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References (15)
-
S. Cherkasov (1984)
Natural convection in a vertical cylindrical vessel with heat supplied to its side and free surfacesFluid Dynamics, 19
-
V.S. Zarubin (1966)
Temperature Fields in Aircraft Constructions -
V.A. Markov (1983)
Thermal gravitational-capillary convection in a cavity with differently heated end walls -
Thermal gravitational-capillary convection in rectangular cavities V.S. Berdnikov and V.A. Gaponov (1997)
Obninsk, P -
P.V. Mokrushnikov (1986)
Nonstationary thermalgravitational convection in flat liquid layers of different orientations -
V. Gaponov (1999)
Numerical study of the laminar thermocapillary flow in a square cavityJournal of Applied Mechanics and Technical Physics, 40
-
V.I. Polezhaev (1974)
The effect of maximum of temperature stratification and its applicationsDAN SSSR, 218
-
V.S. Zarubin (1969)
Foundations of Structural Mechanics of Rockets -
A.G. Zabrodin V.S. Berdnikov (1983)
Hydromechanics and Transfer Processes at Zero Gravity -
V. Polezhaev (1972)
Convective interaction in a cylindrical vessel partially filled with liquid and with heat supplied to the side surface, free surface, and bottomFluid Dynamics, 7
-
V.I. Semenov (1988)
Thermal-gravitational convection near the vertical surfaces of heat transfer under the transitional flow conditions -
S. Kutateladze, V. Berdnikov (1984)
Structure of thermogravitational convection in flat variously oriented layers of liquid and on a vertical wallInternational Journal of Heat and Mass Transfer, 27
-
G.N. Ivanov (1979)
Heat Properties of Substances: Reference Table -
V. Polezhaev (1970)
Nonstationary laminar heat convection in a closed domain for a given heat fluxFluid Dynamics, 5
-
N. Vargaftik, Yu. Vinogradov, V. Yargin (1983)
Handbook of Physical Properties of Liquids and Gases
- Publisher
- Springer Journals
- Copyright
- 2010 Pleiades Publishing, Ltd.
- ISSN
- 0869-8643
- eISSN
- 1531-8699
- DOI
- 10.1134/S0869864310020034
- Publisher site
- See Article on Publisher Site
Abstract
Abstract Time dependences of temperature distributions in a thin metal wall were studied experimentally under two conditions of convective heat transfer in a tank model. In the first case, the vertical working wall was heated from within due to a convective heat flux from the opposite wall heated monotonously, and it was cooled due to heat transfer to the ambient medium. Dependence of the temperature field on a thin wall at the stage of convective flow development was retraced with the help of the thermographic camera and thermocouple sensors. In the second case, the tank wall was heated uniformly by IR radiation from the outside, and non-stationary convective flow and volumetric liquid heating were formed inside. Time dependence of temperature distribution over the wall height is studied. It is shown that the flow structure and convective heat transfer in a fuel layer with free boundary are subjected not only to the buoyancy force, but also to the thermocapillary effect. The local features of the flow affect temperature distribution in a thin wall.
Journal
Thermophysics and Aeromechanics – Springer Journals
Published: Jun 1, 2010