Imax Power Large – Scale Microgrid Energy Storage Solution
Solution Value
- Support Regional Energy Scheduling: Coordinate multi – energy system operations to achieve coordinated optimization of electricity, heat, and cold. Promptly respond to load changes, balance supply – demand fluctuations, and enhance system stability.
- Promote Multi – Energy Complementarity: Facilitate the consumption of new energy sources like photovoltaic and wind power to improve overall energy efficiency.
- Enhance Power Supply Safety Level: Achieve zone – autonomous and grid – parallel switching to ensure a reliable power supply for critical loads.
- Assist Smart Energy Management: Integrate EMS with big data analysis to optimize energy allocation and operation strategies.
- Drive Clean and Low – Carbon Transformation: Promote the high – proportion integration of renewable energy and build a green energy system.
- Create Energy Economic Value: Participate in the electricity market trading to maximize the returns on energy storage assets.
Key Core Products & Technical Systems
Module Products
PCS (Power Conversion System), Bidirectional DCDC, MPPT (Maximum Power Point Tracking), STS (Static Transfer Switch), BMS (Battery Management System), EMS (Energy Management System)
System Products
Imax Integrated Energy Storage System
Dimensional Classification and Key Technologies
Control Layer (Microgrid Energy Scheduling and System Coordination)
- Hierarchical Distributed Energy Management: Realize global optimization and scheduling through multi – layer EMS coordinated control.
- Integrated Source – Grid – Load – Storage Control: Coordinate power sources, grids, loads, and storage to improve system stability.
- Multi – Microgrid Interconnection Technology: Support parallel connection of multiple sites to achieve regional energy sharing.
- Master – Slave Autonomous Control Architecture: Combine centralized and distributed control to flexibly adapt to various scenarios.
- Dynamic Tide Optimization: Adjust power allocation in real – time to reduce energy loss and peak loads.
Power Conversion Layer (Power Regulation and Grid Connection Control)
- High – Power Bidirectional Conversion Technology: Support MW – level energy bidirectional flow and grid connection.
- High – Reliability Grid Disconnection Switching: Enable millisecond – level grid disconnection switching to ensure critical load stability.
- Power Quality Monitoring and Control Technology: Compensate for reactive power and voltage fluctuations to maintain voltage and frequency stability.
System and Safety Layer (Structural Design and Protection System)
- Multi – Level Safety Protection System: Provide three – level safety protection for batteries, systems, and communication to prevent fault spread.
- Efficient Integrated Chamber Design: Deploy energy storage, conversion, and control modules in an integrated way to enhance reliability and maintainability.
- Flexible Expansion and Grid Compatibility: Support system parallel expansion and multi – energy access to adapt flexibly to multiple scenarios.
Intelligent Operation and Maintenance Layer (Digitalization and Intelligent Management)
- AI Prediction and Energy Optimization: Achieve intelligent scheduling and optimal energy control based on load and power generation forecasts.
- Digital Twin Simulation Technology: Monitor the fusion of virtual and real scenarios to identify potential risks and optimize operations in advance.
- Cloud – Edge Collaborative Intelligent Scheduling: Optimize cloud strategies and enable rapid edge response for global intelligent control.
- Full Lifecycle Operation and Maintenance Platform: Conduct remote monitoring, health diagnosis, and performance tracking to enhance the system’s full – lifecycle value.
