Numerical simulation of 2D turbulent natural convection of humid air in a cavity filled with solid objects

Iyi, Draco, Hasan, Reaz and Penlington, Roger (2013) Numerical simulation of 2D turbulent natural convection of humid air in a cavity filled with solid objects. Procedia Engineering, 56. pp. 538-543. ISSN 1877-7058

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Natural convection flow in enclosures containing solid objects is important in the design of a wide range of industrial and engineering applications. Numerical calculations were performed for low turbulence double-diffusion convection for humid air inside a rectangular cavity with an aspect ratio of 2:1(height/width) and partially filled with disconnected solid cylindrical objects occupying 15% of the total cavity volume. The vertical walls are maintained at 1.2 and 21IZC and a Rayleigh number of the fluid mixture based on the height of the vertical wall is 1.45 × 109. In the computations, turbulent fluxes of momentum, heat and mass were modelled by a low-Re (Launder-Sharma) k-< eddy diffusivity model. Radiation equation was discretised using the discrete ordinate method. Detailed analysis was performed on the flow and heat transfer and on the turbulence quantities within the cavity. The effect of 2D simplification of inherently 3D radiation modelling was carefully scrutinised and calculations carried out with an equivalent emissivity. Variations of average Nusselt number and buoyancy flux are analysed. Profiles of turbulent kinetic energy and turbulent viscosity are studied in detail to observe the net effect on the intensity of turbulence caused by the interactions of radiation with double-diffusive natural convection heat and mass transfer. Particular emphasis was placed on quantifying the proximity of the solid objects to the active walls. It has been found that turbulence is suppressed as the objects get closer to the walls.

Item Type: Article
Additional Information: Proceedings of the 5th BSME International Conference on Thermal Engineering.
Uncontrolled Keywords: Double diffusive heat and mass transfer, natural convection, emissivity
Subjects: H300 Mechanical Engineering
Department: Faculties > Engineering and Environment > Mathematics, Physics and Electrical Engineering
Depositing User: Sarah Howells
Date Deposited: 10 May 2013 11:10
Last Modified: 13 Oct 2019 00:32

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