A Parametric Study on Deoiling Hydrocyclones Flow Field
Authors: Maysam Saidi, Reza Maddahian, Bijan Farhanieh
Abstract:
Hydrocyclones flow field study is conducted by performing a parametric study. Effect of cone angle on deoiling hydrocyclones flow behaviour is studied in this research. Flow field of hydrocyclone is obtained by three-dimensional simulations with OpenFOAM code. Because of anisotropic behaviour of flow inside hydrocyclones LES is a suitable method to predict the flow field since it resolves large scales and model isotropic small scales. Large eddy simulation is used to predict the flow behavior of three different cone angles. Differences in tangential velocity and pressure distribution are reported in some figures.
Keywords: Deoiling hydrocyclones, Flow field, Hydrocyclone cone angle, Large Eddy Simulation, Pressure distribution
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1076926
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[1] A. Belaidi, M. T. Thew, S. J. Munaweera, "Hydrocyclone performance with complex oil-water emulsions in the feed", Can. J. Chem. Eng., 81, 2003, pp. 1159-1170.
[2] C. Gomez, J. Caldenty, S. Wang, "Oil/water separation in liquid/liquid hydrocyclons: part 1experimental investigation", SPE J. 7, 2002, pp. 353-372.
[3] R. G. Devorak, "Separation of light dispersions in long hydrocyclones", Master of Science Thesis, Michigan State University, USA, 1989.
[4] D. J. Simkin, R. B. Olney, "Phase Separation and Mass Transfer in a Liquid-Liquid Cyclone", AIChE 2, 1956, pp. 545-551.
[5] H. P. Sheng, J. R. Welker, C. M. Sliepcevich, "Liquid-Liquid Separation in a Conventional Hydrocyclone", in The Canadian J. of Chem. Eng. 52, 1974, pp.487-491.
[6] D. A. Colman, "The Hydrocyclone for Separating Light Dispersions", Ph.D. Thesis, Southampton University, UK, 1981.
[7] D. Colman, M. Thew, D. Corney, "hydrocyclones for Oil/Water Separation", Int. Conf. on Hydrocyclones, BHRA, Cambridge, United Kingdom, 1980, pp. 143-165.
[8] D. Colman, M. Thew, "Hydrocyclone to Give a Highly Concentrated Sample of a Lighter Dispersed Phase" Int. Conf. on Hydrocyclones, BHRA, Cambridge, United Kingdom, 1980, pp. 209-223.
[9] D. Colman, M. Thew, "Correlation of Separation Results from Light Dispersion Hydrocyclones", in Chem. Eng. Res. Des. 61, 1983, pp. 233-240.
[10] J. A. Delgadillo, R. K. Rajamani,"A comparative study of three turbulence closure models for the hydrocyclone problem", Int. J. Miner. Process. 77 (4), 2005, pp. 217-230.
[11] J. A. Delgadillo, R. K. Rajamani, "Hydrocyclone modeling: large eddy simulation CFD approach", Minerals and Metallurgical Processing 22 (4), 2005, pp. 225-232.
[12] J. A. Delgadillo, R. K. Rajamani, "Exploration of hydrocyclone designs using computational fluid dynamics", Int. J. Miner. Process. 84, 2007, pp. 252-261.
[13] J. A. Delgadillo, R. K. Rajamani, "Large Eddy Simulation (LES) of Large Hydrocyclones", Particulate Science and Technology 25, 2007, pp. 227-245.
[14] M. Saidi, R. Maddahian, B. Farhanieh, H. Afshin, "Modeling of flow field and separation efficiency of a deoiling hydrocyclone using large eddy simulation", Int. J. Miner. Process. 112-113, 2012, pp. 84-93.
[15] S. Noroozi, S. H. Hashemabadi, "CFD Simulation of Inlet Design Effect on Deoiling Hydrocyclone Separation Efficiency", Chem. Eng. Technol. 32 (12), 2009, pp. 1885-1893.
[16] S. Noroozi, S. H.Hashemabadi, "CFD analysis of inlet chamber body profile effects on de-oiling hydrocyclone efficiency", Chem. Eng. Res. Des. 89 (7). 2011, pp. 968-977.
[17] J. Smagorinsky, "General circulation experiments with the primitive equations", Month. Weather 91, 1963, pp. 99-165.
[18] P. Moin, J. Kim, "Numerical investigation of turbulent channel flow", J. Fluid Mech. 118, 1982, pp. 341-377.
[19] W. Jones, M. Wille, "Large eddy simulation of a jet in a cross flow", in: 10th Symposium On Turbulent Shear Flows, The Pennsylvania State University, 1995, pp. 41-46.
[20] M. Germano, U. Piomelli, P. Moin, W. H. Cabot, "A dynamic subgrid-scale eddy viscosity model", Phys. Fluids 3(7), 1991, pp. 31760-31765.
[21] D. K. Lilly, "A proposed modification of the Germano subgrid scale closure method", Phys. Fluids 4(3), 1992, pp. 633-635.
[22] Z. Bai, H. Wang, S. Tu,"Experimental study of flow patterns in deoiling hydrocyclon", Mineral Engineering 22, 2009, pp. 319-323.
[23] R.I. Issa, "Solution of the implicitly discretised fluid flow equations by operator-splitting", J. Comput. Phys. 62, 1986, pp. 40-65.