KR101671867B1 - Apparatus and method for analyzing fluid stream in pipe network based gis - Google Patents

Abstract

The present invention relates to a device and method for analyzing and analyzing fluid flow in a geographic information system (GIS) based piping network. The method includes downloading and storing pipe network data from a GIS integrated management server, Based on the converted data, GIS-based pipe network information is displayed together with a map on a display device, and an analysis result The present invention provides a fluid flow analysis / analysis apparatus and method in a GIS-based piping network by generating data, retrieving elevation values, and calculating an estimated gas consumption per hour.

Description

[0001] APPARATUS AND METHOD FOR ANALYZING FLUID STREAM IN PIPE NETWORK BASED GIS [0002]

The present invention relates to an apparatus and method for analyzing / analyzing a fluid flow in a GIS-based piping network. It is an invention that enables a user to easily analyze the fluid flow in a piping network based on a user interface.

Geographic Information System (GIS) information can be used to achieve geographical (Geographical, spatial, geographical), information (from information, processing, decision making) And information that can be used in terrain related fields such as roads, traffic, and communications, and maps and geographic information used in the form of past prints are stored in a computer And is a comprehensive information system designed to collect, analyze and process data based on the geographical information obtained and apply it to all fields related to the terrain.

Conventionally, there is a problem that it is difficult to directly utilize the data as the data for the fluid flow analysis in the piping network constructed by the GIS information, and to purchase and use an expensive connection (middleware) product.

In addition, the fluid flow analysis system (foreign product) for the piping network is specialized in numerical analysis. It is very inconvenient to input and edit the piping network diagram on the digital topographical map, and it can not be processed in connection with existing DBs.

In addition, foreign products lacked data retrieval, analysis and processing functions of the input pipe network.

In addition, since the process of creating and applying the basic data (piping facility information and usage information) for analysis is separated, it is impossible to operate a consistent analysis and analysis system. Therefore, it is possible to integrate the GIS DB, DB, real- Has been demanded as a system function that can integrate into an excellent GIS-based system.

It is an object of the present invention to provide a GIS pipe network data conversion device that converts GIS pipe network data into GIS pipe network data and graphical information And to provide a fluid flow analysis / analysis apparatus and method in a GIS-based piping network that can generate a data file suitable for fluid flow analysis after processing.

Another object of the present invention is to provide an apparatus and method for analyzing / analyzing a fluid flow in a GIS-based piping network that enables application of an elevation value (altitude difference) that determines the accuracy of analysis and accurate estimation of a time flow rate will be.

Another object of the present invention is to provide a fluid flow analysis / analysis apparatus in a GIS-based pipe network capable of analyzing and correcting analysis error and potential error factors of a GIS pipe network.

It is another object of the present invention to provide a fluid flow analysis / analysis apparatus in a GIS-based piping network that is easy to use and has a variety of operations and performances based on a user interface based on a user environment.

Another object of the present invention is to provide a method and system for analyzing fluid flow in a piping network based on a GIS based on a combination of a geographic information system (GIS), a remote monitoring (SCADA), and an enterprise resource management system (ERP) ), The world's first GIS-based fluid flow analysis / analysis device with GIS piping network and usage input / edit function, automatic data generation for analysis, fluid numerical calculation function, analysis result viewing / analysis / reporting / Method.

The apparatus for analyzing and analyzing fluid flow in a GIS-based pipe network according to an embodiment of the present invention includes a data storage unit for downloading pipe network data from an integrated management server for managing pipe network information and GIS (Geographic Information System) A data extracting unit for extracting data corresponding to a request of the fluid flow analysis and analysis apparatus from the pipe network data stored in the storage unit, a data converting unit for converting the extracted data into data suitable for the pipe network analysis, And based on the received data, the GIS-based pipe network information is displayed together with the map on the display unit.

Also, a fluid flow analysis and analysis method in a GIS-based pipe network of a fluid flow analysis and analysis apparatus in a GIS (Geographic Information System) -based piping network comprises: downloading and storing pipe network data from a GIS integrated management server; Converting the extracted data into data suitable for pipe network analysis, and based on the converted data, the GIS-based pipe network information is displayed on a display device together with a map The method comprising the steps of:

According to the above configuration, the fluid flow analysis / analysis apparatus in the GIS-based pipe network has the following effects.

First, it provides fast operation speed and easy user interface to provide the best utilization.

Second, version file management can maximize interpretation data utilization.

Third, there is an effect that the accuracy of the pipe network analysis is greatly improved by using the latest GIS data as analysis data, providing a formalized time flow rate calculation and a flow value correction function.

Fourth, providing various analysis results using the analysis result as graphic screen and document can help to design the pipe network for stable gas supply.

Fifth, it supports economical pipe network design by using analysis and improves safety and reduces construction cost.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram illustrating a configuration of a fluid flow analysis and analysis apparatus in a GIS-based pipe network according to an embodiment of the present invention. FIG.
2 is a block diagram illustrating a configuration of a fluid flow analysis and analysis apparatus in a GIS-based pipe network according to an embodiment of the present invention.
FIG. 3 is a conceptual diagram illustrating an operation of a fluid flow analysis and analysis apparatus in a GIS-based pipe network according to an embodiment of the present invention.
4 is a flowchart illustrating a procedure of a fluid flow analysis and analysis method in a GIS-based pipe network according to an embodiment of the present invention.
5 is a view showing a display screen of a fluid flow analysis and analysis apparatus in a GIS-based pipe network according to an embodiment of the present invention.
6 is a view showing a display screen of a fluid flow analysis and analysis apparatus in a GIS-based pipe network according to an embodiment of the present invention.

Hereinafter, various embodiments of the present invention will be described in detail with reference to the accompanying drawings. Further, the suffix "part" and "device ", for the components used in the following description are given merely for ease of description of the present invention, And can be designed in hardware or software.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram illustrating a configuration of a fluid flow analysis and analysis apparatus in a GIS-based pipe network according to an embodiment of the present invention. FIG.

The fluid flow analysis and analysis apparatus 100 in the GIS-based pipe network may include an integrated management server 110 for managing pipe network information and GIS (Geographic Information System) information. Also, the GIS information and the pipe network information can be integrated and managed by the integrated management server 110. In addition, the data to be secured is stored in the integrated management server 110, and only the necessary information is downloaded from the fluid flow analysis and analysis apparatus 100 in the GIS-based piping network and reused and used. Therefore, . The operation method and configuration of the system will be described in detail below with reference to the drawings.

2 is a block diagram illustrating a configuration of a fluid flow analysis and analysis apparatus in a GIS-based pipe network according to an embodiment of the present invention.

An apparatus 100 for analyzing and analyzing fluid flow in a GIS based pipe network includes a data storage unit 101, a data extraction unit 102, a data conversion unit 103, a control unit 104, a display unit 105 ), And a user interface unit 106.

The data storage unit 101 can download pipe network data from the integrated management server 110 and store the pipe network data.

The data extracting unit 102 may extract the pipe network data stored in the storage unit corresponding to the request of the fluid flow analysis and analysis apparatus.

The data conversion unit 103 can convert the extracted data into data that is converted into data (version file) suitable for pipe network analysis. The conversion operation will be described later in detail with reference to FIG.

Also, according to the embodiment, the control unit 104 can display the GIS-based pipe network information on the display unit 105 together with the map. Further, the map may be displayed in a graphic form at a location where piping, a valve, a regulator, etc. are installed.

According to the embodiment, the GIS piping network information is for analyzing and analyzing the fluid flow in the piping network and may include piping / valve / regulator / customer information and GIS spatial information, Based on the extracted data, it is possible to generate conversion data to display information of each object of the pipeline / valve / regulator / customer information and GIS spatial information.

Further, according to the embodiment, the data conversion unit 103 can generate analysis result data based on the extracted data, and the analysis result data can include pressure / flow rate / flow rate information in the piping network .

The data conversion unit 103 may generate conversion data for displaying pressure / flow rate / flow rate information in the piping network based on the analysis result data.

Also, according to the embodiment, the user interface unit 106 may inquire and analyze the analyzed result based on the analysis result data, and the user may additionally input / edit and update the pipe network.

Also, according to the embodiment, the control unit 104 may be configured to determine the connectivity and the dependency of the pipe / valve / regulator / customer based on the analysis result data and the updated contents by the user additionally inputting / editing the pipe network You can analyze the error.

According to the embodiment, the control unit 104 analyzes the structure and property values of the piping network based on the analysis result data and the user's additional input / editing of the piping network to update the potential error factors can do.

Further, according to the embodiment, the user interface unit may generate conversion data based on the analysis result data, and generate the result report so that the result report is displayed.

In addition, according to the embodiment, the user interface unit can perform a loop segment search / analysis for stable supply in an undersupply region distribution search and an under-supply region in connection with the GIS pipe network, based on the analysis result data.

In addition, according to the embodiment, the user interface unit searches the elevation value adjacent to the starting point and the end point of the pipeline based on the analysis result data. You can search the altitude value by maximizing the search speed with location service by adjusting the scale.

The elevation value search is performed by searching an elevation value within a radius of 5 m and finding the elevation value closest to the end point of the pipe and applying the elevation value to the pipe. If there is no elevation value within a radius of 5 m, it is repeated 15 m, 50 m, It is possible to retrieve the elevation value and generate the conversion data to display the elevation value.

According to the embodiment, the user interface unit extracts the highest sales amount from the sales amount before and after the selection month (the previous month, the selection month, and the succeeding month) based on the analysis result data, applies the factor value according to the use purpose, An estimated amount (time flow rate) may be calculated, and conversion data may be generated such that the gas consumption estimation amount per hour is displayed.

The method of calculating the estimated gas consumption per hour (time flow rate) is as follows.

Time flow rate = Monthly sales volume by application * Factor-specific factor value

Factor value calculation:

1) Total number of notices by usage in the database, monthly sales volume by usage

2) In the database, select the best day of the month sales,

3) Enter the number of days of use per application (average number of days of use per month)

4) Input usage time by usage (average usage time)

5) Average daily sales by application = Monthly sales by application / Number of days used by application

6) Peak rate per use = daily sales volume / average daily sales volume by usage

7) Daily sales by usage = Average daily sales by application * Daily peak rate by usage

8) Average time flow by usage = Daily sales by application / Time of use by application

9) Peak amount per use = Average time flow by application / (Average time flow by application * Sum of daily peak)

10) Usage factor value by application = One peak amount per application / Monthly sales volume by application

11) Average flow rate by application = Daily peak amount per application / Average daily sales volume by application

FIG. 3 is a conceptual diagram illustrating an operation of a fluid flow analysis and analysis apparatus in a GIS-based pipe network according to an embodiment of the present invention.

According to the embodiment, the pipe network information and the GIS information integrated management server may include graphic data, attribute data, and index data for pipe network information and GIS information.

The graphic data is data for transmitting pipe network information and GIS information to a user via a GUI (Graphic User Interface). For example, as described above, when the map is to be graphically displayed at a location where piping, a valve, a pressure regulator, and the like are installed, the map may include data on a display method of the object.

The attribute data may include data relating to attributes of the pipe network information and the GIS information. For example, as described above, since the pipe network information and the GIS information can be installation information of the pipe / valve / regulator / customer, the regular attribute data can store property information of the stored pipe network and GIS information have.

Also, pipe network information and GIS information can be retrieved through the index data. The index number or index identifier may be set by the user. In addition, the graphic data, attribute data, and index data are GIS source data, which can be browsed only by the GIS information manager, and may not be provided to the general user.

The data storing unit 101, the data extracting unit 102, and the data converting unit 103 are configured to perform data downloading, data extraction, pipe network information and spatial information analysis, Information verification, and data conversion can be performed to generate pipe network analysis data (version file) suitable for pipe network analysis.

Data extraction is performed by extracting and extracting information for use in the fluid flow analysis and analysis apparatus in the GIS-based piping network. The extracted information may include facilities, that is, information of each object of the pipe / valve / regulator / receptacle and spatial information of the GIS, and such information may be analyzed as pipe network information and spatial information. Also, the piping network information and spatial information analysis classify which information included in the extracted data is which information.

Based on the connectivity and ownership of the analyzed pipe network information and spatial information, the analysis of the potential error factors is based on a comprehensive analysis of the structure and property values of the pipe network to analyze pipe network information and spatial information integrity test The verified pipe network information and the spatial information can be converted into pipe network analysis data (version file) through the data conversion unit 103. [ In addition, when the user views and analyzes the analyzed result through the user interface unit 106 and the user further inputs / edits the pipe network, the analysis result data can be updated after the pipe network information and the spatial information integrity check.

4 is a flowchart illustrating a procedure of a fluid flow analysis and analysis method in a GIS-based pipe network according to an embodiment of the present invention.

According to an embodiment, a fluid flow analysis and analysis method in a GIS-based pipe network of a fluid flow analysis and analysis apparatus in a GIS (Geographic Information System) -based piping network can be performed through the procedure as shown in the figure.

First, the pipe network data is downloaded from the GIS integrated management server and stored (S101).

In addition, data corresponding to the request of the fluid flow analysis and analysis apparatus is extracted from the stored pipe network data (S102).

That is, instead of using all the downloaded data, only necessary data can be extracted and converted according to the request of the fluid flow analysis and analysis apparatus in the GIS-based pipe network.

Further, the extracted data is converted into data suitable for pipe network analysis (S103).

According to an embodiment, the transformation can be performed by a data conversion unit of a fluid flow analysis and analysis apparatus in a GIS-based piping network. That is, the data conversion unit can verify the data through the integrity check (S104) of the pipe network information and the spatial information of the extracted data, and generate pipe network analysis result data (S105) after data conversion.

Based on the converted data, the GIS-based pipe network information is displayed on the display device together with the map (S106).

That is, the map can be displayed in a graphical form at a location where pipes, valves, regulators, etc. are installed.

According to an embodiment, the GIS-based piping network information includes piping / valve / regulator / customer information for fluid flow analysis and analysis in the piping network, and may display information of each object of the piping / valve / regulator / .

Further, analysis result data is generated based on the extracted data, and the analysis result data includes pressure / flow rate / flow rate information in the piping network and can be displayed on a display device.

Further, based on the analysis result data, the analyzed result is inquired and analyzed, and the user can additionally input / edit and update the pipe network.

According to an embodiment, analysis error analysis can be performed based on the connectivity and dependencies of the pipe / valve / regulator / customer.

In addition, potential error factors can be inferred by analyzing the structure and property values of the piping network.

According to the embodiment, a result report can be generated based on the analysis result data, and displayed on the display device.

According to the embodiment, based on the analysis result data, a loop section search / analysis can be performed for stable supply to the undersupply area distribution search and the under-supply area in conjunction with the GIS pipe network.

According to the embodiment, the GIS screen scale can be adjusted according to the search range on the basis of the analysis result data, and the elevation value can be searched by the location service.

In the method of searching for the elevation value, the elevation value within a radius of 5 m is searched for and the elevation value closest to the end point of the pipe is searched for and applied to the pipe. When there is no elevation value within a radius of 5 m, 15 m, 50 m, The elevation values can be sequentially retrieved, and the elevation values can be displayed on the display device.

According to an embodiment, a gas consumption estimate per hour may be calculated based on the analysis result data, and the gas consumption estimate per hour may be displayed on a display device.

5 is a view showing a display screen of a fluid flow analysis and analysis apparatus in a GIS-based pipe network according to an embodiment of the present invention.

According to the embodiment, on the basis of the analysis result data, the connection state of the pipe / valve / regulator / customer can be displayed on the screen together with the map as shown in this figure.

6 is a view showing a display screen of a fluid flow analysis and analysis apparatus in a GIS-based pipe network according to an embodiment of the present invention.

According to the embodiment, based on the GIS-based pipe network information, that is, the connectivity and dependency of the pipe / valve / regulator / customer, analysis error analysis and the structure and property values of the pipe network are analyzed to determine the integrity error So that a screen as shown in this figure can be displayed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the present invention.

100: Analysis and analysis of fluid flow in GIS-based pipe network
110: Integrated management server for managing pipe network information and GIS (Geographic Information System) information

Claims (17)

A data storage unit for downloading and storing pipe network data from an integrated management server for managing pipe network information and GIS (Geographic Information System) information;
A display unit;
A data extracting unit for extracting pipe network data stored in the storage unit corresponding to a request of the fluid flow analysis and analysis apparatus;
A data conversion unit for generating analysis result data based on the extracted data and generating conversion data for displaying the analysis result data;
A user interface unit for searching / analyzing a loop section for stable supply in an under-supply region distribution search and an under-supply region in connection with the GIS pipe network, based on the analysis result data; And
Based on the converted data, a GIS-based pipe network information to be displayed on the display unit together with a map; To
Based on the GIS-based piping network. The method according to claim 1,
The GIS-based pipe network information includes:
Includes piping / valve / regulator / customer information for fluid flow analysis and analysis in the piping network,
Wherein the data conversion unit comprises:
Based on the extracted data, conversion data for displaying information of each object of the piping / valve / regulator / acceptance object is generated based on the extracted data. delete The method according to claim 1,
The user interface unit,
And analyzing and analyzing the analyzed result on the basis of the analysis result data so that the user can additionally input / edit the pipe network to update the pipe network. 5. The method of claim 4,
Wherein,
Based on the updated contents, analysis error analysis is performed based on the connectivity and dependency of the piping / valve / regulator / customer, and the structure and attribute values of the piping network are analyzed to further deduce potential error factors. (Analysis and Analysis of Fluid Flow in a Pipeline Based. The method according to claim 1,
The user interface unit,
Generates a result report based on the analysis result data,
And further generating conversion data to display the result report. ≪ RTI ID = 0.0 > 8. < / RTI > delete The method according to claim 1,
The user interface unit,
And an elevation value is further retrieved by the location service by adjusting the GIS screen scale according to the search range based on the analysis result data. 9. The method of claim 8,
The retrieval of the elevation value may be performed,
Search for elevation values within a radius of 5m, find the nearest elevation value to the end point of the pipe, apply it to the pipe,
If there is no elevation value within a radius of 5m, the elevation values are sequentially retrieved in the order of 15m, 50m, and 150m,
And generating conversion data to display the elevation value. ≪ RTI ID = 0.0 > 8. < / RTI > The method according to claim 1,
Wherein the user interface comprises:
Calculates a fluid consumption estimation amount per hour based on the analysis result data,
Wherein the conversion data is generated to display the fluid consumption estimate over time. A fluid flow analysis and analysis method in a GIS-based pipe network of a fluid flow analysis and analysis apparatus in a GIS (Geographic Information System) -based pipe network,
Downloading and storing the pipe network data from the GIS integrated management server;
Extracting data corresponding to a request of the fluid flow analysis and analysis apparatus from the stored pipe network data;
Generating analysis result data based on the extracted data;
Generating transformed data to display the analysis result data;
Searching and analyzing a loop section for stable supply in an undersupply region distribution search and an under-supply region in connection with the GIS pipe network based on the analysis result data; And
And displaying the GIS-based pipe network information on a display device together with the map, based on the converted data, in a GIS-based pipe network. 12. The method of claim 11,
The GIS-based pipe network information includes:
Includes piping / valve / regulator / customer information for fluid flow analysis and analysis in the piping network,
Wherein the displaying comprises:
And displaying information of each object of the pipe / valve / regulator / acceptor in the GIS-based pipe network. delete 12. The method of claim 11,
And analyzing and analyzing the analyzed result on the basis of the analysis result data to further input / edit and update the pipe network by the user so as to analyze and analyze the fluid flow in the GIS-based pipe network. 15. The method of claim 14,
Performing analysis error analysis based on the connectivity and dependency of the piping / valve / regulator / customer based on the updated contents; And
And analyzing the structure and property values of the piping network to infer the potential error factors. delete 12. The method of claim 11,
Further comprising the step of adjusting the GIS screen scale according to the search range based on the analysis result data to retrieve the elevation value with the location service, thereby providing a fluid flow analysis and analysis in the GIS based pipe network.

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