Miljøbevidst. Uendelige ressourcer. Kæmpe potentiale. Der er mange grunde til, at brint er fremtidens brændstof for biler - og du kan se dem her.
It’s found in:
Using a variety of process technologies available today, hydrogen can be separated by:
Steam reforming of methane is the most common method of hydrogen production today. It combines methane with high-temperature steam to trigger a reaction and separate the hydrogen. And while most methane today comes from natural gas, we are continually looking to process methane from renewable sources, like landfills and waste treatment facilities.
Gasification is a process in which organic materials, like crops and livestock waste, are converted into hydrogen. The organic materials are placed under high temperatures, which triggers a reaction that separates the hydrogen.
As well as being a by-product of some industries, like oil and chemical refineries, hydrogen can be produced by separating water into its two primary elements – hydrogen (H2) and oxygen (O2). This process, known as electrolysis, passes an electrical current through the water to extract hydrogen. The electricity can be sourced from clean, renewable energy, such as wind, solar or hydro.
The next generation of environmentally conscious motorists demands newer, cleaner forms of transportation. Recognising hydrogen's potential to answer that demand, we are producing fuel cell vehicles alongside our other alternative fuel vehicles to power a better future.
Interested in joining us on the road to a hydrogen future? Simply complete our sign-up form to join the Mirai revolution.
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