Integrated Liquid Cooling Energy Storage Systems represents the cutting edge of energy storage technology, offering unparalleled efficiency, reliability, and safety for a wide range of applications. This system seamlessly integrates advanced liquid cooling technology with high-capacity battery modules, ensuring optimal operating temperatures and maximizing lifespan.

Energy Storage System Key Features:

Superior Thermal Management: The integrated liquid cooling system maintains consistent and precise temperature control, preventing thermal runaway and enhancing overall system performance.

Enhanced Energy Density: By effectively dissipating heat, this system enables higher energy density, allowing for more compact and powerful energy storage solutions.

Extended Lifespan: The precise temperature regulation significantly reduces battery degradation, resulting in a prolonged lifespan and lower total cost of ownership.

Uncompromising Safety: The liquid cooling system provides an additional layer of safety, mitigating the risk of fire and ensuring reliable operation in demanding environments.

Modular and Scalable Design: The system’s modular design allows for flexible configuration and easy scalability, adapting to various energy storage needs.

Intelligent Monitoring and Control: Advanced monitoring and control systems provide real-time data on system performance, enabling proactive maintenance and optimization.

Applications:

Utility-scale energy storage

Commercial and industrial energy storage

Data center backup power

Electric vehicle charging infrastructure

Renewable energy integration

Energy Storage System Benefits:

Increased efficiency and performance

Improved reliability and safety

Reduced operating costs

Environmental sustainability

In summary, the Integrated Liquid Cooling Energy Storage System delivers a next-generation energy storage solution that sets new standards for performance, safety, and reliability.

The 241kWh Integrated Battery Energy Storage System offers several key advantages for commercial, industrial, and grid-scale applications. Below is a structured overview of its benefits in English:

1. High Efficiency & Performance

• Round-Trip Efficiency: Up to 93%, minimizing energy loss during charge/discharge cycles.
• High Depth of Discharge (DoD): Up to 95%, allowing more usable energy per cycle compared to traditional systems.
• Long Cycle Life: ≥6,000 cycles at 70% end-of-life (EOL), ensuring durability and cost-effectiveness over time.

2. Enhanced Reliability & Safety

• Battery Chemistry: Uses LiFePO₄ (LFP) batteries, known for thermal stability, fire resistance, and longevity.
• Fire Protection: Equipped with perfluorohexanone or aerosol fire suppression systems for rapid response to thermal events.
• Thermal Management: Air-cooled or liquid-cooled designs maintain optimal operating temperatures (-20°C to 50°C), ensuring performance in extreme climates.
• IP55 Rating: Dust and water-resistant enclosure protects against environmental hazards.

3. Cost Savings & Operational Optimization

• Peak Shaving: Reduces electricity costs by storing energy during off-peak hours and discharging during peak demand.
• Demand Charge Management: Lowers utility bills by smoothing load fluctuations and avoiding peak-time surcharges.
• Energy Arbitrage: Capitalizes on price differentials between low-cost and high-cost periods to maximize savings.
• Reduced Downtime: Backup power capability ensures continuity during grid outages, preventing productivity losses.

4. Scalability & Flexibility

• Modular Design: Enables easy expansion by adding units to meet growing energy storage needs.
• Parallel Connection: Supports up to two units in parallel for increased capacity (e.g., 482kWh).
• DC/AC Coupling: Compatible with both solar PV systems (DC) and grid connections (AC), offering versatile integration.

5. Grid Support & Sustainability

• Frequency Regulation: Helps stabilize grid frequency by quickly injecting or absorbing power.
• Renewable Integration: Stores excess solar/wind energy for later use, reducing reliance on fossil fuels.
• Microgrid & Isolated Grid Support: Enhances power supply reliability in remote or off-grid locations.
• Environmental Benefits: Reduces carbon footprint by enabling cleaner energy use and lowering transmission losses.

6. Advanced Monitoring & Control

• Intelligent Energy Management System (EMS): Optimizes energy flow, monitors system health, and enables remote operation via cloud platforms.
• UPS Mode: Provides <5ms response time during power outages, ensuring seamless transition to backup power.
• Real-Time Data: Tracks performance metrics (e.g., SOC, efficiency) for proactive maintenance.

7. Durability & Low Maintenance

• Robust Construction: Built with industrial-grade materials for long-term outdoor use.
• Modular Components: Simplifies repairs and reduces downtime by allowing individual part replacement.
• Noise Levels: ≤60dB, making it suitable for noise-sensitive environments like office buildings.

Ideal Applications

• Commercial & Industrial (C&I): Factories, data centers, supermarkets, and hotels for cost savings and backup power.
• Renewable Energy Projects: Solar farms, wind parks, and hybrid systems for energy storage and grid stabilization.
• Microgrids & Off-Grid: Remote communities, islands, and critical infrastructure (e.g., hospitals, telecom towers).
• Utility-Scale Storage: Grid operators for frequency regulation, peak shaving, and renewable integration.