CN117289842A - Method, device, electronic equipment and computer readable medium for informationizing oil-gas data - Google Patents

Abstract

The invention provides an oil gas data informatization method, an oil gas data informatization device, electronic equipment and a computer readable medium, and relates to the field of oil gas development data storage, wherein the method comprises the following steps: responding to an operation instruction acting on inquiring well map navigation information in a target application, displaying a map page on a graphical user interface, wherein the map page displays a plurality of well identifications corresponding to a plurality of target wells; the method comprises the steps that a plurality of well identifiers are projected in a map page according to longitude and latitude coordinates of a plurality of corresponding target wells respectively; the map page is also displayed with an area measuring tool; responding to an operation instruction generated by drawing a polygon by an area measuring tool acting on a map page, determining area information of a region corresponding to the polygon, and displaying the area information at the position of the polygon; wherein the polygon drawn by the area measuring tool comprises at least one target well; the invention can realize the sharing of the oil gas analysis and test data among different departments, is beneficial to improving the working efficiency and the user experience.

Description

Method, device, electronic equipment and computer readable medium for informationizing oil-gas data

Technical Field

The invention relates to the technical field of oil and gas development data storage, in particular to an oil and gas data informatization method, an oil and gas data informatization device, electronic equipment and a computer readable medium.

Background

The geological information related to the oil gas analysis and test is oriented to links such as oil field exploration, development, production, scientific research and the like, and at present, for different links, the analysis of who the sample analysis and test belongs to is performed, and a part of results are not shared. Firstly, because of the existence of professional barriers in information, for example, oil gas analysis of rock pyrolysis analysis and oil gas analysis in a development well belong to different research stages, and research staff respectively establish a database for simple query and retrieval. Secondly, a part of achievements are incompatible in data format, and the data sharing degree is limited; for example, the data format of the log is different from the data format of the seismic tape display. Therefore, the data sharing degree is limited, the samples in the same depth section are repeatedly taken, the resource waste is caused, and the situation that new technology and new methods exist in the future and no samples are desirable can also occur. The existing system is in the primary stage, belongs to different departments for collecting, arranging and loading data, lacks working mechanisms among the departments, is imperfect in sharing technology, has high professional degree among the departments, has information barriers, and has the problem of data sharing as a bottleneck for the development of oilfield professional application.

Disclosure of Invention

The invention provides an oil gas data informatization method, an oil gas data informatization device, electronic equipment and a computer readable medium, which can realize sharing of oil gas analysis and test data among different departments, are beneficial to improving working efficiency and improving user experience.

In a first aspect, the present invention provides a method for informationizing oil and gas data, comprising:

responding to an operation instruction acting on inquiring well map navigation information in a target application, displaying a map page on a graphical user interface, wherein the map page displays a plurality of well identifications corresponding to a plurality of target wells; the method comprises the steps that a plurality of well identifiers are projected in a map page according to longitude and latitude coordinates of a plurality of corresponding target wells respectively; the map page is also displayed with an area measuring tool;

responding to an operation instruction which acts on the map page and is generated by drawing a polygon by using the area measuring tool, determining area information of an area corresponding to the polygon, and displaying the area information at the position of the polygon; wherein the polygon drawn by the area measurement tool comprises at least one target well.

In an alternative embodiment, the map page also displays a ranging tool; the method further comprises the steps of:

responding to an operation instruction generated by the distance measuring tool acting on the map page to draw a path, determining distance information corresponding to the path, and displaying the distance information on the path; wherein the path is at least routed through two well identifications.

In an alternative embodiment, the map page further displays a polygon selection tool, and the method further includes:

responding to an operation instruction generated by applying the polygon selection tool to draw a polygon on the map page, counting well information of a plurality of target wells in a polygon area drawn by the polygon selection tool, displaying the polygon drawn by the polygon selection tool on the map page, and displaying a list of the well information; and well identifiers corresponding to the plurality of target wells are displayed in the polygon drawn by the polygon selection tool, and the well information at least comprises well names or well numbers of the target wells.

In an alternative embodiment, the method further comprises:

responding to an operation instruction generated by inquiring a two-dimensional plan of a target core column in a target application, and displaying the two-dimensional plan corresponding to the target core column on a graphical user interface;

responding to an operation instruction generated by inquiring a three-dimensional histogram of a target core column in a target application, and displaying the corresponding three-dimensional histogram of the target core column on a graphical user interface;

the two-dimensional plan is a rolling code scanning image of the target core column, and the three-dimensional histogram is an image obtained by three-dimensionally reconstructing the rolling code scanning image of the target core column.

In an alternative embodiment, the method further comprises:

responding to an operation instruction generated by inquiring a target image corresponding to a target well in a target application, and displaying the target image on a graphical user interface; the target image is one of a plan view, a section view, a relation view and a comprehensive geological map, and the relation view is generated according to index data input by a user according to a preset formula; the plan view, the section view and the comprehensive geological map are stored in a server in advance; and the reference line corresponding to the index in the right target image is shown in the relation diagram.

In an alternative embodiment, the method further comprises:

and responding to an operation instruction which acts on the target application and performs multi-well comparison browsing, and displaying corresponding multi-well comparison graphs of different horizons of the same well or different wells of the same horizon on a graphical user interface.

In an alternative embodiment, the method further comprises:

and responding to an operation instruction acted on the target application to draw the comprehensive geological map according to the selected indexes, and displaying the comprehensive geological map which is orderly arranged according to the indexes on a graphical user interface.

In a second aspect, the present invention provides an oil and gas data informatization device, comprising:

the map display module is used for responding to an operation instruction acted on the map navigation information of the query well in the target application, displaying a map page on the graphical user interface, and displaying a plurality of well identifications corresponding to a plurality of target wells on the map page; the method comprises the steps that a plurality of well identifiers are projected in a map page according to longitude and latitude coordinates of a plurality of corresponding target wells respectively; the map page is also displayed with an area measuring tool;

the area measurement module is used for responding to an operation instruction which acts on the map page and is generated by drawing a polygon by using the area measurement tool, determining area information of a region corresponding to the polygon, and displaying the area information at the position of the polygon; wherein the polygon drawn by the area measurement tool comprises at least one target well.

In an alternative embodiment, the map page also displays a ranging tool; the apparatus further comprises:

the distance measurement module is used for responding to an operation instruction which is applied to the map page and is generated by drawing a path by using the distance measuring tool, determining distance information corresponding to the path and displaying the distance information on the path; wherein the path is at least routed through two well identifications.

In an alternative embodiment, the map page further displays a polygon selection tool, and the apparatus further includes:

the well information display module is used for responding to an operation instruction which acts on the map page and is generated by drawing a polygon by using the polygon selection tool, counting well information of a plurality of target wells in a polygon area drawn by the polygon selection tool, displaying the polygon drawn by the polygon selection tool on the map page and displaying a list of the well information; and well identifiers corresponding to the plurality of target wells are displayed in the polygon drawn by the polygon selection tool, and the well information at least comprises well names or well numbers of the target wells.

In an alternative embodiment, the apparatus further comprises:

the two-dimensional plan view module is used for responding to an operation instruction generated by inquiring the two-dimensional plan view of the target core column in the target application and displaying the two-dimensional plan view corresponding to the target core column on the graphical user interface;

the three-dimensional histogram module is used for responding to an operation instruction generated by inquiring the three-dimensional histogram of the target core column in the target application and displaying the corresponding three-dimensional histogram of the target core column on the graphical user interface;

the two-dimensional plan is a rolling code scanning image of the target core column, and the three-dimensional histogram is an image obtained by three-dimensionally reconstructing the rolling code scanning image of the target core column.

In an alternative embodiment, the apparatus further comprises:

the data graph module responds to an operation instruction generated by inquiring a target image corresponding to a target well in a target application, and displays the target image on a graphical user interface; the target image is one of a plan view, a section view, a relation view and a comprehensive geological map, and the relation view is generated according to index data input by a user according to a preset formula; the plan view, the section view and the comprehensive geological map are stored in a server in advance; wherein, the relation diagram shows the reference line corresponding to the index in the target image.

In an alternative embodiment, the apparatus further comprises:

and responding to an operation instruction which acts on the target application and performs multi-well comparison browsing, and displaying corresponding multi-well comparison graphs of different horizons of the same well or different wells of the same horizon on a graphical user interface.

In an alternative embodiment, the apparatus further comprises:

and responding to an operation instruction acted on the target application to draw the comprehensive geological map according to the selected indexes, and displaying the comprehensive geological map which is orderly arranged according to the indexes on a graphical user interface.

In a third aspect, the present invention provides an electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the steps of the method of any of the preceding embodiments when the computer program is executed.

In a fourth aspect, the present invention provides a computer readable medium having non-volatile program code executable by a processor, the program code causing the processor to perform the method of any of the preceding embodiments.

The beneficial effects of the invention are as follows: according to the oil gas data informatization method, the device, the electronic equipment and the computer readable medium, as GIS navigation information of the target well can be inquired, the relative positions among different blocks, between layers and among wells can be conveniently and accurately acquired in time by research personnel, and the connection among the blocks, the layers and the well is deepened; the method is convenient for research personnel to intuitively acquire well information; the method is convenient for the research personnel to circle a region, acquire the area information of the region and measure the distance information between two wells;

the interactive application of the 2D plan view and the 3D column diagram is realized, and a graphical navigation interface is integrated;

editing the analysis assay data into various plan views, sectional views and relationship views; the longitudinal distribution characteristics and the plane distribution characteristics are more intuitively displayed by matching with the data of logging, well logging, earthquake and the like, so that a basis is provided for exploration and deployment.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

In order to make the above objects, features and advantages of the present invention more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of a method according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a map page according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a method according to an embodiment of the present invention for implementing the use of an area measurement tool;

FIG. 4 is a schematic diagram of a method according to an embodiment of the present invention, which is intended to be embodied using a polygon selection tool;

FIG. 5 is a schematic diagram of a graphical user interface for displaying a two-dimensional plan view and a three-dimensional histogram in a method according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a graphical user interface display relationship diagram for implementing the method according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of a method according to an embodiment of the present invention for representing multi-well contrast;

FIG. 8 is a schematic diagram of a method according to an embodiment of the present invention for representing a comprehensive geologic map;

FIG. 9 is a schematic diagram of a system of devices provided in an embodiment of the present invention;

fig. 10 is a schematic diagram of an electronic device according to an embodiment of the present invention;

fig. 11 is a system architecture diagram according to an embodiment of the present invention.

In the figure: 201-a map display module; 202-an area measurement module; 400-an electronic device; 401-a communication interface; 402-a processor; 403-memory; 404-bus.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The existing system is in a framework and a database establishment and simple query retrieval stage according to the specific conditions of each oil field, and has no great progress in data mining and data application. Based on the method, the device, the electronic equipment and the computer readable storage medium for the informatization of the oil gas data, which are provided by the invention, can realize sharing of oil gas analysis and test data among different departments, and are beneficial to improving the working efficiency and the user experience. In order to facilitate understanding of the present invention, a method, an apparatus, an electronic device, and a computer readable storage medium for informationizing oil and gas data disclosed in the present invention are described in detail by examples.

Referring to fig. 1, the embodiment provides an oil and gas data informatization method, which includes the following steps:

step S101, responding to an operation instruction acted on the inquiry well map navigation information in the target application, displaying a map page on a graphical user interface, wherein the map page displays a plurality of well identifications corresponding to a plurality of target wells; the method comprises the steps that a plurality of well identifiers are projected in a map page according to longitude and latitude coordinates of a plurality of corresponding target wells respectively; the map page also displays an area measurement tool.

Here, the method of the present embodiment may be run on a terminal device or a server by providing a graphical user interface through the terminal. And running the target application on the terminal and rendering the target application on a display of the terminal to obtain a graphical user interface. The user sends an operation instruction to the server through the operation terminal, the server runs the application according to the operation instruction, the processed data is compressed and encoded and then returned to the terminal through the network, and the terminal decodes and outputs the game picture. As shown in fig. 11, the system architecture of the present embodiment is shown.

The well map navigation information refers to GIS geographic information navigation of the target well. And displaying a GIS map model in advance on a graphical user interface, and projecting the well number into the GIS map according to longitude and latitude coordinates. As shown in fig. 2, is a map page. The map page has a well identification XT-A2. When the server captures that the mouse is in the XT-A2 position, the underlying information of the XT-A2 is automatically displayed at the well identifier XT-A2 of the map page. As shown in fig. 2, the basic information of XT-A2 includes well name XT-A2, well type directional well, well type development well.

In addition, as shown in fig. 2, a toolbar is arranged at the upper right corner of the map page, and the tools of clearing, clicking, circling, polygon selection, area measurement, distance measurement, zooming-in, zooming-out and attribute feature are sequentially arranged from left to right, wherein the 5 th tool is an area measuring tool.

Step S102, responding to an operation instruction which is acted on a map page and is generated by drawing a polygon by using an area measuring tool, determining area information of a region corresponding to the polygon, and displaying the area information at the position of the polygon; wherein the polygon drawn by the area measurement tool comprises at least one target well.

Here, as shown in fig. 3, in the map page, a quadrangle is drawn using an area measuring tool, and then the area of the quadrangle area can be displayed in the quadrangle area. The server calculates the actual area size through the conversion of the geographic coordinate system, thereby determining the area information.

Further, as shown in fig. 2 or fig. 3, the map page also displays a ranging tool; the oil gas data informatization provided in this embodiment further includes:

responding to an operation instruction which acts on the map page and is generated by drawing a path by using the distance measuring tool, determining distance information corresponding to the path, and displaying the distance information on the path; wherein the path is at least routed through two well identifications.

Here, the operation instruction generated by drawing the path using the distance measuring tool means for drawing the path between the plurality of wells using the distance measuring tool, respectively, so that the distance information is displayed on the path. In the toolbar of the figure, the 6 th from the right is a distance measuring tool. And the server calculates the actual distance between the two points in real time according to the points drawn by the mouse on the map, so as to determine the distance information corresponding to the path.

Further, the map page further displays a polygon selection tool, and the method for informationizing oil and gas data provided by the embodiment further includes:

in response to an operation instruction which acts on the map page and is generated by drawing a polygon by using the polygon selection tool, counting well information of a plurality of target wells in a polygon area drawn by the polygon selection tool, displaying the polygon drawn by the polygon selection tool on the map page and displaying a list of the well information; and well identifiers corresponding to the plurality of target wells are displayed in the polygon drawn by the polygon selection tool, and the well information at least comprises well names or well numbers of the target wells.

Specifically, as shown in fig. 4, the user selects the 4 th polygon selection tool on the graphical user interface, draws a polygon, and displays well information in the area in the polygon, where the well information refers to the well name. And a list of well information is displayed in the upper left corner. It can be seen that this embodiment can display a map page based on GIS, the map page based on GIS can display well information such as a well age value and a depth value corresponding to a target identifier, and can also display a distance between measurement wells, and enclose an area and measure an area thereof. The embodiment improves the original simple inquiry and search functions, realizes GIS navigation and inquiry and search of the plane graph, and realizes the quick realization of the layered block exploration door surface graph and the quick customization of the matched data table; for oil and gas exploration and development, the relative positions among different blocks, horizons or wells are more practical and convenient for users, and the links among the blocks, horizons and wells are deepened.

Preferably, the method for informationizing oil and gas data provided in this embodiment further includes:

responding to an operation instruction generated by inquiring a two-dimensional plan of a target core column in a target application, and displaying the two-dimensional plan corresponding to the target core column on a graphical user interface;

responding to a fifth operation instruction generated by inquiring the three-dimensional histogram of the target core column in the target application, and displaying the three-dimensional histogram corresponding to the target core column on a graphical user interface;

the two-dimensional plan is a rolling code scanning image of the target core column, and the three-dimensional histogram is an image obtained by three-dimensionally reconstructing the rolling code scanning image of the target core column.

Here, the embodiment can realize the interactive operation of the 2D plan view and the 3D histogram, and integrate the graphical navigation interface, thereby meeting the requirement of the interactive operation from two dimensions to three dimensions. In implementation, the two-dimensional plan view and the three-dimensional histogram can be respectively stored in a server, and the plan view interface is converted into the histogram interface by setting a link mode, so that the switching between the 2D plan view and the 3D histogram is realized. For example, in fig. 5, the image in the upper left corner is a two-dimensional image displayed in advance, and the user is expected to enlarge the two-dimensional image by double-clicking the mouse, and then the embodiment displays a three-dimensional image corresponding to the two-dimensional image, which is an image obtained by three-dimensionally reconstructing the two-dimensional image (scroll image) in advance.

Optionally, the method for informationizing oil and gas data provided in this embodiment further includes:

responding to an operation instruction generated by inquiring a target image corresponding to a target well in a target application, and displaying the target image on a graphical user interface; the target image is one of a plan view, a section view, a relation view and a comprehensive geological map, and the relation view is generated according to index data input by a user according to a preset formula; the plan view, the section view and the comprehensive geological map are stored in a server in advance; wherein, the relation diagram shows the reference line corresponding to the index in the target image.

Here, as shown in fig. 6, according to the data pre-recorded by the developer, the embodiment can generate the O/C H/C relationship diagram corresponding to the target well on the premise of selecting the O/C H/C relationship diagram and simultaneously selecting the well number and the type of the target well, where the relationship diagram is generated according to the preset formula according to the index data pre-recorded by the developer.

In an alternative implementation, the method of this embodiment further includes:

and responding to an operation instruction which acts on the target application and performs multi-well comparison browsing, and displaying corresponding multi-well comparison graphs of different horizons of the same well or different wells of the same horizon on a graphical user interface.

Specifically, when comprehensive inquiry and browsing of well information are performed, a user can generally draw a comprehensive columnar evaluation chart according to the area, the well number and the repeated time. In this embodiment, multiple well information browse may be performed, i.e. multiple well contrast browse may be implemented, as shown in fig. 7. In the graphical user interface, two comprehensive columnar evaluation graphs of the wells are displayed, each comprehensive columnar evaluation graph of each well corresponds to one window, and a user can freely adjust the size of each window and adjust the progress bar of each window.

In an alternative embodiment, the method further comprises:

and the comprehensive geological map module is used for responding to the operation instruction acted on the target application to draw the comprehensive geological map according to the selected indexes, and displaying the comprehensive geological map which is orderly arranged according to the indexes on the graphical user interface.

Specifically, when browsing curve information, the present embodiment may draw a log, browse a GR curve, and so on. As shown in FIG. 8, the geological map may also be drawn according to user-selected metrics such as geologic stratification, gas logging, time of drilling, lithology, color, side-wall coring, lateral, sonic moveout, core description, log interpretation, synthetic interpretation, etc.

The present embodiment can edit analytical assay data into various plan views, sectional views, and relationship views; the longitudinal distribution characteristics and the plane distribution characteristics are more intuitively displayed by matching with the data of logging, well logging, earthquake and the like, so that a basis is provided for exploration and deployment; when the geological problems are analyzed, the data and the data table cannot be intuitively expressed, various factors are synthesized, various indexes form a relation diagram and a comprehensive geological diagram through a calculation formula and the like, and a clear basis can be provided for staff and a leading decision layer.

The research of the oil gas analysis and test application system based on archival information datamation starts from rock core analysis and test data, covers six reservoir elements of 'life, storage, cover, circle, transportation and protection' of oil gas reservoirs, well reveals oil gas distribution rules through the organic combination of static data and dynamic configuration relations, and provides scientific research basis and powerful information support for further exploration decision. In addition, when the system of the embodiment is applied, an Asp.net software development framework can be adopted, a general browser (for example, a Google Chrome browser and a Firefox browser) is used as a carrier, data-rich physical geological data service is used for supporting, real data such as a rock core, rock debris, oil gas water, side wall coring and the like are required to be digitized, network release is carried out, network browsing is facilitated for a user, and the data utilization rate is improved.

The final commercial market range of the digital transformation method is expanded from companies to third parties (petroleum universities, petroleum service providers, research institutions in oil and gas industries and the like) related to the petroleum industry, and even the target rod enterprises with advanced utilization capacity in the archival industry. Specifically, at the basic service level, regional specific professional data research application and industry technology data utilization are provided for the company. In the same industry expansion level, petroleum service providers, brothers enterprises and the like at home and abroad provide industry technical information and the like of the petroleum enterprises at home and abroad for the petroleum service providers, brothers enterprises and the like, so that the enterprise technology improvement and the market fairness competition are realized. In the aspect of subject level promotion, colleges, professionals, workers related to petroleum industry in the future and the like, the method provides latest achievements for domestic and foreign production research, is beneficial to the platform using the method to be transferred from the colleges to different enterprises, and improves the increase of the number of users and the development speed of the technical level; the method attracts experts, improves the influence of the platform in the industry, and promotes the development of disciplines. In the social effect level, the archive management industry improves the whole level of the archive industry and the archive data deep utilization capacity of other industries by means of the professional data utilization mode of the platform and the success mode of the data information management method.

Referring to fig. 9, the present invention provides an oil and gas data informatization apparatus, comprising:

the map display module 201 is configured to respond to an operation instruction acting on the query well map navigation information in the target application, and display a map page on the graphical user interface, where the map page displays a plurality of well identifiers corresponding to a plurality of target wells; the method comprises the steps that a plurality of well identifiers are projected in a map page according to longitude and latitude coordinates of a plurality of corresponding target wells respectively; the map page is also displayed with an area measuring tool;

an area measurement module 202, configured to determine area information of an area corresponding to the polygon in response to an operation instruction applied to the map page and generated by drawing the polygon by using the area measurement tool, and display the area information at a position where the polygon is located; wherein the polygon drawn by the area measurement tool comprises at least one target well.

Further, the map page also displays a ranging tool; the oil gas data informatization device provided in this embodiment further includes:

the distance measurement module is used for responding to an operation instruction which acts on the map page and is generated by drawing a path by using the distance measuring tool, determining distance information corresponding to the path and displaying the distance information on the path; wherein the path is at least routed through two well identifications.

Optionally, the map page further displays a polygon selection tool, and the oil gas data informatization device provided in this embodiment further includes:

the well information display module is used for responding to an operation instruction which acts on the map page and is generated by drawing a polygon by using the polygon selection tool, counting well information of a plurality of target wells in a polygon area drawn by the polygon selection tool, displaying the polygon drawn by the polygon selection tool on the map page and displaying a list of the well information; and well identifiers corresponding to the plurality of target wells are displayed in the polygon drawn by the polygon selection tool, and the well information at least comprises well names or well numbers of the target wells.

Preferably, the oil gas data informatization device provided in this embodiment further includes:

the two-dimensional plan view module is used for responding to an operation instruction generated by inquiring the two-dimensional plan view of the target core column in the target application and displaying the two-dimensional plan view corresponding to the target core column on the graphical user interface;

the three-dimensional histogram module is used for responding to an operation instruction generated by inquiring the three-dimensional histogram of the target core column in the target application and displaying the corresponding three-dimensional histogram of the target core column on the graphical user interface;

the two-dimensional plan is a rolling code scanning image of the target core column, and the three-dimensional histogram is an image obtained by three-dimensionally reconstructing the rolling code scanning image of the target core column.

Further, the oil gas data informatization device provided in this embodiment further includes:

the data graph module responds to an operation instruction generated by inquiring a target image corresponding to a target well in a target application, and displays the target image on a graphical user interface; the target image is one of a plan view, a section view, a relation view and a comprehensive geological map, and the relation view is generated according to index data input by a user according to a preset formula; the plan view, the section view and the comprehensive geological map are stored in a server in advance; wherein, a reference line is preset in the relation diagram.

In an alternative embodiment, the apparatus further comprises:

and the multi-well contrast map module is used for responding to an operation instruction which acts on the target application and is used for carrying out multi-well contrast browsing, and displaying corresponding multi-well contrast maps of different horizons of the same well or different wells of the same horizon on the graphical user interface.

In an alternative embodiment, the apparatus further comprises:

and the comprehensive geological map module is used for responding to the operation instruction acted on the target application to draw the comprehensive geological map according to the selected indexes, and displaying the comprehensive geological map which is orderly arranged according to the indexes on the graphical user interface.

Referring to fig. 10, the embodiment of the present invention further provides an electronic device 400, including a communication interface 401, a processor 402, a memory 403, and a bus 404, where the processor 402, the communication interface 401, and the memory 403 are connected by the bus 404; the memory 403 is configured to store a computer program that supports the processor 402 to perform the above-described method of informatizing hydrocarbon data, and the processor 402 is configured to execute the program stored in the memory 403.

Optionally, embodiments of the present invention further provide a computer readable medium having non-volatile program code executable by the processor 402, the program code causing the processor 402 to perform the hydrocarbon data informatization method as in the above embodiments.

The method, the device and the computer program product for the oil gas data informatization provided by the embodiment of the invention comprise a computer readable storage medium storing program codes, and instructions included in the program codes can be used for executing the method in the previous method embodiment, and specific implementation can be referred to the method embodiment and will not be repeated here.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer-readable storage medium. Based on this understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a server, a network device, etc.) to perform all or part of the steps of the method of the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, randomAccess Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (10)

1. A method of informationizing oil and gas data, comprising:

responding to an operation instruction acting on inquiring well map navigation information in a target application, displaying a map page on a graphical user interface, wherein the map page displays a plurality of well identifications corresponding to a plurality of target wells; the method comprises the steps that a plurality of well identifiers are projected in a map page according to longitude and latitude coordinates of a plurality of corresponding target wells respectively; the map page is also displayed with an area measuring tool;

responding to an operation instruction generated by drawing a polygon by an area measuring tool acting on the map page, determining area information of an area corresponding to the polygon, and displaying the area information at the position of the polygon; wherein the polygon drawn by the area measurement tool comprises at least one target well.

2. The method of claim 1, wherein the map page further displays a ranging tool; the method further comprises the steps of:

responding to an operation instruction generated by the distance measuring tool acting on the map page to draw a path, determining distance information corresponding to the path, and displaying the distance information on the path; wherein the path is at least routed through two well identifications.

3. The method of oil and gas data informatization according to claim 1, wherein said map page further displays a polygon selection tool, said method further comprising:

in response to an operation instruction generated by the polygon selection tool acting on the map page, counting well information of a plurality of target wells in a polygon area drawn by the polygon selection tool, displaying polygons drawn by the polygon selection tool on the map page of the graphical user interface, and displaying a list of the well information; and well identifiers corresponding to the plurality of target wells are displayed in the polygon drawn by the polygon selection tool, and the well information at least comprises well names or well numbers of the target wells.

4. The method of oil and gas data informatization according to claim 1, wherein said method further comprises:

responding to an operation instruction generated by inquiring a two-dimensional plan of a target core column in a target application, and displaying the two-dimensional plan corresponding to the target core column on the graphical user interface;

responding to an operation instruction generated by inquiring a three-dimensional histogram of a target core column in a target application, and displaying the corresponding three-dimensional histogram of the target core column on a graphical user interface;

the two-dimensional plan is a rolling code scanning image of the target core column, and the three-dimensional histogram is an image obtained by carrying out three-dimensional reconstruction on the rolling code scanning image of the target core column in advance.

5. The method of oil and gas data informatization according to claim 1, wherein said method further comprises:

responding to an operation instruction generated by inquiring a target image corresponding to a target well in a target application, and displaying the target image on a graphical user interface; the target image is one of a plan view, a section view, a relation view and a comprehensive geological map, and the relation view is generated according to index data input by a user according to a preset formula; the plan view, the section view and the comprehensive geological map are stored in a server in advance; wherein, the relation diagram shows the reference line corresponding to the index in the target image.

6. The method of oil and gas data informatization according to claim 1, wherein said method further comprises:

and responding to an operation instruction which acts on the target application and performs multi-well comparison browsing, and displaying corresponding multi-well comparison graphs of different horizons of the same well or different wells of the same horizon on a graphical user interface.

7. The method of oil and gas data informatization according to claim 1, wherein said method further comprises:

and responding to an operation instruction acted on the target application to draw the comprehensive geological map according to the selected indexes, and displaying the comprehensive geological map which is orderly arranged according to the indexes on a graphical user interface.

8. An oil and gas data informatization device, comprising:

the map display module responds to an operation instruction acted on the map navigation information of the query well in the target application, and displays a map page on the graphical user interface, wherein the map page displays a plurality of well identifications corresponding to a plurality of target wells; the method comprises the steps that a plurality of well identifiers are projected in a map page according to longitude and latitude coordinates of a plurality of corresponding target wells respectively; the map page is also displayed with an area measuring tool;

the area measurement module is used for responding to an operation instruction which acts on the map page and is generated by drawing a polygon by using the area measurement tool, determining area information of an area corresponding to the polygon, and displaying the area information at the position of the polygon; wherein the polygon drawn by the area measurement tool comprises at least one target well.

9. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the steps of the method of any of the preceding claims 1 to 7 when the computer program is executed.

10. A computer readable medium having non-volatile program code executable by a processor, the program code causing the processor to perform the method of any one of claims 1 to 7.