Zero-emission winter tourism using hydrogen technology
It is crucial that snowmobiles provide as much power as possible at a low weight and are reliable in low temperatures. Short refuelling times and comparatively high ranges ensure high vehicle availability for mountain rescue or maintenance service employees. The fuel required – green hydrogen in this example – is generated using a 34.5-kWp PV system. This is directly coupled with an electrolysis module with a downstream compressor, thus establishing a 350-bar tank infrastructure. Fronius provides the project with important components for the refuelling system infrastructure and the two Fronius Symo inverters are the energy source for producing hydrogen from solar power.
Several project partners came together to share their know-how as part of the “White mobility revolution” project with HySnow. BRP-Rotax GmbH&CoKG is the consortium leader of the four-year project and is being supported by Fronius International GmbH, HyCentA Research GmbH, the Institute of Electrical Measurement and Measurement Signal Processing (EMT) of TU Graz, Elring Klinger AG, ECuSoL GmbH and Hinterstoder-Wurzeralm Bergbahnen AG as project partners.
Powering vehicles with green hydrogen from solar energy
“At Fronius, we are certain that green hydrogen represents a sustainable alternative to fossil fuels for mobility,” explains Martin Hackl, head of solar energy at Fronius International GmbH. “With our multiple-award-winning Fronius Solhub1, we have already developed a complete turnkey solution for decentralised hydrogen production, storage and supply, which is available immediately.” Municipalities, companies and organisations with their own vehicle fleet can produce their own fuel in the form of green hydrogen using the Fronius Solhub. Large roof areas are often available to install the photovoltaic systems and the generation of clean, green hydrogen can begin.
The Solhub uses electrolysis to convert environmentally friendly energy generated on-site into green hydrogen, which can be stored over the long term. The ability to store the hydrogen opens up several possibilities, such as fuelling hydrogen vehicles or using the solar energy yields from the summer to provide power in the winter (through reconversion), making green electricity available all year round. Furthermore, a positive side-effect of the electrolysis and reconversion process is that the waste heat can be used to heat buildings or generate hot water, resulting in a more attractive overall system efficiency level. An increasing number of vehicle manufacturers are already offering models or prototypes with fuel cells. Internal logistics, working vehicles, bus fleets, lorries, special vehicles or snow groomers are good examples of this. The next stage is to install the necessary refuelling infrastructure.
Hydrogen expertise all under one roof
Fronius has been researching and developing hydrogen solutions for over two decades and has become the innovation leader in solar hydrogen. The high-tech company has acquired an enormous wealth of experience through numerous collaborations, innovative pilot projects and by being a member of leading hydrogen committees. With the establishment of the Fronius hydrogen centre of excellence in Steinhaus, Upper Austria, the ideal environment has been created in which expertise and resources can be combined to drive forward hydrogen research, development and production for H2 systems. Training and customer presentations will also be conducted under one roof in the future. Of course a Solhub, including reconversion and storage systems, will be built in Steinhaus and the existing vehicle fleet is being expanded to include hydrogen vehicles. Construction will begin in April 2020.
12019: Energy Star Award of the State of Upper Austria in the “Innovation” category, 2018 National Environmental and Energy Technology Award
More information about the Fronius Solhub is available here: https://www.fronius.com/en/photovoltaics/customers-partners/business-owners/green-hydrogen-with-solar-energy
Reference HySnow: https://www.fronius.com/en/photovoltaics/infocentre/references/at-hinterstoder