental coefficients were slightly above the theoretical prediction, and followed the theoretical trend with radial distance and nozzle Reynolds number from 10,000 to 60,000. Coefficients at high Schmidt numbers showed large positive deviations from theory, which decreased with radial distance and increased with Schmidt number. These discrepancies were attributed to surface roughness effects.

Olev Trass | D. A. Dawson | O. Trass

[1] Olev Trass,et al. Mass transfer from a flat surface to an impinging turbulent jet , 1964 .

[2] Bruce Caswell,et al. Some heat transfer characteristics of the two-dimensional laminar incompressible wall jet , 1961 .

[3] T. Sherwood,et al. Sublimation Mass Transfer Through Compressible Boundary Layers on a Flat Plate , 1960 .

[4] W. P. Cosart,et al. The two-dimensional turbulent wall-jet , 1961, Journal of Fluid Mechanics.

[5] M. Glauert. The wall jet , 1956, Journal of Fluid Mechanics.

[6] L. R. Steele,et al. Mass transfer from a solid sphere to water in highly turbulent flow , 1959 .

[7] M. Scholtz,et al. Mass transfer in the laminar radial wall jet , 1963 .

[8] P. Gross,et al. Solubility Studies. IV. The Solubilities of Certain Slightly Soluble Organic Compounds in Water1 , 1933 .