Take advantage of the new pressure-based solver in OMNIS™ for multiphysics simulation

Take advantage of the new pressure-based solver in OMNIS™ for multiphysics simulation

Learn about our highly efficient pressure-based solver for simulating the flow in a large number of applications, such as heat exchangers, industrial fans, hydraulic turbomachinery, car thermal management or external aerodynamics.

End-to-end Aerodynamic simulation workflow of the DrivAer in OMNIS™

End-to-end Aerodynamic simulation workflow of the DrivAer in OMNIS™

Discover how NUMECA's OMNIS™ helps in the aerodynamic development of cars, providing a fast and intuitive flow simulation framework.

Industry Focus - Fluid Dynamic Solutions for automotive engineering

Industry Focus - Fluid Dynamic Solutions for automotive engineering

With automated workflows that allow engineers to ramp up projects quickly and a robust design optimization framework that can be tailored to specific PLM/CAD interfaces and prepared for Digital Printing. 

The World Solar Challenge - Aerodynamic simulation of rotating wheels in a solar car

The World Solar Challenge - Aerodynamic simulation of rotating wheels in a solar car

One of the most important objectives of solar-powered car development is to minimize power consumption by reducing drag. Team Agoria used OMNIS™ to find the optimum design for their car within the limits of the competition.

Technology Deep Dive - Multiphysics simulation with Lattice-Boltzmann solver OMNIS™/LB

Technology Deep Dive - Multiphysics simulation with Lattice-Boltzmann solver OMNIS™/LB

The nature of the OMNIS™/LB solver is such that high scalability is achieved, allowing to run high fidelity simulations on hundreds of millions of points in full unsteady mode.