Lishen Battery Successfully Delivers 4MW Lithium Titanate Energy Storage System for Power Plant Hybrid Coordination Project

2025-10-23 | Calvin

The 4MW lithium titanate energy storage system, equipped with Lishen Battery’s high-power, full-tab cylindrical lithium titanate cells produced by Lishen Supercap, has been successfully delivered for a domestic power plant hybrid coordination project and has officially entered the commissioning phase. This marks a solid step forward for Lishen Supercap in supporting thermal power enterprises in their transformation and advancing the development of new power systems.

Core Battery Cells Empowering Key Technical Breakthroughs in Hybrid Coordination

As the core power source of this energy storage system, the full-tab cylindrical lithium titanate cells independently developed and produced by Lishen Supercap play a vital role in the project’s success, thanks to their dual advantages of excellent heat dissipation and high power output. In high-rate charge and discharge scenarios, the rate of heat accumulation within the cells is significantly reduced, fundamentally enhancing the system’s safety and lifespan. This makes it perfectly suited for the demanding 24-hour continuous operation of power plants. The solution effectively addresses the long-standing challenges of slow response and insufficient regulation accuracy in traditional thermal power systems, providing robust technical support for achieving “efficient coordination and stable operation” in the hybrid system.

Hybrid Architecture Expands the Boundaries of Energy Storage Applications

By adopting a “lithium titanate + lithium iron phosphate” hybrid energy storage architecture, the system efficiently handles short-term and high-frequency load fluctuations in the power grid. This approach not only compensates for the performance limitations of single battery technologies but also achieves a highly efficient balance between “power response and energy storage.” Ultimately, it delivers multiple benefits—ensuring safety and stability, reducing costs, improving efficiency, and promoting green emission reduction.

Hybrid coordination between thermal power and energy storage represents a key pathway for the low-carbon transformation of thermal power plants, with energy storage technology serving as the core enabler. The successful implementation of the 4MW lithium titanate energy storage system not only validates Lishen’s technological capabilities but also contributes valuable experience to large-scale energy storage projects. Looking ahead, Lishen Supercap will continue to focus on innovation in energy storage technology, optimize cell performance, and promote cost-effective customized solutions to accelerate product adoption—driving progress toward the “dual carbon” goals and ensuring national energy security through core technological strength.