Duke Energy & Duke University Team on Microgrid-Ready CHP Project

May 25, 2016
Duke Energy has struck a deal to build a 21-MW microgrid-ready combined heat and power (CHP) project for Duke University.

Duke Energy has struck a deal to build a microgrid-ready combined heat and power (CHP) project for Duke University.

Pending state regulatory approval, the utility giant will own, build and operate the 21-MW plant under a 35-year agreement with the university.

The $55 million project, which will be fueled by natural gas, will be located on the Duke University campus in Durham.

The CHP plant will not initially operate as a microgrid, but the facility is being designed with an eventual microgrid in mind, according to Randy Wheeless, Duke Energy spokesman.

The university project is just one of Duke Energy’s microgrid-related projects.

Creation of a cost-competitive microgrid is a stated mission of Duke’s Coalition of the Willing (COW), an effort led by the utility to bring together companies to work on the grid-of-the-future. With its Mount Holly microgrid in North Carolina, Duke is testing how to put together an interoperable microgrid that uses equipment from various vendors.

Microgrid-ready and clean

Tallman Trask III, Duke University’s executive vice president, said that the CHP project will help the college move toward climate neutrality.

“By combining steam and electricity generation systems, we can increase efficiency and reduce our overall consumption by millions of units of energy each year, and have a positive effect on the community at large,” he said

In all, the microgrid-ready CHP project is expected to cut carbon dioxide emissions by 25 percent. CHP plants reduce emissions by producing more energy with less fuel than conventional systems. CHP does so by using the waste heat created from producing power, rather than dispersing the byproduct into the environment.

In this case, the emissions reductions come from displacing the university’s currrent electricity mix and boilers.

The CHP facility will be designed to produce roughly 75,000 pounds per hour of steam, which would be sold to Duke University for heating water, among other things.

Duke Energy is describing the CHP plant as one of the most efficient in its generating fleet.

“This project will provide a cleaner and more diverse energy mix for the community and provide the value of thermal energy for the university,” said David Fountain, Duke Energy North Carolina president. “The innovative approach provides multiple benefits to a large customer like Duke University and is a cost-effective generation asset for Duke Energy and our customers in North Carolina.”

The CHP facility would be connected to an existing Duke Energy substation located on the campus, which serves the university and its medical center as well as other customers. Once the facility is upgraded to a microgrid, it will be able to isolate the critical loads on the campus and provide back-up power should the central grid experience an outage.

To go forward, the project requires a certificate of public convenience and necessity with the North Carolina Utilities Commission.  Duke Energy Carolinas hopes to have the project online in 2018.

Get free delivery of news on all things microgrid.  Subscribe to the Microgrid Knowledge newsletter.

About the Author

Elisa Wood | Editor-in-Chief

Elisa Wood is the editor and founder of EnergyChangemakers.com. She is co-founder and former editor of Microgrid Knowledge.

gettyimages1341067688_sdl__1320x755

Revolutionizing Defense: The Crucial Role of Microgrids and Schneider Electric in Department of Defense Energy Resiliency

Sept. 13, 2024
Last month, the North American Electric Reliability Corporation (NERC) said that U.S. power grids are becoming more susceptible to cyberattacks every day, with vulnerable attack...

Download the full report

Five Keys to Effectively Managing the Power Grid with AI

Veritone presents five artificial intelligence-powered solutions that help those in the electric power industry enhance grid resilience, increase the rate of decarbonization, ...