Publication detail
Large Eddy Simulation of particle laden channel flow: Subgrid modeling in particle equation of motion
VOLAVÝ, J.
English title
Large Eddy Simulation of particle laden channel flow: Subgrid modeling in particle equation of motion
Type
Paper in proceedings (conference paper)
Language
en
Original abstract
This work contains the study of turbulent particle-laden channel flow. The method used for simulation of the liquid phase was Large Eddy Simulation using approximate deconvolution method as a subgrid model. For tracking the dispersed phase were used Lagrangian equations of motion. The effect of subgrid scales on motion of particles is obtained by adding the stochastic term into particle equation of motion. This term is proportional to the subgrid kinetic energy. The simulations were performed for various size of particles. The results are compared with the previous studies of LES particle-laden flows and DNS simulation done by Kuerten. The stochastic model proposed in this work shows improvement in prediction of turbulent statistics of particles and concentration of particles close to the wall.
Keywords in English
large eddy simulation, particles, subgrid modeling
Released
2009-10-25
Publisher
CIMNE
Location
Barcelona
ISBN
978-84-96736-82-5
Book
Particle-Based Methods: Fundamentals and Applications
Pages from–to
208–211
Pages count
4
BIBTEX
@inproceedings{BUT32948,
author="Jaroslav {Volavý}",
title="Large Eddy Simulation of particle laden channel flow: Subgrid modeling in particle equation of motion",
booktitle="Particle-Based Methods: Fundamentals and Applications",
year="2009",
series="1",
number="1",
pages="208--211",
publisher="CIMNE",
address="Barcelona",
isbn="978-84-96736-82-5"
}