Microgrid Project
Regions and Countries: Czech Republic, Europe
This microgrid project is located in the Czech Republic, a country within the European region. It operates within the specific geographical and regulatory context of this nation.
Client: Solar Power Plant Developer
The client for this project is a developer specializing in solar power plants. They have specific requirements for integrating and managing solar – generated energy within a microgrid setup.
Project Configuration: 500kW/1075.2kWh Energy Storage System + EMS + Existing Solar System
The project combines a 500kW/1075.2kWh energy storage system, an Energy Management System (EMS), and an existing solar system. This configuration aims to enhance the stability and efficiency of the solar – based microgrid.
Project Time: 2025
The project is planned to be executed in the year 2025, with a well – defined timeline for implementation and commissioning.
Application Solution: Power Station Solution
It is a power station solution designed to meet the energy generation, storage, and distribution needs of a solar power – based microgrid, similar to a small – scale power station.
Applied EMS: Power and Control DB
The EMS used in this project is the Power and Control DB. It serves as the central control unit for managing energy flow, monitoring system performance, and ensuring optimal operation of the microgrid.
Applied Energy Storage System: IMAX – ES215 Machine Cabinet
The IMAX – ES215 machine cabinet is the chosen energy storage system. It provides high – capacity and reliable energy storage to support the solar power plant’s operation.
Application Services: Engineering, Consultation
We provide professional engineering and consultation services for this project. Our team offers expert advice on system design, integration, and optimization to ensure the success of the microgrid.
Application Logic: Grid – following and Peak – shaving (Store Solar Energy in the Energy Storage System at Low Voltage or Negative Voltage)
The application logic follows grid – following and peak – shaving principles. It stores solar energy in the energy storage system when the voltage is low or negative, thus improving the overall energy utilization efficiency and reducing the impact on the external grid.
