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FINE™/Turbo is the fastest CFD suite for rotating machinery with incompressible and compressible fluids, from subsonic to hypersonic flow regimes. All types of multi-stage axial, radial or mixed-flow configurations are supported: compressors, turbines, pumps, fans, propellers or contra-rotating propellers. From meshing to results visualization, the FINE™/Turbo application-oriented graphical user interface is intuitive, enabling fast project set-up and analysis.
The simulation process is streamlined with:
- AutoGrid5™: Automated grid generator for turbomachinery configuration, delivers the highest quality structured meshes with minimum user input. Its Wizard mode handles all types of rotating machinery configurations and complexities.
- FINE™/Turbo flow solver: 3D Navier-Stokes flow solver, recognized as the fastest and most accurate for turbomachinery configurations. Acceleration of several orders of magnitude is achieved thanks to the CPU Booster™ technique, NLH approach and HPC scalability.
- CFView™: Advanced post-processing tool, provides dedicated flow visualization and analysis outputs in an easy-to-use turbomachinery-oriented mode.
Key features
AutoGrid5™:
- Wizard mode: optimal mesh topology based on configuration
- Advanced geometry features: blade fillets, axisymmetric and non-axisymmetric effects
- Advanced configurations: multistage, bulb, by-pass
- Automated blocking and meshing of axisymmetric effects
- Python scripting technology
FINE™/Turbo flow solver:
- One single code for all types of fluids (incompressible, low-compressible, condensable and fully compressible) and speed (low speed to hypersonic regime)
- Acceleration with the CPU Booster™ module provides 3-5 times gain in convergence speed
- Non Linear Harmonic (NLH) module for full unsteady rotor-stator interactions with gains of 1 to 3 orders of magnitude in CPU time
- HPC for high performance computing on supercomputers with linear speed-up on up to 5,000 to 10,000 cores
- Embedded fluid structure interaction with the Modal and Flutter Analysis module
- Uncertainty Quantification module to study the variability of input parameters
- Automated performance curve creation
- Multigrid convergence acceleration
- Full Non-Matching Boundaries capability
- Laminar-turbulent transition
- Cavitation
- Python scripting technology
CFView™:
- Multi-projects and multi-views graphical user interface
- Specific turbomachinery visualization mode
- Python scripting technology
http://www.numeca.com/
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