ARTÍCULO
TITULO

A Machine Learning Approach to Improve Turbulence Modelling from DNS Data Using Neural Networks

Yuri Frey Marioni    
Enrique Alvarez de Toledo Ortiz    
Andrea Cassinelli    
Francesco Montomoli    
Paolo Adami and Raul Vazquez    

Resumen

In this paper, we investigate the feasibility of using DNS data and machine learning algorithms to assist RANS turbulence model development. High-fidelity DNS data are generated with the incompressible Navier?Stokes solver implemented in the spectral/hp element software framework Nektar++. Two test cases are considered: a turbulent channel flow and a stationary serpentine passage, representative of internal turbo-machinery cooling flow. The Python framework TensorFlow is chosen to train neural networks in order to address the known limitations of the Boussinesq approximation and a clustering based on flow features is run upfront to enable training on selected areas. The resulting models are implemented in the Rolls-Royce solver HYDRA and a posteriori predictions of velocity field and wall shear stress are compared to baseline RANS. The paper presents the fundamental elements of procedure applied, including a brief description of the tools and methods and improvements achieved.

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