A company specialized in the design and production of monocoques and chassis for single-seater race cars
THE CHALLENGE
Develop the aerodynamics of a Formula-E car in compliance with FIA regulations, maximizing energy efficiency while adapting to urban circuits, where aerodynamic performance is critical for competitiveness. The challenge required a detailed CFD-based approach to optimize downforce, drag, and overall vehicle performance.
THE SOLUTION
Aerodynamic optimization was carried out through a multi-stage, automated CFD workflow executed in parallel on high-performance computing clusters, significantly reducing development time.
In parallel, parametric CAD models were employed to quickly generate design variants, with adjustable surfaces controlled by parameters to optimize integration between aerodynamic efficiency and overall vehicle architecture.
RESULTS
- Accelerated Project Completion
Efficient workflow and cost optimization enabled delivery ahead of schedule while maintaining the highest quality standards. - Advanced CFD Automation and Parametric CAD
The combined use of automated simulations and parametric design accelerated design iterations and improved aerodynamic surface quality. - Maximized Team Productivity
Ensured high-performance outcomes while fully complying with FIA regulations.
