Energy Storage Battery System Configuration Diagram
100KW/215KWH
Lithium iron phosphate Cell: 3.2V-280Ah-0.896KWh
1 parallel 48 string battery module: 153V-280Ah-43.008KWh
1 parallel 5 string battery module: 768V-280Ah-215.04KWh
Operating Mode
The system load can be driven by three power sources: photovoltaic power generation, energy storage system power, and grid system power.
Priority level: 1)Photovoltaic power generation > 2)Energy storage system power > 3)Grid system power
1. Prioritize the use of photovoltaic power generation to power system loads.
2. When the photovoltaic power generation is insufficient, the energy storage system cooperates with the photovoltaic power to supply power to the system load.
3. When both photovoltaic power and energy storage power are insufficient, the power grid cooperates with the photovoltaic energy storage system to supply power to the load.
When the photovoltaic system is not generating electricity and the current electricity price is at the valley, if the energy storage capacity is sufficient, the grid only needs to supply power to the load. When the photovoltaic system does not generate electricity and is currently at the valley of electricity prices, if the energy storage capacity is not saturated, the grid needs to charge the energy storage system while supplying power to the load.
PRODUCT IMAGE
COMPANY PROFILE
We are KEBE, a professional lithium battery manufacturer in China for 20 years. We're provider of solutions for household energy storage systems,industrial and commercial energy storage systems and other energy storage systems.We're integrates the R&D,production and sales of lithium battery PACK,serving the field of solar/wind energy storage,with a daily output of about 1500KWH of various types of batteries.
SHOW ROOM
Production & Testing
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