+7 495 181 96 96
+7 495 181 96 96
Electrochemical energy storage systems for stationary applications based on:
Li-ion
batteries
batteries
Energy Storage Systems
ESS PROM
Rated power 1,7 mW
Rated energy capacity 3,44 MWh
Container without climate adaptation
Rated energy capacity 3,44 MWh
Container without climate adaptation
Rated power 1,7 mW
Rated energy capacity 3,44 MWh
Container without climate adaptation
Rated energy capacity 3,44 MWh
Container without climate adaptation
ESS PROM
Rated capacity up to 1600 Ah
Rated voltage 220 VDC
Cabinet
Rated voltage 220 VDC
Cabinet
Li-ion battery for
operational direct current systems (ODCS) and Uninterruptable Power Supply (UPS)
Rated power capacity 100 kW
Rated energy capacity 200 kWh
Container 10 FT. UHL
Rated energy capacity 200 kWh
Container 10 FT. UHL
ESS grid
ECS
ESS AHPP
Nominal power capacity 200 kW
Rated energy capacity 400 kWh
Container 20 FT. UHL
Rated energy capacity 400 kWh
Container 20 FT. UHL
ESS AHPP
Nominal power capacity 200 kW
Rated energy capacity 400 kWh
Container 20 FT. UHL
Rated energy capacity 400 kWh
Container 20 FT. UHL
- Solving a problem of a connected power deficit with the help of energy storage systems.
Electric charging infrastructure
ESS instead of a grid connection
- New utility connection to feed a new area
- Installation of ESS to compensate for peak loads on the existing infrastructure
Reduced energy costs
- The energy storage installed behind the consumer's meter reduces consumption from grid during peak hours.
ESS at industrial processes with a continuous technological cycle
- Preventing loss of revenue
- Reducing environmental impact, including emissions and noise levels
- Significant lowering of starting currents
- Emergency reserve can be placed even in those locations where the fuel for traditional sources of backup power supply cannot be stored
ESS for autonomous power systems
- Creating a power reserve
- Increasing the capacity factor of renewable energy sources
- Reducing generator fuel consumption up to 50%
- Reducing the consumption of motor resources and maintenance costs up to 40%
- Improving energy quality (dU < 5%)
- Decarbonization
ESS for gas and diesel generation
- Support for sustainable operation of gensets
- Increasing energy availability for critical consumers
- Fuel economy up to 50%
- Reducing the consumption of motor resources and maintenance costs up to 40%
- Decarbonization
Mobile ESS for temporary power supply
- Completely silent power supply
- Savings due to the elimination of diesel fuel
- No need to maintain diesel equipment
- Decarbonization
Applications
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