Title: Stabilization of buoyancy-driven unstable vortex flow in mixed convection of air in a rectangular duct by tapering its top plate
Authors: Tseng, WS
Lin, WL
Yin, CP
Lin, CL
Lin, TF
機械工程學系
Department of Mechanical Engineering
Keywords: heat transfer;mixed convection;vortex
Issue Date: 1-Feb-2000
Abstract: Stabilization of the buoyancy-driven unstable mixed convective vortex air flow in a bottom heated rectangular duct by tapering its top plate is investigated experimentally. Specifically, the duct is tapered so that its aspect ratio at the duct inlet is 4 and gradually raised to 12 at the exit of the duct. In the study the secondary flow in the duct is visualized and the steady and transient thermal characteristics of the flow are examined by measuring the spanwise distributions of the time-average temperature. The effects of the Reynolds and Grashof numbers on the vortex flow structure are studied in detail. Moreover, the spanwise-averaged Nusselt numbers for the horizontal rectangular and tapering ducts are also measured and compared. Furthermore, the time records of the air temperature are obtained to further detected the temporal stability of the flow. Over the ranges of the Re and Gr investigated for 5 less than or equal to Re less than or equal to 102 and 1.0X10(4)less than or equal to Gr less than or equal to1.7X10(5), the vortex flow induced in the rectangular duct exhibits temporal transition from a steady laminar to time periodic and then to chaotic state at increasing buoyancy-to-inertia ratio. Substantial change in the spatial structure of the vortex flow is also noted to accompany this temporal transition. The results for the tapering duct indicate that more vortex rolls can be induced due to the increase in the aspect ratio of the duct with the axial distance. But the vortex rolls are weaker and are completely stabilized by the tapering of the top plate.
URI: http://dx.doi.org/10.1115/1.521437
http://hdl.handle.net/11536/30774
ISSN: 0022-1481
DOI: 10.1115/1.521437
Journal: JOURNAL OF HEAT TRANSFER-TRANSACTIONS OF THE ASME
Volume: 122
Issue: 1
Begin Page: 58
End Page: 65
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