Combined radiative and convective heat transfer in a divided channel

Purpose - This paper presents a numerical investigation of the interaction of surfaces radiation with developing laminar free convective heat transfer in a divided vertical channel. The influence of the radiation on the heat transfer and on the air flow is studied for various sizes (width and length...

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Bibliographic Details
Published in:International journal of numerical methods for heat & fluid flow 2006-01, Vol.16 (1), p.84-106
Main Authors: Bouali, H, Mezrhab, A
Format: Article
Language:English
Subjects:
Air flow
Algorithms
Boundary conditions
Channel flow
Conductivity
Finite volume method
Flow rates
Heat conductivity
Heat convection
Heat transfer
Mathematical models
Monte Carlo simulation
Nuclear engineering
Numerical analysis
Radiation
Rayleigh number
Studies
Velocity
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Summary:Purpose - This paper presents a numerical investigation of the interaction of surfaces radiation with developing laminar free convective heat transfer in a divided vertical channel. The influence of the radiation on the heat transfer and on the air flow is studied for various sizes (width and length) of the plate.Design methodology approach - The specifically developed numerical code is based on the utilization of the finite volume method. The SIMPLER algorithm for the pressure-velocity coupling is adopted. The view factors are determined by using boundary elements to fit the surfaces, an algorithm solving the shadow effect and a Monte Carlo method for the numerical integrations.Findings - Results obtained show that the radiation: plays a very important role on the paces of the isotherms, especially at Ra≥1,600; increases considerably the average wall Nusselt number; and increases the mass flow rate and the average channel Nusselt number at high Rayleigh numbers. The plate location has a significant effect on the heat transfer only in presence of the radiation exchange. The increase of both length and width of the plate causes a decrease of the heat transfer and the mass flow rate.Research limitations implications - The use of the code is limited to the flow that is assumed to be incompressible, laminar and two dimensional. The radiative surfaces are assumed diffuse-gray.Practical implications - Natural convection in vertical channels formed by parallel plates has received significant attention because of its interest and importance in industrial applications. Some applications are solar collectors, fire research, electronic cooling, aeronautics, chemical apparatus, building constructions, nuclear engineering, etc.Originality value - In comparison to the most of the previous studies on natural convection in partitioned channels, the radiation exchange was neglected. This study takes into account the radiation exchange in a divided channel.
ISSN:0961-5539
1758-6585
DOI:10.1108/09615530610636973