Abstract
In the present work, turbulent liquid-particulate two-phase flows at the particle dilute concentration through a centrifugal impeller has been simulated by using the K- ε -Ap turbulence model. In the present numerical treatment, the finite volume method, based on the SIMPLEC algorithm, is applied in a body fitted coordinate system. The liquidparticle two-phase flow turbulence model used in this study can correctly predict essential features of this flow in centrifugal impellers at dilute concentrations.
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References
Ahmadi, G. and Abou-Zaid, S. (1990) A Rate-dependent thermodynamical model for rapid granular flows, Int. J. Non-Newtonian Fluid Mechanics, Vol. 35, 15–3.
Al Taweel, A.M. and Landau, J. (1977) Turbulence modulation in two-phase jets, Int. J. Multiphase Flow, Vol. 3, 341–351.
Bertodano, M.L., Lee S-J., Lahey, R.T. and Drew, D.A. (1990) The prediction of two-phase turbulence and phase distribution phenomena using a Reynolds stress model, Trans. ASME, J Fluid Engng.,Vol. 112 107–113.
Carder, T., Masbemat, O. and Roco, M.C. (1991) Liquid-solid slip velocity around a centrifugal pump impeller, ASME FED-Vol. 118, Liquid-Solid Flows, 101.
Crowder, R.S., Daily, J.W. and Humphrey, J.A.C. (1984) Numerical calculation of particle dispersion in a turbulent mixing layer flow, J. Pipelines,Vol. 4, 3 159–170.
Dai, J. and Wu, Y.L. (1993) Numerical simulation of turbulent liquid-particle flows in centrifugal impeller, Proc. Int. Symp. on Aerospace and Fluid Science, Sendai, 404–410.
Danon, H., Wolfshtein, M. and Hetsroni, G. (1974) Numerical calculations of two-phase turbulent round Jets, Int. J. Multiphase Flow,Vol. 3 223–234.
Drew, D.A. and Segal, L.A. (1971) Averaged equation for two-phase flow, Studies in Applied Math.,Vol. 50 205–231
Elghobashi, S.E. and Abou-Arab, T.W. (1983) A two-equation turbulence closure for two-phase flows, Phys. Fluids, Vol. 26, pp. 931–938.
Genchiev, Zh.D. and Karpuzov, D.S. (1980) Effects of motion of dust particles on turbulence transport equations, J. Fluid Mech., Vol. 103, 833–842.
Gidaspow, D., Jayaswal, U.K. and Ding, J. (1991) Navier-Stokes equation model for liquid solid flows using kinetic theory, ASME FED-Vol. 118, Liquid-Solid Flows, 165–172.
Herbich, J. B. and Christopher, R. J. (1963) Use of high speed photography to analyze particle motion in a model dredge pump, Proc. IAHR Congress, London, 89–98.
Ishii, M. (1975) Thermo fluid dynamic theory of two-phase flow, Eyrolles, Paris.
Ma, D.N. and Roco, M.C. (1988) Probabilistic three-dimensional model for slow shearing particulate flow: wet friction, ASME FED-Vol. 55, 53–60.
Marble, F.E. (1963) Dynamics of a gas containing small solid particles, Proc. of 5th AGARD Combustion and Propulsion Colloquium, Pergamon Press, London.
Melville, W.K. and Bray, K.N.C. (1979) A model of the two-phase turbulent jet, Int. J. Heat Mass Transfer, Vol. 22, 647–656.
Michaelides, E.E. and Farmer, L.K. (1984) A model for slurry flows based on the equation of turbulence, ASME FED-Vol. 13, Liquid-Solid Flows and Erosion Wear in Industrial Equipment, 27–32.
Roco, M.C. and Reinhart, E., (1980) Calculation of solid particles concentration in centrifugal pump impeller using finite element technique, 7th Hydrotransport, 359–376.
Roco, M.C. and Shook C.A. (1983) Modeling slurry flow: The effect of particle size, Canadian J Chem. Engng., Vol. 61, 4, 494–504.
Sharma, M.P. and Crowe, C.T. (1978) A novel physico-computational model for quasi one-dimensional gas particle flows, Trans. ASME, J. Fluid Engng., Vol. 100, 343–349.
Shuen, J.S., Chen, L.D. and Faeth, G.M. (1983) Prediction of the structure of turbulent particle laden in rounded jet, AIAA J, Vol. 21, 1480–1483.
Wu, Y.L., Xu, H.Y. and Gao, Z.Q. (1992) Experimental study on particle motion in slurry pump impeller, J. Tsinghua University, Vol. 32, 5, 52–58, (in Chinese).
Wu, Y.L., Xu, H.Y., Dai, J. and Wang, L. (1993) Experiment on solid-liquid two-phase flow in centrifugal impeller, Proc. Int. Symp. on Aerospace and Fluid Science, Sendai, 379–387.
Wu Y.L., Sun Z.X., Oba, R., Ikohagi, T. (1995 a) Study on flows through centrifugal impeller by turbulent simulation, ASME FED-222, 63–68.
Wu, Y.L., Dai, J., Oba,R., Ikohagi, T. ( 1995 b) Turbulent flow simulation through centrifugal pump impeller at design and off-design conditions, Proc. of 2nd ICPF, Tsinghua University, Beijing, 155–167.
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Yu-lin, W., Jing, D., Zu-yan, M., Risaburo, O., Toshiaki, I. (1996). Liquid-particulate Two-Phase Flow in Centrifugal Impeller by Turbulent Simulation. In: Cabrera, E., Espert, V., Martínez, F. (eds) Hydraulic Machinery and Cavitation. Springer, Dordrecht. https://doi.org/10.1007/978-94-010-9385-9_45
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DOI: https://doi.org/10.1007/978-94-010-9385-9_45
Publisher Name: Springer, Dordrecht
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