Combatting Urban Waterlogging: The Role of FT-PS2 Drainage Monitoring System

The urban drainage pipeline network is like the "underground blood vessels" of a city, shouldering the important task of collecting, transporting, and discharging urban sewage and rainwater. On the one hand, it timely transports the sewage generated by residents' daily lives to the sewage treatment plant for purification, avoiding the wanton flow of sewage and environmental pollution, and ensuring the environmental hygiene of the city. On the other hand, during rainfall, it quickly collects and discharges rainwater, preventing traffic paralysis on roads due to water accumulation and maintaining the normal production and living order of the city.

However, in recent years, with the continuous expansion of the urban scale and the frequent occurrence of extreme weather, the urban drainage pipeline network is facing severe challenges, and the problem of waterlogging has become increasingly serious. During heavy rain, a large amount of rainwater cannot be drained in a timely manner, turning streets into "rivers", trapping vehicles and making it difficult for pedestrians to move. This not only seriously affects urban traffic and travel but may also cause property losses and even endanger life safety.

As a scientific, intelligent, and fully functional comprehensive water level management system, the drainage monitoring station FT-PS2 is mainly installed at key nodes of the urban drainage pipeline network, including drainage pipes in low-lying areas and sections prone to water accumulation, rainwater pumping stations responsible for lifting and transporting rainwater, as well as the junctions between the drainage pipeline network and rivers. In this way, it can comprehensively and accurately monitor the operation status of the pipeline network.

The system will continuously and accurately collect data such as water levels and flow rates with the help of sensors installed in the pipeline network and transmit the data to the control center in real time through the network. Once it is detected that the water level reaches or exceeds the preset dangerous threshold, the system will immediately issue a warning message to remind relevant departments to take timely countermeasures. Through in-depth analysis of a large amount of historical and real-time data, it can predict the future operation trend of the pipeline network and provide a scientific and reasonable decision-making basis for drainage dispatching.