120L Large Capacity Floor-Standing Evaporative Air Cooler Suitable For Industry And Home LBW-18000RC

How is the 120L Large Capacity Floor-Standing Evaporative Air Cooler Suitable For Industry And Home LBW-18000RC's CFM (cubic meters per hour) airflow of 18,000 m³/h achieved?

1. Efficient fan design
Fan type: High-efficiency axial fans or centrifugal fans are usually used. Axial fans are suitable for large airflow requirements, while centrifugal fans can provide higher static pressure and are suitable for complex air flow paths.
Blade optimization: The fan blades are optimized by computational fluid dynamics (CFD) to ensure that their shape, angle and number can effectively increase airflow and reduce noise.
2. Multi-stage fan system
Graded design: By using multiple fan modules, the device can achieve graded airflow processing. Each fan module provides boost at different working stages, which improves airflow and wind pressure as a whole.
Cooperative work: The coordinated work of each fan can ensure efficient air movement while maintaining low noise levels.
3. Aerodynamic optimization
Flow channel design: The internal air flow channel is precisely designed to ensure that the air flow path is as straight and smooth as possible, reduce vortices and resistance, and improve airflow efficiency.
Inlet and outlet optimization: Increasing the diameter of the air inlet and outlet makes the air in and out smoother, thereby increasing the airflow.
4. Large-diameter air inlet
Design concept: Consider using a large-diameter air inlet during design, which can inhale more air and form a good match with the airflow of the fan to improve the air intake efficiency.
Filter design: A reasonably designed air filter can ensure the air filtration effect without affecting the airflow and prevent dust from entering the equipment.
5. High speed
Motor selection: Using a high-speed motor can provide a higher fan speed, so as to achieve the predetermined airflow in a short time.
Variable speed technology: The motor equipped with a frequency converter can adjust the speed according to environmental requirements, provide a larger airflow when the demand is high, and reduce energy consumption when the demand is low.
6. Intelligent control system
Automatic adjustment: The intelligent control system can monitor the ambient temperature and humidity in real time, automatically adjust the fan speed, and maintain the best airflow output.
User-defined settings: Users can choose different wind speed modes according to actual needs to ensure a comfortable experience under different conditions.
7. Overall system integration
Modular design: The entire cooling system adopts a modular design, so that each part (such as fan, filter, cooling system) can work together efficiently and improve the overall airflow.
Heat exchange optimization: The optimized heat exchange system can improve the cooling effect without affecting the flow of air during the cooling process.