TY  - JOUR
AU  - Lakhal, W. 
AU  - Trabelsi, S. 
AU  - Sediki, E. 
AU  - Moussa, M. 
PY  - 2009
TI  - Combined Thermal Radiation and Mixed Convection in an Inclined Circular Duct
JF  - American Journal of Engineering and Applied Sciences
VL  - 2
IS  - 4
DO  - 10.3844/ajeassp.2009.590.602
UR  - https://thescipub.com/abstract/ajeassp.2009.590.602
AB  - Problem statement: Modeling thermal radiation with simultaneous buoyancy and forced convection for real gases flowing inside system with complex geometry is a difficult task encountered in engineering applications. Purpose of this study was to research numerically the interaction of mixed convection and thermal radiation in laminar air flow inside an inclined cylindrical duct with Uniform Wall Heat Flux (UWHF). This study highlighted the radiative double effects of water vapor in air flow on thermal and on dynamic fields. Approach: Flow equations and energy balance equation were solved simultaneously with temperature dependant thermophysical properties. An implicit finite difference technique was used to solve mass, momentum and energy equations. In order to take into account the non-gray radiative behavior of water vapor (H2O), a global absorption distribution function model was used to represent the infrared radiative properties. Results: Results were presented in term of temperature, velocity and radiative power fields and of evolution of bulk temperature and Nusselt numbers. Effects of thermal radiation on temperature and on velocity distributions were also examined. Conclusion/Recommendations: It was shown that inclination angle of duct had a significant effect on thermal and dynamic fields especially for thick medium. Radiation strongly affected the velocity profiles. Numerical results were discussed referring to available experimental data in order to improve estimations of engineering parameters.