BREAKDOWN OF A HEATED LIQUID INITIAL BREAKDOWN OF A HEATED LIQUID FILM IN COCURRENT TWO-COMPONENT ANNULAR FLOW: I. SMALL PERTURBATION MODEL
- 1 January 1980
- journal article
- research article
- Published by Taylor & Francis in Chemical Engineering Communications
- Vol. 4 (4-5), 433-453
- https://doi.org/10.1080/00986448008935920
Abstract
A small perturbation theory is developed for the breakdown of a thin evaporating liquid film draining down a heated tube subject to a non-negligible surface shear stress. 1The film is always so thin that entrainment is negligible. The usual traveling wave is here not adequate, and a time-independent surface perturbation which is exponential in the flow and periodic in the cross-stream direction is assumed. The appropriate Orr-Summerfeld equation and boundary conditions are then derived. Comparison with experimental data, using a large effective contact angle, obtained from the lower bound of the eigenvalue spectrum, gives good agreement for the critical Reynolds number.Keywords
This publication has 15 references indexed in Scilit:
- The linear hydrodynamic stability of film flow down a vertical cylinderAIChE Journal, 1976
- On the applicability of the linear stability theoryAIChE Journal, 1976
- Additional comments on spatially growing disturbances in liquid filmsAIChE Journal, 1975
- Spatially growing disturbances in liquid filmsAIChE Journal, 1975
- Additional comments on the spatial formulation of the Orr‐Sommerfeld equation for thin liquid filmsAIChE Journal, 1975
- Stability characteristics of condensate filmsWärme- und Stoffübertragung, 1973
- Formation of a dry spot in a horizontal liquid film heated from belowInternational Journal of Heat and Mass Transfer, 1971
- Stability of liquid flow down a heated inclined planeInternational Journal of Heat and Mass Transfer, 1971
- A method of getting approximate solutions to the orr‐sommerfeld equation for flow on a vertical wallAIChE Journal, 1966
- Wave formation in laminar flow down an inclined planeJournal of Fluid Mechanics, 1957