3×7.5kw long distance tunnel counter-rotating axial flow ventilation fan
The 3×7.5kw long distance tunnel counter-rotating axial flow ventilation fanFBDY underground mine tunnel axial flow ventilation fan (hereinafter referred to as the fan) is a local fan designed for a wide range of applications. It boasts a robust structure, exceptionally low noise levels, high wind pressure, and impressive efficiency. This fan excels in maintaining stable operation within confined airflow areas while offering a broad, high-efficiency operation range. Its unique design prioritizes energy efficiency and overall effectiveness. This versatility makes it perfectly suited for ventilation needs across diverse underground mines and tunnel projects. For long-distance mine ventilation, the FBDY fan is the undeniable equipment of choice.
Structures
1. Current collector 2. Panel-type muffler front tube 3. First-level panel-type muffler host 4. First-level impeller 5. Second-level impeller
6. Secondary panel-type muffler main engine 7. Third-stage impeller 8. Guide vane tube 9. Panel-type muffler diffuser tube
Air Collection and Silencing:
Air Collecting Front Anechoic Barrel: This section acts as the initial point of air intake and features noise reduction properties.
Stage 1 Anechoic Main Unit: This houses the first impeller and contributes to noise dampening.
Impellers and Energy Transfer:
Stage 1 and 2 Impellers: These directly mounted impellers are driven by flameproof motors and rotate in opposite directions for increased efficiency.
Post-Stage Impeller: This final impeller functions similarly to a guide vane in a traditional axial flow fan, further accelerating airflow and boosting wind pressure.
Unique Design Features:
Contra-Rotating Impellers: The opposing rotation of adjacent impellers eliminates the gas pulsation common in contra-rotating fans, leading to smoother operation.
Prime Number Blade Count: To prevent blade overlap and maintain efficient airflow, the number of blades between adjacent stages uses prime numbers.
Parameters Table
No. | motor power | air Volume(m3/min) | full pressure(Pa) | Maximum full pressure efficiency(%) | compared to a sound levels[dB(A)] |
---|---|---|---|---|---|
No3.5 | 2×1.1 | 153~76 | 250~1500 | ≥75 | ≤30 |
No3.5 | 3×1.1 | 153~76 | 350~2100 | ≥75 | ≤30 |
No3.5 | 4×1.1 | 153~76 | 450~2700 | ≥75 | ≤30 |
No4 | 2×2.2 | 220~113 | 300~1800 | ≥75 | ≤30 |
No4 | 3×2.2 | 220~113 | 420~2520 | ≥75 | ≤30 |
No4 | 4×2.2 | 220~113 | 540~3240 | ≥75 | ≤30 |
No4.5 | 2×4 | 220~150 | 300~2300 | ≥75 | ≤30 |
No4.5 | 3×4 | 220~150 | 420~3220 | ≥75 | ≤30 |
No4.5 | 4×4 | 220~150 | 540~4140 | ≥75 | ≤30 |
No4.5 | 2×5.5 | 240~160 | 320~3100 | ≥75 | ≤30 |
No4.5 | 3×5.5 | 240~160 | 440~4340 | ≥75 | ≤30 |
No4.5 | 4×5.5 | 240~160 | 580~5580 | ≥75 | ≤30 |
No5.0 | 2×7.5 | 300~180 | 340~3500 | ≥75 | ≤30 |
No5.0 | 3×7.5 | 300~180 | 480~4900 | ≥75 | ≤30 |
No5.0 | 4×7.5 | 300~180 | 610~6300 | ≥75 | ≤30 |
No5.6 | 2×11 | 400~200 | 350~4000 | ≥80 | ≤25 |
No5.6 | 3×11 | 400~200 | 350~4000 | ≥80 | ≤25 |
No5.6 | 4×11 | 400~200 | 630~7200 | ≥80 | ≤25 |
No6.0 | 2×15 | 450~250 | 440~5100 | ≥80 | ≤25 |
No6.0 | 3×15 | 450~250 | 620~7100 | ≥80 | ≤25 |
No6.0 | 4×15 | 450~250 | 790~9200 | ≥80 | ≤25 |
No6.0 | 2×18.5 | 500~250 | 450~5500 | ≥80 | ≤25 |
No6.0 | 3×18.5 | 500~250 | 630~7700 | ≥80 | ≤25 |
No6.0 | 4×18.5 | 500~250 | 810~9900 | ≥80 | ≤25 |
No6.0 | 2×22 | 550~250 | 450~6000 | ≥80 | ≤25 |
No6.0 | 3×22 | 550~250 | 630~8400 | ≥80 | ≤25 |
No6.0 | 4×22 | 550~250 | 810~10800 | ≥80 | ≤25 |
No6.3 | 2×30 | 630~260 | 460~6300 | ≥80 | ≤25 |
No6.3 | 3×30 | 630~260 | 640~8820 | ≥80 | ≤25 |
No6.3 | 4×30 | 630~260 | 830~11340 | ≥80 | ≤25 |
No6.7 | 2×37 | 730~410 | 920~6500 | ≥80 | ≤25 |
No6.7 | 3×37 | 730~410 | 1200~9000 | ≥80 | ≤25 |
No6.7 | 4×37 | 730~410 | 1480~1160 | ≥80 | ≤25 |
No7.1 | 2×45 | 820~550 | 1480~6650 | ≥80 | ≤25 |
No7.1 | 3×45 | 820~550 | 1480~9130 | ≥80 | ≤25 |
No7.1 | 4×45 | 820~550 | 1850~11740 | ≥80 | ≤25 |
No7.5 | 2×55 | 980~630 | 1850~6800 | ≥80 | ≤25 |
No7.5 | 3×55 | 980~630 | 1850~9240 | ≥80 | ≤25 |
No7.5 | 4×55 | 980~630 | 2200~11880 | ≥80 | ≤25 |
No8.0 | 2×75 | 1250~680 | 2200~7100 | ≥80 | ≤25 |
Application
Mining: As the name suggests, these fans are perfectly suited for primary and auxiliary ventilation in mines, ensuring worker safety and optimal air circulation.
Metal Industries: The fans effectively handle high-pressure ventilation needs in the metallurgy, non-ferrous metals, and gold processing sectors.
Chemical Industry: Their robust design makes them ideal for high-pressure ventilation applications within the chemical industry.
Shipbuilding and Ceramics: These fans offer efficient ventilation solutions for the shipbuilding and ceramic industries.
Advantages
High Efficiency and Energy Saving: The use of bending-sweep combination orthogonal technology significantly improves fan efficiency and reduces energy consumption.
Wide Range of Applications: The design takes into account the ventilation network coefficients of small and medium-sized coal mines, while also being suitable for large mines and other industrial and mining sites.
Flameproof Design: The flameproof design meets the explosion-proof requirements for mines, ensuring safety and reliability.
Intelligent advantages
We have integrated intelligent design into our underground axial flow fan ventilation systems, catering to the unique needs of both mining and tunneling projects. Our intelligent ventilation monitoring system boasts a comprehensive suite of features and cutting-edge technologies, enabling seamless optimization and enhanced safety across diverse underground environments.
Our intelligent ventilation monitoring system meticulously crafts customized ventilation plans for various mine zones, including coal working faces, excavation working faces, and development tunnels prone to disasters. Similarly, for tunnel engineering projects, our system ensures optimal airflow distribution throughout the tunnel, maintaining a safe and productive working environment.
Proactive monitoring and analysis of system performance ensure the stability and reliability of your ventilation system, minimizing downtime and safeguarding the safety of your operations, whether in mines or tunnels.
Granular control over airflow allocation reduces energy consumption, enhances worker comfort and productivity, and optimizes ventilation efficiency in both mining and tunneling operations.
Continuous monitoring of gas concentrations and detection of anomalies trigger timely alerts, enabling rapid intervention and averting potential disasters, preventing mine and tunnel accidents.
Product Cases
Axial flow fans provided for a subway tunnel project in China. Efficiently and continuously provide fresh air to the tunnel.
Customized axial fan ventilation system for a tunnel project in South America. Using FBDY series axial flow fans, the ventilation distance reaches 10km.
Axial fan ventilation system installed for a metal mining client in South America. The system effectively removes stale air, supplies fresh air, and controls dust, fumes, and other hazardous gases.
Client Support Services
Our commitment extends beyond providing high-performance fans. Our team of ventilation experts is readily available to assist you in selecting the right fan solution for your specific needs, providing expert advice and technical support throughout the entire process.