UFR 4-09 References
Confined buoyant plume
Underlying Flow Regime 4-09 © copyright ERCOFTAC 2004
Abbas, T. 1999 Displacement ventilation and static cooling devices. BSRIA Code of Practice 17/99.
AEA 1995 Computational Fluid Dynamics Services CFX 4.1 Flow Solver. User Guide (Harwell: AEA)
Chen, Q. & Srebric 2000 Application of CFD tools for indoor and outdoor environment design. Intl. J. Architect. Sci. 1(1), 14–29.
Cook, M.J. 1998 An evaluation of computational fluid dynamics software for modelling of buoyancy-driven displacement ventilation. PhD Thesis. De Montfort Univ., Leicester, UK.
Cook, M.J. & Lomas, K.J. 1997 Guidance on the use of computational fluid dynamics for modelling buoyancy-driven flows. Proc. IBSPA. Vol. 3. ISBN. 80-01-01646-3.
Cook, M.J. & Lomas, K.J. 1998 Buoyancy-driven displacement flows: Evaluation of two eddy viscosity turbulence models for prediction. Proc. CIBSE A: Building Serv. Eng. Res. Technol. 19(1) 15–21.
Cook, M.J., Ji, Y. & Hunt, G.R. 2003 CFD Modelling of natural ventilation: combined wind and buoyancy forces. Intl. J. of Ventilation 1, No. 3, pp. 169–180.
Cooper, P. & Linden, P.F. 1996 Natural ventilation of an enclosure containing two buoyancy sources. J. Fluid Mech.311, 153–176.
Holford, J.M. & Hunt, D.G. 2001 The dependence of the discharge co-efficient on density contrast – experimental measurements. Proc. 14th Australasian Fluid Mech. Conf. 10–14 December 2001.
Howell, S.A. & Potts, I. 2002 On the natural displacement flow through a full-scale enclosure and the importance of the radiative participation of the water vapour content of the air. Building and Environment 37, 817–823.
Hunt, D.G. & Holford, J.M. 2000 The discharge co-efficient – experimental measurement of dependence on density contrast. Proc. 21st AIVC Ann. Conf. 26–29 Sept. 2000, paper 26.
Hunt, D.G. & Kaye, N.G. 2001 Virtual origin correction for lazy plumes. J. Fluid Mech.435, 377–396.
Hunt, D.G. & Linden, P.F. 1999 The fluid mechanics of natural ventilation – displacement ventilation by buoyancy-driven flows assisted by wind. Building and Environment.34, 707–720.
Hunt, D.G. & Linden, P.F. 2001 Steady-state flows in an enclosure ventilated by buoyancy forces assisted by wind. J. Fluid Mech.426, 355–386.
Lane-Serff, G.F. 1989 Heat flow and air movements in buildings. PhD thesis. University of Cambridge.
Launder, B.E. & Spalding, D.B. (1974) The numerical computation of turbulent flows. Computer Methods in Applied Mechanics and Engineering 3 p. 269–289. Linden, P.F. 1999 The fluid mechanics of natural ventilation. Ann. Rev. Fluid Mech. 31, 201–238.
Linden, P.F. 1999 The fluid mechanics of natural ventilation. IAnn. Rev. Fluid Mech. 31, 201–238.
Linden, P.F. & Cooper, P. 1996 Multiple sources of buoyancy in a naturally ventilated enclosure. J. Fluid Mech.311, 177–92.
Linden, P.F., Lane-Serff, G.F. & Smeed, D.A. 1990 Emptying filling boxes: the fluid mechanics of natural ventilation. J. Fluid Mech.212, 309–335.
Morton, B.R., Taylor, G.I. & Turner, J.S. 1958 Turbulent gravitational convection from maintained and instantaneous sources. Proc. R. Soc. Lond A234, 1–23.
Turner, J.S. 1973 Buoyancy effects in fluids. Cambridge University Press.
Woolf, D.R.S. 1994 CFD simulation of swirl jet displacement ventilation systems, Proc. European Conference on Energy Performance and Indoor Climate in Buildings, Lyon, France, 1994.
Woolf, D.R.S. 1995 Physical and numerical modelling of swirl jet displacement ventilation systems. PhD thesis. University of Leeds, UK.
Yakhot, V., Orzag, S.A. , Thangham, S., Gatski T.B., & Speziale, C.G. 1992 Development of turbulence models for shear flows by a double expansion technique. Phys. Fluids. A 4(7) 1510–1520
© copyright ERCOFTAC 2004
Contributors: Jake Hacker - Arup