EBST axial fans provide high-volume air movement solutions for applications requiring maximum airflow with minimal pressure requirements. The comprehensive axial fan series encompasses AC axial fan, DC axial fan, EC axial fan, and AC circular duct fan models, each engineered to deliver optimal performance across specific application parameters. Every axial fan features impellers constructed from high-strength composite materials or metal, optimized using ternary flow CFD simulation technology to achieve exceptional aerodynamic efficiency and acoustic performance across the entire operating range. The AC axial fan series delivers robust performance with F-class insulation motors, with larger models featuring IP54 protection for demanding environments, achieving airflow up to 17933m³/h and static pressure to 500Pa. For applications requiring precise speed control, the DC axial fan supports 0-10V and PWM modulation while maintaining compact form factors from 180mm to 305mm, delivering airflow up to 3150m³/h. The EC axial fan series represents the pinnacle of axial fan technology, with models featuring up to IP55 protection, F-class insulation, and RS485 communication capability, spanning diameters from 630mm to 1000mm and achieving airflow up to 34525m³/h. Axial fan applications span heat pump systems requiring efficient outdoor unit airflow, general ventilation systems where high volume air movement is essential, cold chain applications demanding reliable operation in varying temperature conditions, equipment cooling for industrial machinery, IDC data center cooling where airflow volume determines thermal capacity, energy storage systems requiring uniform air distribution, and rail transit ventilation applications with space constraints. The AC circular duct fan variant provides specialized performance for fresh air systems, greenhouse ventilation, and ducted applications with sizes from 4 to 12 inches and airflow up to 1490m³/h. EBST’s decades of axial fan engineering expertise ensure that every axial fan delivers the reliability, efficiency, and performance characteristics required for the most demanding ventilation applications.
