Manufacturers of hydrological and meteorological monitoring stations supply to various regions abroad
2025-03-04 08:41:33
Water has significant spatiotemporal variability, and too much or too little can become a disaster of water and drought. Hydrological and meteorological disasters such as rainstorm, flood and drought often occur, posing a serious threat to human life, property and social economy. Through hydro meteorological monitoring, the occurrence and development patterns of these disasters can be timely grasped, providing data support and decision-making basis for disaster prevention and reduction.
The hydro meteorological monitoring station combines sensor technology, communication technology, and data processing technology to comprehensively and real-time obtain water and rainfall data, providing decision support for multiple fields such as water resource management, flood control and drought resistance, and ecological environmental protection. Capable of data collection, transmission, and processing, capable of real-time transmission of sensor acquired data to data centers or cloud platforms for storage, analysis, and display.
Main components:
1. Hydrological observation equipment: Hydrological observation equipment is used to monitor hydrological related elements, such as water level, flow rate, water quality, etc. These devices can include water level gauges, flow meters, dissolved oxygen meters, turbidity sensors, etc., used for real-time monitoring and recording of hydrological parameters in rivers, lakes, reservoirs, and other water bodies.
2. Meteorological observation equipment: Meteorological observation equipment is used to monitor elements related to meteorology, such as temperature, humidity, rainfall, wind speed, and direction. These devices can include temperature sensors, humidity sensors, rain gauges, anemometers, etc., used for real-time monitoring and recording of various meteorological parameters in the atmosphere.
3. Data logger: The data logger is the core component of the observation station, used to receive, record, and store data from hydrological and meteorological observation equipment. It converts observed data into digital signals and records and stores them in real-time for subsequent analysis and application.
4. Communication system: The communication system allows hydrological and meteorological observation stations to transmit the collected data to remote data centers or monitoring platforms. In this way, remote operators can obtain real-time observation data and conduct monitoring and analysis.
5. Power supply system: The power supply system provides stable power supply for hydrological and meteorological observation stations to ensure the normal operation of equipment. The power supply method can be AC power supply, solar panels, etc., depending on the conditions and needs of the site.
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