Automotive

Our Partners

At PUNCH Flybrid, we proudly traverse a diverse array of industries, standing shoulder-to-shoulder with visionary partners who span the spectrum from automation to construction. Our collaborative efforts are driven by a shared commitment: the reduction of emissions and the amplification of financial savings.

Automotive

The PUNCH Flybrid F-Boost is a small, high speed flywheel system for integration into automotive applications such as BEVs, hybrid cars and vans. It offers excellent performance characteristics with no degradation in charge capacity.

In 2008, Formula 1 introduced flywheel energy recovery systems (KERS) to capture braking energy. KERS stored energy in a spinning flywheel, providing an exhilarating boost of power for overtaking. While KERS was short-lived in F1, it marked an innovative departure from traditional battery-based regeneration systems.

Today that system is no longer permitted, but the use of flywheels as a method of recovering and reusing electrical power in a car still has many advantages. Implimenting a flywheel such as the F-Boost into your automotive application can drastically increase performance whilst simultaniously reducing emissions  and fuel economy by up to 25%

Automotive

The PUNCH Flybrid F-Boost is a small, high speed flywheel system for integration into automotive applications such as BEVs, hybrid cars and vans. It offers excellent performance characteristics with no degradation in charge capacity.

In 2008, Formula 1 introduced flywheel energy recovery systems (KERS) to capture braking energy. KERS stored energy in a spinning flywheel, providing an exhilarating boost of power for overtaking. While KERS was short-lived in F1, it marked an innovative departure from traditional battery-based regeneration systems.

Today that system is no longer permitted, but the use of flywheels as a method of recovering and reusing electrical power in a car still has many advantages. Implimenting a flywheel such as the F-Boost into your automotive application can drastically increase performance whilst simultaniously reducing emissions  and fuel economy by up to 25%