References
- Baines WD, Turner JS. Turbulent buoyant convection from a source in a confined region. J Fluid Mech. 1969; 37: 51–80.
- Larson M, Jönsson L. Efficiency of mixing by a turbulent jet in a stably stratified fluid. Dyn Atmos Ocean. 1996; 24: 63–74.
- Sullivan PP, Moeng CH, Stevens B, et al. Structure of the entrainment zone capping the convective atmospheric boundary layer. J Atmos Sci. 1998; 55: 3042–3064.
- Kaminski E, Tait S, Carazzo G. Turbulent entrainment in jets with arbitrary buoyancy. J Fluid Mech. 2005; 526: 361–376.
- Lin Y, Linden P. A model for an under floor air distribution system. Energy Build. 2005; 37: 399–409.
- Cardoso SSS, Woods AW. Mixing by a turbulent plume in a confined stratified region. J Fluid Mech. 1993; 250: 277–305.
- Ansong JK, Kyba PJ, Sutherland BR. Fountains impinging on a density interface. J Fluid Mech. 2008; 595: 115–139.
- Morton BR. Forced plumes. J Fluid Mech. 1959; 5: 151–163.
- Lin Y, Linden P. The entrainment due to a turbulent fountain at a density interface. J Fluid Mech. 2005; 542: 25–52.
- Bloomfield LJ, Kerr RC. Turbulent fountains in a confined stratified environment. J Fluid Mech. 1999; 389: 27–54.
- Kumagai M. Turbulent buoyant convection from a source in a confined two-layered region. J Fluid Mech. 1984; 147: 105–131.
- Deri E, Cariteau B, Abdo D. Air fountains in the erosion of gaseous stratifications. Int J Heat Fluid Flow. 2010; 31: 935–941.
- Freitag M, Gupta S, von Laufenberg B, et al. Dissolution of a light gas stratification by air jet injection. Germany: Becker Technologies Eschborn; 2014. ( Reactor Safety Research Project No. 1501455, THAI Phase V).
- Zirkel A. Numerical investigation of the turbulence mass transport during the mixing of a stable stratification with a free jet. Stuttgart: Institut für Kernenergetik und Energiesysteme; 2011.
- Turner JS. Buoyancy effects in fluids. Cambridge, UK: Cambridge University Press; 1979.
- Garnier E, Adams N, Sagaut P. Large eddy simulation for compressible flows. Heidelberg, Germany: Springer Science & Business Media; 2009.
- Chassaing P, Antonia R, Anselmet F, et al. Variable density fluid turbulence. Vol. 69. Heidelberg, Germany: Springer Science & Business Media; 2013.
- Smagorinsky J. General Circulation experiments with the primitive equations I. The basic experiment. Mon Weather Rev. 1963; 91: 99–164.
- Germano M, Piomelli U, Moin P, et al. A dynamic subgridscale eddy viscosity model. Phys Fluids. 1991; 3: 1760–1765.
- Lilly DK. A proposed modification of the Germano subgrid-scale close method. Phys Fluids A. 1991; 4: 633–635.
- Mason E, Saxena S. Approximate formula for the thermal conductivity of gas mixtures. Phys Fluids. 1958–1988; 1: 361–369.
- Shih TH, Liou WW, Shabbir A, et al. A new k-ε eddy viscosity model for high Reynolds number turbulent flows. Comput Fluids. 1995; 24: 227–238.
- Gibson M, Launder B. Ground effects on pressure fluctuations in the atmospheric boundary layer. J Fluid Mech. 1978; 86: 491–511.
- Wang P, Fröhlich J, Michelassi V, et al. Large-eddy simulation of variable-density turbulent axisymmetric jets. Int J Heat Fluid Flow. 2008; 29: 654–664.
- Hussein J, Capp SP, George WK. Velocity measurements in a high-Reynolds-number, momentum-conserving, axisymmetric, turbulent jet. J Fluid Mech. 1994; 258: 31–75.
- Panchapakesan N, Lumley J. Turbulence measurements in axisymmetric jets of air and helium. Part 1. Air jet. J Fluid Mech. 1993; 246: 197–223.
- Pope SB. Turbulent flows. Cambridge, UK: Cambridge University Press; 2011.
- Skeel RD, Berzins M. A method for the spatial discretization of parabolic equations in one space variable. SIAM J Sci Stat Comput. 1990; 11: 1–32.
- Fuller EN, Schettler PD, Giddings JC. New method for prediction of binary gas-phase diffusion coefficients. Ind Eng Chem. 1966; 58: 18–27.
- Bloomfield LJ, Kerr RC. A theoretical model of a turbulent fountain. J Fluid Mech. 2000; 424: 197–216.