Based on water supply dispatching data, it provides operation data analysis, equipment operation, water quantity management and safety management for water supply system, drainage system, sewage treatment system and other subsystems. Form a water resources management system integrating perception, diagnosis, scheduling, early warning and correction, and create a standardized, refined and intelligent water resources operation process for users.
Looking back on the traditional water management, the water plants are generally scattered and lack of unified centralized management and control, which leads to the uneven operation level of each plant, untimely and incomplete data summary, lagging problem feedback and slow incident handling. Operation management relies too much on manual experience for production control, fault judgment and equipment maintenance, and the labor cost is too high and inefficient, so it is difficult to reuse.
At present, the water industry, as a water supply and drainage industry, needs to achieve the goal of peak carbon dioxide emission and carbon neutrality, develop green, low-carbon and sustainable new processes, tap the potential of carbon emission reduction, and achieve the goal of pollution reduction and carbon reduction. In the future sewage treatment, energy and resource recovery will be regarded as an important means to achieve carbon neutrality in the water field, that is, energy balance and energy self-sufficiency.
Smart water is a part of the development of smart cities, which has been supported by the government in recent years. Through online monitoring equipment such as data acquisition instrument, wireless network, water quality and water pressure gauge, Smart Water perceives the running state of urban water supply and drainage system as a whole, organically integrates water management departments and water supply and drainage facilities in a visual way, and forms the "Internet of Things for Urban Water Affairs", which can timely analyze and process massive water information, make corresponding processing results to assist decision-making, and manage the whole production, management and service process of water system in a more refined and dynamic way. Smart water affairs can analyze and judge through the obtained data, and generate plans to assist water affairs management in combination with the actual situation to help water affairs run more scientifically and efficiently.
In order to promote the refined operation of "water supply and drainage" and help improve the refined operation, centralized control and data transparency of water affairs, Hightopo has built a 2D smart water visualization solution. By carrying data acquisition equipment, water quality detection sensors, pressure sensors, intelligent water meters, flow meters and other equipment, real-time dynamic collection of water information, focusing on monitoring key indicators such as pressure, flow and speed of various water plants and pumping stations. The home page scene summarizes the positioning information of reservoirs, water plants and pumping stations, and users can click on the corresponding areas for detailed viewing.
The interface abandons the traditional map mode in the past, splicing lakes and reservoirs with more concise hexagonal color blocks, representing river branches with more simplified lines, and then indicating the locations of pumping stations, waterworks, sewage treatment plants, non-drinking water, drinking water sources and water source protection areas with different colors. This design makes it easier to highlight business content and make management get twice the result with half the effort.
According to the needs of water management in various regions, the dynamic situation of population, water plants, reservoirs and pumping stations in various regions can be accurately obtained through comprehensive collection and display of regional water consumption trends, water supply and total water fee income, and corresponding visual charts can be generated to improve office efficiency clearly and concisely. Support multi-dimensional monitoring based on time, space, quality and other event types, such as pipe network leakage, water quality exceeding the standard or equipment and instruments exceeding the upper threshold. The abnormal situation will automatically trigger the alarm device and report it to the operation and maintenance personnel in time to assist users in scientific judgment. To a certain extent, it reduces the equipment failure loss and the leakage rate of the pipe network, avoids the chain accidents caused by the upstream and downstream equipment failures, and ensures the safe production of water at all times.
The construction of visual data supervision covers all-round information such as production, operation, finance and people's livelihood. It broke the management form of single planning in the past, got rid of the fragmented and piecemeal information construction in the fragmented era in the past, and provided comprehensive analysis to assist management decision-making.
The process configuration simulation interface supports "one map" remote centralized monitoring of factory operation, selecting the corresponding factory, and displaying the real-time running status of equipment in process sections such as water purification workshop, clean water tank, dosing room, water supply pump room and factory water. Apply? 2D? The rendering model can visually present the production-related structures such as mud valves, tanks, valves and other equipment, pipelines, etc., and superimpose the readings of key instruments in the corresponding areas, and select different colors to distinguish the operation contents of each pipeline. In order to ensure that the water level in the pool is sufficient and does not overflow, the system can remotely control the start and stop of the pump valve and the operating frequency of the pump station according to the water level monitored in the water plant, so as to realize automatic pump control and constant pressure water supply.
Patrol and manage the critical path system, accurately cover the targets of key areas, ensure the overall stable operation of equipment, processes and processes in the whole plant, and significantly improve the quality, decision-making and efficiency of water treatment. Provide historical data tracing query, trace and track something in a specific period of time, and provide users with intuitive video images and view control, just like watching the scene on the spot.