1. "The 14th Five-Year Plan" Water Security Plan
The Ministry of Water Resources issued the "14th Five-Year Plan for Water Safety and Security", which pointed out that during the "14th Five-Year Plan" period, we must focus on eight key tasks.
The first is to implement national water-saving actions and strengthen rigid constraints on water resources.
The second is to strengthen the construction of major water resources projects and improve the ability to optimize the allocation of water resources.
The third is to strengthen the construction of weak links in flood control and improve the ability of flood control and disaster reduction in the river basin.
The fourth is to strengthen water and soil conservation and river and lake improvement, and improve the ability to protect and manage the water ecological environment.
The fifth is to strengthen the construction of water conservancy in agriculture and rural areas, and improve the ability to guarantee water conservancy for rural revitalization.
The sixth is to strengthen the construction of smart water conservancy and improve the level of digitalization, networking and intelligence.
The seventh is to strengthen the reform of key areas of water conservancy and improve the ability of water conservancy innovation and development.
The eighth is to strengthen water conservancy management and improve the modernization level of water governance.
2. How to implement the "14th Five-Year" Water Security Plan?
The smart water cloud platform empowers and innovates the traditional water conservancy and water affairs workflow through the big data technology of the Internet of Things. Through the unified collection and processing of many monitoring elements such as real-time monitoring, intelligent judgment, work order alarm, and patrol inspection, the water conservancy and water affairs have been improved. work efficiency and accuracy.
Rainfall monitoring mainly monitors, reports and analyzes the rainfall elements of reservoirs, rivers, irrigation canals and other major water areas. Real-time grasp of the rain conditions at each key point, and assist the management department in flood control and drought relief.
Reservoir dam structure monitoring mainly monitors the dam body structure of small and medium-sized reservoirs in real time, uses seepage pressure, seepage flow, and displacement monitoring to ensure the structural safety of the dam body, and provides historical data review, data curve display, and periodic reports for the supervision department evaluation functions.
River water quality monitoring realizes the overall control of river water quality by monitoring the water quality of the main upstream and downstream river basin nodes. By judging the water quality changes at different monitoring nodes, it can be checked whether there are individuals or companies that have secretly drained or leaked. At the same time, it can grasp the changes of the water level, flow velocity, oxygen content and other data of the river in real time, and assist the water conservancy department to make relevant judgments and decisions.
Drinking water quality monitoring mainly monitors the drinking water quality between the waterworks and the secondary water supply. Monitoring through turbidity, residual chlorine, ammonia nitrogen and other data ensures the safety of drinking water between upstream water plants and downstream residents. At the same time, the GIS map monitoring points are used at a glance to achieve a map of water supply monitoring.
Urban pipeline network monitoring mainly monitors the real-time data of urban life pipelines such as tap water, sewage, gas and other pipelines, and the monitoring elements are pressure, flow, temperature, water quality, etc. Regional alarm notifications, relevant responsible persons can check in and take pictures at the maintenance point, and upload maintenance records.