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A stochastic vortex structure method for interacting particles in turbulent shear flows
Dizaji, Farzad F. Marshall, Jeffrey S. Grant, John R.
Dizaji, Farzad F.
Marshall, Jeffrey S.
Grant, John R.
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© 2018 Author(s).
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10.1063/1.5007743
Abstract
In a recent study, we have proposed a new synthetic turbulence method based on stochastic vortex structures (SVSs), and we have demonstrated that this method can accurately predict particle transport, collision, and agglomeration in homogeneous, isotropic turbulence in comparison to direct numerical simulation results. The current paper extends the SVS method to non-homogeneous, anisotropic turbulence. The key element of this extension is a new inversion procedure, by which the vortex initial orientation can be set so as to generate a prescribed Reynolds stress field. After validating this inversion procedure for simple problems, we apply the SVS method to the problem of interacting particle transport by a turbulent planar jet. Measures of the turbulent flow and of particle dispersion, clustering, and collision obtained by the new SVS simulations are shown to compare well with direct numerical simulation results. The influence of different numerical parameters, such as number of vortices and vortex lifetime, on the accuracy of the SVS predictions is also examined.
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2018-01-01
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bMarshall.pdf
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Dizaji FF, Marshall JS, Grant JR. A stochastic vortex structure method for interacting particles in turbulent shear flows. Physics of Fluids. 2018 Jan 3;30(1):013301.