Engineers looking to combine speed and accuracy for their virtual turbomachinery designs trust NUMECA, even for their toughest challenges.
NUMECA has designed a unique toolset that encompasses a complete end-to-end solution: 1D to 3D, Meshing, CFD and Optimization, all in one single environment. Thanks to more than 75 years of expertise in rotating machinery, the environment displays an unsurpassed ease-of-use and accuracy.
The solution is up to 20x faster than the competition, allowing engineers to run multiple design points and geometry variations to ensure maximum product performance.
Components range from multi-stage axial to radial to mixed-flow configurations (compressors, turbines, pumps, fans, propellers or contra-rotating propellers).
Our solutions can take into account uncertainties in operating conditions as well as manufacturing uncertainties, so engineers can simulate under real-world conditions and further enhance the reliability of their CFD results.
A complete end-to-end solution
The strong partnership between NUMECA International, with its Flow Integrated Numerical Environment, and CONCEPTS NREC with its Agile Engineering Design System, gave rise to the fastest and most accurate CFD suite for Turbomachinery design on the market today.
Its dedicated solution spans from preliminary meanline and detailed design, through meshing, to steady and unsteady CFD analysis, all the way to optimization. This entire workflow is integrated within one single environment.
OMNIS™ - Power to explore, collaborate and innovate
One single integrated multiphysics environment for all steps in the simulation process, powered by the fastest solvers on the market.
Accurately predict real-world product performance through multiphysics simulation. Run all of your simulations in one place and change from one physics to another by the simple click of a button.
Steer product design from start to finish through a highly automated and streamlined workflow.
Fidelity-to-Need - Built for the simplest to the most advanced simulation needs.