Liquid Cooling Energy Storage Integrated Cabinet For Wind
Products Description
High-Efficiency, Safe, and Sustainable Solutions for Wind Power Energy Storage Systems
The Liquid Cooling Energy Storage Integrated Cabinet for Wind is designed with a clear objective: to achieve temperature equilibrium, safety, stability, and high utilization of the battery system in the most complex and uncontrollable wind power environments.
Compared to traditional wind power energy storage solutions, the outdoor energy storage cabinet offers significant value to engineering clients:
Lower battery degradation: The liquid cooling system controls temperature differences within an ideal range, extending cell life.
Higher safety level: Independent battery compartment + flame-retardant metal structure + multi-level electrical protection.
Faster deployment efficiency: Pre-integrated at the factory, requiring only quick wiring for commissioning on-site.
Easier operation and maintenance: Supports remote monitoring, intelligent diagnostics, and thermal runaway early warning.
More adaptable to wind power scenarios: Adaptable to wind farms with large diurnal temperature variations, plateau areas, coastal areas, and high-humidity, high-salt-fog environments.
Key Product Features: Precisely Matching the Stringent Requirements of Wind Power Storage
High-Efficiency Liquid Cooling System
Integrates a closed-loop liquid cooling circuit and an intelligent temperature control algorithm, directly contacting the energy storage cells for heat dissipation. Temperature control accuracy reaches ±1℃, improving temperature uniformity by 40%, avoiding localized heat accumulation during high-power charging and discharging, and ensuring cell consistency and lifespan.
01
Wind and Seismic Resistant Structural Design
The liquid cooled energy storage cabinet adopts a reinforced frame and wind-resistant base, capable of withstanding level 12 strong winds and high-frequency vibrations generated by wind turbine operation. The offshore version is additionally equipped with anti-salt spray corrosion treatment, adapting to extreme outdoor wind power conditions.
02
Wind-Storage Synergistic Integration
Built-in grid-connected control unit and wind power communication interface, supporting real-time linkage with the wind turbine main control system, enabling adaptive adjustment of charging and discharging strategies, precisely matching wind power output fluctuations, and improving grid connection stability.
03
High-Safety Protection System
Integrates multiple safety mechanisms, including cell-level monitoring, thermal runaway early warning, explosion-proof pressure relief, and fire-fighting linkage. The liquid cooling medium uses environmentally friendly insulating material, eliminating the risk of leakage and conductivity, and meeting wind power storage safety standards.
04
Modular integrated design
The energy storage system cabinet, liquid cooling system, and control unit are modularly combined, supporting parallel capacity expansion, reducing the installation cycle by 50%, and adapting to the rapid deployment and subsequent capacity upgrade needs of wind power projects.
05
Design Advantages: Intelligent Multiphysics Collaborative Simulation
Thermo-Fluid-Structure Coupling Simulation
During the design phase, we utilize advanced simulation software to accurately calculate the coolant flow rate, pressure, temperature field, and battery module temperature distribution, optimizing the flow channel design to ensure no heat dissipation dead zones.
Electromagnetic Compatibility (EMC) Design
Shielding and filtering are implemented for high-frequency interference sources such as the PCS to ensure the entire system's electromagnetic radiation complies with the most stringent grid connection standards.
Intelligent Energy Management
The outdoor cabinet energy storage system intelligently adjusts pump speed and cooling strategies based on ambient temperature, battery SOC, and grid commands to minimize auxiliary energy consumption.
Application Advantages: Superior Performance in Wind Farms
| Onshore Wind Farms: Reliable Protection in High-Dust Environments | In onshore wind farms, high-dust environments often lead to decreased efficiency of air-cooled systems. Our liquid cooling system, through a sealed design, prevents dust intrusion, ensuring stable cooling efficiency and enabling the energy storage system to maintain high-efficiency operation even under high-dust conditions. |
| Offshore Wind Farms: The Ultimate Solution to Salt Spray Corrosion | Offshore wind farms face extreme environments with high salt spray and high humidity. Our corrosion-resistant liquid cooling system has proven in multiple offshore wind power projects to extend the lifespan of energy storage systems by 40%, significantly reducing offshore operation and maintenance costs and frequency. |
| High-Altitude Wind Farms: Adaptability to Low-Temperature Environments | In high-altitude wind farms, the efficiency of traditional energy storage systems drops significantly at low temperatures. Our Solar Wind Energy Storage Cabinet employs a low-temperature adaptability design, maintaining efficient thermal management even at -30°C, ensuring stable operation of the wind farm in frigid conditions. |
| Smart Wind Farm Integration: System-Level Efficiency Optimization | In smart wind farms, our energy storage integrated cabinet, integrated with the wind farm control system, enables intelligent energy scheduling and optimization. The system can automatically adjust energy storage strategies based on wind forecasts and grid demand, maximizing the economic benefits of the wind farm. |
contact us
Hot Tags: liquid cooling energy storage integrated cabinet for wind, China liquid cooling energy storage integrated cabinet for wind manufacturers, suppliers, factory
You Might Also Like
Send Inquiry