CN109145012A - Metering management method and device for natural gas storage and transportation system - Google Patents

Abstract

The invention discloses a metering management method and a metering management device for a natural gas storage and transportation system, and belongs to the technical field of natural gas pipeline storage and transportation management. Acquiring first data measured in real time by each pipe section in the natural gas storage and transportation system through a data acquisition and Supervisory Control (SCADA) system; acquiring second data which are measured, handed over and filled in each pipe section in the natural gas storage and transportation system through a pipeline production management PPS system; calculating the loss value of each pipe section according to the first data of each pipe section and the second data of each pipe section; determining the loss threshold of each pipe section according to the actual service; selecting the pipe sections with abnormal loss values from the pipe sections according to the loss values of the pipe sections and the loss threshold values of the pipe sections; and alarming the pipe section with the abnormal loss value. The invention realizes analysis and early warning of the pipe section loss value and provides support for improving the metering management level of the natural system storage and transportation pipe network.

Description

Natural gas storing and transporting system management through quantification method and apparatus

Technical field

The present invention relates to natural gas storage and transportation management technical fields, in particular to a kind of natural gas storing and transporting system management through quantification side Method and device.

Background technique

With the progress in epoch and the raising of living standards of the people, natural gas has generally been used as clean energy resource；It Right gas storing and transporting system development is rapid, and system scale becomes very huge, and natural gas storing and transporting system includes a plurality of main line, a plurality of Each main line in main line includes a plurality of branch line again, and each branch line in a plurality of branch line may include multiple pipeline sections again, and multiple pipes Each pipeline section in section includes multiple yards, and each yard in multiple yards includes multiple points of defeated nodes again.Therefore, how to advise Model and the emphasis that the management through quantification for scientifically carrying out natural gas storing and transporting system is that industry is paid close attention to.

Currently, flow collection instrument, the flow collection instrument is usually all arranged in each node that natural gas storing and transporting system includes Manual meter reading and by way of making a report on, typing PPS (pipeline production management) system is used to record the natural gas of node to the reading of table Point displacement, when it needs to be determined that business personnel is by obtaining each node PPS system when defeated damage value in natural gas storing and transporting system In record numerical value, then calculated by statistics, obtain the natural of each yard, each pipeline section, each branch line and each main line The defeated damage value of gas.

During realizing the prior art, the discovery prior art at least has the following technical problems inventor:

It is not only cumbersome in such a way that manual meter reading measures the data calculating defeated damage value of natural gas storing and transporting system pipe network, Increase Field Force's manipulation strength, and there is also human factors to lead to the incorrect status of statistical result.

Summary of the invention

In order to solve problems in the prior art, the present invention provides a kind of natural gas storing and transporting system management through quantification method and dresses It sets.Technical solution is as follows:

A kind of natural gas storing and transporting system management through quantification method, which comprises

It is acquired by data and obtains each pipeline section real time measure in natural gas storing and transporting system with control SCADA system is monitored First data；

Obtain what each pipeline section transaction measurement in the natural gas storing and transporting system was made a report on by pipeline production management PPS system Second data；

According to the second data of the first data of each pipeline section and each pipeline section, each pipeline section is calculated Defeated damage value；

According to the practical defeated damage threshold value for determining each pipeline section of business；

According to the defeated damage threshold value of the defeated damage value of each pipeline section and each pipeline section, selected from each pipeline section The pipeline section of defeated damage value exception；

It alarms the pipeline section of the defeated damage value exception.

Optionally, the method also includes:

Show query interface, the query interface includes first choice button for selecting pipeline section and for selecting the time Second select button in section；

The first object pipeline section that user is selected by the first choice button is obtained, and obtains the user and passes through institute State the first object statistics duration of the second select button selection；

The first object pipeline section, which is obtained, by the SCADA system counts the first gas in duration in the first object Prime number evidence；

The first object pipeline section, which is obtained, by the PPS system counts the second makings in duration in the first object Data；

Show the first makings data and the second makings data.

Optionally, the method also includes:

Obtain the target component that the user selects from the parameter that makings data include；

Corresponding first makings of the target component is determined from the first makings data and the second makings data Data and the second makings subdata；

Obtain the target analysis mode of user's selection；

According to the target analysis mode, the first makings subdata and the second makings subdata are divided Analysis.

Optionally, the method also includes:

Determine whether the second makings data reach default early-warning conditions；

If the second makings data reach the default early-warning conditions, alarm second data.

Optionally, the method also includes:

Show that set interface, the set interface include addition button；

It obtains user and passes through the beginning and end of the button inputted pipeline section to be added of addition；

According to the beginning and end of each pipeline section in the natural gas storing and transporting system and of the pipeline section to be added Point and terminal, update the topological structure of the natural gas storing and transporting system.

A kind of natural gas storing and transporting system management through quantification device, described device include:

First obtains module, obtains in natural gas storing and transporting system for being acquired by data with control SCADA system is monitored First data of each pipeline section real time measure；

Second obtains module, each in the natural gas storing and transporting system for being obtained by pipeline production management PPS system The second data that pipeline section transaction measurement is made a report on；

Computing module, for calculating according to the first data of each pipeline section and the second data of each pipeline section The defeated damage value of each pipeline section out；

First determining module, for according to the practical defeated damage threshold value for determining each pipeline section of business；

Selecting module, for according to the defeated damage value of each pipeline section and the defeated damage threshold value of each pipeline section, from described The pipeline section of defeated damage value exception is selected in each pipeline section；

First alarm module is alarmed for the pipeline section to the defeated damage value exception.

Optionally, described device further include:

First display module, for showing that query interface, the query interface include the first choice for selecting pipeline section Button and the second select button for selecting time interval；

Third acquisition module, the first object pipeline section selected for obtaining user by the first choice button, and It obtains the user and duration is counted by the first object that second select button selects；

4th obtains module, for obtaining the first object pipeline section in the first object by the SCADA system Count the first makings data in duration；

5th obtains module, unites for obtaining the first object pipeline section by the PPS system in the first object The second makings data in timing is long；

Second display module, for showing the first makings data and the second makings data.

Optionally, described device further include:

6th obtains module, the target component selected from the parameter that makings data include for obtaining the user；

Second determining module, for determining the target component from the first makings data and the second makings data Corresponding first makings subdata and the second makings subdata；

7th obtains module, for obtaining the target analysis mode of user's selection；

Analysis module is used for according to the target analysis mode, to the first makings subdata and second makings Subdata is analyzed.

Optionally, described device further include:

Third determining module, for determining whether the second makings data reach default early-warning conditions；

Second alarm module, if reaching the default early-warning conditions for the second makings data, to described second Data are alarmed.

Optionally, described device further include:

Third display module, for showing that set interface, the set interface include addition button；

8th obtains module, for obtaining starting point and end of the user by the button inputted pipeline section to be added of addition Point；

Update module, for according to the beginning and end of each pipeline section in the natural gas storing and transporting system and it is described to The beginning and end of the pipeline section of addition updates the topological structure of the natural gas storing and transporting system.

In embodiments of the present invention, it is adopted by the first data and PPS system of each pipeline section of comparison SCADA system acquisition Second data of each pipeline section of collection, analysis be naturally pipeline section metering with it is point defeated there are the problem of and drawback, and then realize pipeline section Defeated damage value analysis and early warning are naturally that storage and transportation pipe network measurement Management Level provides support to improve.

Detailed description of the invention

Fig. 1 is a kind of flow chart for natural gas storing and transporting system management through quantification method that the embodiment of the present invention 1 provides；

Fig. 2 is a kind of flow chart for natural gas storing and transporting system management through quantification method that the embodiment of the present invention 2 provides；

Fig. 3 is a kind of flow chart for natural gas storing and transporting system management through quantification method that the embodiment of the present invention 3 provides；

Fig. 4 is a kind of flow chart for natural gas storing and transporting system management through quantification method that the embodiment of the present invention 4 provides；

Fig. 5 is a kind of natural gas storing and transporting system management through quantification apparatus structure schematic diagram that the embodiment of the present invention 5 provides.

Specific embodiment

To make the object, technical solutions and advantages of the present invention clearer, below in conjunction with attached drawing to embodiment party of the present invention Formula is described in further detail.

Embodiment 1

The embodiment of the invention provides a kind of natural gas storing and transporting system management through quantification method, the executing subject of this method can be with For natural gas storing and transporting system management through quantification client or the terminal of installation natural gas management system client；Referring to Fig. 1, the party Method includes:

Step 101: being acquired by data and monitor that it is real that control SCADA system obtains each pipeline section in natural gas storing and transporting system The first data of Shi Jiliang.

Step 102: being obtained by pipeline production management PPS system.Each pipeline section transaction measurement in natural gas storing and transporting system The second data made a report on.

Step 103: according to the second data of the first data of each pipeline section and each pipeline section, calculating the defeated of each pipeline section Damage value.

Step 104: according to the practical defeated damage threshold value for determining each pipeline section of business.

Step 105: according to the defeated damage threshold value of the defeated damage value of each pipeline section and each pipeline section, defeated damage is selected from each pipeline section It is worth abnormal pipeline section.

Step 106: alarming the pipeline section of defeated damage value exception.

In embodiments of the present invention, it is filled out by the first data and PPS system of each pipeline section of comparison SCADA system acquisition Second data of each pipeline section of report, analysis be naturally pipeline section metering with it is point defeated there are the problem of and drawback, and then realize pipeline section Defeated damage value analysis and early warning are naturally that storage and transportation pipe network measurement Management Level provides support to improve.

Embodiment 2

The embodiment of the invention provides a kind of natural gas storing and transporting system management through quantification method, the executing subject of this method can be with For natural gas storing and transporting system management through quantification client or the terminal of installation natural gas storing and transporting system management through quantification client；At this It is illustrated so that executing subject is the terminal for installing natural gas storing and transporting system management through quantification client as an example in inventive embodiments.

Comparative analysis pipe network SCADA (Supervisory Control And is passed through with terminal in the embodiment of the present invention Data Acquisition, data acquisition with monitoring control) system acquisition natural gas storing and transporting system in each pipeline section count in real time The second data that each pipeline section transaction measurement is made a report in the first data and PPS (pipeline production management) system of amount analyze day Right gas storing and transporting system metering with it is point defeated there are the problem of and drawback, and then realize the defeated damage value analysis of entire natural gas storing and transporting system with Early warning.

Referring to fig. 2, this method comprises:

Step 201: terminal obtains the first number of each pipeline section real time measure in natural gas storing and transporting system by SCADA system According to.

Natural gas storing and transporting system includes multiple pipeline sections, is respectively provided with measurement data acquisition instrument on each pipeline section in multiple pipeline sections Table；The measurement data acquisition instrument being arranged on each pipeline section is used to measure the real time measure data of itself, and SCADA system passes through each The real time measure data for each pipeline section of measurement data acquisition instrument to collect being arranged on a pipeline section, for the ease of distinguishing, by SCADA System is known as first by the real time measure data of each pipeline section for the measurement data acquisition instrument to collect being arranged on each pipeline section Data；SCADA is by the first data transmission of each pipeline section to terminal；Terminal receives the of each pipeline section of SCADA system transmission One data, to obtain the first data of each pipeline section.Wherein, the first data of each pipeline section can be the natural of each pipe network Gas total amount.

Before this step, user needs to log in the natural gas storing and transporting system management through quantification client by terminal, at end End obtains the first data of each pipeline section by SCADA system, and therefore, terminal obtains the of each pipeline section by SCADA system Before one data, it is thus necessary to determine that whether the user for logging in natural gas storing and transporting system metering associated client end has the defeated damage value of pipeline section Permission is analyzed, if so, thening follow the steps 201；If it is not, prompt user analyzes permission without the defeated damage value of pipeline section.

Wherein it is determined that whether the user has the step of pipeline section defeated damage value analysis permission can be with are as follows:

Terminal is sent out by natural gas storing and transporting system management through quantification client to natural gas storing and transporting system quantification server Inquiry request is sent, which carries the user identifier of the user；Natural gas storing and transporting system quantification server receives eventually The inquiry request sent is held, and determines whether in the defeated damage value analysis permissions list of pipeline section include the user identifier, the defeated damage of the pipeline section Value analysis permissions list is used to store the user identifier with the defeated damage value analysis permission of pipeline section；If the defeated damage value analysis power of the pipeline section Limiting includes the user identifier in list, determines that the user has the defeated damage value analysis permission of pipeline section, sends the first inquiry to terminal and ring It answers；If not including the user identifier in the defeated damage value analysis permissions list of the pipeline section, determine that the user does not have the defeated damage value of pipeline section Permission is analyzed, sends the second inquiry response to terminal.Terminal receives that natural gas storing and transporting system quantification server is sent One inquiry response or the second inquiry response；Terminal determines that the user has the defeated damage value analysis of pipeline section according to the first inquiry response Permission determines that the user does not have the defeated damage value analysis permission of pipeline section according to the second inquiry response.

Wherein, which can be the user account that user registers in natural gas storing and transporting system quantification server Deng.

Step 202: terminal by PPS system obtain natural gas storing and transporting system in each pipeline section transaction measurement make a report on second Data.

Second data of each pipeline section can be the natural gas total amount of each pipeline section.

Step 203: terminal calculates each pipeline section according to the first data of each pipeline section and the second data of each pipeline section Defeated damage value.

For each pipeline section, terminal calculates the first data of the pipeline section and the data difference of the second data, which is made For the defeated damage value of the pipeline section.For each pipeline section, all calculate in this way, to calculate the defeated damage value of each pipeline section.

Step 204: terminal is according to the practical defeated damage threshold value for determining each pipeline section of business.

The defeated damage threshold value of each pipeline section is stored in natural gas storing and transporting system management through quantification client, then in this step, eventually End is according to the practical defeated damage threshold value for obtaining stored each pipeline section of business.

Step 205: terminal is selected from each pipeline section according to the defeated damage value of each pipeline section and the defeated damage threshold value of each pipeline section The pipeline section of defeated damage value exception.

For each pipeline section, terminal determines whether the defeated damage value of the pipeline section is greater than the defeated damage threshold value of the pipeline section；If the pipe The defeated damage value of section is greater than the defeated damage threshold value of the pipeline section, determines that the defeated damage value of the pipeline section is abnormal；If the defeated damage value of the pipeline section is not more than The defeated damage threshold value of the pipeline section determines that the defeated damage value of the pipeline section is normal.Therefore, this step can be with are as follows:

Terminal selects the defeated of pipeline section according to the defeated damage value of each pipeline section and the defeated damage threshold value of each pipeline section from each pipeline section Damage value is greater than the pipeline section of defeated damage threshold value.

Step 206: terminal alarms to the pipeline section of the defeated damage value exception.

Terminal obtains type of alarm, and is alarmed by pipeline section of the type of alarm to defeated damage value exception.

Terminal obtain type of alarm, and by pipeline section of the type of alarm to defeated damage value exception alarm can by with Lower first way or the second way are realized, for the first implementation, terminal obtains type of alarm, and passes through the report The step of police's formula alarms to the pipeline section of defeated damage value exception can be with are as follows:

Terminal obtains preset type of alarm, is reported by pipeline section of the preset type of alarm to defeated damage value exception It is alert.

The preset type of alarm can be to send the first prompt information to default email address or presetting number of cell phone, First prompt information includes the mark of the pipeline section of the defeated damage value exception；The preset type of alarm can also mention for display second Show information, which includes the mark of the pipeline section of the defeated damage value exception；The preset type of alarm can also be to broadcast Prompt tone is put, which includes the mark of the pipeline section of the defeated damage value exception.

For second of implementation, terminal obtains type of alarm, and by the type of alarm to the pipe of defeated damage value exception The step of Duan Jinhang alarms can be with are as follows:

Terminal obtains the intensity of anomaly of the pipeline section of the defeated damage value exception, selects the corresponding type of alarm of the intensity of anomaly, leads to The corresponding type of alarm of the intensity of anomaly is crossed to alarm to the pipeline section of the defeated damage value exception.

Terminal obtains the step of intensity of anomaly of the pipeline section of the defeated damage value exception can be with are as follows:

Terminal calculates the difference between the defeated damage value of the pipeline section and the defeated damage threshold value of the pipeline section, according to the difference, from difference The intensity of anomaly of the pipeline section is obtained in the corresponding relationship of range and intensity of anomaly.

Intensity of anomaly can be divided into yellow, red and black three grades；Yellow grade indicates that the defeated damage value of the pipeline section is slightly more than this The defeated damage threshold value of pipeline section；Red grade indicates that the defeated damage value of the pipeline section is seriously more than the defeated damage threshold value of the pipeline section；Black grade indicates should The defeated damage value of pipeline section is extremely abnormal.

In embodiments of the present invention, it is adopted by the first data and PPS system of each pipeline section of comparison SCADA system acquisition Second data of each pipeline section of collection, analysis be naturally the metering of storage and transportation pipe network with it is point defeated there are the problem of and drawback, and then realize The entire defeated damage value of pipe network is analyzed and early warning, is naturally that storage and transportation pipe network measurement Management Level provides support to improve.

Embodiment 3

The embodiment of the invention provides a kind of natural gas storing and transporting system management through quantification method, the executing subject of this method can be with For natural gas storing and transporting system management through quantification client or the terminal of installation natural gas management system client；Implement in the present invention It is illustrated so that executing subject is the terminal for installing natural gas storing and transporting system management through quantification client as an example in example.

Terminal realizes makings trace analysis by natural gas storing and transporting system in the embodiment of the present invention, referring to Fig. 3, this method packet It includes:

Step 301: terminal shows query interface, which includes the first choice button and use for selecting pipe network In the second select button of selection time interval.

User logs in natural gas storing and transporting system management through quantification client, natural gas storing and transporting system management through quantification visitor by terminal Family end shows that main interface, the main interface include inquiry button, and the inquiry button is for triggering display query interface.When user wants When terminal shows query interface, user can click the inquiry button and show query interface with triggering terminal, and therefore, this step can With are as follows:

The terminal real-time detection inquiry button, when detecting that the inquiry button in main interface is triggered, display inquiry circle Face includes first choice button and the second select button in the query interface, and first choice button is for selecting pipeline section, the second choosing Button is selected for selecting time interval.

When user wants to inquire the makings data of some pipeline section, user can click first choice button to select first Target pipeline section clicks the second select button to select time interval, executes step 302.

Step 302: terminal obtains the first object pipeline section that user is selected by first choice button, and obtains user and lead to Cross the first object statistics duration of the second select button selection.

When detecting that first choice button is triggered, the pipeline section mark of each pipeline section is shown, user can be from each pipeline section Pipeline section mark in select pipeline section；Terminal obtains the first object pipeline section that user selects from each pipeline section；Detect the second choosing When selecting button and being triggered, multiple time intervals are shown, when obtaining the first object statistics that user selects from multiple time intervals It is long.

The pipeline section mark of pipeline section can be title, number or the region etc. of pipeline section.First object counts duration can be with For one day, one month, half a year or 1 year etc..

Step 303: terminal obtains first object pipeline section by SCADA system and counts the first gas in duration in first object Prime number evidence.

First makings data include air inflow, pin tolerance and pipe storage etc..This step can be by following steps (1) extremely (3) it realizes, comprising:

(1): terminal passes through natural gas storing and transporting system management through quantification client to natural gas storing and transporting system management through quantification service Device sends the first acquisition request, which carries the system banner of the SCADA system, first object pipeline section and first Object statistics duration.

The system banner of the SCADA system can be the title of the SCADA system.

(2): natural gas storing and transporting system quantification server receive terminal send the first acquisition request, according to this first Acquisition request obtains first makings data of the first object pipeline section of SCADA system acquisition in first object statistics duration, and The first makings data are sent to terminal.

Natural gas storing and transporting system quantification server receives the first acquisition request that terminal is sent, and asks from first acquisition The middle system banner for obtaining the SCADA system, first object pipeline section and first object statistics duration are asked, according to the SCADA system System banner, first object pipeline section and first object count duration, the first object pipeline section for counting SCADA system acquisition exists First object counts the first makings data in duration, sends the first makings data to terminal.

(3): terminal receives the first makings data that natural gas storing and transporting system quantification server is sent.

Step 304: terminal obtains first object pipeline section by PPS system and counts the second makings in duration in first object Data.

Second makings data include air inflow, pin tolerance and pipe storage etc..

This step can be realized by following steps (1) to (3), comprising:

(1): terminal passes through natural gas storing and transporting system management through quantification client to natural gas storing and transporting system management through quantification service Device sends the second acquisition request, which carries the system banner of the PPS system, first object pipeline section and the first mesh Mark statistics duration.

The system banner of the PPS system can be the title of the PPS system.

(2): natural gas storing and transporting system quantification server receive terminal send the second acquisition request, according to this second Acquisition request, second makings data of the first object pipeline section of acquisition PPS system acquisition in first object statistics duration, and to Terminal sends the second makings data.

Natural gas storing and transporting system quantification server receives the second acquisition request that terminal is sent, and asks from second acquisition The middle system banner for obtaining the PPS system, first object pipeline section and first object statistics duration are asked, the PPS system acquisition is counted First object pipeline section first object statistics duration in the second makings data, to terminal send the second makings data.

(3): terminal receives the second makings data that natural gas storing and transporting system quantification server is sent.

It should be noted that step 303 and step 304 have no chronological order, can be first carried out by serial process Step 303, then step 304 is executed；Step 304 can also be first carried out by serial process, then execute step 303；It can also lead to It crosses concurrent process and is performed simultaneously step 303 and step 304.

Step 305: terminal shows the first makings data and the second makings data.

For the ease of checking, in this step, terminal can show the first makings data in a manner of table or figure With the second makings data.

For the ease of user's comparison, when terminal graphically shows the first makings data and the second makings data, eventually Holding can show the air inflow that the first makings data include and the air inflow that the second makings data include in a figure, and It is distinguished with different colours；Terminal shows the pin tolerance that the pin tolerance that the first makings data include and the second makings data include Show in a figure, and is distinguished with different colours；The pipe storage and the second makings data for including by the first makings data Including pipe storage be shown in a figure, and distinguished with different colours.

Further, terminal shows that third select button and the 4th select button, third select button are used for selection parameter, 4th select button is used for selection analysis mode.

When user needs to analyze the makings analysis parameter in the SCADA system and the PPS system, user can be with Step 306 is executed by the 4th select button selection target analysis mode by third select button selection target parameter.

Step 306: terminal obtains the target component that user selects from the parameter that makings data include.

When terminal detects that third select button is triggered, the display makings data parameters that include, user can be from Target component to be analyzed is selected in parameters, and clicks target component；Terminal obtains what user selected from parameters Target component.

The parameter that makings data include can be CH₄(methane), C₂H₆(ethane), C₃H₈(propane), i-C₄H₁₀(iso-butane), n-C₄H₁₀(normal butane), i-C₅H₁₂(isopentane), n-C₅H₁₂(pentane), C₆₊(carbon atom number is greater than 6 hydro carbons), N₂(nitrogen Gas), CO₂(carbon dioxide), H₂S (hydrogen sulfide), sulfur content, water dew point, hydrocarbon dew point, absolute density, high calorific power, low level hair Heat etc..

Step 307: terminal determines corresponding first makings of target component from the first makings data and the second makings data Data and the second makings subdata.

Terminal determines the corresponding first makings subdata of target component according to target component from the first makings data, from The corresponding second makings subdata of target component is determined in second makings data.

Step 308: terminal obtains the target analysis mode of user's selection.

User can click the 4th select button with selection target analysis mode；The 4th select button of terminal real-time detection； When terminal detects that the 4th select button is triggered, terminal shows multiple analysis modes, and user can be from multiple analysis modes Middle selection target analysis mode, and click target analysis mode；Terminal obtains the target that user selects from multiple analysis modes Analysis mode executes step 309.

Multiple analysis modes can be contrast difference, detailed comparisons and EQUILIBRIUM CALCULATION FOR PROCESS etc..

Step 309: terminal divides the first makings subdata and the second makings subdata according to the target analysis mode Analysis.

When target analysis mode is contrast difference, this step can be with are as follows:

Terminal determines the first makings subdata and the second makings according to the first makings subdata and the second makings subdata The difference value of data shows the difference value.

When target analysis mode is detailed comparisons, this step can be with are as follows:

Terminal shows the first makings subdata and the second makings subdata.

, may be inaccurate since the second makings data are made a report on by the transaction measurement of PPS service system, therefore, After terminal executes the step 309, it can determine whether the second makings data reach default early-warning conditions by step 310.

Step 310: terminal determines whether the second makings data reach default early-warning conditions.

If the second makings data reach default early-warning conditions, step 311 is executed；If the second makings data do not reach Default early-warning conditions, terminate.

Before this step, user can also configure default early-warning conditions, and different users can configure it is different Default early-warning conditions, then in this step, terminal obtains the default early warning item of the user configuration according to the user identifier of the user Part, determines whether the second makings data reach the default early-warning conditions of the user configuration.If the second makings data reach the use The default early-warning conditions of family configuration, execute step 311；If the second makings data do not reach the default early warning of the user configuration Condition terminates.

Default early-warning conditions, which can according to need, to be configured and changes, in embodiments of the present invention, to default early warning item Part is not especially limited；For example, default early-warning conditions can be more than for the parameter value for some parameter that the second makings data include The parameter threshold of the parameter；Default early-warning conditions can also include the parameter that parameter value is more than parameter threshold for the second makings data Quantity reach preset quantity.

Preset quantity, which can according to need, to be configured and changes, and in embodiments of the present invention, does not make to have to preset quantity Body limits；For example, preset quantity can be 2 or 3 etc..

Step 311: if the second makings data reach default early-warning conditions, terminal alarms to the second data.

The corresponding type of alarm of target component is obtained in this step, is somebody's turn to do by the type of alarm to what the second data included Target component is alarmed.

The embodiment of the present invention provides the lasting of a variety of type of alarms such as short message, system alert or reminds in real time, and user Type of alarm can be configured.

The type of alarm of system alert can realize that user logs in natural gas storing and transporting system gauge line to be arranged by system After managing client, prompted in the pop-up of the main interface lower right corner, pop-up terminates when accepting or rejecting task.

The type of alarm that short message is reminded can pass through oneself input handset number to send message to user in the form of short message Code sends warning message to related personnel by the phone number in the automatic personal information of system.

In embodiments of the present invention, user can also look at the history short message oneself being transmitted across.

In embodiments of the present invention, it is adopted by the first data and PPS system of each pipeline section of comparison SCADA system acquisition Second data of each pipeline section of collection, analysis be naturally pipe network metering with it is point defeated there are the problem of and drawback, and then realize entire The defeated damage value analysis of pipe network and early warning, are naturally that storage and transportation pipe network measurement Management Level provides support to improve.

Embodiment 4

The embodiment of the invention provides a kind of natural gas storing and transporting system management through quantification method, the executing subject of this method can be with For natural gas storing and transporting system management through quantification client or the terminal of installation natural gas management system client；Implement in the present invention It is illustrated so that executing subject is the terminal for installing natural gas storing and transporting system management through quantification client as an example in example.

Pipeline section is added by natural gas storing and transporting system in the embodiment of the present invention, referring to fig. 4, this method comprises:

Step 401: terminal shows that set interface, the set interface include addition button.

User logs in natural gas storing and transporting system management through quantification client, natural gas storing and transporting system management through quantification visitor by terminal Family end shows that main interface, the main interface include setting button, and the setting button is for triggering display set interface.Then this step can With are as follows:

Terminal real-time detection adds button, when terminal detects that the setting button in main interface is triggered, display setting Interface, the set interface include at least addition button, and the addition button is for adding pipeline section in current natural gas storing and transporting system.

The set interface further include include delete button and/or modification button；Delete button is for deleting current natural gas Some pipeline section in storing and transporting system, modification button are used to modify starting point and the end of some pipe network in current natural gas storing and transporting system Point.

Step 402: terminal obtains user by adding the button inputted beginning and end for adding pipe network.

When detecting that addition button is triggered, the first input frame and the second input frame are shown, the first input frame is for inputting The starting point of pipeline section to be added, the second input frame are used to input the terminal of pipeline section to be added；User can be defeated in the first input frame The starting point for entering pipeline section to be added inputs the terminal of pipeline section to be added in the second input frame.Terminal obtains user in the first input frame The starting point of the pipeline section to be added of input obtains the terminal for the pipeline section to be added that user inputs in the second input frame.

Further, when terminal detects that delete button is triggered, each pipeline section that natural gas storing and transporting system includes is shown Pipeline section mark, user can from the pipeline section of each pipeline section mark in select the pipeline section of pipeline section to be deleted to identify.Terminal obtains The pipeline section mark for the pipeline section to be deleted that user selects from the pipeline section of each pipeline section mark.

Further, when terminal detects that modification button is triggered, each pipeline section that natural gas storing and transporting system includes is shown Pipeline section mark, user can from the pipeline section of each pipeline section mark in select the pipeline section of pipeline section to be modified to identify.Terminal obtains The pipeline section mark for the pipeline section to be modified that user selects from the pipeline section of each pipeline section mark, obtains the pipeline section of the selection of input Identify the starting point and/or terminal of corresponding pipeline section.The starting point that the pipeline section of the selection identifies corresponding pipeline section is revised as using by terminal Family starting point currently entered, and/or, it is currently entered that the terminal that the pipeline section of the selection identifies corresponding pipeline section is revised as user Terminal.

Step 403: terminal is according to the beginning and end of pipeline section each in natural gas storing and transporting system and pipeline section to be added Beginning and end updates the topological structure of natural gas storing and transporting system.

Terminal is according to the beginning and end of pipeline section each in natural gas storing and transporting system and starting point and the end of pipeline section to be added Point selects the child node and father node of the pipeline section to be added, and according to the child node and father node, which is added to In natural gas storing and transporting system, the topological structure of updated natural gas storing and transporting system is obtained.

Further, when detecting that delete button is triggered, terminal by the pipeline section of the selection identify corresponding pipeline section from It is deleted in the topological structure of natural gas storing and transporting system.

Further, when detecting that modification button is triggered, terminal, will in the topological structure of natural gas storing and transporting system The starting point that the pipeline section of the selection identifies corresponding pipeline section is revised as the starting point of the input, alternatively, by the pipeline section mark pair of the selection The terminal for the pipeline section answered is revised as the terminal of the input.

In embodiments of the present invention, terminal can be by natural gas storing and transporting system management through quantification client in natural gas storage and transportation System adds pipeline section, and updates the topological structure of natural gas storing and transporting system, flexibly modifies natural gas storing and transporting system to realize Topological structure.

Embodiment 5

The embodiment of the invention provides a kind of natural gas storing and transporting system management through quantification device, the device is for executing the above reality The natural gas storing and transporting system management through quantification method in a 1-4 is applied, referring to Fig. 5, which includes:

First obtains module 501, obtains natural gas storing and transporting system with control SCADA system is monitored for acquiring by data In each pipeline section real time measure the first data；

Second obtains module 502, each in the natural gas storing and transporting system for being obtained by pipeline production management PPS system The second data that a pipeline section transaction measurement is made a report on；

Computing module 503, for according to the first data of each pipeline section and the second data of each pipeline section, meter Calculate the defeated damage value of each pipeline section；

First determining module 504, for according to the practical defeated damage threshold value for determining each pipeline section of business；

Selecting module 505, for according to the defeated damage value of each pipeline section and the defeated damage threshold value of each pipeline section, from institute State the pipeline section that defeated damage value exception is selected in each pipeline section；

First alarm module 506 is alarmed for the pipeline section to the defeated damage value exception.

Optionally, described device further include:

First display module, for showing that query interface, the query interface include the first choice for selecting pipeline section Button and the second select button for selecting time interval；

Third acquisition module, the first object pipeline section selected for obtaining user by the first choice button, and It obtains the user and duration is counted by the first object that second select button selects；

4th obtains module, for obtaining the first object pipeline section in the first object by the SCADA system Count the first makings data in duration；

5th obtains module, unites for obtaining the first object pipeline section by the PPS system in the first object The second makings data in timing is long；

Second display module, for showing the first makings data and the second makings data.

Optionally, described device further include:

6th obtains module, the target component selected from the parameter that makings data include for obtaining the user；

Second determining module, for determining the target component from the first makings data and the second makings data Corresponding first makings subdata and the second makings subdata；

7th obtains module, for obtaining the target analysis mode of user's selection；

Analysis module is used for according to the target analysis mode, to the first makings subdata and second makings Subdata is analyzed.

Optionally, described device further include:

Third determining module, for determining whether the second makings data reach default early-warning conditions；

Second alarm module, if reaching the default early-warning conditions for the second makings data, to described second Data are alarmed.

Optionally, described device further include:

Third display module, for showing that set interface, the set interface include addition button；

8th obtains module, for obtaining starting point and end of the user by the button inputted pipeline section to be added of addition Point；

Update module, for according to the beginning and end of each pipeline section in the natural gas storing and transporting system and it is described to The beginning and end of the pipeline section of addition updates the topological structure of the natural gas storing and transporting system.

In embodiments of the present invention, it is adopted by the first data and PPS system of each pipeline section of comparison SCADA system acquisition Second data of each pipeline section of collection, analysis be naturally pipe network metering with it is point defeated there are the problem of and drawback, and then realize pipe network Defeated damage value analysis and early warning are naturally that storage and transportation pipe network measurement Management Level provides support to improve.

It should be understood that natural gas storing and transporting system management through quantification device provided by the above embodiment is in natural gas storage and transportation system Statistic manage when, only the example of the division of the above functional modules, in practical application, can according to need and incite somebody to action Above-mentioned function distribution is completed by different functional modules, i.e., the internal structure of device is divided into different functional modules, with complete At all or part of function described above.In addition, natural gas storing and transporting system management through quantification device provided by the above embodiment Belonging to same design with natural gas storing and transporting system management through quantification embodiment of the method, specific implementation process is detailed in embodiment of the method, Which is not described herein again.

Those of ordinary skill in the art will appreciate that realizing that all or part of the steps of above-described embodiment can pass through hardware It completes, relevant hardware can also be instructed to complete by program, the program can store in a kind of computer-readable In storage medium, storage medium mentioned above can be read-only memory, disk or CD etc..

The foregoing is merely presently preferred embodiments of the present invention, is not intended to limit the invention, it is all in spirit of the invention and Within principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of natural gas storing and transporting system management through quantification method, which is characterized in that the described method includes:

It is acquired by data and obtains first of each pipeline section real time measure in natural gas storing and transporting system with control SCADA system is monitored Data；

Each pipeline section transaction measurement is made a report in the natural gas storing and transporting system second is obtained by pipeline production management PPS system Data；

According to the second data of the first data of each pipeline section and each pipeline section, the defeated of each pipeline section is calculated Damage value；

According to the practical defeated damage threshold value for determining each pipeline section of business；

According to the defeated damage threshold value of the defeated damage value of each pipeline section and each pipeline section, defeated damage is selected from each pipeline section It is worth abnormal pipeline section；

It alarms the pipeline section of the defeated damage value exception.

2. the method according to claim 1, wherein the method also includes:

Show query interface, the query interface includes first choice button for selecting pipeline section and for selecting time interval The second select button；

Obtain the first object pipeline section that select by the first choice button of user, and the acquisition user passes through described the The first object of two select buttons selection counts duration；

The first object pipeline section, which is obtained, by the SCADA system counts the first makings number in duration in the first object According to；

The first object pipeline section, which is obtained, by the PPS system counts the second makings number in duration in the first object According to；

Show the first makings data and the second makings data.

3. according to the method described in claim 2, it is characterized in that, the method also includes:

Obtain the target component that the user selects from the parameter that makings data include；

The corresponding first makings subdata of the target component is determined from the first makings data and the second makings data With the second makings subdata；

Obtain the target analysis mode of user's selection；

According to the target analysis mode, the first makings subdata and the second makings subdata are analyzed.

4. according to the method described in claim 2, it is characterized in that, the method also includes:

Determine whether the second makings data reach default early-warning conditions；

If the second makings data reach the default early-warning conditions, alarm second data.

5. the method according to claim 1, wherein the method also includes:

Show that set interface, the set interface include addition button；

It obtains user and passes through the beginning and end of the button inputted pipeline section to be added of addition；

According to the beginning and end of each pipeline section in the natural gas storing and transporting system and the starting point of the pipeline section to be added and Terminal updates the topological structure of the natural gas storing and transporting system.

6. a kind of natural gas storing and transporting system management through quantification device, which is characterized in that described device includes:

First obtains module, each in natural gas storing and transporting system for being obtained by data acquisition with monitoring control SCADA system First data of pipeline section real time measure；

Second obtains module, for obtaining each pipeline section in the natural gas storing and transporting system by pipeline production management PPS system The second data that transaction measurement is made a report on；

Computing module, for calculating institute according to the first data of each pipeline section and the second data of each pipeline section State the defeated damage value of each pipeline section；

First determining module, for according to the practical defeated damage threshold value for determining each pipeline section of business；

Selecting module, for according to the defeated damage value of each pipeline section and the defeated damage threshold value of each pipeline section, from described each The pipeline section of defeated damage value exception is selected in pipeline section；

First alarm module is alarmed for the pipeline section to the defeated damage value exception.

7. device according to claim 6, which is characterized in that described device further include:

First display module, for showing that query interface, the query interface include the first choice button for selecting pipeline section With for selecting the second select button of time interval；

Third obtains module, the first object pipeline section selected for obtaining user by the first choice button, and obtains The user counts duration by the first object that second select button selects；

4th obtains module, counts for obtaining the first object pipeline section by the SCADA system in the first object The first makings data in duration；

5th obtains module, for obtaining the first object pipeline section when the first object counts by the PPS system The second makings data in length；

Second display module, for showing the first makings data and the second makings data.

8. device according to claim 7, which is characterized in that described device further include:

6th obtains module, the target component selected from the parameter that makings data include for obtaining the user；

Second determining module, for determining that the target component is corresponding from the first makings data and the second makings data The first makings subdata and the second makings subdata；

7th obtains module, for obtaining the target analysis mode of user's selection；

Analysis module is used for according to the target analysis mode, to the first makings subdata and the second makings subnumber According to being analyzed.

9. device according to claim 7, which is characterized in that described device further include:

Third determining module, for determining whether the second makings data reach default early-warning conditions；

Second alarm module, if reaching the default early-warning conditions for the second makings data, to second data It alarms.

10. device according to claim 6, which is characterized in that described device further include:

Third display module, for showing that set interface, the set interface include addition button；

8th obtains module, passes through the beginning and end of the button inputted pipeline section to be added of addition for obtaining user；

Update module, for according to the beginning and end of each pipeline section in the natural gas storing and transporting system and described to be added Pipeline section beginning and end, update the topological structure of the natural gas storing and transporting system.