期刊
THEORETICAL AND COMPUTATIONAL FLUID DYNAMICS
卷 35, 期 6, 页码 807-830出版社
SPRINGER
DOI: 10.1007/s00162-021-00593-9
关键词
Pseudo-turbulence; Multiphase flow prediction; Generative adversarial network (GAN); Convolutional neural network (CNN)
资金
- Office of Naval Research (ONR), Multi disciplinary University Research Initiatives (MURI) Program [N00014-16-1-2617]
- US Department of Energy, National Nuclear Security Administration, Advanced Simulation and Computing Program [DE-NA0002378]
- National Science Foundation [1908299]
- Div Of Information & Intelligent Systems
- Direct For Computer & Info Scie & Enginr [1908299] Funding Source: National Science Foundation
The study introduces a machine learning approach for simulating fluid flow around a random distribution of spherical particles using a generative adversarial network and convolutional neural network. The model was tested for various Reynolds numbers and particle volume fractions, showing promising performance across the studied cases.
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.
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