Abstract
There have been many recent developments on machine learning about vortex induced vibration (VIV) in laminar flow. We have extended these applications to turbulence by employing a state-of-the-art parameterized Navier–Stokes equations-based physics informed neural network (PNS-PINN). Turbulent flow past a cylinder undergoing VIV motion with Reynolds number Re=104, is considered as an example. Within PNS-PINN, a viscosity-like parameter νt is introduced into the Navier–Stokes equations and treated as a hidden output variable. A Navier–Stokes equations-based PINN without introducing νt is also considered for comparison. A series of training dataset of scattered velocity and dye trace concentration snapshots from computational fluid dynamics (CFD) simulations are used for PNS-PINN and NSFnets. Results show that PNS-PINN is more effective in inferring and reconstructing VIV and flows under turbulence circumstance. The PNS-PINN configuration also can deal with unsteady and multiscale flows in VIV.
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