UC Leads Innovation in Coal Plant Carbon Capture

Local 12 highlighted the ways researchers at the University of Cincinnati are developing new technologies to address pollution and greenhouse gases from coal-fired power plants.

The Ohio Department of Development awarded more than $1.6 million in grants to researchers in UC's College of Engineering and Applied Science to examine better ways to capture carbon dioxide and other pollutants from industrial emissions.

Coal lost some of its economic luster over the past five years as the price of natural gas became more competitive. But with rising gas prices, coal is becoming more attractive. China and India continue to build new plants.

Jianbing "Jimmy" Jiang and his students working in his lab, where they have created a new battery with widespread applications for renewable energy.

Doctoral students Xiao Wang, left, and Rabin Siwakoti work on a battery project together in a chemistry lab. Students and researchers across UC's colleges are working on innovations in energy generation, storage and efficiency. Photo/Andrew Higley/UC Marketing + Brand

The Ohio Department of Development awarded UC Professor Vadim Guliants three grants totaling $750,000 to investigate:

  • Converting emissions into products used in lithium-ion batteries and polymers.
  • Using coal fly ash to degrade organic pollutants in wastewater through oxidation.
  • Extracting lithium and rare earth elements from coal.

"While carbon dioxide is considered a waste in the context of its environmental impact, efforts are being made to turn it from a liability into a resource by developing technologies that can capture and utilize it," Guliants said.

Demand is booming for rare earth elements and lithium used in many of our electronics. So developing efficient ways to harvest them from coal could create a new supply stream, he said.

"As demand for lithium and rare earths has risen significantly, there has been an increased focus in this country on securing a stable supply chain and exploring new extraction technologies for these elements including new resources," Guliants said.

His lab also is investigating the feasibility of using coal fly ash to degrade harmful organic pollutants found in coal washing wastewater. These pollutants can be resistant to biological treatments typically used to degrade them, he said.

Guliants and his students will examine coal fly ash, a byproduct of coal combustion, as a potential catalyst to oxidize and degrade the pollutants. This has the potential of making fly ash a commodity that energy producers could sell rather than a liability that must be landfilled.

The grants will support research by both UC graduate students and undergraduate students as part of their senior design projects and will give them practical experience working with partners in industry, Guliants said.

The agency awarded $750,000 to UC Professor Panagiotis Smirniotis for three projects:

  • To develop and test new materials for removing carbon dioxide at a wide range of temperatures from flue gas emissions of coal-fired boilers
  • To create novel and cost-effective ways to produce ethylene from coal.
  • To use nano-catalysts to convert carbon dioxide from emissions during coal utilization into synthesis gas.

Smirniotis credited the Ohio Department of Development for supporting his research group with more than $2.3 million in grants since 1998 for a variety of projects related to Ohio coals.

Lastly, the agency awarded $100,000 to UC Professor Junhang Dong to showcase his novel carbon capture system for batteries used in thermal and electric energy storage at coal-fired power plants.

Watch the Local 12 story.

Featured image at top: Chemical engineers in UC's College of Engineering and Applied Science received $1.8 million in stage grants to pursue innovations to address pollution and greenhouse gas emissions from coal-fired power plants. Photo/Acilo/iStockPhoto

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