CN112465666A - Design method of intelligent water affair platform based on water circulation - Google Patents

Abstract

The invention provides a design method of an intelligent water affair platform based on water circulation, which falls into a map of water affair facilities and shows the incidence relation and the running state of the water affair facilities in a dynamic effect through a spatial information technology, and realizes the full-flow supervision of water supply and drainage on the map. The invention has the beneficial effects that: the data are concentrated on an intelligent water affair platform, the data can be rapidly and accurately acquired according to the water affair circulation state, and the multidimensional data are displayed according to the business habits of the user, so that the user can be helped to make a decision more rapidly and accurately.

Description

Design method of intelligent water affair platform based on water circulation

Technical Field

The invention relates to a water affair platform, in particular to a design method of an intelligent water affair platform based on water circulation.

Background

With the continuous acceleration of the urbanization and industrialization process in China, the problem of urban water affairs is frequent. Since IBM proposed the concept of smart earth, smart cities have been rapidly developed, and water affairs are important components of cities and rapidly popularized, and as managers of cities, government leaders at all levels pay great attention to the operation status of water affairs. With the improvement of the construction of the Internet of things equipment in the water affair industry, data can be transmitted back to the database in real time or quasi-real time, but how to realize the combination of software products and hardware acquisition data is convenient for leaders at all levels to quickly find problems and make decisions, and the method becomes the most important problem to be solved by the current intelligent water affair construction.

The spatial information technology is the technology which is indispensable to be applied in the construction process of smart cities at present, more than 80% of information on the earth is related to spatial positions, more and more cities rely on a Geographic Information System (GIS) to improve the current information monitoring capability of the cities at present, the GIS has the capability of comprehensively simulating the cities, and the data can be more visually presented by utilizing the GIS, so that the construction of the smart cities takes the GIS as a first choice. With the use of the GIS technology, the data processing capability and the display effect thereof are continuously improved, and particularly, the application of the three-dimensional GIS technology is further popularized in recent years, and an important basic supporting function is provided for the construction of smart cities.

At present, the intelligent water affair platform is more constructed aiming at services in a certain specific direction, such as flood control, waterlogging drainage, water supply management, sewage management and the like, or emphasizes a certain characteristic, such as online monitoring data compilation and display, equipment asset management, water affair facility supervision and the like, and no system can systematically integrate the social cycle process of water affairs into the platform construction.

The existing intelligent water affair platform is mostly constructed by combining and splicing multiple modules, if a user wants to comprehensively know the water affair running state of a whole area, the user needs to go deep into each module to obtain the water affair running state, the water affair running state cannot be realized on one interface, for a city manager, particularly a decision maker, the user needs to know more information to quickly and accurately make a decision, data is concentrated on one intelligent water affair platform, the data can be quickly and accurately obtained according to the water affair circulating state, and multidimensional data of the user is displayed according to the business habits of the user, so that the user can be helped to make a decision more quickly and accurately.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a design method of an intelligent water affair platform based on water circulation.

The invention provides a design method of an intelligent water affair platform based on water circulation, which falls into a map of water affair facilities and shows the incidence relation and the running state of the water affair facilities in a dynamic effect through a spatial information technology, and realizes the full-flow supervision of water supply and drainage on the map.

As a further improvement of the invention, based on a three-dimensional GIS visualization technology, the data of each link in the water affair flow is accessed and displayed in a data report form, and the operation of the water affair facilities and the water affair situation of the city are intensively embodied in one picture by combining a geographic information system and a forecast early warning function, so that the one-picture full perception of the water affair of the city is realized.

As a further improvement of the invention, the water service process comprises the following steps: in the aspect of water supply, the water is delivered from a reservoir at the source to a water supply plant and then to a booster pump station, and finally delivered to a user end through a water supply network; in the aspect of drainage, a user drains water from a source, sewage is collected through a sewage pipe network, lifted through a sewage pump station and finally enters a sewage treatment plant, and sewage purification is realized; in the aspect of water supplement, the reclaimed water flowing out of the sewage plant is pressurized and lifted to enter a water supplement system through a water supplement pump station, and is supplemented into the river through a water supplement point, so that ecological water supplement of the river is realized.

As a further improvement of the invention, the data of each link in the water affair flow comprises the following steps: basic data, monitoring data and business data.

As a further improvement of the invention, the basic data comprises basic information and operation indexes of various facilities, the monitoring data comprises details of monitoring equipment, monitoring indexes and real-time monitoring data, and the service data comprises data of inspection, maintenance and equipment replacement.

As a further improvement of the present invention, based on the three-dimensional GIS visualization technology, the following is shown:

1) reservoir: displaying the running condition of the reservoir to ensure the safe running of the reservoir;

2) reservoir water supply: displaying service water plants of the water supply reservoir and water quantity and water quality monitoring conditions in the water taking process;

3) water supply plant: the operation conditions of the water plant comprise water supply quantity, water quality and water supply pressure;

4) partition water use condition: displaying the water consumption structure of each subarea;

5) draining: displaying the statistical analysis condition of the drainage households of each subarea;

6) a sewage pump station: showing the pumping capacity of a sewage pump station, and focusing on the operation condition of the pump station with higher load;

7) a drainage pipe network: showing the water level condition of a drainage pipe network, and focusing on overflow;

8) water purification plant: displaying the operation load of the water quality purification plant and the standard-reaching condition of the effluent water quality;

9) and (3) a water replenishing pump station: displaying the running load condition of the water replenishing pump station;

10) water replenishing: displaying the distribution of the water replenishing port and the river affiliation;

11) river water level: showing the water level of the urban river channel, and focusing on the river with the over-warning water level.

The invention has the beneficial effects that: based on a three-dimensional GIS visualization technology, based on social water circulation, the data are collected and organized through front-end data acquired by sensing equipment, and the flow of the water supply data from the source to water supply links of thousands of households, then sewage links from the thousands of households to sewage plants and ecological water replenishing links from the water plants to riverways is connected in series according to the urban water management characteristics of areas, so that the combination of the water circulation and a smart water service platform is realized, the data are concentrated on the smart water service platform, the data can be quickly and accurately acquired according to the water circulation state, the multidimensional data are displayed according to the business habits of users, and the users can be helped to make decisions quickly and accurately.

Drawings

FIG. 1 is a water flow diagram of a design method of an intelligent water platform based on water circulation according to the present invention.

Detailed Description

The invention is further described with reference to the following description and embodiments in conjunction with the accompanying drawings.

As shown in fig. 1, a design method of an intelligent water affair platform based on water circulation is to fall a water affair facility on a map and show the association relationship and the operation state of the water affair facility with a dynamic effect through a spatial information technology, so as to realize the full-flow supervision of water supply and drainage on the map. In the aspect of water supply, from the reservoir of source to the water works, go to booster pump station again, finally carry thousands of families through the water supply network, in the aspect of the drainage, from the source drainage household, arrange sewage through the sewage pipe network and collect, promote through the sewage pump station, finally get into sewage treatment plant, realize sewage purification, in the aspect of the moisturizing, with the recycled water of sewage works outflow, promote through the pressurization of water supply pump station and get into water supply system, and fill into the river through the moisturizing point, realize the ecological moisturizing of river. By the important data access and data report display of each link in the process, the operation of the water utilities and the water utilities situation of the city are intensively embodied in one graph by combining a geographic information system and a forecast early warning function, and the one-graph full perception of the water utilities of the city is realized.

The embodiment is based on a three-dimensional GIS visualization technology, social water circulation is used as a basis, data are collected and organized through front-end data collected by sensing equipment, and the combination of regional urban water management characteristics is realized by connecting water supply data from a source to water supply links of thousands of households, then connecting sewage links from the thousands of households to sewage plants and flows from the water plants to ecological water replenishing links of riverways in series, so that the combination of the water circulation and a smart water supply platform is realized.

The implementation idea and the flow of the embodiment are as follows:

to achieve the technical goal, firstly, the business process is organized according to the actual business rules, as shown in fig. 1. For the urban water circulation, generally comprising two stages of water supply and water discharge, each stage comprises a plurality of nodes, wherein the water supply stage starts from a water source (namely a reservoir) and is conveyed to a water supply plant through a raw water pipe, the water supply plant pumps water of the water supply plant into a water supply network and then into thousands of households through a water supply pump station for pressurization, the water discharge stage comprises the steps of discharging sewage generated by thousands of households into a sewage network, pressurizing through the sewage pump station or flowing by gravity, flowing into a sewage treatment plant, purifying the sewage through a series of purification processes, pumping reclaimed water from factories into a water replenishing pump network through a water replenishing pump station, and entering rivers through water replenishing ports on two sides of a river channel to realize ecological water replenishment.

Data acquisition and arrangement are as follows:

according to the combed business process, data of each link needs to be combed. The data includes basic data, monitoring data and business data. The basic data comprises basic information and operation indexes of various facilities such as names, addresses, longitudes and latitudes, and the like, and is similar to water supply scale of a water plant, design scale of a sewage plant and the like, the monitoring data comprises details of monitoring equipment, monitoring indexes, real-time monitoring data and the like, the monitoring equipment, the indexes and the facilities need to be matched one by one, and the service data comprises data such as inspection, maintenance, equipment replacement and the like.

The system function is designed as follows:

the system function design is designed according to the business process and is divided into 11 steps:

1. reservoir: displaying the running condition of the reservoir to ensure the safe running of the reservoir;

2. reservoir water supply: displaying service water plants of the water supply reservoir and water quantity and water quality monitoring conditions in the water taking process;

3. water supply plant: the operation conditions of the water plant comprise water supply quantity, water quality and water supply pressure;

4. partition water use condition: displaying the water consumption structure of each subarea;

5. draining: displaying the statistical analysis condition of the drainage households of each subarea;

6. a sewage pump station: showing the pumping capacity of a sewage pump station, and focusing on the operation condition of the pump station with higher load;

7. a drainage pipe network: showing the water level condition of a drainage pipe network, and focusing on overflow;

8. water purification plant: displaying the operation load of the water quality purification plant and the standard-reaching condition of the effluent water quality;

9. and (3) a water replenishing pump station: displaying the running load condition of the water replenishing pump station;

10. water replenishing: displaying the distribution of the water replenishing port and the river affiliation;

11. river water level: showing the water level of the urban river channel, and focusing on the river with the over-warning water level.

Through circulation of the 11 steps and linkage among the steps, the current situation of the water affair running state of the whole area can be intuitively obtained, and a city manager can make a quick decision conveniently.

Because the user is familiar with the water business, after the system is provided, the user can be familiar with the system quickly and can use the system, the learning cost is reduced, and the business can be analyzed quickly.

The invention provides a design method of an intelligent water affair platform based on water circulation, which has the following advantages:

1. through the business rules, the association relationship of the water service facilities can be obtained, and the association relationship can be adjusted by changing parameters. And a plurality of different business rules are configured, so that the association relation of various water utilities can be obtained.

2. Based on the correlation relationship of the water utilities, the three-dimensional GIS display of the relationship between the water utilities can be realized.

3. The real-time visualization presentation can be realized, the instant response to the data change can be realized, and the data relation and the facility running state of the first hand can be mastered at the first time.

4. The water business is deeply integrated with the system, so that professional business personnel can be familiar with the system more quickly.

The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the invention be limited to these specific details. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.

Claims (6)

1. A design method of an intelligent water affair platform based on water circulation is characterized in that: through the spatial information technology, the water utilities are laid down on the map, the association relation and the running state of the water utilities are displayed in a dynamic effect, and the full-flow supervision of water supply and drainage is realized on the map.

2. The design method of intelligent water platform based on water circulation as claimed in claim 1, wherein: based on a three-dimensional GIS visualization technology, data of each link in the water affair flow is accessed and displayed in a data report form, and the operation and water affair situation of the water affair facilities of the city are intensively reflected in one picture by combining a geographic information system and a forecast early warning function, so that the one-picture full perception of the water affair of the city is realized.

3. The design method of intelligent water platform based on water circulation as claimed in claim 2, wherein: the water affair process comprises the following steps: in the aspect of water supply, the water is delivered from a reservoir at the source to a water supply plant and then to a booster pump station, and finally delivered to a user end through a water supply network; in the aspect of drainage, a user drains water from a source, sewage is collected through a sewage pipe network, lifted through a sewage pump station and finally enters a sewage treatment plant, and sewage purification is realized; in the aspect of water supplement, the reclaimed water flowing out of the sewage plant is pressurized and lifted to enter a water supplement system through a water supplement pump station, and is supplemented into the river through a water supplement point, so that ecological water supplement of the river is realized.

4. The design method of intelligent water platform based on water circulation as claimed in claim 2, wherein: the data of each link in the water affair flow comprises the following data: basic data, monitoring data and business data.

5. The design method of intelligent water platform based on water circulation as claimed in claim 4, wherein: the basic data comprises basic information and operation indexes of various facilities, the monitoring data comprises details of monitoring equipment, monitoring indexes and real-time monitoring data, and the service data comprises data of inspection, maintenance and equipment replacement.

6. The design method of intelligent water platform based on water circulation as claimed in claim 2, wherein: based on the three-dimensional GIS visualization technology, the following shows are performed:

1) reservoir: displaying the running condition of the reservoir to ensure the safe running of the reservoir;

2) reservoir water supply: displaying service water plants of the water supply reservoir and water quantity and water quality monitoring conditions in the water taking process;

3) water supply plant: the operation conditions of the water plant comprise water supply quantity, water quality and water supply pressure;

4) partition water use condition: displaying the water consumption structure of each subarea;

5) draining: displaying the statistical analysis condition of the drainage households of each subarea;

6) a sewage pump station: showing the pumping capacity of a sewage pump station, and focusing on the operation condition of the pump station with higher load;

7) a drainage pipe network: showing the water level condition of a drainage pipe network, and focusing on overflow;

8) water purification plant: displaying the operation load of the water quality purification plant and the standard-reaching condition of the effluent water quality;

9) and (3) a water replenishing pump station: displaying the running load condition of the water replenishing pump station;

10) water replenishing: displaying the distribution of the water replenishing port and the river affiliation;

11) river water level: showing the water level of the urban river channel, and focusing on the river with the over-warning water level.

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