Project Description: The project is complemented by a 90MW/114MWh lithium-ion energy storage power station responsible for operational control and management. By smoothing out large-scale fluctuations in wind and solar power generation and implementing real-time power coordination control among battery groups within the energy storage power station monitoring system, the project ensures the feasibility of energy management systems. This achievement enhances the predictability, controllability, and dispatchability of power generation from wind farms and photovoltaic power stations, guaranteeing the safe and stable grid connection operation of the ultra-high voltage transmission channel while improving its capacity.

Project Overview: This project encompasses a 6MW/3MWh high-rate energy storage system, with battery modules utilizing efficient connection processes to achieve high reliability, low impedance, and power connection consistency. The system design incorporates high-strength structures such as containerization to ensure the safety of the battery system during long-distance transportation and in extreme conditions. Additionally, the project involves the development of proprietary battery and system monitoring software to enable the automatic operation of the energy storage system.

Project Overview: This project encompasses a 6MW/3MWh high-rate energy storage system featuring battery modules that utilize efficient connection processes, ensuring high reliability, low impedance, and consistent power connections. The system design incorporates robust structures, including containerization, to safeguard the battery system during long-distance transportation and under extreme conditions. Additionally, the project includes the development of proprietary battery and system monitoring software, enabling the automatic operation of the energy storage system.