Solution Value
- Enhance New Energy Consumption Capacity: wind-solar output fluctuations and increase the proportion of renewable energy grid integration. This promotes the utilization of clean energy.
- Strengthen Grid Peak Shaving and Frequency Regulation Ability: Respond quickly to system fluctuations and ensure safe and stable grid operation. Rapid response is crucial for grid stability.
- Achieve Source-Grid-Storage Coordinated Optimization: Coordinate energy storage with the power source side for improved overall operation efficiency. Coordinated control optimizes system performance.
- Support Large-Scale Centralized Grid Integration: Meet the grid integration needs of large-scale wind and photovoltaic bases and optimize power transmission structures. This facilitates the integration of renewable energy.
- Improve Project Economic Benefits: Participate in peak shaving, frequency regulation, and electricity trading to expand multiple revenue channels. Diverse income streams enhance profitability.
- Build Intelligent Management and Control System: EMS unified scheduling and monitoring achieve optimal power and energy allocation. Smart management improves efficiency.
- Assist Green and Low-Carbon Transformation: Promote clean energy to replace traditional energy sources and build zero-carbon energy systems. This supports sustainable development.
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
Primary Dimensions
System Architecture Layer
- System Integration: Source-grid-storage integrated architecture. Realize coordinated operation of wind, solar, and storage to enhance overall energy utilization efficiency. Integrated systems maximize resource use.
- Power Structure: Photovoltaic-storage coordinated coupling design. Optimize the matching of photovoltaic and energy storage power to reduce fluctuations and grid integration impacts. Coordinated design improves stability.
- Energy Flow: Multi-terminal grid-connected interconnection technology. Support flexible energy exchange with multiple accesses of wind, light, and storage. Flexible energy flow enhances adaptability.
- Configuration Strategy: Capacity optimization configuration model. Dynamically optimize the energy storage capacity ratio based on power generation forecasts and load characteristics. Optimized configuration improves performance.
Dispatch Control Layer
- Dispatch Strategy: Multi-time-scale energy dispatch. Implement dynamic optimization operation strategies at daily and minute levels. Multi-scale dispatch enhances flexibility.
- Coordination Mechanism: Source-storage coordinated control strategy. Adjust power output in real-time to suppress fluctuations and climbing. Coordinated control ensures stability.
- Grid Stability: Frequency/voltage support control. Participate in primary and secondary frequency regulation and voltage regulation to enhance grid stability. Stability control is essential for reliable operation.
- Optimization Algorithm: AI prediction and power smoothing algorithm. Optimize energy allocation and peak shaving based on machine learning. AI-driven optimization improves efficiency.
Electric Energy Conversion Layer
- Conversion and Coupling: Bidirectional high-voltage PCS technology. Achieve efficient energy conversion between energy storage and the grid. Efficient conversion is key for system performance.
- Battery System: High-rate battery cluster management. Support fast charging and discharging and improve frequency regulation and peak shaving performance. Effective battery management ensures reliability.
- Electric Energy Quality: Dynamic reactive power compensation technology. Optimize electric energy quality and suppress harmonics. Quality optimization enhances power supply.
- Safety Protection: Multi-level electrical and thermal protection system. Provide comprehensive fault protection, over-temperature, and over-voltage risk prevention. Safety protection is critical for system security.
Intelligent Operation and Maintenance Layer
- Monitoring System: Cloud-edge collaborative monitoring platform. Collect and analyze data centrally and control edges in real-time. Real-time monitoring ensures system health.
- Digital Twin: Digital twin simulation system. Map operation status virtually and provide early warnings. Simulation systems aid in proactive maintenance.
- Efficiency Optimization: SOH/SOC real-time assessment. Dynamically evaluate battery health and capacity to extend system life. Optimization improves longevity.
- Full-Cycle Management: Full life cycle operation and maintenance platform. Cover a closed-loop management system for design, operation, and evaluation. Comprehensive management ensures efficiency.
