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Purdue and Duke Energy to explore potential for clean, nuclear power source for campus

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Purdue University and Duke Energy announced a collaboration to explore the feasibility of using Small Modular Reactors (SMRs) to meet the energy needs of Purdue's campus. This initiative aims to provide reliable and carbon-free power, aligning with rising global interest in nuclear technology. The partnership leverages Purdue's expertise in nuclear engineering to evaluate the practicality of SMRs, which are noted for their modularity and efficiency. Duke Energy's considerable experience in nuclear operations will aid this exploration, potentially impacting the state's energy grid.

Positive
  • Joint exploration of Small Modular Reactors (SMRs) could lead to a reliable and carbon-free energy source for Purdue University.
  • Purdue's strong nuclear engineering program positions it well for evaluating advanced nuclear technologies.
  • Duke Energy's experience as the largest regulated nuclear operator in the U.S. will support the project's feasibility.
  • SMRs are designed to be prefabricated, potentially reducing construction costs and time.
Negative
  • None.

WEST LAFAYETTE, Ind., April 27, 2022 /PRNewswire/ -- Purdue University and Duke Energy announced today that they plan to jointly explore the feasibility of using advanced nuclear energy to meet the campus community's long-term energy needs.

With interest rising worldwide in new technologies that are reliable and carbon-free, Purdue and Duke Energy intend to study power produced through Small Modular Reactors (SMRs), a move that may be unprecedented for a college campus and a potential fit for Purdue's energy needs.

According to the International Atomic Energy Agency, SMRs are among the most promising emerging technologies in nuclear power. Significantly smaller than traditional nuclear power plants, an SMR could meet current and future needs for Purdue's West Lafayette campus as well as provide excess power to the state's electric grid.

Home to one of the nation's top nuclear engineering programs and a national leader in energy innovation that is scalable and sustainable, Purdue and its experts are uniquely qualified to evaluate this "giant leap" toward a carbon-free energy future.

"No other option holds as much potential to provide reliable, adequate electric power with zero carbon emissions," said Purdue President Mitch Daniels. "Innovation and new ideas are at the core of what we do at Purdue, and that includes searching for ways to minimize the use of fossil fuels while still providing carbon-free, reliable, and affordable energy. We see enough promise in these new technologies to undertake an exploration of their practicality, and few places are better positioned to do it."

Duke Energy Indiana President Stan Pinegar said, "Duke Energy is leading the industry's biggest clean energy transformation nationwide, and exploring technologies such as this is important work to help get us there. Nuclear provides reliable energy and can complement other carbon-free energy sources, such as solar and wind. As the largest regulated nuclear plant operator in the nation, we have more than 50 years of experience with safe, reliable operations. We can share that experience with one of America's premiere engineering schools to see what this technology could do for its campus as well as the state."

Purdue is currently powered through the Wade Utility Plant, which is a combined heat and power system that uses steam to provide heat, electricity and chilled water that is used to cool facilities. A new Duke Energy plant on campus also provides thermal energy in the form of steam to Purdue, while also supplying Duke Energy's Indiana customers with electricity. Approximately 50% of campus electricity is purchased from Duke Energy.

Michael B. Cline, Purdue senior vice president for administrative operations, said, "This effort provides a timely opportunity for Purdue to work with our partners to explore whether nuclear energy can be a practical and affordable option to meet our long-term needs." 

Advanced nuclear technology is still under development, and nationally Duke Energy is involved with industry groups, reactor technology companies, and leading research universities such as Purdue that are exploring deployment of this advanced nuclear technology.

SMRs are revolutionary in part because of their modular nature. They can be prefabricated off site, thereby saving money and time in construction. And Purdue is at the forefront of this technology by pioneering, developing and verifying the steel-plate composite construction used in SMRs at the on-campus Bowen Laboratory through the Center for Structural Engineering and Nuclear Power Plants, which is led by Amit Varma, Purdue's Karl H. Kettelhut professor of Civil Engineering and director of the Bowen Laboratory of Large-Scale CE Research.

"Steel-plate composite technology is fundamental to successfully deploying SMRs within budget and on schedule," Varma said. "We have the world's pre-eminent team and facilities to conduct the testing, analysis, design, and construction demonstration to actualize the potential of this technology."

Purdue engineering leaders and experts involved will include Mung Chiang, Seungjin Kim, Amit Varma and Arden Bement. Chiang is the executive vice president of Purdue University for strategic initiatives and the John A. Edwardson Dean of Purdue's College of Engineering. Kim is the Capt. James McCarthy, Jr. and Cheryl E. McCarthy Head of the School of Nuclear Engineering at Purdue University. Bement achieved international recognition as director of the National Science Foundation and director of the National Institute of Standards and Technology. He has a long and distinguished career with Purdue, having served as the Basil S. Turner Distinguished Professor of Electroceramics, the David A. Ross Distinguished Professor of Nuclear Engineering, the chief global affairs officer, and the inaugural director of the Global Policy Research Institute.

The exploration, including a series of meetings and joint studies, will begin in the coming weeks. Purdue's sustainability master plan can be found here.

Purdue's graduate nuclear engineering program is ranked among the best in the country by U.S. News & World Report. Nuclear engineering students are able to learn from and conduct research using PUR-1, the first and only nuclear reactor in the state, and the first and only US NRC facility to be licensed for a fully digital instrument and control system. University reactors used for teaching and research are all far too small to power a campus community.

Duke Energy operates the largest regulated nuclear fleet in the nation, with 11 nuclear units at six plant sites in North Carolina and South Carolina. These plants generate nearly 11,000 megawatts of reliable, carbon-free electricity, about half of the electricity needed for its Carolinas customers, with production costs among the lowest in the nation. In 2021, the nuclear fleet matched its record capacity factor (a measure of reliability) of 95.7% and avoided the release of more than 50.5 million tons of carbon dioxide.

Purdue University

Purdue University is a top public research institution developing practical solutions to today's toughest challenges. Ranked in each of the last four years as one of the 10 Most Innovative universities in the United States by U.S. News & World Report, Purdue delivers world-changing research and out-of-this-world discovery. Committed to hands-on and online, real-world learning, Purdue offers a transformative education to all. Committed to affordability and accessibility, Purdue has frozen tuition and most fees at 2012-13 levels, enabling more students than ever to graduate debt-free. See how Purdue never stops in the persistent pursuit of the next giant leap at https://stories.purdue.edu.

Duke Energy

Duke Energy (NYSE: DUK), a Fortune 150 company headquartered in Charlotte, N.C., is one of America's largest energy holding companies. Its electric utilities serve 8.2 million customers in North Carolina, South Carolina, Florida, Indiana, Ohio and Kentucky, and collectively own 50,000 megawatts of energy capacity. Its natural gas unit serves 1.6 million customers in North Carolina, South Carolina, Tennessee, Ohio and Kentucky. The company employs 28,000 people.

Duke Energy is executing an aggressive clean energy transition to achieve its goals of net-zero methane emissions from its natural gas business and at least a 50% carbon reduction from electric generation by 2030 and net-zero carbon emissions by 2050. The 2050 net-zero goals also include Scope 2 and certain Scope 3 emissions. In addition, the company is investing in major electric grid enhancements and energy storage, and exploring zero-emission power generation technologies such as hydrogen and advanced nuclear.

Duke Energy was named to Fortune's 2022 "World's Most Admired Companies" list and Forbes' "America's Best Employers" list. More information is available at duke-energy.com. The Duke Energy News Center contains news releases, fact sheets, photos and videos. Duke Energy's illumination features stories about people, innovations, community topics and environmental issues. Follow Duke Energy on TwitterLinkedInInstagram and Facebook.

Media contacts:

Purdue UniversityTim Doty
Phone: 765-494-2080
Email: doty2@purdue.edu

Duke Energy IndianaAngeline Protogere
Cell: 317-431-1910
Media line: 800-559-3853
Email: Angeline.Protogere@duke-energy.com

 

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SOURCE Duke Energy

FAQ

What is the partnership between Purdue University and Duke Energy about?

Purdue University and Duke Energy are exploring the feasibility of using Small Modular Reactors (SMRs) for clean energy on Purdue's campus.

When was the Duke Energy and Purdue University partnership announced?

The partnership was announced on April 27, 2022.

What are Small Modular Reactors (SMRs)?

SMRs are advanced nuclear power technologies that are smaller than traditional nuclear reactors and can be used to provide reliable, carbon-free energy.

How will this partnership impact Duke Energy's operations?

This partnership allows Duke Energy to explore innovative technologies that could complement its clean energy transformation efforts.

What role does Purdue University play in this partnership?

Purdue University will utilize its expertise in nuclear engineering to evaluate the practicality of deploying SMRs for sustainable energy.

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