The flow of a thin liquid film with a free surface along a horizontal plate that emanates from a pressurized vessel is examined numerically. In one g, a hydraulic jump was predicted in both plane and radial flow, which could be forced away from the inlet by increasing the inlet Froude number or Reynolds number. In zero g, the hydraulic jump was not predicted. The effect of solid-body rotation for radial flow in one g was to “wash out” the hydraulic jump and to decrease the film height on the disk. The liquid film heights under one g and zero g were equal under solid-body rotation because the effect of centrifugal force was much greater than that of the gravitational force. The heat transfer to a film on a rotating disk was predicted to be greater than that of a stationary disk because the liquid film is extremely thin and is moving with a very high velocity.
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One-Dimensional Analysis of the Hydrodynamic and Thermal Characteristics of Thin Film Flows Including the Hydraulic Jump and Rotation
S. Thomas,
S. Thomas
Department of Mechanical and Materials Engineering, Wright State University, Dayton, OH 45435
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W. Hankey,
W. Hankey
Department of Mechanical and Materials Engineering, Wright State University, Dayton, OH 45435
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A. Faghri,
A. Faghri
Department of Mechanical and Materials Engineering, Wright State University, Dayton, OH 45435
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T. Swanson
T. Swanson
NASA Goddard Space Flight Center, Greenbelt, MD 20771
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S. Thomas
Department of Mechanical and Materials Engineering, Wright State University, Dayton, OH 45435
W. Hankey
Department of Mechanical and Materials Engineering, Wright State University, Dayton, OH 45435
A. Faghri
Department of Mechanical and Materials Engineering, Wright State University, Dayton, OH 45435
T. Swanson
NASA Goddard Space Flight Center, Greenbelt, MD 20771
J. Heat Transfer. Aug 1990, 112(3): 728-735 (8 pages)
Published Online: August 1, 1990
Article history
Received:
February 21, 1989
Revised:
August 10, 1989
Online:
May 23, 2008
Citation
Thomas, S., Hankey, W., Faghri, A., and Swanson, T. (August 1, 1990). "One-Dimensional Analysis of the Hydrodynamic and Thermal Characteristics of Thin Film Flows Including the Hydraulic Jump and Rotation." ASME. J. Heat Transfer. August 1990; 112(3): 728–735. https://doi.org/10.1115/1.2910447
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