Storing renewable energy for flexible and time-independent use is one of the greatest challenges of the energy transition. This contrasts with the continuously increasing demand for energy, leading to rising costs for users. Additionally, the necessary infrastructure expansion for electromobility plays a significant role here.
However, installing a photovoltaic system is not a necessity for achieving energy optimization in a company's operations. Even with regular grid connection, an energy storage system serves as a valuable buffer to maintain a smooth load profile during periods of high energy and power demand. As a result, costs for unexpected peak loads, for example, can be saved.
Overview of Technical Specifications: |
|
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Power |
100 kW to several megawatts |
Capacity |
100 kWh to several megawatt hours |
AC Output Voltage: |
400 V AC (380 ... 480 V AC) |
AC Frequency |
50/60 Hz |
Reactive Power: |
Adjustable within current limits |
Operating Modes: |
Grid operation/grid-forming in island mode |
DC Voltage Range: |
750 ... 1150 V DC |
Energy Capacity: |
Customized solutions with varying capacities and C-values possible |
Communication Protocols: |
EtherCAT, CAN, Profibus |
Installation: |
Indoor and outdoor (climate-controlled container 10, 20, 40 feet) |
The proprietary e.con sizing tool for energy storage enables you to simulate the required converter power, storage capacity, and anticipated savings based on your load profile beforehand. Through visualization, you gain insights into the tailored impact of individual and combined functions on your specific application.