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Machine Learning for Physics-Informed Generation of Dispersed Multiphase Flow Using Generative Adversarial Networks (2005.05363v1)

Published 11 May 2020 in physics.flu-dyn and physics.comp-ph

Abstract: Fluid flow around a random distribution of stationary spherical particles is a problem of substantial importance in the study of dispersed multiphase flows. In this paper we present a machine learning methodology using Generative Adversarial Network framework and Convolutional Neural Network architecture to recreate particle-resolved fluid flow around a random distribution of monodispersed particles. The model was applied to various Reynolds number and particle volume fraction combinations spanning over a range of [2.69, 172.96] and [0.11, 0.45] respectively. Test performance of the model for the studied cases is very promising.