🇳🇴 Hydro pursuing zero-carbon aluminium by testing green hydrogen technology with global potential

July 4, 2024
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Hydro Høyanger
Hydro will test green hydrogen as replacement for fossil energy in the recycling of aluminium at its Høyanger plant in Norway. (Photo: Hydro)

Green hydrogen can replace fossil energy in the recycling of aluminium, enabling zero-carbon aluminium products. In a three year industrial scale pilot, Hydro will test green hydrogen technology in the new recycling unit at Hydro Høyanger, Norway.

Replacing liquid natural gas with green hydrogen in the recycling of 100 percent post-consumer scrap is one of the fastest routes to zero-carbon aluminium. However, the remelting of aluminium requires high heat, an energy intensive process which is hard to achieve without fossil energy such as natural gas. Hydro will be testing technology with global potential in this pilot, which is building on Hydro’s ‘world first’ industrial scale test of green hydrogen in aluminium recycling in June 2023.

“Hydro is pursuing multiple paths to decarbonize our operations. With this pilot we take another step on our path to zero-carbon aluminium. Green hydrogen is an exciting potential option to decarbonize aluminium and other hard to abate industries,” says Hanne Simensen, Executive Vice President of Hydro Aluminium Metal.

Hydro and Executive Vice President Hanne Simensen (right) announced the three year test of green hydrogen in Høyanger Recycling together with Mayor Petter Sortland, Enova's Astrid Lilliestråle, Director of Technology and Market Development, and Minister of Climate and Environment Andreas Bjelland Eriksen.
Hydro and Executive Vice President Hanne Simensen (right) announced the three year test of green hydrogen in Høyanger Recycling together with Mayor Petter Sortland, Enova’s Astrid Lilliestråle, Director of Technology and Market Development, and Minister of Climate and Environment Andreas Bjelland Eriksen. (Photo: Jens Christian Boysen/Hydro)

During the pilot, green hydrogen will power one remelting furnace at the Høyanger recycling unit. This is key to unlock this renewable fuel’s decarbonization potential in aluminium, and will provide insight into fuel switch technology, metal quality, and necessary infrastructure for green hydrogen projects.

This project is enabled by Hydro’s competence in both energy and aluminium. Hydro Havrand, Hydro’s green hydrogen unit, has been granted soft funding from the Norwegian Government (Enova) up to NOK 83.3 million to enable this pilot. The aluminium produced in the recycler will be used to further lower the CO2 footprint of aluminium products from Hydro’s Norwegian smelters.

Hydro employee in front of furnace at Høyanger Recycling
Hydro operator Thomas Frichsen in front of a remelting furnace at Høyanger Recycling. During the pilot, green hydrogen will power one of the remelting furnaces. (Photo: Halvor Molland/Hydro)

The project is part of Hydro’s strategy to pioneer the transition to greener aluminium and a step in Hydro’s technology roadmap towards zero-carbon products. Over the past years Hydro has produced the first quantities of near-zero carbon aluminium from recycled aluminium, started testing carbon capture in Sunndal, and is working to test biomethane and plasma technology as options to decarbonize the high temperature processes.

Hydro is also building a test facility for a brand new process technology in Porsgrunn, Norway. This is groundbreaking technology in the aluminium industry. A predictable CO2 compensation scheme in Norway, enabled by the long term agreement reached this spring, is key for industry investments.

Green hydrogen is one of the most promising emission free fuels to replace natural gas in aluminium casthouses, but is not in use on an industrial scale in the aluminium industry today.

About green hydrogen

  • Hydrogen is a versatile energy carrier and can be used as a fuel, and as a feedstock in various industries, such as aluminum, glass, steel, and cement.
  • Today the world consumes almost 100 million tonnes of hydrogen yearly, mainly used in oil refineries and ammonia plants. Over 99 percent of the current hydrogen production is made from fossil fuels, either natural gas or coal, resulting in 900 million tonnes of CO2 being emitted annually
  • Green hydrogen is a potential emission free alternative to replace traditional hydrogen production methods and fossil fuels used in the industry and transport. It is produced by using renewable electricity to split water molecules into hydrogen and oxygen, without emitting any greenhouse gases
  • Green hydrogen has the potential to play a key role in the global transition to a sustainable and net-zero emissions economy. For use in high heat processes, industries need to mature the fuel switch solutions to hydrogen.

Originally published on 1 July by Hydro.

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