Solution Value
- Efficient Utilization of Natural Resources: Construct large-scale photovoltaic power stations to realize the dual value of land and energy. This maximizes resource utilization.
- Increase the Proportion of Clean Energy: Implement large-scale grid-connected power generation to facilitate the replacement of fossil fuels with renewable energy. This promotes sustainable energy development.
- Optimize Regional Energy Structure: Drive the construction of energy bases and enhance regional power self-sufficiency. A better energy structure supports local development.
- Achieve Long-Term Stable Returns: Benefit from long power generation revenue cycles and stable investment returns. Stable returns ensure economic viability.
- Introduce Intelligent Operation and Maintenance Systems: Enable remote monitoring and data analysis to improve operation efficiency and safety. Smart systems enhance management.
- Assist Green and Low-Carbon Transformation: Reduce carbon emissions and pollution to support the construction of a zero-carbon energy system. This contributes to environmental protection.
- Support Coordinated Photovoltaic-Storage Development: Combine energy storage systems to smooth output power and optimize grid connection quality. Coordinated development improves stability.
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: Centralized + distributed hybrid configuration. Balance centralized high-power and distributed flexible configurations to enhance system revenue. Hybrid systems offer flexibility and efficiency.
- Design Layout: Efficient array optimization layout. Optimize layouts based on terrain, sun angle, and shading to improve power generation efficiency. Optimized layouts maximize output.
- Access Scheme: Multi-voltage level grid-connection design. Support grid connection at 35kV and above to achieve large-scale power output. Proper access ensures scalability.
- Energy Path: Photovoltaic-storage integration topology. Integrate energy storage systems to enhance output stability and grid-friendliness. Integration improves reliability.
Power Generation Control Layer
- Power Regulation: Intelligent MPPT algorithm optimization. Improve photovoltaic component output efficiency and reduce losses from shading and aging. Optimization boosts performance.
- Grid Connection Control: High-precision inversion and grid synchronization. Support grid voltage, current harmonic control, and frequency regulation. Precise control ensures stable grid connection.
- Power Smoothing: Energy storage + inversion coordinated regulation. Suppress power generation fluctuations for smooth output. Smoothing enhances grid stability.
- System Coordination: Source-grid-storage coordinated control. Optimize global energy scheduling for system-level economic operation. Coordination improves efficiency.
Electrical Equipment Layer
- Component Technology: High-efficiency PERC/TopCon component technology. Enhance photoelectric conversion efficiency and system power generation. Advanced technology increases output.
- Boost and Inversion: Centralized boost + string inversion integration. Improve energy transmission efficiency and reduce losses. Integration optimizes performance.
- Protection Design: PID – Potential Induced Degradation & lightning protection system. Ensure long-term system stability and safety. Protection is crucial for durability.
- Environmental Adaptation: High-temperature and high-humidity adaptation technology. Guarantee reliable system operation in complex climates. Adaptation ensures resilience.
Intelligent Operation and Maintenance Layer
- Data Monitoring: Cloud-end intelligent monitoring platform. Monitor power generation, inversion, faults, and benefits in real-time. Real-time monitoring ensures system health.
- Fault Diagnosis: AI intelligent fault identification. Automatically detect string abnormalities and component performance degradation. AI diagnosis improves maintenance.
- Digital Twin: Virtual-real fusion digital twin system. Simulate photovoltaic scene operation status for early warning and optimization. Simulation aids proactive management.
- Operation and Maintenance Management: Full lifecycle management platform. Unify design, construction, operation, maintenance, and performance optimization processes. Comprehensive management ensures efficiency.
