370W Explosion Proof Tube Axial Fan

The explosion proof axial fan with 370W motor provides smooth and quiet operation. A compact explosion proof axial fan allows for flexible placement, optimizes airflow and promotes a safer working environment.

Specification

• Model: ATO-FBT315-370W
• Rotational Speed: 2900 rpm
• Pole: 2 Pole
• Flow Rate: 4545 m/h
• Motor Power: 370W
• Full Pressure: 373 Pa
• Blade Angle: 30°
• Voltage: 220V/380V 
• Noise: ≤ 79 dBA
• Weight: 25kg

Features

• The surface of the fiberglass reinforced plastic anti-corrosion casing is smooth and even, treated with high-temperature spray painting.
• Explosion proof tube axial fan is made of fiberglass reinforced plastic (FRP), and the rest of the parts are anticorrosive treated, which can be used to convey corrosive gases.
• 370W explosion-proof motor uses pure copper coils, providing strong sealing to ensure the air volume of the fan blades.
• Explosion proof tube axial fan has the advantages of large air volume, low noise, energy saving and environmental protection.

Dimension

• Flare Diameter A: 356
  
• Height H: 260
  
• Impeller Diameter: 273
  
• Right Angle Side Distance B: 345-347

Applications

Axial flow fans are widely used in various industries and applications, including ventilation systems for buildings, cooling systems for data centers, air conditioning systems for automobiles and aircraft, power generation plants, and industrial processes such as chemical and food processing. 

Tips: Are explosion-proof tube axial fans energy-efficient?

Explosion-proof tube axial fans, like any other type of fan, can vary in their energy efficiency depending on their design and specifications. The primary purpose of explosion-proof fans is to safely operate in potentially hazardous environments where there may be flammable gases, vapors, or dust present.

Energy efficiency in fans is typically measured by their airflow efficiency, which relates to the amount of air moved per unit of energy consumed. However, explosion-proof fans are primarily designed to meet safety standards and prevent the ignition of flammable substances rather than optimize energy efficiency.