A scalable parallel algorithm for the direct numerical simulation of three-dimensional incompressible particulate flow |
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| Authors: | Shi Jin Peter Minev Krishnaswamy Nandakumar |
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| Affiliation: | 1. Department of Chemical and Materials Engineering , University of Alberta , Edmonton, AB, T6G 2G6, Canada shi.jin@ualberta.ca;3. Department of Mathematical and Statistical Sciences , University of Alberta , Edmonton, AB, T6G 2G1, Canada;4. Department of Chemical and Materials Engineering , University of Alberta , Edmonton, AB, T6G 2G6, Canada;5. Chemical Engineering Program , The Petroleum Institute , Abu Dhabi, UAE |
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| Abstract: | ![]()
Particulate flow is of great importance from both the scientific and engineering points of view. Owing to the complexity of particle-flow interactions, direct numerical simulations (DNS) of inertial particulate flow with finite-size particles have been limited to a very small number of particles, while the industrial applications involve larger numbers with many orders of magnitude. This article presents a parallel implementation of a fictitious domain method for the DNS of particulate flows. The method is thoroughly tested and its parallel performance on distributed memory clusters is evaluated on a large-scale problem. Finally, we present the results for the separation of 21,336 particles of two different densities in a viscous fluid. Although there is still a significant gap between DNS and the industrial applications, the present algorithm allows to simulate significantly large number of particles so that a meaningful statistical analysis can be performed. This will help in the development of new closure relations for the averaged models of multiphase flows. |
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| Keywords: | particulate flow multiphase flow DNS parallel computing unstructured grid domain decomposition |
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