Furen Energy 6MW/13.4MWh Distributed ESS Project, Jiangsu
At Furen Energy, we continue to expand our portfolio of smart energy storage solutions with our recently commissioned 6MW/13.4MWh distributed energy storage station in Jiangsu.
The energy storage system is divided into two units (each rated at 3MW/6.7MWh) and is projected to regulate approximately 7.8 million kWh of peak and valley electricity annually. The station primarily operates by storing electricity during off-peak hours and discharging it during peak hours, thereby reducing peak load. Peak-valley arbitrage serves as its main revenue model. Currently operating under a two-charge, two-discharge daily cycle, it is expected to achieve annual electricity cost savings of 4.83 million RMB (approximately $665,000 USD). Additionally, participation in demand-side management and the spot electricity market can generate supplementary revenue.
On the other hand, as a backup power source for the park, the energy storage station ensures uninterrupted power supply during main grid outages, maintaining the continuous operation of critical production equipment and facilities. This capability minimizes production losses caused by power interruptions and enhances the overall power supply reliability of the park.
Its core strengths are built on three pillars:
Comprehensive Safety
A 3-level fire protection architecture enables full-chain, proactive safety from early warning to pressure release.
High-Density Deployment
An integrated containerized design offers high energy density, significantly improving land use efficiency.
Intelligent Thermal Management
An efficient liquid cooling system and a 3-level BMS act as a "smart brain," ensuring optimal cell operation for enhanced efficiency and lifespan.
This system is designed to support multiple value streams including:
Peak Shaving & Valley Filling
Optimize electricity costs through intelligent energy arbitrage
Solar-Storage-Charging Integration
Create sustainable EV charging infrastructure
Microgrid Applications
Enhance grid stability and renewable energy utilization
