An ultrasonic bubble sensor is a device that uses ultrasonic technology to detect air bubbles in liquids. In some industries, such as petrochemical, pharmaceutical, and food industries, the sensor may need to be used in flammable and explosive environments. The following is a description of the use of ultrasonic bubble sensors in the most sexual environment
Explosion-proof design: Ultrasonic bubble sensors usually have a special explosion-proof design to ensure their safe performance in the most toxic environment. The materials and components used in the sensor comply with the relevant explosion-proof standards and requirements, such as ATEX (Europe) or UL (USA). In addition, the sensors are equipped with a special explosion-proof housing to protect against sparks, arcing or static electricity.
Adapt to different environments: Ultrasonic bubble sensors can adapt to different environmental requirements. In the petrochemical industry, for example, sensors can operate under harsh conditions such as high temperatures, high pressures, and corrosive liquids. At the same time, the sensor can also be adapted to different types of liquids, such as water, oil, acids and alkalis.
Small electrical sparks: The circuit design of the ultrasonic bubble sensor uses special technology to ensure that it does not generate high-energy electrical sparks during use. This helps to reduce the risk of fire and safety of the sensor and improves its safety performance in the most demanding environment.
Stability and reliability: Ultrasonic bubble sensors have a high degree of stability and reliability. The components and circuitry used in the sensors are carefully designed and tested to ensure stable and reliable performance over long-term use. In addition, the sensor has features such as automatic calibration and fault diagnosis to improve its safety and reliability in the most demanding environment.
Ultrasonic bubble sensors can be used in the most demanding environment, provided that special explosion-proof design and material selection are required to ensure their safety and reliability during use. At the same time, the sensor has the advantages of adapting to different environments, small electrical sparks, stability and reliability, etc., which can meet the needs of bubble detection in the most important environment.
Model example: AQ bubble sensor FCS16-25-EX
AQ bubble sensor FCS10-25-EX
AQ bubble sensor FCS16-50-EX
AQ bubble sensor FCS22-50-EX
AQ bubble sensor FCS35-50-EX
AQ bubble sensor FCS46-64-EX
The Swedish AQ bubble sensor FCS16-25-EX can be used in the most sexual environment