DOE grants Cornell $1.5M grant to explore integrated reuse of industrial waste
Researchers will be looking into a new approach using carbon dioxide generated during the iron and steel-making process to improve the recovery and quality of industrial by-products.
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DOE grants Cornell $1.5M grant to explore integrated reuse of industrial waste

Researchers will investigate the material efficiency of steel manufacturing processes and reduce the amount of waste that needs to be treated and landfilled.

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February 10, 2021

A new research project led by Cornell University seeks to find an integrated approach to turning industrial waste into valuable materials using a $1.5 million grant from the U.S. Department of Energy.

According to Cornell, the steel industry has sought methods to reuse by-products, such as sludge and slag, for steel and other manufacturing processes, however, efforts have mainly focused on treating waste materials independently of each other.

A group of academic and industry experts led by Greeshma Gadikota, assistant professor in the School of Civil and Environmental Engineering, have proposed a new approach that would synergize the recycling of industrial steel waste by improving the recovery and quality of by-products using carbon dioxide generated during the iron and steel-making process.

The research project is titled, “Integrated Reuse and Co-Utilization of Slag, Sludge and Dust With Inherent Heavy Metal Capture and Nanoscale Calcium Carbonate Production as an Enhanced Fluxing Agent in Steel Plants (INSIGHT)."

“Our interest is in developing holistic solutions that harness all the metal-bearing residues and carbon dioxide generated in iron and steel making processes to produce nano-scale calcium carbonate and iron oxide and remove heavy metals,” Gadikota told the Cornell Chronicle. “A key differentiator of this approach from existing pathways is the use of regenerable solvents for capturing carbon dioxide directly from flue gas to produce nano-scale carbonates at much lower temperatures in a process-intensified manner.”

The group, which includes investigators from Columbia University, research and development firm Reaction Engineering International, and engineering management company HATCH, will focus on three specific areas:

  • The synthesis of uniform nanoscale calcium carbonate from slag using regenerable solvents. Uniform nanoscale particles can be used to enhance the reaction kinetics and predictability of steel manufacturing processes compared to the conventional use of limestone.
  • Iron oxide recovered from the alkaline residues will be reused in the steel making process.
  • Recovered silica will be functionalized to separate the undesirable metal constituents such as lead, copper and nickel.

The team plans to investigate the overall material efficiency of steel manufacturing processes and reduce the amount of waste that needs to be treated and landfilled. There are also other economic benefits, according to Gadikota, such as federal tax credits that reward companies for capturing and reusing carbon dioxide.