Greensmith, E.On, Tucson Electric Power Complete Energy Storage Project
June 6, 2017
Image: Salem Smart Power Center. Credit: Portland General Electric
The 10-MW/2.5-MWh energy storage system at the University of Arizona Science and Technology Park will provide frequency response and voltage control. The project illustrates the growing trend of programmable battery storage replacing fossil generation as the least-cost solution for grid reliability services. The system also provides integration for a new 2-MW solar array.
Greensmith provided design, integration and commissioning of the turnkey energy storage system that leveraged lithium titanate oxide batteries. The company’s GEMS software control platform will deliver real-time monitoring, integrated control and system optimization and safety throughout life.
Landis+Gyr designed, engineered, and supplied a 10-MW containerized lithium-ion energy storage system based on Toshiba’s SCiB technology for this project.
“Fast-responding energy storage software will be critical for maintaining grid stability as the Tucson area prepares to add hundreds of megawatts of new renewable energy capacity in the years ahead,” said Greensmith CEO John Jung. “We are proud to partner with E.On to help make Tucson Electric Power’s clean energy vision a reality.”
Greensmith announced its participation in the Iron Horse project last summer, following project approval from the Arizona Corporation Commission for a 10-year agreement to use the project for ancillary services. Greensmith, E.On, and TEP broke ground late last year.
Iron Horse supports TEP’s goal of delivering at least 30 percent of its power from renewable resources by 2030, doubling Arizona’s 2025 statewide benchmark.
On May 15, Greensmith announced that Wärtsilä signed an agreement to acquire the company. The transaction, subject to U.S. regulatory approval, is expected to close by July 2017.