Alpine’s Hydrogen Turbo Engine Produces 340 HP Track Beast!


Alpine’s latest creation, the Alpenglow Hy4, is making waves in the automotive world with its hydrogen combustion turbo engine. This track beast boasts a turbocharged 2.0-liter engine that generates an impressive 340 horsepower, running on hydrogen stored in three tanks at high pressure. The Hy4, a running prototype, is set to debut during an endurance race at Spa-Francorchamps before heading to Le Mans.

Why does it matter?

As automakers explore sustainable alternatives to traditional fossil fuels, Alpine’s shift towards hydrogen power signals a growing trend in the industry. By leveraging hydrogen as a clean energy source for combustion engines, Alpine aims to pave the way for eco-friendly performance vehicles. The development of a larger V-6 engine dedicated to hydrogen applications demonstrates Alpine’s commitment to innovation and environmental responsibility.

Alpine’s decision to showcase the Hy4 on the race track signifies the brand’s confidence in the performance capabilities of hydrogen combustion technology. While currently designed for track use, Alpine envisions a future where hydrogen-powered internal combustion engines could transition to street-legal models. This forward-thinking approach positions Alpine as a frontrunner in sustainable automotive solutions.

How is it going to shape the future?

The emergence of the Alpenglow Hy4 represents a significant step towards integrating hydrogen combustion engines into high-performance vehicles. By exploring hydrogen as a viable fuel source, Alpine sets a precedent for other automakers to prioritize sustainability without compromising on power and speed. The potential success of the Hy4 on the track could inspire further developments in hydrogen-powered transportation, paving the way for a cleaner and greener future in the automotive industry. With Alpine’s strategic focus on hydrogen technology, the automotive landscape is poised for a shift towards more environmentally friendly and innovative propulsion systems.