Introducing the Kite Hydroliner Gen 2.0, a brand-new single-deck fuel cell bus powered entirely by hydrogen, in keeping with our mission to guide the world towards a cleaner future. As demand for hydrogen fuel cell vehicles continues to grow across Asia-Pacific, the Kite Hydroliner helps cities move closer to their ambitious net-zero goals with proven, cutting-edge technology.
This hydrogen bus has many features that make it the ideal choice for long-distance travel, including a quick refuelling time. Up to 90 passengers can travel on the Kite, which has a range of up to 900 kilometres. As a next-generation zero-emission bus, it combines long-range performance with the efficiency expected from modern fuel cell electric vehicles.
The drivetrain of the Kite Hydroliner and Electroliner is the same, reducing depot complexity and parts count. Wrightbus' hydrogen fuel cell electric vehicles have been in service in the UK and Germany since 2020 and have covered over 12 million kilometres, demonstrating the reliability of our hydrogen-powered vehicles in real-world operations.
Discover the cutting-edge features
The only by-product is water
The Kite Hydroliner is a zero-emissions vehicle, producing only water vapour while helping reduce transport emissions.
Renewable energy powers hydrogen production
Green hydrogen enables our hydrogen fuel cell vehicles to deliver clean, sustainable mobility.
Better air quality
Replacing conventional fleets with hydrogen buses helps improve air quality and supports healthier cities.
Efficient refuelling time
The fuel cell bus refuels in less than 10 minutes, maximising fleet uptime and operational efficiency.
Specifications
Capacity at Maximum
Up to 79 passengers
Vehicle Accessibility
- 1 or 2 door option available. Wheelchair compliant via electronic or manual ramp
Axle
- Front – ZF RL 82 EC
- Rear – ZF AV 133
Fuel Cell
- Ballard FCmove Gen 8
- 70kW Fuel Cell Mofule
Hydrogen Storage
- 350 bar filling pressure.
- 40kg of hydrogen stored using a 5-cylinder arrangement.
Power Supply
- 54kWh battery capacity for efficient power management and energy recovery.