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EBST
Model | Voltage [V] | Frequency [Hz] | Speed [rpm] | Max Power [W] | Max Airflow [m3/h] | Noise [dB(A)] | |
 | A200P.E002 | 230 | 50/60 | 3800 | 90.7 | 1066 | 61 |
Strong Cooling Capacity: The A200P.E002 model delivers 1066 m³/h max airflow at 3800 rpm, efficiently dissipating heat from densely packed battery modules, preventing overheating and thermal runaway risks.
Reliable Operation in Wide Conditions: Rated for 230V / 50/60Hz, it adapts to diverse grid environments, supporting continuous cooling in both high-temperature and fluctuating load scenarios typical of energy storage systems.
Ultra-Low Power Consumption: Max power of only 90.7W, far more efficient than traditional AC fans, reducing auxiliary power draw and boosting the overall system energy efficiency ratio.
Smart Speed Regulation: EC technology enables precise speed control (via 0-10V/PWM signals), matching airflow to real-time thermal demand and eliminating wasteful full-speed operation.
High Toughness & Corrosion Resistance: The reinforced nylon impeller offers excellent impact resistance and chemical stability, ideal for dusty, humid or slightly corrosive energy storage cabinet environments.
Lightweight & Low Vibration: The optimized nylon blade design reduces rotational inertia and mechanical stress, minimizing wear on bearings and extending service life.
Controlled Noise Output: Max noise level of only 61 dB(A) at full speed, meeting noise requirements for both utility-scale and residential-adjacent energy storage projects.
Maintenance-Free Design: The brushless EC motor eliminates carbon brush wear, paired with sealed bearings, delivering a long lifespan (exceeding 60,000 hours) and reducing maintenance needs.
Compact & Standardized Form Factor: The axial design is easy to install in battery cabinets, cooling units and other energy storage thermal management systems, supporting flexible airflow layout.
Global Compatibility: Wide voltage/frequency compatibility (230V, 50/60Hz) ensures seamless integration with energy storage projects across different regions.
A. Yes, absolutely. Take the A200P.E002 model as an example, it delivers a maximum airflow of 1066 m³/h at 3800 rpm, which quickly removes heat generated by densely packed battery modules, effectively mitigating thermal runaway risks and meeting the core cooling demands of energy storage cabinets. It also features intelligent EC speed regulation, dynamically adjusting airflow based on real-time temperature to balance cooling efficiency and energy consumption.
A. The nylon impeller is optimized for harsh conditions with excellent durability. Made of reinforced nylon, it offers outstanding impact resistance, anti-aging properties and corrosion resistance, capable of withstanding dust, moisture and minor chemical corrosion inside energy storage cabinets. Meanwhile, the lightweight design reduces rotational inertia and mechanical stress, minimizing bearing wear. Combined with a brushless EC motor, the fan has a service life of over 60,000 hours, ensuring stable long-term operation.
A. The advantages are mainly reflected in two aspects: ① Lower energy consumption: The A200P.E002 has a maximum power of only 90.7W. EC motors are far more efficient than traditional AC fans, and with intelligent speed regulation, airflow can be output on demand, significantly reducing the auxiliary power consumption ratio of the energy storage system. ② Low maintenance costs: The brushless EC motor eliminates carbon brush wear, and with sealed bearings, it has a longer maintenance-free cycle, requiring no frequent inspection or replacement of parts, which is ideal for the long-term unattended operation of energy storage power stations.
A. No, it won’t. The fan produces only 61 dB(A) of noise at full speed, meeting the noise control requirements of both utility-scale and residential energy storage projects. The EC speed regulation function also supports a low-noise operation mode: when the battery load is low, the fan can reduce its speed to further lower noise output, adapting to energy storage scenarios near residential areas or noise-sensitive locations.
A. It offers excellent compatibility. The fan supports 230V 50/60Hz wide voltage and frequency, which can seamlessly connect to power grid standards in different regions. Meanwhile, its standardized axial design allows for easy integration into thermal management systems such as battery cabinets and cooling units, supporting flexible air duct layouts without major modifications for installation.
