Characteristics
High integration
All in one design
High efficiency
94 % for battery, 87 % for system
Easy to expand
Modular design, easy expansion
Easy to maintain
Self-diagnosis, Troubleshooting
Easy to manage
Ready to use, network-connected or non-networked, optional.
long life
Battery cycles ≥ 6000 times
High security
No parallel connection, no circulation, triple fire protection.
Multiple road branches
Supports charging, battery and photovoltaic access.
100 kW/232 kWh liquid cooling system
The Felicitysolar 100 kW energy storage cabinet, with advanced liquid cooling and modular design, offers superior thermal management and scalability. It is a device connected to the grid, suitable for the allocation of the electrical grid, which allows you to obtain profits and regulate the frequency thanks to the difference between electricity prices in peak hours and in off-peak hours. Its modular design makes it easy to expand and maintain, ensuring long-term reliability and cost-effective energy management.
Liquid Cooling System Application Scenarios
System Solution Diagram
100 kW/232 kWh liquid cooling system
The Felicitsolar 100 kW energy storage cabinet has an efficient air cooling system. This is a grid-connected and autonomous all-in-one machine, suitable for places such as industrial parks or commercial areas where the power grid is unstable or the demand for electricity is urgent.
Application scenarios of air cooling system
industrial park
– Peak reduction
– Load balancing
– Emergency reserve
– Reduction in capacity and demand
Solar Storage Charging Station
– Peak reduction
– Greater flexibility
– Mitigation of the impact on the electrical network
data center
– Peak reduction
– Emergency backup
– Capacity allocation
– Energy savings
System Solution Diagram
100 kW/232 kWh liquid cooling system
The Felicitsolar 100 kW energy storage cabinet has an efficient air cooling system. This is a grid-connected and autonomous all-in-one machine, suitable for places such as industrial parks or commercial areas where the power grid is unstable or the demand for electricity is urgent.
Application scenarios of air cooling system
base station
– Emergency reserve
– Intelligent peak reduction
– Auxiliary services
Micro-grid
– Maintain the electrical network
– Optimize the electrical grid system
– Emergency power
– Energy storage
Distributed solar/wind energy
– Reduction of wind and solar restrictions.
– Emergency reserve.
– Capacity allocation.
– Energy savings.
