We found a match
Your institution may have rights to this item. Sign in to continue.
- Title
Large-Eddy Simulation of Heat Transfer from a Single Cube Mounted on a Very Rough Wall.
- Authors
Boppana, V.; Xie, Zheng-Tong; Castro, Ian
- Abstract
The local thermal effects in the wake of a single cube with a strong heated rear face, representing a large building in an urban area, are studied using large-eddy simulations (LES) for various degrees of heating, which are characterized by the local Richardson number, $$Ri$$. New wall models are implemented for momentum and temperature and comparison of the flow and thermal fields with the wind-tunnel data of Richards et al. (J Wind Eng Ind Aerodyn 94, 621-636, ) shows fair agreement. Buoyancy effects are quite evident at low $$Ri$$ and a significant increase in the turbulence levels is observed for such flows. Apart from the comparisons with experiments, further analysis included the estimation of the thermal boundary-layer thickness and heat transfer coefficient for all $$Ri$$. For sufficiently strong heating, the heat transfer coefficient at the leeward face is found to be higher than the roof surface. This suggests that, beyond a certain $$Ri$$ value, buoyancy forces from the former surface dominate the strong streamwise convection of the latter. Quadrant analysis along the shear layer behind the cube showed that the strength of sweeps that contribute to momentum flux is considerably enhanced by heating. The contribution of different quadrants to the heat flux is found to be very different to that of the momentum flux for lower $$Ri$$.
- Subjects
LARGE eddy simulation models; HEAT transfer; CITIES &; towns; HEAT transfer coefficient; BUOYANCY; CONVECTION (Meteorology)
- Publication
Boundary-Layer Meteorology, 2013, Vol 147, Issue 3, p347
- ISSN
0006-8314
- Publication type
Article
- DOI
10.1007/s10546-012-9793-7