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Heat transfer from turbulent falling films of water and non-Newtonian solutions, on smooth and on ridged plates

✍ Scribed by J.T. Davies; A.M. Shawki

Publisher
Elsevier Science
Year
1974
Tongue
English
Weight
585 KB
Volume
29
Category
Article
ISSN
0009-2509

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✦ Synopsis

Theoretical relations are derived for heat transfer into or from turbulent falling films of liquid, flowing both over smooth and over very rough surfaces.

Heat transfer from turbulent falling films over smooth plates and ridged plates has been measured, for pure water. The enhancement of h, by the ridges can exceed two times, with suitable dimensions of the ridges. Our results are compared with those of previous workers. Our theory predicts heat transfers in fair accord with our experiments. The addition of 'Separan' to render the water non-Newtonian decreases h, for both the smooth and the rough plates. But the enhancing effect of the roughness remains about the same as for pure water. The addition of a surface-active agent to the water usually decreases hL somewhat, though very low concentrations of agent at low angles of inclination can increase h,.

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Effects of turbulence model and interfac
Effects of turbulence model and interfacial shear on heat transfer in turbulent falling liquid films
✍ Moon-Hyun Chun; Seok-Jeong Park πŸ“‚ Article πŸ“… 1995 πŸ› Elsevier Science 🌐 English βš– 614 KB

An improved method is presented for the prediction of heat transfer coefficients in turbulent falling liquid films with or without interfacial shear for both heating or condensation. A modified Mudawwar and E1-Masri's semi-empirical turbulence model, particularly to extend its use for the turbulent