Grid resilienceEnhancing the Reliability, Resilience of the U.S. Power Grid
Oak Ridge National Laboratory researchers will lead two new projects and support seven more to enhance the reliability and resilience of the nation’s power grid as part of the U.S. Department of Energy’s 2019 Grid Modernization Lab Call. DOE announced funding of approximately $80 million over three years to fund 23 projects across the country.
Oak Ridge National Laboratory researchers will lead two new projects and support seven more to enhance the reliability and resilience of the nation’s power grid as part of the U.S. Department of Energy’s 2019 Grid Modernization Lab Call.
DOE announced funding of approximately $80 million over three years to fund 23 projects across the country. ORNL is expected to receive approximately $10 million of available funding to support the nine projects on which it collaborates.
This latest round builds upon two previous solicitations released in 2016 and 2017 with a continued focus on reliability and resilience by the Grid Modernization Initiative. GMI is a crosscutting effort within DOE that focuses on public and private partnerships to develop new tools and technologies that measure, analyze, predict, protect, and control the grid of the future. This solicitation is focused on developing a portfolio of projects in resilience modeling, energy storage and system flexibility, advanced sensors and data analytics, institutional support and analysis, cyber-physical security, and generation.
ORNL says that the research brings together scientists from DOE’s national labs with industry and university partners to develop efficient, cost-effective solutions to harden the grid against disruption and to make it more resilient when events occur. The projects address challenges across the fully integrated energy network, from power generation, to transmission across vast distances, to the local distribution of electricity by utilities.
“We are proud to be a part of the Grid Modernization Initiative and bring our world-class expertise for providing innovative technology solutions to fortify the nation’s electricity delivery system,” said Moe Khaleel, Associate Laboratory Director for Energy and Environmental Sciences at ORNL. “A modern, resilient power grid is vital to the nation’s economic and national security and to the well-being of its citizens.”
ORNL will lead two projects. In the first, the Multi-Port Modular Medium-Voltage Transactive Power Electronics Energy Hub, researchers will design and develop medium-voltage power electronics hardware and software to enable the integration of the growing volume of intermittent, renewable energy sources into the grid while ensuring the smooth flow of electricity. The hub will give grid operators real-time dynamic control of the system, supporting the deployment of new technologies such as smart, energy-saving devices and the fast charging of electric vehicles.
The second, Vulnerability of Power Generation Critical Systems Against Electromagnetic Threats, will experimentally evaluate the physical security of power generation plants against electromagnetic (EM) threats. Historically, research has focused on the vulnerabilities of transmission and distribution systems from EM. This project will analyze the impact on different types of generation plants and define protective countermeasures plant operators can take to guard their infrastructure.
Among the seven other projects on which ORNL will collaborate, the Citadels project will build on Oak Ridge’s success in creating software controls for distributed energy systems known as microgrids—made up of locally sited power generation and energy storage. Citadels will create a similar control scheme for the networking of multiple microgrids, which will support the larger energy system, including as a means to restore grid operations after extreme disruption.
The project builds on the long-term collaborative research relationship between ORNL and the Electric Power Board of Chattanooga, one of the host utilities in the project. ORNL and EPB together have developed and analyzed multiple technologies to create a modern, reliable electric delivery system, including advanced sensors, power electronics and controls systems, and the testing of a quantum communications system for secure grid controls.
“These projects build on the Grid SecuRe initiative at ORNL, supporting breakthroughs for a more secure, resilient power grid,” said Tom King, Director of the Sustainable Electricity Program at ORNL. “From monitoring the grid with intelligent sensors, to modeling and simulating energy system interdependencies, to devising modern controls for complex operations, and developing hardware like advanced power electronics and intelligent relays, we want to help build a proactive system that has security and resilience as its cornerstone.”