Younicos, Xcel Energy, Panasonic to partner on solar power, energy storage system
Energy storage company Younicos has signed an agreement with strategic partner Panasonic to design and build a solar-plus-storage system at Peña Station NEXT in Denver, Colorado, which includes the operations hub for Panasonic Enterprise Solutions Co. and Panasonic CityNOW.
The system will make use of multiple Younicos Y.Cubes, the “energy storage-in-a-box” solution for C&I applications from the German-American industry pioneer.
The project calls for four Y.Cubes to be installed at the Panasonic facility in Denver, Colorado. The 1 MW storage resource, which will be connected to the Xcel Energy power grid, will provide frequency regulation, solar grid integration through ramp control, grid peak shaving, passive energy arbitrage, and backup power – enabled by Younicos’s Y.Q storage control software.
This multi-mode operating capability will enable Panasonic, Xcel Energy, and other microgrid stakeholders to derive maximum benefits from Xcel Energy’s 1.6 MW solar PV system sited on a parking structure nearby, along with 259 kW of PV on the building’s rooftop.
“The solar-plus-storage microgrid is an anchor, not just of Panasonic’s new Denver operations hub, but also for the broader Peña Station NEXT development, which is a 400-acre, smart and sustainable transit-oriented development in Denver,” said Jamie Evans, managing director of the Energy Solutions Group at Panasonic Enterprise Solutions Company. “We are excited to partner with Younicos and Xcel Energy to bring this innovative project to life.”
“We’re very pleased to work with Panasonic on this project, which highlights the advantages of our plug-and-play Y.Cube system for commercial and industrial use cases,” said Stephen Prince, Younicos CEO. “Like Younicos, Panasonic is a technology leader with a strong focus on the benefits of solar-plus-storage for different applications. They and the local grid will benefit enormously from this resource.”
The Y.Cube consists of two sub-enclosures, one each for the power conversion system and DC battery block. The controls are embedded in the PCS and communicate directly with the battery system, bypassing the need for additional battery-to-PCS communication interfaces. Its optimized configuration translates to ultra-fast response time for improved PCS efficiency and enhanced grid-forming capability.