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Passive heat transfer augmentation in a cylindrical annulus utilizing a porous perturbation

Journal Article · · Numerical Heat Transfer. Part A, Applications
OSTI ID:687450
;  [1]
  1. Ohio State Univ., Columbus, OH (United States). Dept. of Mechanical Engineering
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From a practical point of view, there is an interest in determining the buoyancy-induced fluid flow and heat transfer are analyzed in a horizontal cylindrical annulus in the presence of a porous geometric perturbation. The flow in the porous region is modeled using the Brinkman-Forchheimer-Darcy model. The numerical scheme used in the present study is based on a Galerkin method of the finite element formulation. The nature of the three-dimensional flow field has been analyzed in detail, and the local and average Nusselt numbers have been obtained for a range of Rayleigh numbers of practical interest. In order to evaluate the effect of a porous perturbation, the flow and heat transfer characteristics were compared with those for a regular annulus without a perturbation and one with a solid perturbation. This study reports on the dependence of the flow and heat transfer characteristics on the governing parameters such as the ratio of the conductivity of the porous material to that of the fluid and the permeability. A correlation has been obtained that captures the variations of the overall heat transfer as a function of the Rayleigh number, the permeability, and the conductivity ratio. The results of this study show that both heat transfer retardation and enhancement can be achieved with the introduction of a porous perturbation.
OSTI ID:
687450
Journal Information:
Numerical Heat Transfer. Part A, Applications, Journal Name: Numerical Heat Transfer. Part A, Applications Journal Issue: 2 Vol. 36; ISSN 1040-7782; ISSN NHAAES
Country of Publication:
United States
Language:
English

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Related Subjects

42 ENGINEERING
ANNULAR SPACE
AUGMENTATION
CORRELATIONS
CYLINDRICAL CONFIGURATION
FLOW MODELS
NATURAL CONVECTION
POROUS MATERIALS
THREE-DIMENSIONAL CALCULATIONS