CFD modelling of atrium-assisted natural ventilation

Ji, Y; Cook, M; Hunt, G

CFD modelling of atrium-assisted natural ventilation

Ji, Y; Cook, M; Hunt, G

Authors

Dr Yingchun Ji Y.Ji@salford.ac.uk
Reader

M Cook

G Hunt

Abstract

Using computational fluid dynamics (CFD) techniques to model buoyancy-driven airflows has always proved challenging. This work investigates CFD modelling of buoyancy-driven natural ventilation flows in a single-storey space connected to an atrium. The atrium is taller than the ventilated space and when warmed by internal heat gains producing a column of warm air in the atrium and connect space drives a ventilation flow. Results of CFD simulations are compared with predictions of an analytical model and small-scale experiments [1]. Using the RNG k-epsilon turbulence model the predicted airflow patterns
and temperature profile agreed reasonably well between the three prediction techniques. The work demonstrates the potential of using CFD for modelling natural displacement ventilation and the accuracy that can be expected.

Citation

Ji, Y., Cook, M., & Hunt, G. (2004, September). CFD modelling of atrium-assisted natural ventilation. Presented at The 9th International Conference on Air Distribution in Rooms, University of Coimbra, Portugal

Presentation Conference Type	Other
Conference Name	The 9th International Conference on Air Distribution in Rooms
Conference Location	University of Coimbra, Portugal
Start Date	Sep 5, 2004
End Date	Sep 8, 2004
Publication Date	Jan 1, 2004
Deposit Date	May 27, 2011
Publicly Available Date	Apr 5, 2016
Keywords	CFD, atrium, RNG k-epsilon turbulence model, natural ventilation, buoyancy
Additional Information	Event Type : Conference