How to Reduce Energy Consumption of Stainless Steel Fans

After installation, stainless steel fans must undergo commissioning. This process serves two purposes: first, to verify the quality of the fan's installation; second, to confirm that the operational statistics match the specifications provided at the time of purchase.

Stainless steel fans demonstrate excellent energy-saving and emission-reduction capabilities, sparking considerable curiosity among many users. Today, we will briefly explain how these fans achieve energy efficiency.

By adjusting system frequency, stainless steel fan systems maintain energy efficiency during operation. Stainless steel plates drive the centrifugal impeller, reducing grid impact during startup, improving power factor, and lowering line losses and system costs. After system upgrades, electrical losses decrease by 10-20%.

Centrifugal fans cannot be stopped beyond their application level. For continuous operation of stainless steel fans, refer to the negative pressure curve for airflow volume in the product specifications—it has been applied at the curve level.

When the duct is open, the fan's measured value drops sharply. At this point, if no preventable operations occur consecutively, deformation or maintenance may be required. In critical situations, pay close attention to the valve switching method.

If the operating pressure does not pose a hazard, a 1-degree commercial safety valve should be installed in the duct. When the duct is open to the outside, the safety valve automatically closes, regulating airflow to ensure the service life of the centrifugal fan.