论文信息 - Heat transfer and film thickness during condensation of steam flowing at high velocity in a vertical pipe

Heat transfer and film thickness during condensation of steam flowing at high velocity in a vertical pipe

Abstract In the present study the heat transfer of pure steam flowing downward in a vertical condenser pipe is determined and the thickness of the wavy film is measured using a laser absorption method. The measured data are compared to numerical predictions based on the solution of the conservation equations for mass, momentum and energy for the vapor and liquid phases. The k-e turbulence model of Jones and Launder is used for both phases. It will be shown that the transition from laminar to turbulent film flow can be predicted reasonably well if the turbulent kinetic energy in the film is conserved to a minimum value.

Ulrich Renz | U. Renz | R. Bellinghausen | R. Bellinghausen

[1] W. Jones,et al. The prediction of laminarization with a two-equation model of turbulence , 1972 .

[2] A. Dukler,et al. Insights into the hydrodynamics of free falling wavy films , 1989 .

[3] W. Jones,et al. Condensation from a turbulent stream onto a vertical surface , 1974 .

[4] D. Spalding,et al. Heat and Mass Transfer in Boundary Layers. 2nd edition. By S. V. PATANKAR and D. B. SPALDING. Intertext Books, 1970. 255 pp. £6. , 1971, Journal of Fluid Mechanics.

[5] W. Nusselt. Die Oberflachenkondensation des Wasserdampfes , 1916 .