Imax Power Microgrid Integrated Energy Solution
Solution Value
- Enhance Comprehensive Energy Utilization Efficiency: Achieve complementary use of electricity, heat, cold, and other energies to improve overall system efficiency. Efficient energy use optimizes resource allocation.
- Strengthen Regional Energy Supply Stability: Coordinate multiple energy sources for continuous power supply to critical loads. Stable supply ensures reliable operations.
- Support Distributed Energy Storage Access: Realize source-grid-storage coordination and optimize energy spatial-temporal distribution. Coordinated access enhances energy management.
- Implement Intelligent Energy Dispatch Management: EMS unified monitoring and optimized control enhance energy efficiency and safety. Smart dispatch improves system performance.
- Reduce Comprehensive Energy Usage Costs: Increase economic benefits through energy grading utilization and optimized scheduling. Cost reduction boosts profitability.
- Promote Green Low-Carbon Energy Transformation: Support clean energy grid integration and build zero-carbon smart parks. Transformation supports sustainable development.
- Adapt to Multi-Scenario Integrated Applications: Suitable for various energy systems in parks, communities, factories, etc. Versatility meets diverse energy needs.
Key Core Products & Technical Systems
Module Products
Imax energy storage converters PCS/Bidirectional DCDC/MPPT/STS/BMS/EMS (assuming these are the module products under the Imax Power brand; adjust if actual product names differ)
System Products
Imax Power integrated energy storage system
Hierarchical Structure
Intelligent Decision-Making Layer: System Management, Control, and Energy Optimization
- Multi-Energy Coordinated EMS System: Unify and coordinate multiple energy flows for optimal overall efficiency. Unified systems maximize energy use.
- Comprehensive Energy Management and Scheduling: Base on AI algorithms to predict and optimize renewable energy output. Optimization enhances system adaptability.
- Cloud-Edge Collaboration Control: Implement cloud-based decision-making and edge real-time response for system flexibility and stability. Collaboration improves responsiveness.
- Source-Grid-Storage Integration Control: Coordinate power generation, storage, and loads for real-time supply-demand balance. Integration ensures stability.
Control and Conversion Layer: Energy Quality and Interactive Management
- Bidirectional Energy Conversion Technology (PCS): Support flexible grid connection and off-grid operation. Conversion technology enables adaptability.
- Multi-Microgrid Internetworking: Enable multi-point complementary operations and support regional energy sharing. Internetworking optimizes energy distribution.
- AC/DC Hybrid Coupling Architecture: Improve system efficiency and compatibility with mixed grid access. Architecture enhances performance.
Equipment and Safety Layer: System Reliability and Safety Optimization
- Multi-Level BMS/EMS Safety Protection System: Provide battery, control, and communication protection to ensure full lifecycle safety. Protection is critical for safety.
- Intelligent Thermal Management and Redundant Design: Balance thermal loads and prevent overheating and system failures. Thermal management ensures durability.
- High-Reliability Grid-Switching Technology: Ensure millisecond-level response to maintain uninterrupted critical load power supply. Reliability guarantees stability.
Basic Support Layer: Integration Design and Operation & Maintenance System
- Modular Integration Design: Deploy energy storage, cold, thermal, and electrical modules flexibly for easy operation and maintenance. Modular design simplifies management.
- Digital Twin and Simulation Platform: Build virtual models to predict operational risks and optimize energy scheduling. Simulation aids proactive management.
- Full Lifecycle Operation and Maintenance Platform: Support health assessment, performance monitoring, and remote maintenance to realize intelligent operation loops. Comprehensive management ensures efficiency.
