Floating Water Quality Monitoring Station**Water quality analyzer usually consists of the following parts:
1.Buoy theme: The buoy body is the core part of the entire monitoring station, using Korean polyethylene as raw material, through rotational molding and one-time molding, filled with polystyrene foam, which can float on the water. The buoy body is assembled on the steel skeleton by stainless steel bolts, the connection is reliable, the force is uniform, and the buoy body is equipped with sensors, data acquisition equipment and communication equipment and power supply equipment.
2.Sensors: Buoy water quality monitoring stations are often equipped with a variety of sensors to monitor water quality parameters. Common sensors include water temperature sensors, dissolved oxygen sensors, turbidity sensors, conductivity sensors, pH sensors, etc. These sensors can monitor various indicators of the water body in real time.
3.Data collection and transmission: The data acquisition equipment is responsible for collecting the monitoring data of the sensor and transmitting it to the data processing center or cloud platform. Data transmission is usually done through wireless communication technology, which ensures the real-time transmission of data.
4.Data processing and analysis: After the monitoring data is transmitted to the data processing center or cloud platform, the data is processed, analyzed, and stored. The data processing software can display the data in real time, trigger alarms and analyze the data to provide real-time information and trend analysis of water quality status.
5.Power supply system: Buoy water quality monitoring stations are often equipped with energy devices such as solar panels or wind generators to provide power to the monitoring equipment**. This ensures that the station is operating in remote areas or without power**.
Floating Water Quality Monitoring Station**Water quality analyzer has a wide range of applications, and can be used for water quality monitoring of rivers, lakes, reservoirs, oceans and other water bodies. They can monitor water quality parameters in real time, provide timely data feedback, and help departments, water resources management and scientific research institutions to understand the water quality status of water bodies, and take corresponding protection and management measures in a timely manner.