Wind power icing sensor: the key to ensuring efficient output of wind power and timely detection of icing hazards. BK-JB3H is continuously updated by Shandong Boko Instrument Manufacturer. In the field of wind power generation, wind turbines are like "giants" of green energy, continuously converting wind energy into electricity. However, in cold and humid environments, the icing of wind turbine blades becomes a "stumbling block" that restricts their efficient and stable operation, and the icing sensor for wind power generation is the key to solving this problem.

When low temperature, high humidity, and supercooled water droplets in the air meet, the fan blades are prone to icing. The weight of the frozen blades increases significantly, altering their original aerodynamic characteristics and leading to a significant decrease in power generation efficiency. In severe cases, the blades may also break due to uneven stress, causing safety accidents and huge economic losses.

The wind power icing sensor, with its high-precision monitoring capability, can sense key parameters such as temperature, humidity, and ice thickness on the blade surface in real time. It is like a sharp 'diagnostician', not missing any subtle signs of icing. Once a trend of icing is detected, the sensor will immediately issue a warning signal and quickly transmit the information to the control center of the wind farm.

The control center promptly activates the de icing system based on sensor feedback data. At present, common de icing methods include electric de icing, mechanical de icing, etc. Through these technical means, the ice layer on the blades can be quickly removed, the normal operating state of the blades can be restored, and the efficient output of wind power can be guaranteed.

The application of wind power icing sensors not only improves the operational safety and reliability of wind farms, but also extends the service life of wind turbine blades and reduces maintenance costs. It is like the "guardian spirit" of wind farms, always vigilant of potential icing hazards, safeguarding the sustainable development of the wind power industry, and allowing clean energy to shine in a broader world.

This sensor adopts microwave detection technology to monitor the icing information in the sensitive area of the sensor based on the difference in feedback information of different substances such as ice, water, and air from microwave signals. The icing thickness is calculated based on the strength of the signal and the distribution information of icing in the sensor area.

This product is generally installed on the blades of wind turbines. By measuring the icing condition on this sensor, the icing condition at the current blade position can be determined equally.

technical indicators

Detection resolution: 0.01mm

Z measurement thickness: 30.00mm

Communication method: Wireless 433

Air speed: 10K

Communication protocol: see communication section

Communication distance:>100 meters (accessible)

Power supply method: embedded battery