Multi-layer film flow down an inclined plane: experimental investigation
Thompson, John W.
Blyth, Mark G.
Thoroddsen, Sigurdur T
Marston, Jeremy O.
KAUST DepartmentHigh-Speed Fluids Imaging Laboratory
Mechanical Engineering Program
Physical Science and Engineering (PSE) Division
Online Publication Date2014-11-19
Print Publication Date2014-12
Permanent link to this recordhttp://hdl.handle.net/10754/563863
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AbstractWe report the results from an experimental study of the flow of a film down an inclined plane where the film itself is comprised of up to three layers of different liquids. By measuring the total film thickness for a broad range of parameters including flow rates and liquid physical properties, we provide a thorough and systematic test of the single-layer approximation for multi-layer films for Reynolds numbers Re = ρQ/μ≈0.03-60. In addition, we also measure the change in film thickness of individual layers as a function of flow rates for a variety of experimental configurations. With the aid of high-speed particle tracking, we derive the velocity fields and free-surface velocities to compare to the single-layer approximation. Furthermore, we provide experimental evidence of small capillary ridge formations close to the point where two layers merge and compare our experimental parameter range for the occurrence of this phenomenon to those previously reported.
CitationHenry, D., Uddin, J., Thompson, J., Blyth, M. G., Thoroddsen, S. T., & Marston, J. O. (2014). Multi-layer film flow down an inclined plane: experimental investigation. Experiments in Fluids, 55(12). doi:10.1007/s00348-014-1859-5
JournalExperiments in Fluids