The U.S. Energy Information Administration (EIA) projects that power demand in the United States will reach 4,185 billion kilowatt-hours (kWh) in 2025. This is a record high compared to 4,067 billion kWh in 2022. Most of the US grid was built in the 1960s and 1970s, and while it has been improved with automation and emerging technologies, this aging infrastructure is straining to meet current electricity needs.
“Energy resilience is created by a battery-first design, where energy generation from hydrocarbons and renewables is stored in batteries and then deployed for usage, which provides a stabilizing force to the grid and drives efficiencies,” said Scott Childers, Vice President, Essential Power of Stryten Energy. “Integrating batteries into our grid infrastructure is the foundation for the energy ecosystem of the future that will set the U.S. on the path to energy resilience and independence.”
Stryten Energy’s BESS is designed with demand management top-of-mind, providing cost savings and efficient energy utilization by enabling valley filling and peak shaving as well as frequency matching. The BESS technology is scalable and flexible. It can be sized for the needs of a wide range of applications – from commercial and industrial to utility scale. Real-time monitoring and control capabilities through Stryten Energy inCOMMAND™ allow seamless control of an energy ecosystem autonomously from anywhere in the world.
Stryten Energy is continuously innovating and introducing new solutions to support energy resilience. The company offers advanced lead, lithium, vanadium redox flow, and a hybrid of battery chemistries. With this range of technologies available, customers receive the optimal solution for their application and energy storage duration requirements.
