U.S. Department of Energy and Southern Research Sign $3 Million Agreement to Demonstrate a High-Temperature Solar Energy Storage System
The new system stores energy when sunlight is plentiful and then releases energy after sundown.
BIRMINGHAM, Ala., Sept. 16, 2015 -- As announced today by the White House, Southern Research has signed a jointly funded cooperative agreement with the U.S. Department of Energy.
This work is under the SunShot Initiative as part of the Concentrating Solar Power: Advanced Projects Offering Low LCOE Opportunities (CSP: APOLLO) funding program. The three-year project will support the scale-up and demonstration of an innovative thermochemical energy storage system (TCES) that will allow concentrating solar power (CSP) facilities to operate around the clock.
This project builds on developments from a previously funded SunShot Initiative award that led to Southern Research's successful development of a low-cost calcium-based sorbent which reacts with carbon dioxide (CO2) to store thermal energy. In addition to low cost, long-term durability and high capacity for CO2 are key requirements that have been demonstrated for the sorbent.
The new CSP: APOLLO project will demonstrate this energy storage technology at a 1 MWhrth scale under real-world conditions at Southern Research's Southeastern Solar Research Center. Partners Southern Company and the Electric Power Research Institute (EPRI) will support the evaluation of the technology to better understand its potential impacts on the cost of renewable electricity.
"Utilizing these low-cost, regenerative, calcium-based sorbents, which were previously researched for CO2 capture in coal-based power generation facilities, leverages existing knowledge for a novel application," said Southern Research's Santosh Gangwal, Ph.D., project principal investigator. "Through rigorous material development and testing, we are refining these sorbents to perform successfully throughout the entire 30-year life of a CSP plant."
The new system stores energy when sunlight is plentiful and then releases energy after sundown. This enables the CSP plant to produce electricity in a stable and consistent fashion, and also to operate at significantly higher capacity factors, leading to a lower overall cost of producing electricity. Furthermore, the production of electricity can be shifted to occur whenever power demand peaks, making the electricity much more valuable and less dependent on the sun.
Southern Research's TCES system is projected to cost about one-quarter as much as current state-of-the-art molten salt storage systems and will be able to store the same amount of energy in a system about one-sixth the size. The Southern Research TCES system can also operate sustainably up to 750 degrees Celsius - about 200 degrees Celsius higher than current systems.
"As the next generation of CSP plants move toward new, higher temperature, more efficient, supercritical CO2 cycle, a new generation of cost-effective, high-temperature, energy storage systems needs to be developed," said Southern Research's Tim Hansen, project co-principal investigator. "Our energy storage system will enable these technologies and lead to competitive large-scale renewable power generation."
"Southern Research is excited and honored to be selected by the SunShot Initiative for this project," said Bill Grieco, Ph.D., vice president of Energy and Environment, Southern Research. "We are proud to be recognized for our leadership in alternative energy and look forward to the demonstration of our innovative thermochemical storage system at our Southeastern Solar Research Center, where we test and validate technologies for grid-tied solar power generation."
About the SunShot Initiative
The U.S. Department of Energy (DOE) SunShot Initiative is a collaborative national effort that aggressively drives innovation to make solar energy fully cost-competitive with traditional energy sources before the end of the decade. Through SunShot, DOE supports efforts by private companies, academia, and national laboratories to drive down the cost of solar electricity to $0.06 per kilowatt-hour. Learn more about SunShot at energy.gov/sunshot
About Southern Research
Southern Research is a not-for-profit 501(c)(3) organization with nearly 500 scientists and engineers working across four divisions: drug discovery, drug development, engineering, and energy and environment.
We're developing 18 drugs to combat various forms of cancer, ALS, Alzheimer's, diabetes, kidney disease, and Parkinson's, among others.
We've developed seven FDA-approved cancer drugs.
We're developing new medical devices.
We're helping to launch manned missions to Mars.
We're making the air and water cleaner here on Earth.
We work on behalf of the National Cancer Institute, National Institutes of Health, the U.S. Department of Defense, the U.S. Department of Energy, NASA, major aerospace firms, utility companies, and other private and government organizations as we solve the world's hardest problems.
Featured Product
Early Fire Detection System for Battery Storage & Charging
Revolutionizing safety in battery reliant industries, our early fire detection system uses thermal cameras to spot early signs of battery thermal runaway. It triggers alarms and notifies users via text, voice, or email, ensuring rapid response to potential hazards. Proactive and reliable, our system sets a new standard in fire prevention for enhanced peace of mind in battery storage and charging environments.