Simple room flow

Underlying Flow Regime 4-11               © copyright ERCOFTAC 2004

References

Boyson, H.F., 1993. 'Renormalization group theory based turbulence models and their applications to industrial problems'. IMechE European Conf. on Engineering Applications of CFD, London, 7-8 September.

Britter, R.E., 1993. 'The evaluation of technical models used for major accident hazard installations'. CEC research report EUR 14774 EN.

Computational Dynamics, 1999. STAR-CD User Manual – Methodology.

Chen Q. and Moser A. 1991, ‘Simulation of a multiple-nozzle diffuser’, In Proceedings of the 12th AIVC Conference, 'Air Movement and Ventilation Control within Buildings, Ottawa, Canada, Document No. AIC-PROC-12-1991-1.

Ewert M., Renz U., Vogel, N., Zeller M. 1991, ‘Definition of the Flow Parameters at the Room Air Flow Simulation’. In Proceedings of the 12th AIVC Conference, 'Air Movement and Ventilation Control within Buildings, Ottawa, Canada, Document No. AIC-PROC-12-1991-1.

Fontaine, J.R., Biolley, F., Rapp, R., & Serieys, J.C. 1991 'Ventilation flow analysis - flow visualisation and LDA measurements in water scale models, validation of numerical results'. In Proceedings of the 12th AIVC Conference, 'Air Movement and Ventilation Control within Buildings, Ottawa, Canada, Document No. AIC-PROC-12-1991-1.

Gilham, S., Ferguson S., Deaves, D.M. (1995) Dispersion of releases of Hazardous materials within buildings, Phase II – CFD modelling, WS Atkins Safety & Reliability Report (WSA/ RSU 8000/M5012/R01)

Heikkinen J., 1991 'Modelling of supply air terminals for room air flow simulation'. In Proceedings of the 12th AIVC Conference, Air Movement and Ventilation Control within Buildings', Ottawa, Canada, Document No. AIC-PROC-12-1991-1.

Heikkinen J., 1991b ‘Measurements of test cases B2, B3, E2 and E3 (isothermal and summer cooling cases)’ IEA Annex 20, Research Item 1.16 and 1.17, Technical Report, Technical Research Centre, Espoo, Finland.

Lemaire, A.D., (Ed.) 1992. 'Room air and contaminant flow', Evaluation of Computational Methods, Subtask-1 Summary Report, IEA Annex 20.

Liddament M.W. 1991 ‘A review of building air flow simulation’, Technical Note AIVC 33, Annex 5, Document AIC-TN-33-1991, ISBN 0 946975 52 2.

Roache, P.J., 1994. 'Perspective: A method for uniform reporting of grid refinement studies'. J. Fluid Eng. Vol.116 pp. 405-413.

Skovgaard M., Nielsen, P. ‘Modelling Complex inlet Geometries in CFD-applied to air flow in Ventilated Rooms’. In Proceedings of the 12th AIVC Conference, Air Movement and Ventilation Control within Buildings', Ottawa, Canada, Document No. AIC-PROC-12-1991‑1.

LIST OF FIGURES

[I/fig2-01.gif fig2-01.gif] Illustration of the room geometry

[I/fig2-02.gif fig2-02.gif] Illustration of the CFD mesh used (Run 03)

[I/fig2-02vect.jpg fig2-02vect.jpg] CFD simulation - velocity vectors

[I/fig2-03.jpg fig2-03.jpg] Comparison of velocity magnitude contours, 3ach

[I/fig2-05-ve.jpg fig2-05-ve.jpg] Comparison of mean velocities, 3ach

[I/fig2-05-te.jpg fig2-05-te.jpg] Comparison of turbulence velocities, 3ach

[I/fig2-06.gif fig2-06.gif] Comparison of velocity decay (U/U_inlet) of the wall jet along the ceiling

[I/fig2-07.jpg fig2-07.jpg] Comparison of mean velocities, 1.5ach

[I/fig2-08.gif fig2-08.gif] Effect of mesh refinement on the solution - axial velocity profile

[I/fig2-09.jpg fig2-09.jpg] Solution error estimates for velocity magnitude on the axial symmetry plane

[I/fig2-10.jpg fig2-10.jpg] Comparison of velocity magnitude contours, 3ach – two-layer simulation

[I/fig2-11.gif fig2-11.gif] Comparison of velocity decay (U/U_inlet) – two-layer simulation

© copyright ERCOFTAC 2004

Contributors: Steve Gilham; Athena Scaperdas - Atkins