CN113392109A - Petroleum geological engineering data management system - Google Patents

Abstract

The invention discloses a petroleum geological engineering data management system, which comprises a data type searching module, a data type management module, a temporary data management module, a data association management module, a horizon data management module and a data server, wherein the data type searching module is used for searching the data type of a petroleum geological engineering; the data type searching module is used for searching different types of data objects; the data type management module is used for adding, editing and deleting data objects; the temporary data management module is used for establishing a temporary data object; the data association management module is used for managing the relationship between different data objects; the level data management module is used for establishing a level information list for different regions; the data server is used for executing the modules and running. The invention can carry out centralized management on all petroleum geological engineering data objects, has convenient and clear management and can provide uniform object service for the outside. Moreover, the method is convenient to look up and high in information accuracy.

Description

Petroleum geological engineering data management system

Technical Field

The invention relates to the technical field of management systems, in particular to a petroleum geological engineering data management system.

Background

The petroleum exploration, development, research and management process comprises a plurality of data objects, such as traps, structures, wells and the like. However, the data is huge, and if the data is unreasonably distributed and managed, external services cannot fully display the information of the petroleum geological engineering data.

At present, the search speed of petroleum geological engineering data management is low, the data relevance is poor, related data objects cannot be clarified, and the data objects cannot be managed well, so that some important data objects are not input or input is incomplete. And the external unified management and unified reference cannot be finished.

Disclosure of Invention

The present invention is directed to solving, at least to some extent, one of the technical problems in the related art. Therefore, the invention aims to provide a petroleum geological engineering data management system, which solves the problems that the engineering data management is disordered, part of data cannot be searched, and the unified external open use cannot be realized.

The petroleum geological engineering data management system comprises a data type searching module, a data type management module, a temporary data management module, a data association management module, a layer data management module and a data server;

the data type searching module is used for searching different types of data objects and entering a searching data object management interface;

the data type management module is used for adding, editing and deleting data objects and checking the content of each data object;

the temporary data management module is used for establishing a temporary data object and is provided with the functions of searching, importing, editing and deleting the temporary data object;

the data association management module is used for managing the relationship between different data objects, establishing a relationship tree between different data objects, and searching the data of other data objects through the relationship tree;

the level data management module is used for establishing level information lists for different regions and knowing the level condition of each region according to the level information list of each region;

the data server is used for executing the modules and running.

In some embodiments of the invention, there is a GIS map relationship between the data objects;

the GIS map comprises space information of basic data objects and shows coordinate forms of the space information and the basic information of the data objects;

when the GIS map selects a specific data object, the GIS map can check basic attribute information of the data object;

the GIS map can filter the specifically displayed data object examples through the data object types and attributes;

and the GIS map can filter and display target data objects through the data object attributes.

In other embodiments of the present invention, the data type searching module may search by:

inputting a keyword for searching;

screening through data object attributes;

finding a data object spatially related to the current data object;

and finding the data object related to the business through the data object.

In other embodiments of the present invention, a new button and an edit button are disposed in the data type management module;

clicking a new button, filling related information according to a filling interface, clicking to determine after the completion of the filling, and completing the addition;

and clicking an editing button, editing and modifying the editable and modifiable content at an editing interface, and clicking for confirmation after the modification is finished.

In other embodiments of the present invention, the deletion function in the data type management module includes option deletion in the data object and option deletion of the entire data object, and the specific deletion mode is as follows:

clicking a deletion button after the data items, popping up a prompt for whether deletion is carried out or not, deleting the data items after confirmation and prompting that deletion is successful, not deleting the data items after cancellation, clicking an upper deletion button after the upper deletion button needs to select one or more data items, and clicking the upper deletion button if the one or more data items are not selected, wherein the gray data items cannot be clicked, deleting all the selected data items after the plurality of data items are selected, and prompting that deletion is successful;

and clicking a deletion button after the data object type, popping up a prompt for whether to delete, deleting the data object type after confirmation, prompting that the deletion is successful, and not deleting if the deletion is cancelled.

In other embodiments of the present invention, the difference between the temporary data management module and the data object in the data type management module is the existence time of the data object, the data object in the temporary data management module is deleted periodically without human operation, and the data object in the data type management module exists for a long time.

In other embodiments of the present invention, new creation, editing, and deletion of data object relationships are set in the data association management module.

In other embodiments of the present invention, the horizon data management module includes view, edit, and delete of horizon object data, and can also create new horizon objects.

In other embodiments of the present invention, the data server is a computer server, and is connected to the internet network, and the related operations can be performed by logging in the management system interface through the internet.

According to the invention, all petroleum geological engineering data objects can be managed in a centralized manner, the management is convenient and clear, and unified object service can be provided for the outside. Moreover, the method is convenient to look up and high in information accuracy.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

The invention provides a petroleum geological engineering data management system, which comprises a data type searching module, a data type management module, a temporary data management module, a data association management module, a horizon data management module and a data server, wherein the data type searching module is used for searching the data type of a petroleum geological engineering;

the data type searching module is used for searching different types of data objects and entering a searching data object management interface;

the data type management module is used for adding, editing and deleting data objects and checking the content of each data object;

the temporary data management module is used for establishing a temporary data object and is provided with the functions of searching, importing, editing and deleting the temporary data object;

the data association management module is used for managing the relationship between different data objects, establishing a relationship tree between different data objects, and searching the data of other data objects through the relationship tree;

the level data management module is used for establishing level information lists for different regions and knowing the level condition of each region according to the level information list of each region;

the data server is used for executing the modules and running.

The main object data in the process of petroleum exploration, development, research and management, such as trap, structure, well and the like, are all objects. The system can perform centralized management on the data objects and provide uniform object service for the outside. The information of the object includes basic information of the object and coordinate data information of the object.

The data object mainly comprises three components, namely an object management tool, a basic service and an external application service.

Basic service: the basic operation of the database is mainly encapsulated, and the basic data query service and other service for interacting with other modules in the data are provided, wherein the basic service is the basic service of an object management tool and an external application service.

An object management tool: and providing a visual interface of object management, wherein the visual interface is used for finishing basic management work of the object, including modification of object basic information, object import, maintenance of object attribute information and establishment of object relationship.

External application service: the object module is established, and the main function is to provide services for the outside so as to meet various applications of projects. According to the current application scenario, external services are mainly classified into four categories: 1: and checking object attribute information, inquiring related objects, and constructing an object directory navigation tree to meet all applications of one graph of the GIS.

A GIS map relation exists between the data objects;

the GIS map comprises space information of basic data objects and shows coordinate forms of the space information and the basic information of the data objects;

when the GIS map selects a specific data object, the GIS map can check basic attribute information of the data object;

the GIS map can filter the specifically displayed data object examples through the data object types and attributes;

and the GIS map can filter and display target data objects through the data object attributes.

The data type searching module can search in the following modes:

inputting a keyword for searching;

screening through data object attributes;

finding a data object spatially related to the current data object;

and finding the data object related to the business through the data object.

Searching for data objects according to the input keywords: in the fuzzy search place, the related objects can be found according to the input words.

Advanced screening: screening the object through the object attribute, for example, performing condition combination through the oil reservoir attribute, and screening to obtain a target oil reservoir; obtaining a target well and the like according to the well attribute;

the way to find the spatially related object from the current object is as follows:

(ii) inclusion/subsumed objects: for example, the development curve of an oil reservoir, all wells under the oil reservoir are found first, and then the number and the yield of all the wells are counted;

adjacent objects (horizontal): for example, data recommendations for nearby objects when searching for applications; providing data of adjacent wells when the well-connected stratum comparison is carried out;

adjacent objects (longitudinal): for objects in the longitudinal direction, such as stratums and layer traps, object services in the longitudinal direction such as top-bottom contact relation and the like are provided;

example (c): for example, in the target evaluation process, related data of an adjacent well and an adjacent oil reservoir are necessary for a plurality of nodes, and an adjacent object needs to be found according to the current object.

The method for finding the business related object according to the current object is as follows:

classifying other object type relations except the spatial relation of the object into business relations, and establishing other association relations among different object types in a business model; for example, the relationship between the strata and the trap, when a certain trap is researched, data of the related strata may be checked;

recommending similar objects with the same or similar attributes according to the object attributes of the current object;

for example: the current object is a certain dense glutenite oil reservoir, the oil product is super heavy oil, and the development mode is that similar oil reservoirs are found through related attributes in gas injection development;

a newly added button and an editing button are arranged in the data type management module;

clicking a new button, filling related information according to a filling interface, clicking to determine after the completion of the filling, and completing the addition;

and clicking an editing button, editing and modifying the editable and modifiable content at an editing interface, and clicking for confirmation after the modification is finished.

And clicking a new object, adding a new data object type, inputting an object type name, defaulting the object class to be a common object because the object class is newly added in the common object, selecting whether the object type has a coordinate attribute (such as a construction unit has a specific coordinate position and well control equipment does not have a specific coordinate position) according to the specific object type, clicking a confirmation button, and prompting that the new object type is successfully added.

And editing the object type, clicking an editing button after the existing object type, checking and editing the existing object type information, wherein the display content of an editing page is the same as that of a newly added page, distinguishing that the content of the newly added interface is empty, the existing content exists in the editing interface, modifying the object class of the object type at the moment, clicking a confirmation button after the modification is finished, prompting the successful editing, and storing the modified content.

The deleting function in the data type management module comprises option deletion in the data object and option deletion of the whole data object, and the specific deleting mode is as follows:

clicking a deletion button after the data items, popping up a prompt for whether deletion is carried out or not, deleting the data items after confirmation and prompting that deletion is successful, not deleting the data items after cancellation, clicking an upper deletion button after the upper deletion button needs to select one or more data items, and clicking the upper deletion button if the one or more data items are not selected, wherein the gray data items cannot be clicked, deleting all the selected data items after the plurality of data items are selected, and prompting that deletion is successful;

and clicking a deletion button after the data object type, popping up a prompt for whether to delete, deleting the data object type after confirmation, prompting that the deletion is successful, and not deleting if the deletion is cancelled.

The difference between the temporary data management module and the data objects in the data type management module is the existence time of the data objects, the data objects in the temporary data management module are deleted periodically under non-human operation, and the data objects in the data type management module exist for a long time.

The method is used for generating objects which do not need to be stored for a long time in the processes of management production and the like, mostly generated when data is accessed, clicking temporary object management under the object management to enter a temporary object management page, displaying all temporary object data on the page, and searching the temporary object data through object types and temporary object name keywords.

After the temporary object enters the temporary object management, the temporary data can be screened, and object data which is not in the object data is selected and directly put in storage. And clicking a warehousing button after the temporary object to prompt whether to warehouse in, and after confirming the warehousing, prompting the successful warehousing, so that the corresponding object data can be searched in the object data management page. And (4) canceling warehousing, canceling warehousing operation and prompting the cancellation of the operation.

The temporary data management module further comprises an object data import:

the method can download the import template, import the object data in batch, and import part of the object data by the download template, wherein the part of the object data needs coordinate information.

First, object data is imported

And clicking an object template downloading button to download the object template, wherein the templates in different object types are different. Taking the item department template as an example, after the import template is downloaded, the import object information is filled according to the content of the template, the red part (object name and object type) is a necessary filling option, the import cannot be successfully filled without filling, and the rest content can be filled optionally.

After the import template is filled, clicking an object import button, selecting the file, clicking confirmation to import object data, returning an error prompt file if the import is unsuccessful, and importing the data again after modification according to a file prompt.

② lead-in coordinates

The part of object types have coordinate information, and the coordinate information needs to be imported. And clicking a coordinate template downloading button, downloading a coordinate import template, and only having a coordinate template downloading and coordinate batch import button in the object type with coordinate information. The coordinate import templates of different object types are the same, after the coordinate import template is downloaded, the import coordinate information is filled according to the template content, and the red part (object name, object type, coordinate type, x coordinate and y coordinate) is a necessary filling option and cannot be successfully imported without filling.

The data association management module is internally provided with the creation, editing and deletion of data object relationships.

Clicking the last plus sign of the relationship tree can add a new relationship tree, clicking the lowest added node and reducing the nodes, and adding or modifying the number of the nodes. For example, clicking the add node, adding a 5-level node under the 4-level node, and clicking the subtract node, deleting the 4-level node. The node content can be selected by selecting or inputting keyword screening, and the selected content is within the object type standard. After the nodes are added, if the object data are not filtered, clicking a confirmation button to prompt that the new addition is successful, and returning to the object relationship management page.

After the object type of the node is selected in the relationship interface of the object relationship tree, the existing object data can be filtered according to the attribute filtering and the custom filtering condition of the object type, or all the object data in the type can be displayed without filtering. The filtering has two setting modes, namely attribute filtering and self-defining.

In the above attribute screening: the attribute filtering needs to click a second input box after a node is clicked, the attribute filtering is selected, three new input boxes appear after the selection, the attribute to be filtered is selected in the first input box, the filterable attributes of different object types are different, taking a secondary construction unit as an example, the filterable attributes comprise an object name, an object type, remarks, a source ID, an object state and a construction unit name code, the last item is a secondary construction unit, and the rest are general filtering attributes. After selecting the filtering attribute, defining a filtering rule, clicking an input box after filtering the attribute, selecting a filtering condition which is equal to, larger than, smaller than, larger than or equal to, smaller than or equal to, contained in, and the like, and inputting specific information according to the filtering condition in the last input box.

And (4) self-defining filtering, namely clicking a second input box after the node, selecting self-definition, directly selecting filtering conditions by self-definition, wherein the filtering conditions are equal to, larger than, smaller than, larger than or equal to, smaller than or equal to, contained in and the like, and then inputting specific information according to the filtering conditions in the last input box without selecting attributes needing to be filtered.

And after finishing, clicking a confirmation button to prompt that the storage is successful, returning to an object relationship management interface, clicking the filtered relationship tree name at the moment, and displaying that the content is screened when the object relationship tree is checked. And clicking an editing button of the existing object relation tree to edit the relation tree.

Clicking the name of the newly-built relation tree, checking the existing frame of the newly-built relation tree, clicking the name of a node, selecting a selectable subordinate object under the node, searching and screening through an input keyword, clicking a selection button to confirm addition after the subordinate object needing to be added is selected, wherein the added subordinate object does not appear in a selection range any more, and the selected subordinate object is subjected to a logo red prompt to be selected among other subordinate objects when the same level is selected. After the selection is completed, the lower-level objects of the lower-level objects can be selected, and then the selection is downward in sequence, and the nodes in the object relation tree, such as the establishment of the fourth-level nodes, can be selected till the fourth-level objects. The selected object can be screened by a search box at the upper part of the left list, and a keyword can be input.

Deleting the existing object in the object relation tree, clicking the name of the object relation tree to display the existing object in the object relation tree, clicking a delete button after the object, prompting whether to delete, confirming to delete the object, and not deleting if the object is cancelled.

And directly clicking a delete button after the existing relation tree to prompt whether to delete, clicking confirmation to prompt that the deletion is successful, deleting the object relation tree, clicking cancellation to not delete, and returning to the object relation management page.

The layer position data management module comprises the steps of checking, editing and deleting layer position object data and can also create a layer position object.

When new level information is to be created, the position information of the area can be edited by clicking the area name without creating the new level information and clicking the start creation button behind the area name. When the method is initially created, only the added subsets can be selected, and only level information of the level of the boundary can be added (for example, one of Zhongshengjiang, Gushengjiang and Xinshengjiang is selected), after one level information is added, the level name is clicked, a window can be popped up, an insertion position can be selected, the same-level up-cut, the same-level down-cut and the added subsets can be selected, the same-level up-cut and the same-level down-cut are added with the same-level objects, the insertion positions are different, the added subsets are added with the next-level objects, and the level division is divided according to the following sequence: selecting a boundary, a system, a group, a section and a sub-section in the object data management, clicking a specific stratum to modify, reading the same level content in the basin stratum according to the sequence by the pull-down selection content, and preventing the selected basin stratum from appearing in a pull-down selection list below the level. After three boundary-level horizons are selected, a fourth boundary-level horizon cannot be added because there are only three boundary-level horizons in the basin stratum.

The existing stratum horizon information can not be directly modified, correct stratum horizon information is newly added after the existing stratum horizon information is deleted firstly, and the deletion prompt can appear by directly clicking x after the name, and after clicking confirmation, the prompt is successful in deletion, and the stratum horizon information is deleted.

The data server is a computer server, is connected with the Internet network, and logs in a management system interface through the Internet, so that the relevant operation can be carried out. The centralized management of the data objects can be realized, and unified object services are provided for the outside.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (9)

1. A petroleum geological engineering data management system is characterized in that: the system comprises a data type searching module, a data type management module, a temporary data management module, a data association management module, a layer data management module and a data server;

the data type searching module is used for searching different types of data objects and entering a searching data object management interface;

the data type management module is used for adding, editing and deleting data objects and checking the content of each data object;

the temporary data management module is used for establishing a temporary data object and is provided with the functions of searching, importing, editing and deleting the temporary data object;

the data association management module is used for managing the relationship between different data objects, establishing a relationship tree between different data objects, and searching the data of other data objects through the relationship tree;

the level data management module is used for establishing level information lists for different regions and knowing the level condition of each region according to the level information list of each region;

the data server is used for executing the modules and running.

2. The petroleum geological engineering data management system of claim 1, wherein: a GIS map relation exists between the data objects;

the GIS map comprises space information of basic data objects and shows coordinate forms of the space information and the basic information of the data objects;

when the GIS map selects a specific data object, the GIS map can check basic attribute information of the data object;

the GIS map can filter the specifically displayed data object examples through the data object types and attributes;

and the GIS map can filter and display target data objects through the data object attributes.

3. The petroleum geological engineering data management system of claim 1, wherein: the data type searching module can search in the following modes:

inputting a keyword for searching;

screening through data object attributes;

finding a data object spatially related to the current data object;

and finding the data object related to the business through the data object.

4. The petroleum geological engineering data management system of claim 1, wherein: a newly added button and an editing button are arranged in the data type management module;

clicking a new button, filling related information according to a filling interface, clicking to determine after the completion of the filling, and completing the addition;

and clicking an editing button, editing and modifying the editable and modifiable content at an editing interface, and clicking for confirmation after the modification is finished.

5. The petroleum geological engineering data management system of claim 1, wherein: the deleting function in the data type management module comprises option deletion in the data object and option deletion of the whole data object, and the specific deleting mode is as follows:

clicking a deletion button after the data items, popping up a prompt for whether deletion is carried out or not, deleting the data items after confirmation and prompting that deletion is successful, not deleting the data items after cancellation, clicking an upper deletion button after the upper deletion button needs to select one or more data items, and clicking the upper deletion button if the one or more data items are not selected, wherein the gray data items cannot be clicked, deleting all the selected data items after the plurality of data items are selected, and prompting that deletion is successful;

and clicking a deletion button after the data object type, popping up a prompt for whether to delete, deleting the data object type after confirmation, prompting that the deletion is successful, and not deleting if the deletion is cancelled.

6. The petroleum geological engineering data management system of claim 1, wherein: the difference between the temporary data management module and the data objects in the data type management module is the existence time of the data objects, the data objects in the temporary data management module are deleted periodically under non-human operation, and the data objects in the data type management module exist for a long time.

7. The petroleum geological engineering data management system of claim 1, wherein: the data association management module is internally provided with the creation, editing and deletion of data object relationships.

8. The petroleum geological engineering data management system of claim 1, wherein: the layer position data management module comprises the steps of checking, editing and deleting layer position object data and can also create a layer position object.

9. The petroleum geological engineering data management system of claim 1, wherein: the data server is a computer server, is connected with the Internet network, and logs in a management system interface through the Internet, so that the relevant operation can be carried out.