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The 3D Inverse Design method can be applied to all types of axial, mixed flow and centrifugal pumps. Our software enables design of high efficiency stages at multiple operating points with direct control of cavitation.
The 3D Inverse Design method can be applied to all components of compressor stages. Our software enables systematic design, matching and optimization of high efficiency rotors, vanes and volutes.
The 3D Inverse Design method is specifically tailored for turbine design. Our software enables systematic optimization and development of high-efficiency turbine rotors with matched nozzles and volutes of all types, ensuring superior performance across multiple operating conditions.
The 3D Inverse Design method can be applied to all types of axial, mixed-flow and radial hydraulic turbines. By leveraging our software, engineers can design turbines optimized for performance and efficiency across a wide range of operating conditions, while maintaining precise control over cavitation and hydrodynamic flow stability.
The 3D Inverse Design method can be applied to improve performance, efficiency and noise signatures in all types of fans and blowers at single or across multiple operating points.
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The 3D Inverse Design method enables direct control of shock strength and position in axial transonic fans, compressors and turbines.
