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CONVERGE CFD is a multi-purpose software from Convergent Science for computational dynamic fluid (CFD) simulation and analysis. This program is offered with innovative features that are mentioned in the features of the program in general. With this software, the time required to design the mesh is eliminated by the user, the installation and connection of moving parts is done automatically, the deformation of the meshes related to border movements is prevented, and also independent of the mesh resolution, the best geometric structure for The meshes are selected.
CONVERGE CFD Software also fully integrates with POWER / GT-SUITE, which adds two-way interaction, cross-linking and hydromechanical connectivity to the program. The program includes complete chemical models and uses genetic optimization tools.
Powerful and efficient user interface
No user need to design meshes (CONVERGE is a different software in the field of CFD, this program automatically generates grids at runtime, so you do not need to spend time to create meshes)
Improvement of meshes by adaptive AMR method
Use advanced and accurate combustion models to solve many combustion related problems
Ability to simulate multiphase fluids
Ability to simulate turbulent fluids and cluttered and complex scenarios
Accurate analysis of fluid heat exchange in boundary states
Careful examination of issues related to the interaction of different components with each other
Simultaneous calculations to increase computational speed
And
Studio with an OpenGL-compatible video card (OpenGL 3.3+ compatible recommended).
To manipulate geometry in CONVERGE Studio, we recommend the following minimum RAM: 10,000 triangles – 200 MB RAM 120,000 triangles – 475 MB RAM 200,000 triangles – 650 MB RAM 400,000 triangles – 1 GB RAM 800,000 triangles – 1.8 GB RAM 1,000,000 triangles – 2.0 GB RAM
For the CONVERGE solver, the amount of recommended RAM depends on the size of the domain; the level of grid refinement; the number of species, passives and reactions in the mechanism; and other simulation-specific criteria. A small, simple simulation (e.g., an engine sector case) can be efficiently executed in serial on a single machine with less than 4 GB of RAM. Larger simulations (e.g., a port-fuel injected, full-cylinder simulation using the SAGE detailed chemistry solver) may require several multi-core machines to achieve a solution in a reasonable time. Contact the Convergent Science, Inc. Support Team ([email protected]) to discuss processor selection for your simulation.
In the Readme file in the Crack folder.
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