CN106055629A - Single well information management system - Google Patents
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Abstract
The invention provides a single well information management system, and the system comprises a data resource layer which comprises a data integration module and a storage module. The data integration module is used for reading and processing the data of a single well in each life cycle from N target system databases. The storage module is used for storing the processed data of the single well in each life cycle. The system also comprises an application layer which comprises a data analysis module and a function module. The data analysis module is used for extracting the data of the single well in the life cycles for analysis according to query information, and obtaining an analysis result. The function module is used for making a report or curve according to the analysis result. The system also comprises a portal interface. The portal interface is used for displaying the report or curve made by the function module.
Description
Technical field
The invention belongs to digital oil field technical field, particularly relate to a kind of individual well information management system.
Background technology
Data, for many business of petroleum industry, are all requisite working foundations.Existing in oil field
Numerous information systeies in, major part all can use the data of other system.And each system has corresponding data model,
The most self-built still uses data with existing standard, has this system of corresponding standard support manage and use data.But
For system implementation, the data standard that system is set up might not all be implemented, though the data standard implemented, for
For a bite well being specifically designated, the most not necessarily produce data.
During the daily research and analysis of oilfield prospecting developing research worker, individual well produce as its study important
Content, before research work is carried out, needs from different system queries, downloads, arranges associated individual well data, need
Expending considerable time and effort, and the quality of data cannot ensure, this problem annoyings research and analysis personnel always, the most greatly
Individual well information research and the work efficiency dynamically analyzed is have impact in degree.
Based on this, the present invention provides a kind of individual well information management system, can efficiently, accurately realize the dynamic and static of individual well
The functional analysis of state data.
Summary of the invention
The problem existed for prior art, embodiments provides a kind of individual well information management system, is used for solving
Certainly in prior art, oilfield prospecting developing research worker, when individual well data is carried out research and analysis, needs to spend in a large number
Time and efforts look for individual well data, and the quality of data cannot be ensured, cause research and development and the low technical problem of analysis efficiency.
The present invention provides a kind of individual well information management system, and described system includes:
Data resource layer, including data integration module and memory module;Described data integration module is for from N number of target system
System data base reads the data of described each life cycle of individual well;Described memory module is used for storing each life of described individual well
The data in cycle;
Application layer, including data analysis module and functional module;Described data analysis module is for carrying according to inquiry request
The data taking described individual well life cycle are analyzed, and obtain analysis result;Described functional module is for analyzing knot according to described
Fruit carries out form or curve plotting;
Represent layer, including portal interface;Described portal interface for represent described functional module make described form or
Curve;Wherein, described N is integer.
In such scheme, the organization mechanism code of described system and organization's generation of existing described N number of goal systems
Code is mapped by data encoding, sets up identical basic data standard.
In such scheme, described portal interface includes: personalized customization module, for according to the individual demand received
From described N number of goal systems, extract data, user is paid close attention to content and carries out personalized customization and displaying;Wherein, described individual character
Change demand includes: chart shows that self-defined, regime type switches, abnormal data is line computation, online data editor and schemes connection more
Dynamic demand.
In such scheme, described data analysis module is additionally operable to: individual well life cycle described in labelling in described curve
Abnormal data.
In such scheme, the data that described data analysis module is additionally operable to different individual wells are in identical life cycle are carried out
Contrast.
In such scheme, described application layer also includes: browser module, and described browser module is described for directly accessing
Basic data in N number of goal systems, and push described basic data according to default document browsing type.
In such scheme, it is characterised in that described document browsing type includes: word document, XPS document, html document
And PDF document.
In such scheme, the data of each life cycle of described individual well include: the little number of plies of individual well basic data, individual well
According to, individual well phase data, single well measure data, individual well design data, analytical test data, dynamic monitoring data, log data,
Logging data, individual well creation data, drilling phase data, oil pumper show work diagram data, casing damaged well data and casing deformation well data.
In such scheme, described inquiry request specifically includes: individual well pound sign, individual well affiliated unit information, geologic element are believed
Breath and screening index information.
In such scheme, described screening index information specifically includes: off-time, change of production, production time and scrap
Type.
The invention provides a kind of individual well information management system, described system includes: data resource layer, including data integration
Module and memory module;Described data integration module is each for reading and process described individual well from N number of goal systems data base
The data of individual life cycle;The data of the described memory module described each life cycle of individual well after storing process;Application
Layer, including data analysis module and functional module;Described data analysis module is raw for extracting described individual well according to Query Information
The data in life cycle are analyzed, and obtain analysis result;Described functional module for according to described analysis result carry out form or
Curve plotting;Represent layer, including portal interface;Described portal interface for represent described functional module make described form or
Curve;Wherein, described N is integer;So, need each individual well information research when described oilfield prospecting developing research worker
With when analyzing, only can need to efficiently, accurately be realized the functional analysis of the dynamic and static data of each individual well by this system, subtract
Lack the workload of routine, carried out deep structure research concentrating one's energy, improve the efficiency that individual well is dynamically analyzed.
Accompanying drawing explanation
The overall structure schematic diagram of the individual well information management system that Fig. 1 provides for the embodiment of the present invention.
Detailed description of the invention
In order to when individual well information is analyzed by Oil/gas Well exploration research staff, in order to reduce collection individual well data work
Amount, promotes the efficiency to single well analysis, the invention provides a kind of individual well information management system, including: data resource layer, including
Data integration module and memory module;Described data integration module is for reading and process institute from N number of goal systems data base
State the data of each life cycle of individual well;The number of the described memory module described each life cycle of individual well after storing process
According to;Application layer, including data analysis module and functional module;Described data analysis module is described for extracting according to Query Information
The data of individual well life cycle are analyzed, and obtain analysis result;Described functional module is for carrying out according to described analysis result
Form or curve plotting;Represent layer, including portal interface;Described portal interface is for representing the described of described functional module making
Form or curve;Wherein, described N is integer.
Below by drawings and the specific embodiments, technical scheme is described in further detail.
The present embodiment provides a kind of individual well information management system, as it is shown in figure 1, described system includes: data resource layer 1,
Application layer 2 and represent layer 3;Wherein,
Described data resource layer 1 includes data integration module 4 and memory module 5;Described data integration module 4 is for from N
Individual goal systems data base reads the data of described each life cycle of individual well;Described memory module 5 is used for storing described list
The data of each life cycle of well..
Described application layer 2 includes data analysis module 6 and functional module 7;When described storage module 5 by described individual well each
After the data of life cycle store, described data analysis module 6 is for extracting described individual well Life Cycle according to inquiry request
The data of phase are analyzed, and obtain analysis result;Described functional module 7 is for carrying out form or curve according to described analysis result
Make.Wherein, described form may include that Production Decline Analysis result form, creation data analysis result form, measure effect
Trace analysis result form etc..
The described layer 3 that represents includes portal interface 8;Described portal interface 8 is for representing the described of described functional module 7 making
Form and curve;Wherein, described N is integer, and described curve is individual well Life cycle curve.
Specifically, described goal systems data base includes: individual well basic database, individual well layer data storehouse, individual well stage
Data base, single well measure data base, individual well design database, analytical test data base, dynamic monitoring data storehouse, log data
Storehouse, logging data storehouse, individual well Production database, drilling phase data base, oil pumper show work chart database, casing damaged well data base and
Casing deformation well data base.The data of each life cycle of described individual well include: individual well basic data, individual well layer data, individual well
Phase data, single well measure data, individual well design data, analytical test data, dynamic monitoring data, log data, well logging number
According to, individual well creation data, drilling phase data, oil pumper show work diagram data, casing damaged well data and casing deformation well data.
Here, in order to the data standard of each goal systems data base is unified, by the organization of described system
Code is mapped by data encoding with the organization mechanism code of existing described N number of goal systems, sets up identical basic data
Standard.Wherein, owing to there is office department and research unit etc. in actual organization, and all of individual well ownership is
Concrete production division, therefore to ensure the normal use of user at different levels, as the personnel that user is non-specific production division,
Unified it be organized into mechanism and be mapped as Oilfield Company, it is ensured that associated user is it can be seen that all of individual well information.
After described system receives inquiry request, described inquiry request is sent to described data analysis module 6, described
Data analysis module 6 extracts the data of the life cycle of corresponding individual well according to inquiry request, utilizes statistical and analytical tool to data
It is analyzed, and obtains analysis result.Wherein, described inquiry request specifically includes: the pound sign of each individual well, individual well affiliated unit
Information, geologic element information and screening index information.Described screening index information specifically includes: off-time, change of production, throwing
Product time and scrap type.Described statistical and analytical tool specifically include that form phase analysis contrast instrument, curve demonstration tool,
Multi-dimensional data analytical tool based on data base etc..
Here, abnormal data, during the data analyzing individual well life cycle, is also entered by described data analysis module 6
Row pretreatment, and the abnormal data of individual well life cycle described in labelling on the Life cycle curve of individual well.Such as, certain is being processed
In the data of individual well, detect that water-retention value exceedes default standard aqueous value, aqueous Trendline has marked special symbol also
And there is after mouse focus abnormal prompt information.
Further, the data that described data analysis module 6 is additionally operable to different individual wells are in identical life cycle are carried out
Contrast.Such as, when user thinks to contrast the data of the drilling phase of two mouthfuls of individual wells simultaneously, send corresponding two mouthfuls of wells to described system
Individual well pound sign, and life cycle is set to drilling phase, then two mouthfuls of wells are then in drilling phase by data analysis module 6
Data all extract, and be analyzed, obtain the first analysis result and the second analysis result, described functional module 7 then root
List or the Life cycle curve of drilling phase is made, to the first analysis result according to the first analysis result and the second analysis result
And second analysis result contrast.The Life cycle curve of list or drilling phase is then pushed to use by described portal interface 8
Family, analyzes for directly perceived.
Here, described application layer 2 also includes browser module 9, and described browser module 9 is described N number of for directly accessing
Basic data in goal systems, and push described basic data according to default document browsing type.Wherein, described document is clear
Type of looking at includes: word document, XPS document, html document and PDF document.
Such as, when user wants the clastic rock thin section identification basic data consulting certain mouthful of target individual well, directly can be by browsing
Device module 9 inputs pound sign and clastic rock thin section identification basic data, the Ji Ke of target individual well in the browser that system is built-in
Line browses.
Here, described application layer 2 also provides for event information mark, User Defined mark, suggestion feedback, Yong Huhang
For analysis, experts database and knowledge base function.Specifically, such as, user can search this single well facies according to individual well unique identifier
The major issues such as the perforation of pass, overhaul, pressure break, are marked displaying by this information on individual well Life cycle curve;And user exists
During browsing, using this individual well Life cycle curve, according to the understanding and cognition of user, need reference point is labeled with
Standby follow-up after or share to other users, user can on curve click right, be selected from definition mark, carry out individual's understanding
Mark with thinking;Further, system, during using this system, is had complaints or has idea, Ke Yizhi by user
Tapping into into System Discussion region, carry out related opinions and make a report on, this message will be transmitted directly to relevant persons in charge.Use user
During this system, all operations of this system there is record, such as: the pound sign of access, the systemic-function etc. of use.And
Expert and knowledge base function then refer to the suggestion having had uniformity in art technology to some problem, and this system is then by this
Suggestion is included to expert and knowledge base, so that user can provide professional suggestion.
Further, described portal interface 8 includes: single-sign-on module 10, personalized customization module 11 and bulletin module
12;Wherein, described single-sign-on module 10 is for realizing unifying existing N number of goal systems by Single Sign-On Technology Used
Certification.Specifically, because of this system in the course of the work, need the content of frequent invocation target system, goal systems need to
The information at family adds their confirmation, can guarantee that offer corresponding function service;Here, Single Sign-On Technology Used be by goal systems according to
Need mutual data and the interactive mode of this system with described goal systems are defined by SOA standard.Wherein, described data
Including: data type, data form and data content;Described data type includes: fundamental type and complicated type;Described logarithm
Being defined including according to form: refer at internal memory, the data of the various data types on file or line define how that arrangement is deposited,
Specifically how the data of complicated type are deposited;Described data content is generally divided into technology and two levels of business.Technology
The content of aspect is usually data message header mutual between service and the external world;The content of service layer is exactly datagram
Stylistic information.
Further, described interactive mode includes: interactive interfacing mode, request-reply data content, with/without state interface
Call;Synchronous/asynchronous mode interface interchange, interface interchange specification and communication mode and communication protocol;Wherein, described interactive interfacing
Mode includes: (i.e. goal systems first sends a data as request to this system to request-reply mode, and this system is to target system
System return another data as response) and push mode (goal systems first sends data to this system, does not has reverse number
According to).
Request-reply data content is particularly as follows: request i.e. inputs the content-defined of data, and response i.e. exports the content of data
Definition;Output includes normal and abnormal output.
Call with/without state interface: interface interchange is to have state interface, or stateless interface.Use same input
Repeatedly call same interface, export invariably stateless interface, be otherwise to have state interface.
Synchronous/asynchronous mode interface interchange: for goal systems, the method for synchronization refers to call a service interface
Obtain result;Asynchronous system is called and can be subdivided into two kinds of implementations: an interface of (1) this system elder generation invocation target system,
Another interface recalling goal systems after some time obtains the result data of previous interface interchange;(2) this system is first
One interface of invocation target system, after having performed process, the interface that calling this system provides issues this result data
System.
Interface interchange specification specifically includes session (Session) mechanism of interface interchange, and calling between multiple interfaces is suitable
Sequence and rule.Including the calling rule between multiple interfaces of same service, calling between multiple interfaces of multiple services
Rule.
Communication mode and communication protocol specifically refer to this system and service the most on one node, and service interface is remotely to connect
Mouthful, need to realize calling based on certain communication mode and communication protocol.
Described personalized customization module 11 is for extracting from described N number of goal systems according to the individual demand received
Data, pay close attention to content and carry out personalized customization and displaying user;Wherein, described individual demand includes: index display content
Switch, chart shows that self-defined, regime type switches, abnormal data is in line computation, online data editor and many figures linkage demand.
Specifically, for index display content switch, because system is to curve acquiescence display bag in individual well life cycle
Include the data target such as a day oil-producing, daily output water, day water filling, mains pressure, oil pressure, casing pressure, gas-oil ratio, aqueous, producing days, but
Display space is the most limited in a browser, and user is when being analyzed individual well life cycle, in order to enable to select freely
Main information resources are analyzed, and system is patterned design to each data target item, and provides visualization switch, can
Unrestricted choice related data index carries out curve visual analyzing.
Chart is shown self-defined for, graphic attribute custom feature is developed by system, including custom curve
The contents such as color, thickness, coordinate, title.
For regime type switches, can need to realize switching freely according to user to figure, curve, meet
The demand that user is multi-level, personalized.
For abnormal data is in line computation, system represents aspect at chart, it is achieved according to the demand of user, to chart numbers
Pull re-computation according to carrying out, meet the online computing function of user.Specifically, pull re-computation described in refer to by figure (post
Shape figure, pie chart etc.) relevant information is represented, as pie chart represents the oil increment of certain oil field different measure classification contribution, as mended
Hole 20, light maintenance 10, overhaul 30 etc., user is if desired overall understands overhaul, light maintenance oil increment altogether, according to routine, needs weight
Newly carrying out the setting of condition, show interface at this figure, can directly be dragged to build greatly by light maintenance part, this pie chart will be counted again
Calculating, bandwagon effect will facilitate user quickly to understand the situation of data between various combination for perforations adding 20, overhaul+light maintenance 40.
For data online editing, user's data change by client, can be reacted directly on curve.Specifically
Ground, because daily analysis needs to be shown by form, curve, during specifically used, possible data source is because of other
Reason occurs abnormal, will cause bigger jump on curve, brings certain problem to analysis and displaying, and therefore this is
System provides user's online change data, repaints figure table function.Data after online editing, only interim drawing is used, the most more
Change data base Central Plains data.
For many figures linkage demand, multi-series data can represent in same rectangular system simultaneously, passes through breviary
Frame links, and scales linkage by pulling miniature frame to be capable of a plurality of curve chart simultaneously.
Further, described bulletin module 12 is used for releasing news, such as system New function information or system call interception information
Deng.
Further, since the life cycle time of some well is the longest, when display when integration interface shows, across
Scope is very big, and unfavorable and user carries out relevant inquiring or operation;Display space is the most limited in a browser, and display one is big
The data of section time span are common demands;Therefore this system is when individual well Life cycle curve is shown, to former data area
There is provided zoom function, it is possible to help user to focus in data of interest and interactive with correlation curve.
Further, all of event information of individual well is all based on individual well life cycle axle and projects, because during partial event
Between put relatively, it may appear that the problem that part-time overlap shows, native system is by entering according to relevant speciality event data
Row classification, is determined display voluntarily by user.
The individual well information management system that the present invention provides, individual well is dynamically being divided by research worker and dynamically analysis personnel
During analysis, it is no longer necessary to from the inquiry of each professional system, download data, reduce the difficulty that data prepare, save a large amount of
Data time, simultaneously by the application of system integration function, the conventional func that can quickly realize individual well relevant is divided
Analysis, decreases the workload of routine, it is possible to achieve concentrate one's energy to carry out the purpose of deep structure research, improve individual well and dynamically analyze
Effect.
The above, only presently preferred embodiments of the present invention, be not intended to limit protection scope of the present invention, all
Any amendment, equivalent and the improvement etc. made within the spirit and principles in the present invention, should be included in the protection of the present invention
Within the scope of.
Claims (10)
1. an individual well information management system, it is characterised in that described system includes:
Data resource layer, including data integration module and memory module;Described data integration module is for from N number of goal systems number
According to the data reading described each life cycle of individual well in storehouse;Described memory module is used for storing each life cycle of described individual well
Data;
Application layer, including data analysis module and functional module;Described data analysis module is for extracting institute according to inquiry request
The data stating individual well life cycle are analyzed, and obtain analysis result;Described functional module is for entering according to described analysis result
Row form or curve plotting;
Represent layer, including portal interface;Described portal interface is for representing described form or the curve of the making of described functional module;
Wherein, described N is integer.
2. the system as claimed in claim 1, it is characterised in that the organization mechanism code of described system is described N number of with existing
The organization mechanism code of goal systems is mapped by data encoding, sets up identical basic data standard.
3. the system as claimed in claim 1, it is characterised in that described portal interface includes: personalized customization module, for root
From described N number of goal systems, extract data according to the individual demand received, user is paid close attention to content and carries out personalized customization
And displaying;Wherein, described individual demand includes: chart show the switching of self-defined, regime type, abnormal data line computation,
Online data editor and many figures linkage demand.
4. the system as claimed in claim 1, it is characterised in that described data analysis module is additionally operable to: get the bid at described curve
Remember the abnormal data of described individual well life cycle.
5. system as claimed in claim 4, it is characterised in that described data analysis module is additionally operable to difference individual well is in phase
Contrast with the data of life cycle.
6. the system as claimed in claim 1, it is characterised in that described application layer also includes: browser module, described browser
Module is for directly accessing the basic data in described N number of goal systems, and pushes described according to default document browsing type
Basic data.
7. system as claimed in claim 6, it is characterised in that described document browsing type includes: word document, XPS document,
Html document and PDF document.
8. the system as claimed in claim 1, it is characterised in that the data of each life cycle of described individual well include: individual well
Basic data, individual well layer data, individual well phase data, single well measure data, individual well design data, analytical test data, move
State Monitoring Data, log data, logging data, individual well creation data, drilling phase data, oil pumper show that work diagram data, set damage
Well data and casing deformation well data.
9. the system as claimed in claim 1, it is characterised in that described inquiry request specifically includes: belonging to individual well pound sign, individual well
Unit information, geologic element information and screening index information.
10. system as claimed in claim 9, it is characterised in that described screening index information specifically includes: off-time, product
Measure change, production time and scrap type.
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CN201610365029.9A CN106055629A (en) | 2016-05-27 | 2016-05-27 | Single well information management system |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108304667A (en) * | 2018-02-11 | 2018-07-20 | 合肥市太泽透平技术有限公司 | The one-dimensional center line unit of the CEA integrated platforms of knowledge based library data unified management |
CN110599034A (en) * | 2019-09-12 | 2019-12-20 | 东营汉威石油技术开发有限公司 | Dynamic management tracking system of oil production plant and early warning method thereof |
CN110895581A (en) * | 2018-09-12 | 2020-03-20 | 中国石油天然气股份有限公司 | Oil reservoir state analysis method and system |
CN112100174A (en) * | 2020-08-25 | 2020-12-18 | 中石化石油工程技术服务有限公司 | Logging database modeling method based on business scene |
CN114519511A (en) * | 2022-01-27 | 2022-05-20 | 西安健尚智能科技有限公司 | Oil well full-life-cycle management method and system based on cloud architecture |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104732359A (en) * | 2015-04-08 | 2015-06-24 | 陕西延长石油(集团)有限责任公司 | Oil field geographic information and exploration development collaboration work platform system |
CN104834518A (en) * | 2015-04-08 | 2015-08-12 | 陕西延长石油(集团)有限责任公司 | Oilfield exploitation and development working platform system |
US20160085418A1 (en) * | 2014-09-23 | 2016-03-24 | Environmental Intellect, Llc | Graphical User Interface Systems and Methods for Data Integration with Data-Driven Engineering Drawings |
-
2016
- 2016-05-27 CN CN201610365029.9A patent/CN106055629A/en active Pending
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20160085418A1 (en) * | 2014-09-23 | 2016-03-24 | Environmental Intellect, Llc | Graphical User Interface Systems and Methods for Data Integration with Data-Driven Engineering Drawings |
CN104732359A (en) * | 2015-04-08 | 2015-06-24 | 陕西延长石油(集团)有限责任公司 | Oil field geographic information and exploration development collaboration work platform system |
CN104834518A (en) * | 2015-04-08 | 2015-08-12 | 陕西延长石油(集团)有限责任公司 | Oilfield exploitation and development working platform system |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108304667A (en) * | 2018-02-11 | 2018-07-20 | 合肥市太泽透平技术有限公司 | The one-dimensional center line unit of the CEA integrated platforms of knowledge based library data unified management |
CN110895581A (en) * | 2018-09-12 | 2020-03-20 | 中国石油天然气股份有限公司 | Oil reservoir state analysis method and system |
CN110599034A (en) * | 2019-09-12 | 2019-12-20 | 东营汉威石油技术开发有限公司 | Dynamic management tracking system of oil production plant and early warning method thereof |
CN110599034B (en) * | 2019-09-12 | 2023-12-15 | 中国石油化工股份有限公司 | Dynamic management tracking system of oil extraction plant and early warning method thereof |
CN112100174A (en) * | 2020-08-25 | 2020-12-18 | 中石化石油工程技术服务有限公司 | Logging database modeling method based on business scene |
CN112100174B (en) * | 2020-08-25 | 2024-05-24 | 中石化石油工程技术服务股份有限公司 | Logging database modeling method based on business scene |
CN114519511A (en) * | 2022-01-27 | 2022-05-20 | 西安健尚智能科技有限公司 | Oil well full-life-cycle management method and system based on cloud architecture |
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