Numerical studies on natural ventilation flow in an
enclosure with both buoyancy and wind effects

Ji, Y

Numerical studies on natural ventilation flow in an
enclosure with both buoyancy and wind effects

Ji, Y

Authors

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

Abstract

Computational Fluid Dynamics (CFD) is used to predict natural ventilation flows in an enclosure with upper and lower openings connected to the environment. The natural driving forces are wind combined with buoyancy. CFD simulations were carried out by varying the strengths of buoyancy under a constant assisting wind effect. Simulation results of the volume flow rates through the enclosure, the stratification level and temperature distribution were
compared with the corresponding experimental measurements and analytical studies by Hunt & Kaye (2001) and [2]. With the application of the RNG k-epsilon turbulence model and the proper considerations on the fluid boundaries, the overall computed airflow patterns and the airflow rates through the space agreed well with Hunt & Kaye (2001) and Hunt & Linden (2001). The close qualitative and quantitative agreement gave confidence in CFD technique for modelling natural ventilation flows in simple geometry
buildings.

Citation

enclosure with both buoyancy and wind effects. Presented at The 2004 CIBSE National Conference: Delivering Sustainable Construction, London, UK

Presentation Conference Type	Other
Conference Name	The 2004 CIBSE National Conference: Delivering Sustainable Construction
Conference Location	London, UK
Publication Date	Jan 1, 2004
Deposit Date	Jun 1, 2011
Publicly Available Date	Apr 5, 2016
Publisher URL	http://www.istructe.org/courses/files/CIBSE%20National%20Conference%202004.pdf
Additional Information	Event Type : Conference