Abstract
The two-phase flow and especially the dispersion of particles entrained in a turbulent flow, is a phenomenon of great importance in many fields of engineering.
The work was financially supported by EEC/DCXII, Contract number EN3F-022-GR(T-T).
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Abbreviations
- cd :
-
drag coefficient
- Dpd :
-
particle diam.
- g:
-
accel.of gravity
- K:
-
turb. kinetic energy
- L:
-
dissip. length scale
- Re:
-
Reynolds number
- t:
-
time
- te :
-
eddy lifetime
- u:
-
velocity
- x:
-
axial distance
- Гt.:
-
turbulent diffussivity
- ε :
-
rate of к dissipation
- ϱ:
-
density
- f:
-
fluid property
- p:
-
particle property
References
Durst F, Milojevic D, Schoenung. B: Eulerian and Lagrangian Predictions of Particulate Two-phase Flows: a Numerical Study. Appl. Math. Modelling, v8, April 1984, 101–115.
Elghobashi S, Abou-Arab T: A Two-equation Turbulence Model for Two-phase Flows. Phys. Fluids, v26, 4, 1983, 931–938.
Gosman AD, Ioannides E: Aspects of. Computer Simulation of Liquid-Fueled Combustors, J. Energy, v7,6, 1983, 482–490.
Hinze JO: Turbulence. 2nd Edition, McGraw-Hill Book Co. New. York, 1975.
Lee SL, Durst F: On the Motion of Particles in Turbulent Duct Flows. Int.J.Mult.Flow, v8, 2, 1982, 125–146.
Melville WK, Bray KNC: A Model of the Two-phase Turbulent Jet. J. Heat Mass Transfer, v22, 1979, 647–656.
Migdal D, Agosta DV: A Source Flow Model for Continuum Gas-Particle Flow. Trans. ASME, J.Appl. Mech., 1967, 860–865.
Mostafa AA, Elghobashi SE: Effect of Liquid Droplets on Turbulence in Round Gaseous Jet. NASA CR-175063, Feb.1986.
Mostafa AA, Mongia HC: Eukerian and Lagrangian predictions of Turbulent Evaporating Sprays. Paper 86–0452 at AIAA 24th Aerospace Sciences Meeting, 1986.
Picart A, Berlemont A, Gouesbet G: Modelling and Predicting Turbulence Fields and the Dispersion of Discrete Particles Transported by Turbulent Flows. Int.J.Mult.Flow, v12, 2, 1986, 237–261.
Sharma MP, Crowe CT: A Novel Physico-Computational Model for Quasi One-dimensional Gas-Particle Flows, J.Fl.Eng., v100, Sept. 1978, 343–349.
Shuen JS, Solomon ASP, Zhang QF, Faeth GM: Structure of Particle Laden Jets: Measurements and Predictions. AIAA J., v23, 3, 1985, 396–404.
Snyder WH, Lumley JL: Some Measurements of Particle Velocity Autocorrelation Functions in a Turbulent Flow. J.Fl.Mech., v48, 1, 1971, 41–71.
Steimke JL, Dukler AE: Laser Doppler Velocimeter Measurements of Aerosols in Turbulent Pipe Flow. Int.J.Mult.Flow, v9, 6, 1983, 751–754.
Tsuji Y, Morikawa Y, Shiomi H: LDV Measurements of Air-Solid Two-phase Flow in Vertical Pipe. J.Fl.Mech., v139, 1984, 417–434.
Wells MR, Stock DE: The Effects of Crossing Trajectories on the Dispersion of Particles in a Turbulent Flow. J.Fl.Mech, v136, 1983, 31–62.
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© 1988 Martinus Nijhoff Publishers
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Diakoumakos, E., Anagnostopoulos, J., Bergeles, G. (1988). A Theoretical Study of Air-Solid Two-Phase Flows. In: Brauner, CM., Schmidt-Lainé, C. (eds) Mathematical Modeling in Combustion and Related Topics. NATO ASI Series, vol 140. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-2770-4_30
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DOI: https://doi.org/10.1007/978-94-009-2770-4_30
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