NUMECA is now Cadence

Extending quadcopter drone flight time and range with OMNIS™ CFD simulation

Extending quadcopter drone flight time and range with OMNIS™ CFD simulation

This case study demonstrates the aerodynamic simulation and optimization of an industrial quadcopter drone (UAV) in hover mode, the most energy intensive mode of this type of drone.

Combining structured and unstructured meshes: the Holy Grail for CFD engineers

Combining structured and unstructured meshes: the Holy Grail for CFD engineers

Flow solvers must be able to read the type of meshes behind them, and as most flow solvers only accept either structured or unstructured meshes, this is can be a no-win situation. However, within NUMECA's OMNIS™ environment, users can switch between meshing approaches in a single click.

Studying the nature of turbulence with Neural Concept’s Deep Learning platform

Studying the nature of turbulence with Neural Concept’s Deep Learning platform

The HiFi-TURB project, which is coordinated by NUMECA , sets out a highly ambitious and innovative work programme to address influential deficiencies in turbulence modelling.

Fuel savings up to 5% thanks to ship trim optimization with FINE™/Marine

Fuel savings up to 5% thanks to ship trim optimization with FINE™/Marine

Ship trim optimization has recently gained enormous momentum in the field of naval architecture. See how the unique features of FINE™/Marine contributed to obtaining a database of optimal trim angles quickly and with high accuracy.

Fluid dynamics investigation of the sonic boom on a supersonic aircraft concept

Fluid dynamics investigation of the sonic boom on a supersonic aircraft concept

The use of computational fluid dynamics in the field of supersonic aeronautics significantly cuts the time to market and associated development costs. NUMECA is active in this field and was involved in the CFD investigation of a sonic boom and aerodynamic prediction of NASA Concept 25D Powered supersonic aircraft.