JUNE 18, 2024 by Safa Jinje, University of Toronto

Collected at: https://techxplore.com/news/2024-06-recycle-steel-industry-carbon-footprint.html

University of Toronto engineering researchers have designed a new way to recycle steel that has the potential to decarbonize a range of manufacturing industries and usher in a circular steel economy.

The method is outlined in a new paper published in Resources, Conservation and Recycling and co-authored by Jaesuk (Jay) Paeng, William Judge and Professor Gisele Azimi.

It introduces an innovative oxysulfide electrolyte for electrorefining, an alternative way of removing copper and carbon impurities from molten steel. The process also generates liquid iron and sulfur as by-products.

“Our study is the first reported instance of electrochemically removing copper from steel and reducing impurities to below alloy level,” says Azimi, who holds the Canada Research Chair in Urban Mining Innovations.

Currently, only 25% of steel produced comes from recycled material. But the global demand for greener steel is projected to grow over the next two decades as governments around the world endeavor to achieve net-zero emission goals.

Steel is created by reacting iron ore with coke—a prepared form of coal—as the source of carbon and blowing oxygen through the metal produced. Current standard processes generate nearly two tons of carbon dioxide per ton of steel produced, making steel production one of the highest contributors to carbon emissions in the manufacturing sector.

Traditional steel recycling methods use an electric arc furnace to melt down scrap metal. Since it is difficult to physically separate copper material from scrap before melting, the element is also present in the recycled steel products.

“The main problem with secondary steel production is that the scrap being recycled may be contaminated with other elements, including copper,” says Azimi. “The concentration of copper adds up as you add more scrap metals to be recycled, and when it goes above 0.1 weight percentage (wt%) in the final steel product, it will be detrimental to the properties of steel.”

Copper cannot be removed from molten steel scrap using the traditional electric arc furnace steelmaking practice, so this limits the secondary steel market to producing lower-quality steel products, such as reinforcing bars used in the construction industry.

“Our method can expand the secondary steel market into different industries,” says Paeng.

“It has the potential to be used to create higher-grade products such as galvanized cold rolled coil used in the automotive sector, or steel sheets for deep drawing, used in the transport sector.”

To remove copper from iron to below 0.1 wt%, the team had to first design an electrochemical cell that could withstand temperatures up to 1600 degrees Celsius.

Inside the cell, electricity flows between the negative electrode (cathode) and the positive electrode (anode) through a novel oxysulfide electrolyte designed from slag—a waste derived from steelmaking that often ends up in cement or landfills.

More information: Jaesuk Paeng et al, Electrorefining for copper tramp element removal from molten iron for green steelmaking, Resources, Conservation and Recycling (2024). DOI: 10.1016/j.resconrec.2024.107654

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