A two-equation k-ω model is used to model a strongly heated, low-Mach number gas flowing upward in a vertical tube. Heating causes significant property variation and thickening of the viscous sublayer, consequently a fully developed flow does not evolve. Two-equation turbulence models generally perform poorly under such conditions. Consequently, in the present work, a near-wall two-equation heat transfer model is utilized in conjunction with the k-ω model to improve heat transfer predictions.

Volume Subject Area:
Computational Fluid Dynamics (CFD), Neutronics Methods and Coupled Codes
Topics:
Flow (Dynamics), Gas flow, Heat flux, Heat transfer, Heating, Simulation, Turbulence
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Copyright © 2006
 by ASME
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