Buoy Type Water Quality Online Monitoring System-related Content

The Buoy Type Water Quality Online Monitoring System is a self-developed miniaturized automatic water quality monitoring system, leveraging years of R&D experience in meteorological stations. It adopts a pre-integrated outdoor monitoring design with a small footprint, and integrates multiple technologies including intelligent micro-monitoring sensors, automatic control, computer applications, and communication networks.

In practical applications, the system can flexibly adapt to management needs. Operating through low-cost grid-based deployment and high-frequency monitoring, combined with a strict data quality control system, it can meet big data monitoring scenarios such as basin water quality assessment, pollution source tracing, water quality early warning, and river (lake) chief assessment. As an on-site automatic water quality monitoring laboratory installed in basins like rivers, lakes, reservoirs, and coastal waters, it takes water quality monitors as the core. By virtue of sensor technology, and combined with buoy bodies, power supply systems, and data transmission equipment, it forms a small-sized monitoring system that can be placed in water areas.

Its core function is to continuously and automatically monitor changes in water quality, objectively record water quality conditions, and promptly detect water quality anomalies. Furthermore, it enables the prediction of water pollution in the located water area and its downstream, and supports the research on the laws of water diffusion and self-purification. Ultimately, it can achieve goals such as grasping water quality and pollutant flux, preventing and controlling water pollution accidents, and providing technical support for environmental protection management departments.

The buoy system of the buoy-type water quality monitoring station integrates a solar power supply system and a wireless data collection and transmission system, which can upload data information to the management center station via GPRS. In terms of composition, the monitoring station consists of a buoy body and mooring system, monitoring instruments (capable of monitoring indicators such as temperature, dissolved oxygen, turbidity, conductivity, pH, COD, and chlorophyll), a data collection and transmission module, a wireless transmission module, a power supply unit, an alarm device, and a remote monitoring platform. It requires no cable laying, can be quickly and conveniently deployed in areas requiring monitoring for wireless supervision, and is suitable for scenarios where environmental water quality testing of rivers and lakes is needed.