On predicting particle-laden turbulent flows

S. Elghobashi

doi:10.1007/bf00936835

journal article Jun 01, 1994

On predicting particle-laden turbulent flows

S. Elghobashi

Applied Scientific Research Vol. 52 No. 4 pp. 309-329 · Springer Science and Business Media LLC

View at Publisher Save 10.1007/bf00936835

Topics

No keywords indexed for this article. Browse by subject →

References

37

[1]

Andresen, E., Statistical approach to continuum models for turbulent gas-particle flows. Ph.D. Dissertation, Technical University of Denmark (1990).

[2]

Berlemont, A., Desjonqueres, P. and Gouesbet, G., Particle Lagrangian simulation in turbulent flows.Int. J. Multiphase Flow 16 (1990) 19?34. 10.1016/0301-9322(90)90034-g

[3]

Buyevich, Yu. A., Statistical hydromechanics of disperse. Part 2: Solution of the kinetic equation for suspended particles.J. Fluid Mech. 52 (1972) 345?355. 10.1017/s0022112072001454

[4]

Chao, B. T., Turbulent transport behavior of small particles in dilute suspension.Österr. Ing. Arch. 18 (1964) 7.

[5]

Chen, S., Doolen, G. D., Kraichnan, R. H. and She, Z. S., On statistical correlations between velocity increments and locally averaged dissipation in homogeneous turbulence.Phys. Fluids A5 (1993) 458?463. 10.1063/1.858897

[6]

Crowe, C. T., Chung, J. N. and Trout, T. R., Particle mixing in free shear flows.Prog. Energy Combust. Sci. 14 (1988) 171?194. 10.1016/0360-1285(88)90008-1

[7]

Csanady, G. T., Turbulent diffusion of heavy particles in the atmosphere.J. Atm. Sci. 20 (1963) 201?208. 10.1175/1520-0469(1963)020<0201:tdohpi>2.0.co;2

[8]

Elghobashi, S. E., Particle-laden turbulent flows: direct simulation and closure models.Appl. Sci. Res. 48 (1991) 301?314. 10.1007/bf02008202

[9]

Elghobashi, S. E. and Abou Arab, T. W., A two-equation turbulence model for two-phase flows.Phys. Fluids 26 (1983) 931?938. 10.1063/1.864243

[10]

Prediction of the particle-laden jet with a two-equation turbulence model

S. Elghobashi, T. Abou-Arab, M. Rizk et al.

International Journal of Multiphase Flow 1984 10.1016/0301-9322(84)90006-5

[11]

Elghobashi, S. E. and Truesdell, G. C., Direct simulation of particle dispersion in a decaying isotropic turbulence.Seventh Symposium on Turbulent Shear Flows, Stanford University (1989).

[12]

Elghobashi, S. E. and Truesdell, G. C., Direct simulation of particle dispersion in grid turbulence and homogeneous shear flows.Bull. Am. Phys. Soc. 34 (1989) 2311.

[13]

Elghobashi, S. E. and Truesdell, G. C., Direct simulation of particle dispersion in decaying isotropic turbulence.J. Fluid Mech. 242 (1992) 655?700. 10.1017/s0022112092002532

[14]

Elghobashi, S. E. and Truesdell, G. C., On the two-way interaction between homogeneous turbulence and dispersed solid particles, part 1: turbulence modification.Phys. Fluids A5 (1993) 1790?1801. 10.1063/1.858854

[15]

Gosman, A. D. and Ioanides, E., Aspects of computer simulation of liquid-fuelled combustors.AIAA 19th Aerospace Sciences Meeting, St. Louis, MO, Paper No. 81-0323 (1981). 10.2514/6.1981-323

[16]

Hwang, G. J. and Shen, H. H., Modeling the solid-phase stress in a fluid-solid mixture.Int. J. Multiphase Flow 15 (1989) 257?268. 10.1016/0301-9322(89)90074-8

[17]

Kim, I., Elghobashi, S. and Sirignano, W., Three dimensional flow interactions between a cylindrical vortex tube and a spherical particle.J. Fluid Mech. (submitted, 1993).

[18]

Kim, I., Elghobashi, S. and Sirignano, W., Three dimensional flow over two spheres placed side by side.J. Fluid Mech. 246 (1993) 465?488. 10.1017/s0022112093000229

[19]

Lopez de Bertodano, M., Lee, S.-J., Lahey, R. T., Jr. and Drew, D. A., The prediction of two-phase turbulence and phase distribution phenomena using a Reynolds stress model.J. Fluids Eng. 112 (1990) 107?113. 10.1115/1.2909357

[20]

MacInnes, J. M. and Bracco, F. V., Stochastic particle dispersion and the tracer-particle limit.Phys. Fluids A4 (1992) 2809?2824. 10.1063/1.858337

[21]

Marble, F. E., Dynamics of gas containing small solid particles.Proceedings of the 5th AGARD Symposium, Combustion and Propulsion, Pergamon, New York (1963) pp. 175?215.

[22]

Maxey, M. R., The equation of motion for a small rigid sphere in a nonuniform or unsteady flow.ASME-Fluids Eng. Div. 166 (1993) 57?62.

[23]

Equation of motion for a small rigid sphere in a nonuniform flow

Martin R. Maxey, James J. Riley

The Physics of Fluids 1983 10.1063/1.864230

[24]

McLaughlin, J. B., Aerosol particle deposition in numerically simulated channel flow.Phys. Fluids A1 (1989) 1211?1224. 10.1063/1.857344

[25]

Inertial migration of a small sphere in linear shear flows

John B. McLaughlin

Journal of Fluid Mechanics 1991 10.1017/s0022112091001751

[26]

Reeks, M. W., On a kinetic equation for the transport of particles in turbulent flows.Phys. Fluids A3 (1991) 446?456. 10.1063/1.858101

[27]

Reeks, M. W., On the continuum equations for dispersed particles in nonuniform flows.Phys. Fluids A4 (1992) 1290?1303. 10.1063/1.858247

[28]

Reeks, M. W., On the constitutive relations for dispersed particles in nonuniform flows. I: Dispersion in a simple shear flow.Phys. Fluids A5 (1993) 750?763. 10.1063/1.858658

[29]

Riley, J. J. and Patterson, G. S., Jr., Diffusion experiments with numerically integrated isotropic turbulence.Phys. Fluids 17 (1974) 292. 10.1063/1.1694714

[30]

The lift on a small sphere in a slow shear flow

P. G. Saffman

Journal of Fluid Mechanics 1965 10.1017/s0022112065000824

[31]

Saffman, P. G., The lift on a small sphere in a slow shear flow ? corrigendum.J. Fluid Mech. 31 (1968) 624. 10.1017/s0022112068999990

[32]

Snyder, W. H. and Lumley, J. L., Some measurements of particle velocity autocorrelation functions in a turbulent flow.J. Fluid Mech. 48 (1971) 41. 10.1017/s0022112071001460

[33]

Squires, K. D. and Eaton, J. K., Measurements of particle dispersion obtained from direct numerical simulations of isotropic turbulence.J. Fluid Mech. 226 (1991) 1?35. 10.1017/s0022112091002276

[34]

Taylor, G. I., Diffusion by continuous movement.Proc. Lond. Math. Soc. A20 (1921) 196.

[35]

Yudine, M. I., Physical considerations on heavy-particle diffusion.Adv. Geophys. 6 (1959) 185?191. 10.1016/s0065-2687(08)60106-5

[36]

Yuu, S., Yasukouchi, N., Hirosawa, Y. and Jotaki, T., Particle turbulent diffusion in a dust-laden round jet.J. AIChE 24 (1978) 509?519. 10.1002/aic.690240316

[37]

Zhou, Q. and Leschziner, M. A., A time-correlated stochastic model for particle dispersion in anisotropic turbulence.Eight Symposium on Turbulent Shear Flows 1 (1991) 1031?1036.

Cited By

1,282

CFD modeling of multi-component respiratory droplet evaporation and transport under varying indoor relative humidity

Jibola O. Owolabi, Amar Aganović · 2026

Computers & Fluids

Quantifying the errors of the particle-source-in-cell Euler-Lagrange method

Fabien Evrard, Fabian Denner · 2021

International Journal of Multiphase...

An Overview of Numerical Simulations on Gas‐Solid Cyclone Separators with Tangential Inlet

Ehsan Dehdarinejad, Morteza Bayareh · 2021

ChemBioEng Reviews

Simulation of air/mist cooling in a conjugate, 3-D gas turbine vane with internal passage and external film cooling