100KW/232KWH
Liquid Cooling System
FelicityESS 100kW Energy Storage Cabinet with advanced Рідинне охолодження and a modular design offers superior thermal management and scalability. It is a Підключення до електромережі device, suitable for power grid allocation, earning profits/peak and frequency regulation through the difference in peak and valley electricity prices. The modular design allows for easy expansion and maintenance, ensuring long-term reliability and cost-effective energy management.
FLS-ES232LC-S
what makes us different
FEATURES
High Integration
AIl in one design
Висока безпека
No parallel connection, No circulation, Triple fire protection
Easy to Manage
Ready to use, Grid-connected or Off-grid optional
Висока ефективність
94% for Battery, 87% for System
Easy to Maintain
Self-diagnosis, Fault location
Довге життя
Battery cycles ≥ 6000 times
Application Scenarios of Liquid Cooling System
- Load Balancing
- Emergency Backup
- Capacity and Demand Reduction
- Increase Flexibility
- Mitigate the Impact on the Grid
- Emergency Backup
- Capacity Allocation
- Energy Saving
Smaller Footprint and Weight
High Energy Density Design;
Total Weight Less than 2800kg;
Support Hoisting Transportation and Installation
Cooler and Better Battery Performance
Cycle Liquid Cooling;
Heat balancing management 5%-95% Dod
Higher Protection Level
Three-Level Fire Protection System with Early Warning;
Aerosol + Perfluoroacetone + Water Fire Protection.
120KWP+100KW/215KWH
Air Cooling System
FelicityESS 100kW Energy Storage Cabinet features an efficient Повітряне охолодження system. This is an all-in-one On-grid and Off-grid machine, suitable for places such as industrial parks or commercial areas where the power grid is unstable/electricity demand is urgent.
FLS-MES215AF-S
what makes us different
FEATURES
High Integration
AIl in one design
Висока безпека
No parallel connection, No circulation, Triple fire protection
Easy to Manage
Ready to use, Grid-connected or Off-grid optional
Easy to Expand
Modular Design, Easy Expansion
Висока ефективність
94% for Battery, 87% for System
Easy to Maintain
Self-diagnosis, Fault location
Довге життя
Battery cycles ≥ 6000 times
Multiple Branch Roads
Supports load, battery, and PV access
Application Scenarios of Air Cooling System
- Intelligent Peak Shaving
- Auxiliary Services
.
- Optimize Power Gird System
- Emergency Power
- Energy Buffering
- Emergency Backup
- Capacity Allocation
- Energy Saving
Expandable Battery and MPPT Capacity
Support Additional Battery Cabinet for Greater Backup;
Support Additional Inner MPPT Module for Peak Charging.
Selectable Voltage Rise and Fall Mode
Selectable MPPT Mode and Wide PV Input Volt;
Support MPPT Buck or Boost Mode Easy to Design/Set Up PV Strings.
Higher Protection Level
Three-Level Fire Protection System with Early Warning;
Aerosol + Perfluoroacetone + Water Fire Protection.
Practical Case
Take a large factory park as an example. The plant uses 7,000 kWh of electricity per day per month, with a maximum daily load of about 900kW and a maximum installed power of 1780kW. Since the maximum load is only 900kw, the power of 1000kW is sufficient. 100kW/232kWh FLS-ES232LC-S Liquid Cooling C&I ESS used in 10 parallel. A total of 1MW/2.32MWH.
Load Curve
8 am: Start Climbing;
10 am: Reach the first peak power consumption;
12:00-14:00: Less Consumption;
14:00 ~ 17:00: Continue to Consume Electricity;
17-18:00: Take a Break;
18:00 ~22:00: Continue to Consume Electricity.
Regional Subsidy Policy
For the user side new energy storage projects with more than two kinds of photovoltaic, new energy storage, hydrogen energy, charging pile, smart energy management and installed capacity of more than 1 MW, the investment subject will be supported by up to 0.2 yuan /kWh according to the discharge of new energy storage power station from the next month of grid-connected operation, and the cumulative maximum of 3 million yuan for the same project.
System Configuration
The daily electricity is about 7000kWh, 10 parallel machines for two charges and two discharge in two peak hours, the system efficiency is 0.87, which can meet the electricity needs of 4000kWh. There is also 3000kWh of electricity consumption, which is supplemented with solar modules.
According to the calculation of 3H effective light time in the area, 3000kWh requires 1000kW of solar panels.
Earning Forecast
The system runs for about 320 days every year, and the annual income can be calculated to be more than 100,000 Dollars, with an annual return rate of 20.5% and a return cycle of 4.8 years.
