CN205281244U - Water supply network loss due to leakage, consumption reduction intelligent management platform based on SOA framework - Google Patents

Abstract

The utility model discloses a water supply network loss due to leakage, consumption reduction intelligent management platform based on SOA framework, including water supply network GIS system, water supply network SCADA system and the online dynamic simulation system of water supply network hydraulic model, SCADA system, simulation system respectively with the GIS headtotail, the equal developments of simulation result that real -time data and simulation system that the SCADA system gathered calculated are demonstrateed on the corresponding pipeline section and node of GIS system to compare with the running state who judges the water supply network to both, GIS system, SCADA system connect with simulation system respectively, and the GIS system carries out real -time online check to simulation system to the water supply network hydraulic model with water supply network geographic information corrected data propelling movement to simulation system, the real -time data propelling movement of SCADA system collection. Utilize this platform can in time discover water supply network operational failure, aassessment water supply network loss due to leakage degree, thus seeking the leak source, to reduce production and marketing poor.

Description

A kind of water supply network loss due to leakage based on SOA framework, consumption reduction intelligent management platform

Technical field

The utility model relates to water supply pipe management technical field, is specifically related to a kind of water supply network loss due to leakage based on SOA framework, consumption reduction intelligent management platform.

Background technology

Owing to China's Economic development is rapid, urbanization development is fast, tap water popularity rate improves rapid and causes waterworks layout and planning to have deficient science. Waterworks is a multi-objective problem, pipeline is caused to connect complicated, occurred that difficult management, residence time length, pipe network operation efficiency are low, the problem such as range of influence big time length when accident occurs, therefore should progressively improve external channeling to realize the optimizing operation of pipe network.

Traditional experience scheduling mode cannot adapt to modern saving water resource, the requirement that safety economy supplies water, it is achieved water distribution system running optimizatin scientific management is extremely urgent. In the face of these problems, except constantly improving water supply facilities, strengthen pipe network improving dynamics, outside improving technical level, also exigence sets up a set of perfect water-supply management system, and water supply network SCADA system and the online dynamic simulation system application platform of water supply network hydraulic model, to instruct daily pipe network operation and maintenance management, shorten the accident treatment reaction times, reduce daily operation energy consumption and loss due to leakage.

Summary of the invention

The utility model object is to provide a kind of water supply network loss due to leakage based on SOA framework, consumption reduction intelligent management platform, to solve the deficiencies in the prior art.

The utility model is by the following technical solutions:

A kind of water supply network loss due to leakage based on SOA framework, consumption reduction intelligent management platform, comprise water-supply management system, water supply network SCADA system and the online dynamic simulation system of water supply network hydraulic model, water supply network SCADA system, the online dynamic simulation system of water supply network hydraulic model connects with water-supply management system respectively, the real time data that water-supply management system customization water supply network SCADA system gathers and the emulation result that the online dynamic simulation system of water supply network hydraulic model calculates, both equal Dynamic Display are on the corresponding pipeline section and node of water-supply management system, and both compare to judge the running status of water supply network, online dynamic simulation system connects with water supply network hydraulic model respectively for water-supply management system, water supply network SCADA system, water-supply management system is by water supply network geography information correction data-pushing to the online dynamic simulation system of water supply network hydraulic model, and the real time data of water supply network SCADA system collection is pushed to water supply network hydraulic model online dynamic simulation system and water supply network hydraulic model is carried out real-time online check.

Further, water-supply management system comprises man-machine interaction interface, central processing unit, water supply network geography information module, central processing unit, water supply network geography information module connect with man-machine interaction interface respectively, and water supply network geography information module and central processing unit connect; Water supply network SCADA system comprises collection equipment, RTU remote control unit, communication unit, data center services unit, collection equipment and RTU remote control unit are bi-directionally connected, and RTU remote control unit is bi-directionally connected by communication unit and data center services unit; The online dynamic simulation system of water supply network hydraulic model comprises main control module, load module, simulation algorithm model, output module, main control module connects with load module, simulation algorithm model, output module respectively, and load module, simulation algorithm model, output module connect successively; The data center services unit of water supply network SCADA system and the output module of the online dynamic simulation system of water supply network hydraulic model respectively central processing unit with water-supply management system connect, the central processing unit of water-supply management system and the data center services unit of water supply network SCADA system respectively load module with the online dynamic simulation system of water supply network hydraulic model connect.

The beneficial effects of the utility model:

Intelligent management platform of the present utility model will form water supply network loss due to leakage, consumption reduction intelligent management platform together with online to water-supply management system, water supply network SCADA system and water supply network hydraulic model dynamic simulation system three system organic combinations. realize desired data between each system by SOA framework data-pushing and customized technology automatically to interconnect, it is not necessary to manual intervention. the relevant data of water-supply management system and water supply network SCADA system can deliver to the online dynamic simulation system of water supply network hydraulic model by heap automatically, the data of water supply network geography information correction are pushed to the online dynamic simulation system of water supply network hydraulic model by water-supply management system automatically, and pipe network waterpower model realization automatically upgrades in time without the need to human intervention thus reduces the maintenance difficulties saving manpower of pipe network hydraulic model, the real-time water consumption of the large user that SCADA system monitors can be pushed in the calculating of the water operation of hydraulic model in time and go to make the water operation of model more accurately with in time, simulation each hydraulic parameters out with actual closer to, thus significantly improve simulation precision, hydraulic model is carried out real-time online check by the True Data simultaneously utilizing SCADA to gather, and makes the requirement of data closer to satisfied use of the same actual measurement of the data of modeling. the emulation data that pipe network GIS system is calculated by the online dynamic simulation system of middleware mode customized water supply network SCADA measured data and water supply network hydraulic model, both show on corresponding pipeline section and node on water-supply management, and historical data can be shown simultaneously, and both are compared and judges the running status of water supply network, find the faulty condition such as the quick-fried leakage in water supply network and blocking, find the quick-fried point of leak source and about position of blocking point by the method for emulation when occurring abnormal, can greatly reduce time and the labour intensity of maintenance personnel's looking up the fault point, thus reduce water leakage.

Utilizing this platform energy Timeliness coverage water supply network operation troubles, assessment water supply network loss due to leakage degree, searches leak source thus reduces production and marketing difference. Pipe network and pumping plant can be carried out the object that pressure optimization reaches energy-saving and cost-reducing. Utilize this platform also existing pipe network operation situation can be carried out analysis and assessment, for reconstruction enlarging from now on provides foundation, also can safeguard to provide to the ordinary maintenance of pipe network simultaneously and guide.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Embodiment

Below in conjunction with embodiment and accompanying drawing the utility model done and further explain. The following example is only for illustration of the utility model, but is not used for limiting practical range of the present utility model.

A kind of water supply network loss due to leakage based on SOA framework, consumption reduction intelligent management platform, as shown in Figure 1, comprise water-supply management system, water supply network SCADA system and the online dynamic simulation system of water supply network hydraulic model, water supply network SCADA system, the online dynamic simulation system of water supply network hydraulic model connects with water-supply management system respectively, the real time data that water supply network SCADA system gathers and the equal Dynamic Display of emulation result that the online dynamic simulation system of water supply network hydraulic model calculates are on the corresponding pipeline section and node of water-supply management system, and both are compared and judges the running status of water supply network, find the faulty condition such as the quick-fried leakage in water supply network and blocking, find the quick-fried point of leak source and about position of blocking point by the method for emulation when occurring abnormal, can greatly reduce time and the labour intensity of maintenance personnel's looking up the fault point, thus reduce water leakage, online dynamic simulation system connects with water supply network hydraulic model respectively for water-supply management system, water supply network SCADA system, water-supply management system is by water supply network geography information correction data-pushing to the online dynamic simulation system of water supply network hydraulic model, and pipe network waterpower model realization automatically upgrades in time without the need to human intervention thus reduces the maintenance difficulties saving manpower of pipe network hydraulic model, the real-time water consumption of the large user that SCADA system monitors can be pushed in the calculating of the water operation of hydraulic model in time and go to make the water operation of model more accurately with in time, simulation each hydraulic parameters out with actual closer to, thus significantly improve simulation precision, hydraulic model is carried out real-time online check by the True Data simultaneously utilizing SCADA to gather, and makes the requirement of data closer to satisfied use of the same actual measurement of the data of modeling.

Water-supply management system comprises man-machine interaction interface, central processing unit, water supply network geography information module, central processing unit, water supply network geography information module connect with man-machine interaction interface respectively, and water supply network geography information module and central processing unit connect. Water supply network geography information module stores water supply network geography information, the water supply network information system database established can be derived from, carry out transformation when the geography information of water supply network changes such as pipe network and extended or booster fault, the topological relation of pipe network will change, the data of water supply network geography information module are revised accordingly, the geography information of current water supply network can be reflected with assure feed water pipe network geographic information module real-time and accurately. The simulation calculation result that the real time data of water supply network SCADA system collection and the online dynamic simulation system of water supply network hydraulic model send is carried out analysis and comparison to judge the running status of water supply network by central processing unit, find the failure conditions such as the quick-fried leakage in water supply network and blocking, and it is displayed in man-machine interaction interface; When the geography information of water supply network changes, the data of correction are pushed to the online dynamic simulation system of water supply network hydraulic model by central processing unit by water supply network geography information module automatically, and pipe network waterpower model realization automatically upgrades in time without the need to human intervention thus reduces the maintenance difficulties saving manpower of pipe network hydraulic model. Man-machine interaction interface enables operator the overall condition of water supply network be understood intuitively, Timeliness coverage fault maintenance.

Water supply network SCADA system comprises collection equipment, RTU remote control unit, communication unit, data center services unit, collection equipment and RTU remote control unit are bi-directionally connected, and RTU remote control unit is bi-directionally connected by communication unit and data center services unit. collection equipment is arranged on the water supply network of remote scene, and the data comprise pressure that collects, instantaneous delivery, cumulative flow, valve opening degree, water pump are opened, the frequency of variable frequency pump. RTU remote control unit is used for monitoring and measuring and is arranged on the collection equipment of remote scene, is responsible for the monitor and forecast to collection in worksite equipment, the state that collection equipment is recorded by RTU remote control unit or signal convert the data layout that can send on communication unit to, also convert the data sent from data center services unit to order, it is achieved to the function control of the equipment of collection. the data that RTU remote control unit sends are stored by data center services unit, process, it is sent to water-supply management system and the online dynamic simulation system of water supply network hydraulic model, the real-time water consumption of the large user that SCADA system monitors can be pushed in the calculating of the water operation of hydraulic model in time and go to make the water operation of model more accurately with in time, simulation each hydraulic parameters out with actual closer to, thus significantly improve simulation precision, hydraulic model is carried out real-time online check by the True Data simultaneously utilizing SCADA to gather, make the requirement of data closer to satisfied use of the same actual measurement of the data of modeling.

The online dynamic simulation system of water supply network hydraulic model comprises main control module, load module, simulation algorithm model, output module, main control module connects with load module, simulation algorithm model, output module respectively, and load module, simulation algorithm model, output module connect successively. Load module is used for the input of water supply network information, the water supply network geographical information updating data that source comprises the water supply network information system database that established, water supply network SCADA system gathers in real time data, water-supply management system send. Simulation algorithm model utilizes the data of load module to set up water supply network hydraulic model. The parameter that output module is used for calculating emulation skill module calculating exports. Main control module is for controlling the forecast simulation function of whole water supply network hydraulic model.

The data center services unit of water supply network SCADA system and the output module of the online dynamic simulation system of water supply network hydraulic model respectively central processing unit with water-supply management system connect, the central processing unit of water-supply management system and the data center services unit of water supply network SCADA system respectively load module with the online dynamic simulation system of water supply network hydraulic model connect. Water supply network loss due to leakage, consumption reduction intelligent management platform will be formed together with online to water-supply management system, water supply network SCADA system and water supply network hydraulic model dynamic simulation system three system organic combinations. Utilizing this platform energy Timeliness coverage water supply network operation troubles, assessment water supply network loss due to leakage degree, searches leak source thus reduces production and marketing difference. Pipe network and pumping plant can be carried out the object that pressure optimization reaches energy-saving and cost-reducing. Utilize this platform also existing pipe network operation situation can be carried out analysis and assessment, for reconstruction enlarging from now on provides foundation, also can safeguard to provide to the ordinary maintenance of pipe network simultaneously and guide.

Claims (2)

1. the water supply network loss due to leakage based on SOA framework, consumption reduction intelligent management platform, it is characterized in that, comprise water-supply management system, water supply network SCADA system and the online dynamic simulation system of water supply network hydraulic model, water supply network SCADA system, the online dynamic simulation system of water supply network hydraulic model connects with water-supply management system respectively, the real time data that water-supply management system customization water supply network SCADA system gathers and the emulation result that the online dynamic simulation system of water supply network hydraulic model calculates, both equal Dynamic Display are on the corresponding pipeline section and node of water-supply management system, and both compare to judge the running status of water supply network, online dynamic simulation system connects with water supply network hydraulic model respectively for water-supply management system, water supply network SCADA system, water-supply management system is by water supply network geography information correction data-pushing to the online dynamic simulation system of water supply network hydraulic model, and the real time data of water supply network SCADA system collection is pushed to water supply network hydraulic model online dynamic simulation system and water supply network hydraulic model is carried out real-time online check.

2. the water supply network loss due to leakage based on SOA framework according to claim 1, consumption reduction intelligent management platform, it is characterized in that, water-supply management system comprises man-machine interaction interface, central processing unit, water supply network geography information module, central processing unit, water supply network geography information module connect with man-machine interaction interface respectively, and water supply network geography information module and central processing unit connect; Water supply network SCADA system comprises collection equipment, RTU remote control unit, communication unit, data center services unit, collection equipment and RTU remote control unit are bi-directionally connected, and RTU remote control unit is bi-directionally connected by communication unit and data center services unit; The online dynamic simulation system of water supply network hydraulic model comprises main control module, load module, simulation algorithm model, output module, main control module connects with load module, simulation algorithm model, output module respectively, and load module, simulation algorithm model, output module connect successively; The data center services unit of water supply network SCADA system and the output module of the online dynamic simulation system of water supply network hydraulic model respectively central processing unit with water-supply management system connect, the central processing unit of water-supply management system and the data center services unit of water supply network SCADA system respectively load module with the online dynamic simulation system of water supply network hydraulic model connect.