Multimetal manufacturer and copper recycler Aurubis AG has successfully completed a test series using ammonia instead of natural gas in industrial production at the Hamburg plant, the company stated. Following testing, Aurubis is pursuing strategic cooperation in the area of hydrogen with ADNOC, the supplier of the low-carbon ammonia for the test series in Aurubis’ production. Both companies signed a letter of intent.
“Aurubis views itself as responsible for helping shape the green transformation in industry, which is why we’re laying the groundwork for new, fossil-free energy sources,” Aurubis CEO Roland Harings said.
“In a strategic partnership with ADNOC, we see the potential to expand our first joint hydrogen supply chain, and therefore to push the decarbonization of our copper production forward, Aurubis CEO Roland Harings said.
Ammonia is composed of nitrogen and hydrogen and burns without generating any CO2. The ammonia used in Aurubis’ testing arrived in Hamburg as part of a joint hydrogen project between the United Arab Emirates and Germany. Last October, ADNOC delivered low-carbon ammonia produced with natural gas to Hamburg by container vessel. Green ammonia made using renewable energy currently isn’t available on the market in sufficient quantities for industrial applications.
During the test series, which ran for several months, Aurubis successfully used ammonia as an energy source in the copper wire rod production facility. The facility processes copper cathodes into copper wire rod at temperatures of over 1,100° C. The wire rod is the precursor for products such as electricity and telecommunication cables, which play a central role in the energy transition and digitalization.
“The successful testing of ammonia in copper wire rod production proved that from a technical standpoint, we are capable of using this energy source as an admixture on an industrial scale,” Harings said. The roughly 20 % ammonia admixture target Aurubis originally envisioned proved unfeasible in view of environmental regulations and high product quality standards, however. As a result, Aurubis does not plan to pursue the direct use of ammonia as a fuel in this area of application. The company is pushing hydrogen use instead, which has been successfully tested in other areas of copper production. “In hydrogen derivative ammonia and in hydrogen itself, we see great opportunities for saving natural gas and as such avoiding CO2 emissions,” Harings emphasized.
In addition to its use as a fuel, ammonia has the ideal properties for serving as a hydrogen carrier. Energy can be efficiently transported over great distances and stored using ammonia, since it offers high energy density with the same volume – taking up less space. The technology used to recover the hydrogen from the ammonia by splitting the gas back into hydrogen and nitrogen is called a cracker. Aurubis is already reviewing the potential for developing an ammonia cracker. This would allow the further expansion of the hydrogen value chain with partners like ADNOC in the future, subject to economic viability.
As part of a joint research project with partners from industry and the scientific community, Aurubis will now focus on the direct use of hydrogen in the copper wire rod production plant. “Through intensive research and development, we will continue to identify the potential of ammonia as a hydrogen carrier – and especially the potential of hydrogen itself – as a carbon-free energy source and further advance its use in our production,” Harings said. “The findings from the ammonia test series serve as a valuable foundation here and are another milestone along our path to carbon-neutral production.”
In 2021, Aurubis showed that hydrogen can be successfully used in copper production. A pilot project at the Hamburg plant used hydrogen instead of natural gas in the production of copper anodes – the first use of hydrogen on an industrial scale. Furthermore, the Hamburg plant will be one of the first copper smelters in the world to use hydrogen instead of natural gas for the reduction process in its anode furnaces: Aurubis is investing € 40 million in new anode furnaces that will be powered by green hydrogen. The tests were carried out as part of the Northern German Living Lab joint project with the Hamburg University of Applied Sciences as a scientific partner.
Photo of Aurubis
Press release https://is.gd/ARRoBf