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ISSN 961-91393-0-5
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 Year 1996
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600 pages
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Volume price - $179.00
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CONVECTION RESONANCE AND HEAT TRANSFER ENHANCEMENT OF PERIODICALLY HEATED FLUID ENCLOSURES
Jose L. Lage
Laboratory for Porous Materials Applications, Mechanical Engineering Department, Box 750337, School of Engineering, Southern Methodist University, Dallas, TX, USA, 75275-0337
Bogdan V. Antohe
Mechanical Engineering Department, Southern Methodist University, Dallas, TX 75275-0337, USA
ABSTRACT
We report on the theoretical and numerical analysis of the heat and momentum transport inside a rectangular enclosure filled with fluid, or with a fully saturated porous medium,
under time-periodic horizontal heating. Numerical simulations indicate that the natural convection
activity within the enclosure peaks at several discrete frequencies, with the climax attained at a heating
frequency referred to as resonance frequency. We tested a general theory for predicting this resonance
frequency against numerical results considering the Prandtl number effect Results of experiments considering a fluid system under time periodic horizontal heating are also reported. Heating period from 32 to 1600 seconds, and time averaged heat-flux from 355 to 1420 W/m2 , were considered. For high heat fluxes, the oscillatory heating yielded a time averaged heat transfer coefficient 20 percent higher than obtained with steady heating at a critical pulsating frequency, in good agreement with the
numerical and theoretical predictions. .
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