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Physics-Aware Deep Learning on Multiphase Flow Problems 被引量:1

Physics-Aware Deep Learning on Multiphase Flow Problems
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摘要 In this article, a physics aware deep learning model is introduced for multiphase flow problems. The deep learning model is shown to be capable of capturing complex physics phenomena such as saturation front, which is even challenging for numerical solvers due to the instability. We display the preciseness of the solution domain delivered by deep learning models and the low cost of deploying this model for complex physics problems, showing the versatile character of this method and bringing it to new areas. This will require more allocation points and more careful design of the deep learning model architectures and residual neural network can be a potential candidate. In this article, a physics aware deep learning model is introduced for multiphase flow problems. The deep learning model is shown to be capable of capturing complex physics phenomena such as saturation front, which is even challenging for numerical solvers due to the instability. We display the preciseness of the solution domain delivered by deep learning models and the low cost of deploying this model for complex physics problems, showing the versatile character of this method and bringing it to new areas. This will require more allocation points and more careful design of the deep learning model architectures and residual neural network can be a potential candidate.
作者 Zipeng Lin Zipeng Lin(Basis Independent Mclean, Mclean, USA)
出处 《Communications and Network》 2021年第1期1-11,共11页 通讯与网络(英文)
关键词 Deep Learning Neural Network MULTI-PHASE Oil Incompressible Fluid Physics Partial Differential Equation Deep Learning Neural Network Multi-Phase Oil Incompressible Fluid Physics Partial Differential Equation
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