Dam spillway 3D CFD simulation
3D Numerical modelling of a spillway using the Particle Finite Element Method. Calculated with Kratos Multiphysics. Published in https://rdcu.be/bFZfX
Current applications of GiD in computational fluid dynamics cover a wide range of external and internal flow problems such as ship hydrodynamics, aerodynamics of buildings and vehicles, analysis of fans, mould filling problems, etc. GiD includes all the necessary facilities for generating structured and non structured meshes in complex geometries, as well as for visualising the flow features of interest such as velocity and pressure contours and line plots, velocity vectors, particle lines, stresses at solid boundaries, etc.
GiD is ideal to be used in a multi-user environment in universities, research centers and enterprises for development and applications of different numerical simulation programs.
3D Numerical modelling of a spillway using the Particle Finite Element Method. Calculated with Kratos Multiphysics. Published in https://rdcu.be/bFZfX
Unmanned underwater vehicle with no control module. The simulation is done using Kratos Multiphysics.
Concrete caissons are dragged seawards by the liquefacted hydraulic filling. The simulation is done using Kratos Multiphysics.
This video shows a landslide falling into reservoir, with the subsequent generated wave. Simulation done using Kratos Multiphysics.
Simulation of the filling of an industrial mould using Vulcan solver.
Aerodynamical analysis of a motorbycke prototype done using Tdyn solver.
CFD analysis of the machine chamber of a ship, taking into account the ventilation system. The simulation was run using Tdyn solver.
CFD analysis of the turbulence created by a flow around a cylinder. The video shows the evolution of isosurfaces corresponding with the same value of vorticity. The simulation was run using Tdyn solver.
Analysis of a mould filling process. The simulation was run using Vulcan solver. (courtesy of Fundiciones Pujol S.A.)