Print Email Facebook Twitter Interfacial profiles of wavy film flow in vertical pipe at low Reynolds numbers – an experimental study Title Interfacial profiles of wavy film flow in vertical pipe at low Reynolds numbers – an experimental study Author Rajamani, Keerthivasan (TU Delft Mechanical, Maritime and Materials Engineering) Contributor Delfos, Rene (mentor) Boersma, Bendiks Jan (graduation committee) Tummers, Mark (graduation committee) van Eckeveld, Andries (graduation committee) Degree granting institution Delft University of Technology Date 2018-02-12 Abstract A liquid film falling vertically along a wall results in the formation of waves at the liquid-gas interface. The principal forces in these flows are gravity, viscosity, and surface tension, which are characterized by the Reynolds number, Re and the Kapitza number, Ka. Experimental characterization of the film flows for high viscosity liquids (Ka in the order of 1) at low Re » in the order of 10 was performed for flow along the inner circumference of a vertical pipe. The three-dimensional liquid-gas interfacial profile is quantitatively reconstructed using the laser induced fluorescence technique. The waves observed had higher surface steepness at the front when compared with the back of the wave crest. The film thickness at the back of the wave crest is higher than at the front, resembling the streak-like waves observed in the literature for low-viscosity liquids (Ka in the order of 1000) at comparable Re. When the lateral surfaces of the waves are in contact, merging in the transverse direction is observed. The experimentally determined mean film thickness was approximately 15 % lower than the Nusselt’s flat film thickness, while the experimental values of average wave velocity was approximately 4 times higher than the Nusselt’s velocity for the corresponding film thickness. On the time-averaged film thickness field, a transverse variation in the film thickness, called as ridges and valleys, were observed. These transverse variations are found to be unsteady in their behaviour. Probability density distributions of the film thickness measurements showed two distinctive time-dependant patterns for the distribution of film thickness values in the ridges. Subject Falling filmsThree-dimensional wave structurelow Kapitza To reference this document use: http://resolver.tudelft.nl/uuid:0d16a8bb-dcd8-4151-b530-8e0f03e4ef66 Part of collection Student theses Document type master thesis Rights © 2018 Keerthivasan Rajamani Files PDF Interfacial_3D_Profile_me ... eerthi.pdf 23.91 MB Close viewer /islandora/object/uuid:0d16a8bb-dcd8-4151-b530-8e0f03e4ef66/datastream/OBJ/view