In this paper three-dimensional simulation of hydrodynamic phenomena (wave refraction, diffraction, shoaling and breaking) are performed by a finite-volume non-hydrostatic and shock-capturing three-dimensional model. The Navier-Stokes equations are solved on a time dependent coordinate system. The solution procedure of the equations of motion is based on a high-order WENO reconstruction procedure and a third order accurate Runge-Kutta (SSPRK) fractional-step method and adopts a pressure corrector formulation in order to obtain a divergence-free velocity field at each stage. The proposed model is validated against several benchmark test cases.
A 3D numerical scheme for non-hydrostatic flows / Gallerano, Francesco; Cannata, Giovanni; Lasaponara, Francesco; Petrelli, Chiara. - ELETTRONICO. - (2017), pp. 5118-5124. (Intervento presentato al convegno 37th IAHR World Congress tenutosi a Kuala Lumpur, Malaysia nel 13-18 August 2017).
A 3D numerical scheme for non-hydrostatic flows
Francesco Gallerano;Giovanni Cannata;Francesco Lasaponara;Chiara Petrelli
2017
Abstract
In this paper three-dimensional simulation of hydrodynamic phenomena (wave refraction, diffraction, shoaling and breaking) are performed by a finite-volume non-hydrostatic and shock-capturing three-dimensional model. The Navier-Stokes equations are solved on a time dependent coordinate system. The solution procedure of the equations of motion is based on a high-order WENO reconstruction procedure and a third order accurate Runge-Kutta (SSPRK) fractional-step method and adopts a pressure corrector formulation in order to obtain a divergence-free velocity field at each stage. The proposed model is validated against several benchmark test cases.| File | Dimensione | Formato | |
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