This paper studies the influence of the fluid-particle interaction for the prediction of turbulent particle-laden flows in a
bluff body configuration. The simulations are performed using
a probability density function form of the population balance
equation (PDF-PBE) in the large eddy simulation (LES) context. The inertia of particles of different sizes is effectively modelled using a newly developed Stokes binning method which
divides the PDF-PBE into classes based on the particle Stokes
numbers. A two-way coupling is applied considering the interaction between the continuous and particulate phase only by
momentum exchange terms. The studied case is an experiment of glass beads injected into a recirculating flow. Good
agreement is observed between the simulations and the measurements. The results also confirm that the flow field of the
continuous phase is influenced by the particulate phase and this
is consistent with the experimental observations.
%0 Conference Paper
%1 Salehi2018Oneway
%A Salehi, Fatemeh
%A Cleary, Matthew J.
%A Masi, Assaad R.
%A Kronenburg, Andreas
%D 2018
%E Lau, T. C. W.
%E Kelso, R. M.
%I Australasian Fluid Mechanics Society
%K 76f25-turbulent-transport-mixing 76t15-dusty-gas-two-phase-flows
%T One-way and Two-way Coupled PDF-PBE/LES Simulations of Turbulent Particle-Laden Flows
%U https://people.eng.unimelb.edu.au/imarusic/proceedings/21/Contribution_558_final.pdf
%X This paper studies the influence of the fluid-particle interaction for the prediction of turbulent particle-laden flows in a
bluff body configuration. The simulations are performed using
a probability density function form of the population balance
equation (PDF-PBE) in the large eddy simulation (LES) context. The inertia of particles of different sizes is effectively modelled using a newly developed Stokes binning method which
divides the PDF-PBE into classes based on the particle Stokes
numbers. A two-way coupling is applied considering the interaction between the continuous and particulate phase only by
momentum exchange terms. The studied case is an experiment of glass beads injected into a recirculating flow. Good
agreement is observed between the simulations and the measurements. The results also confirm that the flow field of the
continuous phase is influenced by the particulate phase and this
is consistent with the experimental observations.
%@ 978-0-646-59784-3
@inproceedings{Salehi2018Oneway,
abstract = {{This paper studies the influence of the fluid-particle interaction for the prediction of turbulent particle-laden flows in a
bluff body configuration. The simulations are performed using
a probability density function form of the population balance
equation (PDF-PBE) in the large eddy simulation (LES) context. The inertia of particles of different sizes is effectively modelled using a newly developed Stokes binning method which
divides the PDF-PBE into classes based on the particle Stokes
numbers. A two-way coupling is applied considering the interaction between the continuous and particulate phase only by
momentum exchange terms. The studied case is an experiment of glass beads injected into a recirculating flow. Good
agreement is observed between the simulations and the measurements. The results also confirm that the flow field of the
continuous phase is influenced by the particulate phase and this
is consistent with the experimental observations.}},
added-at = {2019-03-01T00:11:50.000+0100},
author = {Salehi, Fatemeh and Cleary, Matthew J. and Masi, Assaad R. and Kronenburg, Andreas},
biburl = {https://www.bibsonomy.org/bibtex/29b6bc5362fc4ba5f7587f32c75b8467f/gdmcbain},
citeulike-article-id = {14684214},
citeulike-attachment-1 = {salehi_18_one-way.pdf; /pdf/user/gdmcbain/article/14684214/1152403/salehi_18_one-way.pdf; 74b3ee7519d575dc5b176a457184a074634590ee},
citeulike-linkout-0 = {https://people.eng.unimelb.edu.au/imarusic/proceedings/21/Contribution\_558\_final.pdf},
editor = {Lau, T. C. W. and Kelso, R. M.},
file = {salehi_18_one-way.pdf},
interhash = {c98a32eb10a58763697e596c8b33f76d},
intrahash = {9b6bc5362fc4ba5f7587f32c75b8467f},
isbn = {978-0-646-59784-3},
keywords = {76f25-turbulent-transport-mixing 76t15-dusty-gas-two-phase-flows},
location = {Adelaide},
month = dec,
organization = {Australasian Fluid Mechanics Society},
posted-at = {2019-01-31 00:08:52},
priority = {5},
publisher = {Australasian Fluid Mechanics Society},
timestamp = {2019-07-05T04:49:37.000+0200},
title = {One-way and Two-way Coupled {PDF-PBE/LES} Simulations of Turbulent Particle-Laden Flows},
url = {https://people.eng.unimelb.edu.au/imarusic/proceedings/21/Contribution_558_final.pdf},
year = 2018
}