Turbomachinery
Design and Analysis, Performance Prediction, Blade Design, Cavitation Prediction and Analysis, Acoustics and Vibration Analysis, Off-Design Analysis
1. Design and Analysis
- Advanced CFD simulations for turbomachinery design
- High-fidelity simulations with multi-physics capabilities
- Automated mesh generation and optimization
- Fast design iteration with real-time feedback
- Design optimization and parameterization for improved performance


2. Performance Prediction
- Accurate performance prediction for a range of turbomachinery devices
- Comprehensive analysis of flow behavior and efficiency
- Detailed visualization of performance metrics
- Multi-objective optimization for improved performance
- Comparison of different design configurations for best results
3. Blade Design
- Advanced blade design and optimization tools
- Automated blade parameterization for improved design space exploration
- Design space exploration for improved performance
- Prediction of flow behavior and efficiency with respect to blade geometry
- Blade optimization for aerodynamic performance


4. Cavitation Prediction and Analysis
- Prediction of cavitation behaviour in turbomachinery devices
- Accurate simulation of cavitation onset and growth
- Detailed visualization of cavitation behaviour and impact on performance
- Cavitation mitigation strategies for improved performance and reliability
- Optimization of device geometry to reduce cavitation
5. Acoustics and Vibration Analysis
- Prediction of noise and vibration behaviour in turbomachinery devices
- Accurate simulation of noise and vibration sources
- Detailed visualization of acoustic and vibration behaviour
- Optimization of device geometry for reduced noise and vibration
- Prediction of noise and vibration impact on device performance


6. Off-Design Analysis
- Accurate prediction of device performance outside of design conditions
- Comprehensive analysis of device performance at different operating points
- Visualization of performance metrics under off-design conditions
- Optimization of device geometry to improve off-design performance
- Comparison of different design configurations for improved off-design performance.