Behold the Air Powered Motorbike. This is an innovative concept motorcycle that can reach surprising speeds thanks to the force of compressed air within its cutting-edge engine.
Three compact canisters have been fitted on the scooter, each one drawing in the surrounding gaseous mixture of oxygen and carbon dioxide. The lung-like components then apply pressure by a shrinking of the compartments and exploit the potential of the condensed air for energy.
Designed by Bolaji Teniola of Melbourne, Australia, the Air Powered Motorbike would be a cheaper and more environmentally friendly alternative to fuel-guzzling bikes and mopeds. Its creator suggests that the speedy two-wheeler would be ideal for use by beginner bikers, as a conveyance that is safe, cheap, easy and fun to operate.
Key Themes Behind This Trend
- Air-powered Motorbikes
- Opportunity for disruptive innovation in the motorcycle industry by developing more environmentally friendly and cost-effective alternatives to traditional fuel-powered bikes.
- Compressed Air Technology
- Opportunity for disruptive innovation in the energy sector by exploring the potential of compressed air as a sustainable energy source for various applications.
- Green Transportation Solutions
- Opportunity for disruptive innovation in the transportation industry by designing and manufacturing eco-friendly vehicles that are affordable, efficient, and enjoyable to use.
Where This Applies
- Motorcycle Manufacturing
- Motorcycle manufacturers can explore the development of air-powered motorcycles as a sustainable and appealing option for beginner riders and eco-conscious consumers.
- Alternative Energy
- Companies within the alternative energy sector can invest in research and development of compressed air technology to harness its potential for clean and renewable energy solutions.
- Electric Vehicle Manufacturing
- Electric vehicle manufacturers can consider integrating compressed air technology as an additional energy source for hybrid or electric vehicles, further enhancing their eco-friendly profile.
