"It is an exciting time to be working on new ways to maximize the value of sustainable, renewable energy and the addition of battery storage complements and enhances the value of renewable generation. Developing storage technologies of this magnitude will help us to continue meeting our customers' needs," said Georgia Power Renewable Development Director Wilson Mallard. "The Mossy Branch project will help the company evaluate the value and benefits battery storage provides to the electric system, as well as learn how to optimize operation and maintenance of the BESS facilities."
The Mossy Branch Battery Facility will be designed as a standalone unit that will connect to and charge directly from the electric transmission grid - the interconnected system of high voltage wires and equipment that moves large amounts of electricity across the state.
The company has selected Wärtsilä to provide this new facility's Engineering, Procurement, and Construction services.
Project to Provide Learnings, Enhance Renewable Generation
The goal of the Mossy Branch Battery Facility is to evaluate in a real-time environment the technical performance and economics of the system, including the ability to use the BESS for multiple applications. Data received from the facility will help the company validate and support the optimization of the energy storage assets to meet customer needs. Mossy Branch will also allow Georgia Power to refine maintenance practices that maximize battery storage reliability and useable life.
Battery energy storage integrated with the electric system both complements and enhances the value of intermittent renewable generation. It has a fast response capability such that it can quickly respond to and provide electricity when a renewable resource is no longer providing its intended output due to weather or other causes. Additionally, batteries aid the performance of intermittent resources by storing excess energy that intermittent facilities produce during periods when demand for electricity is low, for use when demand is higher, such as cold winter mornings. This improves the utilization of renewable resources and the overall efficiency of the system. Battery storage can also rapidly respond to other system events, such as other generating units going offline, which ultimately helps increase the reliability of the Georgia Power system.
To learn more about Georgia Power's solar programs, including various solar tools and resources for customers, visit www.GeorgiaPower.com/Solar.
About Georgia Power
Georgia Power is the largest electric subsidiary of Southern Company (NYSE: SO), America's premier energy company. Value, Reliability, Customer Service and Stewardship are the cornerstones of the company's promise to 2.6 million customers in all but four of Georgia's 159 counties. Committed to delivering clean, safe, reliable and affordable energy at rates below the national average, Georgia Power maintains a diverse, innovative generation mix that includes nuclear, coal and natural gas, as well as renewables such as solar, hydroelectric and wind. Georgia Power focuses on delivering world-class service to its customers every day and the company is recognized by J.D. Power as an industry leader in customer satisfaction. For more information, visit www.GeorgiaPower.com and connect with the company on Facebook (Facebook.com/GeorgiaPower), Twitter (Twitter.com/GeorgiaPower) and Instagram (Instagram.com/ga_power).