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Estimating forces from cross-sectional data in the wake of flows past a plate using theoretical and data-driven models

Wenwen Tong, Shizhao Wang, Yue Yang

2022Physics of Fluids13 citationsDOIOpen Access PDF

Abstract

We report a comparative study of theoretical and data-driven models for estimating forces from velocity data in the wake of three-dimensional flows past a plate. The datasets with a range of angles of attack are calculated using the immersed boundary method. First, we develop a theoretical model to estimate forces on a flat plate from cross-sectional velocity data in the far wake. This algebraic model incorporates the local momentum deficit and pressure variation. Second, we develop several data-driven models based on the convolutional neural network (CNN) for force estimation by regarding the velocity field on a series of cross sections as images. In particular, we design three CNN architectures for integrating physical information or attention mechanism, and use different training datasets for interpolation and extrapolation tasks. The model performances indicate that the optimized CNN can identify important flow regions and learn empirical physical laws. The theoretical and CNN models are assessed by multiple criteria. In general, both models are accurate (with errors less than 10%), robust, and applicable to complex wake flows. The theoretical model is superior to the CNN model in terms of the completeness, cost, and interpretability, and the CNN model with the appropriate training data and optimized CNN architecture has better description and accuracy.

Topics & Concepts

WakeInterpretabilityExtrapolationInterpolation (computer graphics)Convolutional neural networkPhysicsRange (aeronautics)Computer scienceAlgorithmArtificial intelligenceMotion (physics)MechanicsMathematical analysisMathematicsComposite materialMaterials scienceModel Reduction and Neural NetworksFluid Dynamics and Vibration AnalysisFluid Dynamics and Turbulent Flows
Estimating forces from cross-sectional data in the wake of flows past a plate using theoretical and data-driven models | Litcius