The project is located in Sichuan Province. As a major production enterprise in the southwestern region, the company faces challenges due to unstable power supply. The production process requires a large and fluctuating power demand, especially during peak periods, where power supply interruptions and high electricity costs have become bottlenecks restricting the company's development.
The project is located in Sichuan Province. As a major production enterprise in the southwestern region, the company faces challenges due to unstable power supply. The production process requires a large and fluctuating power demand, especially during peak periods, where power supply interruptions and high electricity costs have become bottlenecks restricting the company's development. To improve power supply reliability and reduce electricity costs, the group has decided to build an efficient energy storage system to ensure the continuity and stability of production.
Shanghai LZY Energy Storage Co., Ltd. designed and installed the LZU-ESS series container energy storage system for a group in Sichuan, using a 40-foot prefabricated container. This system integrates an energy storage battery system, an energy management system (EMS), a monitoring system, a temperature control system, and a fire protection system. It supports both grid-connected and off-grid modes, allowing seamless switching to the energy storage system for power supply in the event of a grid failure, ensuring the continuity of production. The specific configuration is as follows:
Ensuring Production Continuity
The energy storage system quickly provides backup power during grid outages, ensuring uninterrupted production, and enhancing production efficiency and corporate competitiveness.
Reducing Energy Costs
By utilizing peak-shaving and valley-filling functions, the system discharges during peak electricity demand periods, significantly reducing electricity costs, optimizing power cost management, and improving economic efficiency.
Supporting Environmental Goals
The system integrates with a photovoltaic power generation system, storing excess photovoltaic electricity and releasing it during peak demand periods, achieving efficient use of renewable energy, reducing carbon emissions, and helping the company achieve its green environmental goals.
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