NUMECA FINE/Open 10.1 Win/Linux x64 [2020, ENG]
FINE™/Open with OpenLabs™ is a powerful CFD Flow Integrated Environment dedicated to complex internal and external flows. It can solve any flow, from incompressible to low and high speed flows. It combines completely unstructured hexahedral grids with an efficient preconditioned compressible solver with fast agglomerated multigrid acceleration and adaptation techniques.
FINE™/Open with OpenLabs™ allows users to freely develop and exchange physical models in CFD, with a new open approach to CFD. Complex programming tasks are avoided through the usage of an easy meta-language. Users can develop, improve and customize physical and numerical models as for instance:
Transport equations (convection-diffusion-source)
Steady or unsteady source terms (heat, force, mass)
Diffusion coefficients
Algebraic relations
Initial and boundary conditions
Turbulence models, combustion models, radiation models
Atmospheric boundary layer models,
Actuator disk simulations,
Soot modeling
File Size: 3.2 GB
Download attachment
FINE™/Open with OpenLabs™ is a powerful CFD Flow Integrated Environment dedicated to complex internal and external flows. It can solve any flow, from incompressible to low and high speed flows. It combines completely unstructured hexahedral grids with an efficient preconditioned compressible solver with fast agglomerated multigrid acceleration and adaptation techniques.
FINE™/Open with OpenLabs™ allows users to freely develop and exchange physical models in CFD, with a new open approach to CFD. Complex programming tasks are avoided through the usage of an easy meta-language. Users can develop, improve and customize physical and numerical models as for instance:
Transport equations (convection-diffusion-source)
Steady or unsteady source terms (heat, force, mass)
Diffusion coefficients
Algebraic relations
Initial and boundary conditions
Turbulence models, combustion models, radiation models
Atmospheric boundary layer models,
Actuator disk simulations,
Soot modeling
File Size: 3.2 GB
Download attachment