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Cheryl Nemazie, umces.edu/imet

© Cheryl Nemazie, umces.edu/imet

Researchers pursue green technology to capture carbon dioxide emissions

New award from the U.S. Dept. of Energy will help researchers develop green technology to capture carbon dioxide emissions from power plants.

Researchers from the University of Maryland Center for Environmental Science and the Institute of Marine and Environmental Technology have been awarded a three-year, $2 million grant from the U.S. Department of Energy to understand how microalgae can be used to reduce carbon dioxide emissions from power plants.

“Climate change is one of the biggest challenges facing our society today and IMET is thrilled to be contributing to solutions to carbon dioxide emissions through or microalgal research program,” said Russell Hill, director of the Institute of Marine and Environmental Technology.Carbon dioxide is a greenhouse gas that contributes to global warming, and innovative ways to reduce emissions are urgently needed to curb the trajectory of warming on the planet. With partners in academia and industry, scientists are developing a technology that uses algae to capture the greenhouse gas emitted from power plants, wastewater treatment plants, and cement factories before it can enter the atmosphere. The outcome will be a scalable and deployable system in which the algae sequester carbon from flue gases and then can be harvested for sale as nutraceuticals, animal feed, and biofuels.

“Our technology offers the opportunity to install a cost-effective green technology that captures carbon dioxide from flue gases while generating valuable bioproducts,” said Yantao Li. “Its modular and scalable design allows a small installation to grow into a major carbon dioxide mitigation system with its expansion paid for by the technology itself.”

Scientists Feng ChenRussell Hill and Yantao Li from the Institute of Marine and Environmental Technology and partners in academia and industry have a long track of record of research on using microalgae to mitigate carbon dioxide emission from power plants to address climate change and carbon dioxide emission issues. Researchers have been working with Maryland business start-up HY-TEK Bio, LLC, for the past decade to develop a microalgae-based system to reduce carbon dioxide emissions on an industrial scale while producing valuable byproducts such as nutraceuticals and biofuels. The technology has been used to capture carbon dioxide being released from the Back River Waste Water Treatment Plant’s powerplant flue gases. The algal carbon sequestration technology being developed at IMET is the first of its kind to reduce greenhouse emissions on an industrial scale with the added economic benefit of being able to harvest the algae for sale as nutraceuticals, animal feed, and biofuels. The team’s collaborative efforts were previously funded in 2020 by the U.S. Department of Energy’s Office of Fossil Energy for its work in using algae to capture carbon dioxide.

“The University of Maryland Center for Environmental Science is pleased to receive this prestigious grant from the U.S. Department of Energy to work with partners in academia and industry to harness the power of algae to remove carbon dioxide from a power plant,” said President Peter Goodwin. “Addressing the challenges of climate change is UMCES’ priority, and innovations like these are a game changer for Maryland and the nation to meet greenhouse gas emissions reduction goals.”

The research program includes Yantao Li, Feng Chen, and Russell Hill from the University of Maryland Center for Environmental Science; Troy Hawkins from the Argonne National Laboratory; Robert Mroz from HY-TEK Bio, LLC; and Wen Zhang, of the New Jersey Institute of Technology.

Located in Baltimore’s Inner Harbor, the Institute of Marine and Environmental Technology is a strategic alliance involving scientists at the University of Maryland Center for Environmental Science, the University of Maryland Baltimore and the University of Maryland Baltimore County. Scientists are engaged in cutting-edge research in microbiology, molecular genetic analysis and biotechnology, using marine life to develop new drug therapies, alternative energy and other innovations to improve public health and economic opportunities. IMET also contributes to sustainable marine aquaculture and fisheries in the Chesapeake Bay and marine ecosystems.

Source

Institute of Marine and Environmental Technology (IMET) 2023

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