CN117520338A - Wind farm data management method, device, equipment and storage medium - Google Patents

Abstract

The embodiment of the application discloses a wind farm data management method, device, equipment and storage medium. The method comprises the following steps: determining a target management database for storing and managing target wind farm data in response to management operation on the target wind farm data; the target management database belongs to the N management databases; storing and preprocessing the target wind power plant data through the target management database to obtain target wind power plant data meeting the requirement of a preset format; and storing the data after the storage pretreatment into the target management database. According to the embodiment of the application, the wind farm data are respectively stored in the corresponding databases through the wind farm data management system, so that unified data management is realized, and references are provided for data query of subsequent wind power projects.

Description

Wind farm data management method, device, equipment and storage medium

Technical Field

The application relates to the technical field of wind power resource processing, in particular to a wind power plant data management method, device, equipment and storage medium.

Background

At present, most of related drawings and data in wind power projects are scattered in the hands of professional designers in the form of local files, and huge difficulties are caused in data storage management, data secondary utilization and mining, so that unified data management means are lacked. Therefore, how to uniformly manage the wind power field related data in the wind power application scene becomes one of the hot problems in the research of the current wind power field.

Disclosure of Invention

The embodiment of the application provides a wind farm data management method, device, equipment and storage medium, wind farm data are respectively stored in corresponding databases through a wind farm data management system, unified data management is achieved, and references are provided for data query of subsequent wind power projects.

In one aspect, an embodiment of the present application provides a wind farm data management method, which is applied to a wind farm data management system, where the wind farm data management system includes N management databases corresponding to N types of wind farm data, and the wind farm data management method includes:

determining a target management database for storing and managing target wind farm data in response to management operation on the target wind farm data; the target management database belongs to the N management databases;

storing and preprocessing the target wind power plant data through the target management database to obtain target wind power plant data meeting the requirement of a preset format;

and storing the data after the storage pretreatment into the target management database.

In one aspect, an embodiment of the present application provides a wind farm data management device, which is applied to a wind farm data management system, where the wind farm data management system includes N management databases corresponding to N types of wind farm data, and the wind farm data management device includes:

A determining unit, configured to determine a target management database for storing and managing target wind farm data in response to a management operation on the target wind farm data; the target management database belongs to the N management databases;

the processing unit is used for carrying out storage pretreatment on the target wind power plant data through the target management database so as to obtain target wind power plant data meeting the requirement of a preset format;

and the storage unit is used for storing the data after the storage pretreatment into the target management database.

In one aspect, an embodiment of the present application provides a wind farm data management device, including:

a processor adapted to implement one or more computer programs; a computer storage medium storing one or more computer programs, the one or more computer programs adapted to be loaded and executed by a processor:

determining a target management database for storing and managing target wind farm data in response to management operation on the target wind farm data; the target management database belongs to the N management databases;

storing and preprocessing the target wind power plant data through the target management database to obtain target wind power plant data meeting the requirement of a preset format;

And storing the data after the storage pretreatment into the target management database.

In one aspect, embodiments of the present application provide a computer storage medium storing a computer program for executing, when executed by a processor of a data processing apparatus:

determining a matching model of each region according to an average wind speed map of target height layer wind resources, wherein the average wind responds to management operation on target wind farm data, and a target management database for storing and managing the target wind farm data is determined; the target management database belongs to the N management databases;

storing and preprocessing the target wind power plant data through the target management database to obtain target wind power plant data meeting the requirement of a preset format;

and storing the data after the storage pretreatment into the target management database.

In one aspect, embodiments of the present application provide a computer program product or a computer program, where the computer program product includes a computer program, where the computer program may refer to a computer program, and the computer program is stored in a computer storage medium; the processor of the drawing device reads a computer program from a computer storage medium, the processor executing the computer program, causing the drawing device to execute the wind farm data management method described above.

The wind farm data management method is applied to a wind farm data management system, the wind farm data management system comprises N management databases corresponding to N types of wind farm data, and each management database stores wind farm data of corresponding types. When management operation on target wind farm data exists, determining a target management database for storing and managing the target wind farm data, then storing and preprocessing the target wind farm data through the target management database to obtain the target wind farm data meeting the requirement of a preset format, and then storing the data after storing and preprocessing into the target management database. In the data processing process, the wind farm data matched with the management databases are processed into the preset format for storage through the management databases, so that convenience is brought to unification of the data format into subsequent data inquiry and quotation, and the data utilization efficiency is improved. And each management database is managed in a unified way through a wind farm data management system, and convenience is provided for data storage management, data secondary utilization and mining.

Drawings

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

FIG. 1 is a system block diagram of a wind farm data management system provided in an embodiment of the present application;

FIG. 2 is a flow chart of a method for managing wind farm data according to an embodiment of the present disclosure;

fig. 3 is a schematic diagram of displaying model information according to an embodiment of the present application;

FIG. 4 is a schematic diagram of tower data in a database of wind power equipment according to an embodiment of the present application;

FIG. 5 is a schematic diagram of well data and channel data provided by embodiments of the present application;

FIG. 6 is a schematic structural diagram of a wind farm data management device according to an embodiment of the present disclosure;

fig. 7 is a schematic structural diagram of a wind farm data management device according to an embodiment of the present application.

Description of the embodiments

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It should be noted that, in the following description, all kinds of information related to the object in the social application, such as avatar identifier, avatar, name identifier, etc., are acquired after the permission of the corresponding object.

In order to solve the problems of non-uniform management of wind power plant data, low data utilization rate and the like in the prior art, the application provides a wind power plant data management method which performs uniform storage management on all storage data in a wind power plant through digital and standardized means so as to realize data resource assimilation and solve the technical current situation of dispersion and redundancy of all data. The wind field data can be rapidly analyzed and compared and selected through the collection and standardized storage management of wind tower data, wind pattern spectrum data, model equipment, general calculation data, reduction protection tools and the like, so that a reference can be provided for a fresh air electric field construction scheme.

The wind farm data management method provided by the embodiment of the application can be executed by wind farm data management equipment, the wind farm data management equipment can be terminal equipment or a server, wherein the terminal equipment comprises a mobile phone, a notebook computer, intelligent sound equipment, an intelligent vehicle-mounted device and intelligent interaction equipment, and the server can comprise a server which independently operates, a server cluster formed by a plurality of servers or a cloud server capable of carrying out cloud computing.

In an embodiment, the wind farm data management method provided by the application can be applied to a wind farm data management system, and referring to fig. 1, a schematic system structure diagram of the wind farm data management system provided by the embodiment of the application is provided. The wind farm data management device described above may be used as a device for operating a wind farm management system.

The wind farm data management system described in fig. 1 may include N management databases, such as a wind tower database, a wind chart spectrum database, a model database, a wind power equipment database, an overview database, a reduction database, and the like, where each management database is used to store corresponding types of wind farm data, specifically, wind tower data used to measure each region in the wind tower database, including average wind speed and direction, month change wind speed, wind shear, and turbulence intensity, and the like; the wind pattern database is used for storing wind patterns of different heights in different areas; the model library stores the model three-dimensional model and model attribute information, so that the model can be observed visually and the model attribute can be known conveniently; a plurality of device data required by a wind power project are stored in a wind power device database, and one device data can comprise a device three-dimensional model and device attribute information; the general calculation database stores general calculation data of different areas and different terrains; the discount database stores a plurality of groups of corresponding relations between areas and discount items.

In one embodiment, the data stored in each management database is obtained by analyzing and formatting the data of the wind farm of the corresponding type imported into the management database by each management database. For each management database, importing the corresponding type of wind farm data therein may be by a user importing the wind farm data directly into the management database through a user interface of the wind farm management system. As an alternative embodiment, a user triggers an importing operation of importing data into a anemometer tower database through a user interface of a wind farm data management system, and then the anemometer tower database receives data corresponding to the importing operation.

In another embodiment, a data classification model is integrated in the wind farm data management system, and after a user performs an input data operation on a user interface of the wind farm data management system, the user performs a data classification process on the input data of the user through the data classification model to obtain a category to which the data belongs; and finally, forwarding the data to a corresponding management database. The embodiment can provide convenience for data uploading, and avoid the problem of data storage errors caused by unclear data classification. For example, a user wants to upload wind farm data in a wind farm data management system, but does not determine in which management database the wind farm data is stored, or does not know the name of the management database, and cannot accurately find an import data entry corresponding to the management database.

The data classification model may be obtained by training a classification network having a classification function based on various wind farm data as a sample in advance. Specific training process embodiments of the present application are not described in detail.

The N management databases of the wind farm data management system can be integrated into one platform database, when the inquiring operation of wind farm data exists in the wind farm data management system, the wind farm data management equipment transmits the inquiring operation to the platform database, and the platform database inquires data corresponding to the inquiring operation according to the characteristics of each management database and the storage data format and type and returns the data to the user interface.

In a specific implementation, when the wind farm data management system is used for uniformly managing wind farm data, the method mainly comprises the following steps:

step 11: data collection and sorting

The main data collected in this step include wind resource data, wind power plant models, model data, general calculation data, reduced data, and then sorting these data.

Step 12: naming plan conforming to wind power application standard and habit

The method mainly comprises the steps of searching for the naming rules of all the existing data after analyzing the data, researching the differences between the existing naming rules and related specifications and typical design types, and adopting the lengths of the existing naming rules and the typical design types to formulate naming rules meeting practical application. For example, at present, when a fan is named, no standard can be used, so that in each wind power project, the same fan may have different names, or in different wind power projects, different fans have the same names, and therefore when subsequent inquiry is performed, no unified inquiry rule can be used, and inquiry errors or insufficient inquiry situations easily occur. Through the method, unified naming of all the wind power equipment can be achieved, for example, fans can be named according to standard naming standards of towers.

Step 13: rapid search method for researching data corresponding to each type of wind farm

One of the purposes of storing each type of data in a unified format into a corresponding type of database is to reduce the repeated work in the later period, and the required data can be quickly searched when the data is required. In order to achieve fast retrieval, a preset storage format can be determined for each type of wind farm data, and the preset storage format corresponds to a fast retrieval method. After the quick retrieval method corresponding to each type of wind farm data is determined, the corresponding preset storage format can be determined according to the quick retrieval method. Different quick query methods can be set for different types of wind farm data according to query requirements in practical applications, which are not exemplified herein.

It can be seen that the wind farm data management system provided in fig. 1 can perform unified storage management on all the stock data in the wind farm by means of digitization and standardization, so as to realize data resource assimilation, and solve the technical situations of dispersion and redundancy of all the data. The wind field data can be rapidly analyzed and compared and selected through the collection and standardized storage management of wind tower data, wind pattern spectrum data, model equipment, general calculation data, reduction protection tools and the like, so that a reference can be provided for a fresh air electric field construction scheme.

Based on the embodiment of the wind farm data management system, the embodiment of the application provides a wind farm data management method, and referring to fig. 2, a flow chart of the wind farm data management method provided by the embodiment of the application is shown, and the wind farm data management method can be executed by wind farm data management equipment, and in particular can be executed by a processor of the wind farm data management equipment. The wind farm management method described in fig. 2 may comprise the steps of:

step S201, in response to the management operation of the target wind farm data, a target management database for storing and managing the target wind farm data is determined.

In one embodiment, the management operation may be that the user performs an uploading operation of the target wind farm data in one management database, for example, an entry into each management database exists in a user interface of the wind farm data management system, the user may trigger an entry of any one management database, a main interface of any one management database is displayed in response to the triggering operation of the user, and the user may perform the uploading operation of the target wind farm data through the main interface. In this case, the management database on which the upload operation is performed is determined as a target management database that stores and manages target wind farm data.

In general, if a user knows accurately that the target wind farm data belongs to a category, the user can accurately enter a main interface of the target management database, and the target wind farm data is uploaded from the main interface so that the target management database processes and stores the target wind farm data. In this way, if a user has a plurality of target wind farm data to be uploaded to the wind farm data management system for storage, the data of each target wind farm need to be uploaded one by one, which may result in lower data uploading efficiency. In other words, the above-mentioned manner of uploading data requires that the user accurately knows the category to which the target wind farm data belongs, and if there are a plurality of different categories of target wind farm data, uploading is required one by one.

In real life, a user who may be responsible for uploading data does not know the data type of the target wind farm data, or in order to improve the data uploading efficiency and the data processing efficiency, it is generally required that a wind farm data management system can automatically classify the target wind farm data uploaded by the user, and then allocate the target wind farm data to a corresponding management database for processing and storing. In this case, bulk uploading of data may also be implemented.

Based on this, the management operation further includes performing an upload operation of the target wind farm data in a user interface of the wind farm data management system, where determining a target management database that stores and manages the target wind farm data may include: carrying out data category identification on the target wind power plant data through a data identification model, and determining the target data type of the target wind power plant data; and determining a management database matched with the target data type in the N management data as a target management database for storing and managing the target wind power plant data. Optionally, the number of target wind farm data may be multiple, and in the case of no special description, the present application describes any one target wind farm data as an example, and the storage management steps of other target wind farm data are the same as those of any one target wind farm data, which is not described again.

Step S202, storing and preprocessing target wind power plant data through a target management database to obtain target wind power plant data meeting the requirements of a preset format.

Alternatively, for the N management databases, the storage preprocessing performed by different management databases may be different when storing the corresponding type of wind farm data, that is, the preset format requirements of the wind farm data stored therein by the different management databases may be different.

In one embodiment, the N management databases include a wind tower database, the target wind farm data is wind tower data, and the storage preprocessing may include any one or more of data correction, data interpolation, vertical extrapolation of wind resources, and correction of wind resource data representative years.

In another embodiment, the N management databases may further include model libraries, and the target wind farm data includes model information used in the historical wind power projects, where the storing and preprocessing may include model information correction and associated model information supplementation. The model information may include any one or more of model name, adaptive wind area, optional hub height, impeller diameter, tower weight, basic information, power curve (the power curve may be imported in different formats, including wtg format or excel format), noise curve or maximum noise value, load calculation threshold, etc.

The relevant model information refers to information of relevant models of models used in the historical wind power project, and the relevant models can have similar areas or terrains with the historical wind power project, or have relevance in model information with the models in the historical wind power project.

Optionally, the model information listed above may refer to model attribute information, and an organic model three-dimensional model is further stored in the model library, so that a user can more intuitively recognize and learn about the model through the three-dimensional model. Responding to the unfolding operation of the model information, and displaying a model three-dimensional model and model attribute information in a user interface; if the interactive operation on the model three-dimensional model exists, the model three-dimensional model displayed by the user interface can be updated according to the interactive operation. In brief, a user may control the three-dimensional model to display different angles on the user interface by interacting with the three-dimensional model.

For example, referring to fig. 3, a schematic diagram for displaying model information is provided in an embodiment of the present application, 301 represents a model three-dimensional model, 302 represents model attribute information, and the model attribute information is assumed to be a power curve. The user can view the model from different angles through trigger 301.

Step S203, storing the data after the storage preprocessing in a target management database.

As can be seen from the foregoing, the target management database may include a wind tower database, the target wind farm data may include wind tower data, and storing the data after the storing and preprocessing in the target management database may include: and storing the data after the storage pretreatment and the historical wind power project management into a target management database, so that the association relationship between the data after the storage pretreatment and the wind power project can provide a reference for the wind power project to be built. For example, the wind tower data may be analyzed for its impact on the operation of historical wind projects, based on which references may be provided to the wind projects to be built.

In other embodiments, the N management databases further include a reduction database, an approximate calculation database, a wind graph spectrum database, and a wind power equipment database; wherein, the discount data stores a plurality of groups of corresponding relations between areas and discount items and/or a plurality of groups of corresponding relations between areas and discount items of historical wind power projects; the general calculation database is used for storing general calculation data of different areas and different terrains; the wind pattern database is used for storing wind patterns of different areas with different heights; the wind power equipment database is used for storing a plurality of pieces of equipment data required by wind power projects, and one piece of equipment data comprises an equipment three-dimensional model and equipment attribute information.

The equipment required by the wind power equipment can comprise fans, towers, strings, wires, cables, working wells, channels and the like, and referring to fig. 4, which is a schematic diagram of tower data in a wind power equipment database provided by the embodiment of the application, 401 represents a three-dimensional model of the towers, 402 represents equipment attribute information of the towers, and can comprise calling height, maximum leg reduction, minimum leg reduction, leg reduction level difference and the like. Referring to fig. 5, a schematic diagram of the working well data and the channel data provided in the embodiments of the present application is not described herein.

In one embodiment, when a wind farm data management system receives a query operation, matching query information carried by the query operation with data in N management databases; and the data matched with the query information are displayed in the user interface in a grading manner according to the management database where the data are located. The query operation may be input according to a query prompt in a user interface of the wind farm data management system, that is, the wind farm data management system may provide rapid query prompt information matched with each type of wind farm data according to data required by a preset format stored in the N management databases, and display the rapid query prompt information corresponding to each management database in the user interface so as to facilitate a user to implement rapid query.

Optionally, the step of displaying may be that according to the display sequence corresponding to each of the N management databases, data matched with the query information in each management database is sequentially displayed in the user interface. For example, in the N management databases, the display sequence of the wind tower database is first, and the display sequence of the wind spectrum database is second, and when the two databases have data matched with the query information, then in the user interface of the wind farm data management system, the wind tower database name and the matched data, and the wind spectrum database name and the matched data are sequentially measured.

The wind farm data management method is applied to a wind farm data management system, the wind farm data management system comprises N management databases corresponding to N types of wind farm data, and each management database stores wind farm data of corresponding types. When management operation on target wind farm data exists, determining a target management database for storing and managing the target wind farm data, then storing and preprocessing the target wind farm data through the target management database to obtain the target wind farm data meeting the requirement of a preset format, and then storing the data after storing and preprocessing into the target management database. In the data processing process, the wind farm data matched with the management databases are processed into the preset format for storage through the management databases, so that convenience is brought to unification of the data format into subsequent data inquiry and quotation, and the data utilization efficiency is improved. And each management database is managed in a unified way through a wind farm data management system, and convenience is provided for data storage management, data secondary utilization and mining.

In short, the wind farm data management system can uniformly store the historical wind power projects and various wind farm data required by the wind power projects at one position for management, so that information is easy to access and has use value. The data stored in the wind farm data management system can be applied to leave-behind market strategy, so that a new market opportunity can be found for wind power enterprises, and meanwhile, the data can also be used for controlling inventory, checking production methods and defining client groups, and has important significance for enterprise generation and sales, cost control and balance allocation, so that the cost of the enterprises is greatly saved, and the economic benefit is improved. In addition, the relationship between the enterprise human resources and the basic data can be analyzed based on the data in the wind farm data management system, and the relationship can be used for returning analysis, so that the maximum utilization of the human resources is ensured.

Based on the above-mentioned wind farm data management method and the embodiments of the wind farm data management system, the embodiments of the present application provide a wind farm data management device, refer to fig. 6, which is a schematic diagram of a wind farm data management device provided in the embodiments of the present application. The wind farm data management device shown in fig. 6 may operate as follows:

a determining unit 601, configured to determine a target management database for storing and managing target wind farm data in response to a management operation on the target wind farm data; the target management database belongs to the N management databases;

the processing unit 602 is configured to perform storage preprocessing on the target wind farm data through the target management database to obtain target wind farm data that meets a preset format requirement;

and a storage unit 603, configured to store the data after the storage preprocessing in the target management database.

In one embodiment, the management operation includes performing an upload operation of the target wind farm data in a management database; the determining unit 601, when determining a target management database for storing and managing the target wind farm data, performs the following steps:

And determining the management database with the uploading operation as a target management database for storing and managing the target wind power plant data.

In one embodiment, the managing operation includes performing an upload operation of target wind farm data in a user interface of the wind farm data management system; the determining unit 601, when determining a target management database for storing and managing the target wind farm data, performs the following steps:

performing data type identification on the target wind power plant data through a data identification model, and determining a target data type to which the target wind power plant data belongs; the data identification model is obtained by training based on sample wind power plant data and data types thereof;

and determining a management database matched with the target data type in the N management databases as a target management database for storing and managing the target wind power plant data.

In one embodiment, the N management databases include a anemometer tower database, the target wind farm data is anemometer tower data, and the storage preprocessing includes any one or more of data correction, data interpolation, vertical extrapolation of wind resources, and a representative year correction of wind resource data;

The storage unit 603 performs the following steps when storing the data after the storage preprocessing in the target management database:

and storing the data subjected to the storage pretreatment and the historical wind power project in the target management database in an associated mode, wherein the association relation between the data subjected to the storage pretreatment and the wind power project provides a reference for the wind power project to be built.

In one embodiment, the N management databases include model libraries, the target wind farm data includes model information of fans used in the historical wind power projects, and the storage preprocessing includes model information correction and associated model information supplementation.

In one embodiment, the model information stored in the model library includes a model three-dimensional model and model attribute information, and the wind farm data management device further includes a display unit:

the display unit is used for responding to the unfolding operation of the model information and displaying the model three-dimensional model and the model attribute information in a user interface;

and if the interactive operation on the model three-dimensional model exists, updating the model three-dimensional model displayed by the user interface according to the interactive operation.

In one embodiment, the N management databases further include a reduction database, an overview database, a wind graph spectrum database, and a wind power plant database;

wherein, the discount database stores a plurality of groups of corresponding relations between areas and discount items and/or a plurality of groups of corresponding relations between areas and discount items in the historical wind power project; the general calculation database is used for storing general calculation data of different areas and different terrains;

the wind pattern spectrum database is used for storing wind patterns of different areas with different heights;

the wind power equipment database is used for storing a plurality of pieces of equipment data required by wind power projects, and one piece of equipment data comprises an equipment three-dimensional model and equipment attribute information.

In one embodiment, the wind farm data management device further comprises a matching unit;

the matching unit is used for matching query information carried by the query operation with data in the N management databases when the wind farm data management system receives the query operation; the query operation is input according to a query prompt in a user interface of the wind farm data management system, and the query prompt comprises data structures of data stored in the N management databases;

And the display unit is also used for displaying the data matched with the query information on the user interface in a grading manner according to the management database where the data are located.

The wind farm data management method is applied to a wind farm data management system, the wind farm data management system comprises N management databases corresponding to N types of wind farm data, and each management database stores wind farm data of corresponding types. When management operation on target wind farm data exists, determining a target management database for storing and managing the target wind farm data, then storing and preprocessing the target wind farm data through the target management database to obtain the target wind farm data meeting the requirement of a preset format, and then storing the data after storing and preprocessing into the target management database. In the data processing process, the wind farm data matched with the management databases are processed into the preset format for storage through the management databases, so that convenience is brought to unification of the data format into subsequent data inquiry and quotation, and the data utilization efficiency is improved. And each management database is managed in a unified way through a wind farm data management system, and convenience is provided for data storage management, data secondary utilization and mining.

Based on the above-mentioned wind farm data management method and the embodiment of the wind farm data management device, the present application further provides a wind farm data management device, and referring to fig. 7, a schematic structural diagram of the wind farm data management device is provided in the embodiment of the present application. The wind farm data management device shown in fig. 7 may comprise a processor 701, an input interface 702, an output interface 703, and a computer storage medium 704. Wherein the processor 701, the input interface 702, the output interface 703, and the computer storage medium 704 may be connected by a bus or other means.

A computer storage medium 704 may be stored in a memory of a wind farm data management device, said computer storage medium 704 being for storing a computer program, said processor 701 being for executing the computer program stored by said computer storage medium 704. The processor 701, or CPU (Central Processing Unit ), is a computing core and a control core of the wind farm data management device, adapted to implement one or more computer programs, in particular adapted to load and execute:

determining a target management database for storing and managing target wind farm data in response to management operation on the target wind farm data; the target management database belongs to the N management databases;

Storing and preprocessing the target wind power plant data through the target management database to obtain target wind power plant data meeting the requirement of a preset format;

and storing the data after the storage pretreatment into the target management database.

The wind farm data management method is applied to a wind farm data management system, the wind farm data management system comprises N management databases corresponding to N types of wind farm data, and each management database stores wind farm data of corresponding types. When management operation on target wind farm data exists, determining a target management database for storing and managing the target wind farm data, then storing and preprocessing the target wind farm data through the target management database to obtain the target wind farm data meeting the requirement of a preset format, and then storing the data after storing and preprocessing into the target management database. In the data processing process, the wind farm data matched with the management databases are processed into the preset format for storage through the management databases, so that convenience is brought to unification of the data format into subsequent data inquiry and quotation, and the data utilization efficiency is improved. And each management database is managed in a unified way through a wind farm data management system, and convenience is provided for data storage management, data secondary utilization and mining.

The embodiment of the application also provides a computer storage medium (Memory), which is a Memory device of the wind farm data management device and is used for storing programs and data. It will be appreciated that the computer storage medium herein may include both a built-in storage medium of the wind farm data management device and an extended storage medium supported by the wind farm data management device. The computer storage medium provides a storage space that stores an operating system of the wind farm data management device. Also stored in this memory space are one or more computer programs adapted to be loaded and executed by the processor 701. The computer storage medium herein may be a high-speed RAM memory or a non-volatile memory (non-volatile memory), such as at least one magnetic disk memory; optionally, at least one computer storage medium remote from the processor may be present.

In one embodiment, one or more computer programs stored in the computer storage media may be loaded and executed by the processor 701:

determining a target management database for storing and managing target wind farm data in response to management operation on the target wind farm data; the target management database belongs to the N management databases;

Storing and preprocessing the target wind power plant data through the target management database to obtain target wind power plant data meeting the requirement of a preset format;

and storing the data after the storage pretreatment into the target management database.

In one embodiment, the management operation includes performing an upload operation of the target wind farm data in a management database; the processor 701 performs the following steps when determining a target management database for storing and managing the target wind farm data:

and determining the management database with the uploading operation as a target management database for storing and managing the target wind power plant data.

In one embodiment, the managing operation includes performing an upload operation of target wind farm data in a user interface of the wind farm data management system; the processor 701 performs the following steps when determining a target management database for storing and managing the target wind farm data:

performing data type identification on the target wind power plant data through a data identification model, and determining a target data type to which the target wind power plant data belongs; the data identification model is obtained by training based on sample wind power plant data and data types thereof;

And determining a management database matched with the target data type in the N management databases as a target management database for storing and managing the target wind power plant data.

In one embodiment, the N management databases include a anemometer tower database, the target wind farm data is anemometer tower data, and the storage preprocessing includes any one or more of data correction, data interpolation, vertical extrapolation of wind resources, and a representative year correction of wind resource data;

the processor 701 performs the following steps when storing the data after the storage preprocessing in the target management database:

and storing the data subjected to the storage pretreatment and the historical wind power project in the target management database in an associated mode, wherein the association relation between the data subjected to the storage pretreatment and the wind power project provides a reference for the wind power project to be built.

In one embodiment, the N management databases include model libraries, the target wind farm data includes model information of fans used in the historical wind power projects, and the storage preprocessing includes model information correction and associated model information supplementation.

In one embodiment, the model information stored in the model base includes a model three-dimensional model and model attribute information, and the processor 701 is further configured to perform:

Responding to the unfolding operation of the model information, and displaying the model three-dimensional model and the model attribute information in a user interface;

and if the interactive operation on the model three-dimensional model exists, updating the model three-dimensional model displayed by the user interface according to the interactive operation.

In one embodiment, the N management databases further include a reduction database, an overview database, a wind graph spectrum database, and a wind power plant database;

wherein, the discount database stores a plurality of groups of corresponding relations between areas and discount items and/or a plurality of groups of corresponding relations between areas and discount items in the historical wind power project; the general calculation database is used for storing general calculation data of different areas and different terrains;

the wind pattern spectrum database is used for storing wind patterns of different areas with different heights;

the wind power equipment database is used for storing a plurality of pieces of equipment data required by wind power projects, and one piece of equipment data comprises an equipment three-dimensional model and equipment attribute information.

In one embodiment, the processor 701 is further configured to perform:

when the wind farm data management system receives a query operation, matching query information carried by the query operation with data in the N management databases; the query operation is input according to a query prompt in a user interface of the wind farm data management system, and the query prompt comprises data structures of data stored in the N management databases;

And displaying the data matched with the query information on the user interface in a grading manner according to the management database where the data are located.

The wind farm data management method is applied to a wind farm data management system, the wind farm data management system comprises N management databases corresponding to N types of wind farm data, and each management database stores wind farm data of corresponding types. When management operation on target wind farm data exists, determining a target management database for storing and managing the target wind farm data, then storing and preprocessing the target wind farm data through the target management database to obtain the target wind farm data meeting the requirement of a preset format, and then storing the data after storing and preprocessing into the target management database. In the data processing process, the wind farm data matched with the management databases are processed into the preset format for storage through the management databases, so that convenience is brought to unification of the data format into subsequent data inquiry and quotation, and the data utilization efficiency is improved. And each management database is managed in a unified way through a wind farm data management system, and convenience is provided for data storage management, data secondary utilization and mining.

Claims (10)

1. The wind farm data management method is characterized by being applied to a wind farm data management system, wherein the wind farm data management system comprises N management databases corresponding to N types of wind farm data, and the wind farm data management method comprises the following steps:

determining a target management database for storing and managing target wind farm data in response to management operation on the target wind farm data; the target management database belongs to the N management databases;

storing and preprocessing the target wind power plant data through the target management database to obtain target wind power plant data meeting the requirement of a preset format;

and storing the data after the storage pretreatment into the target management database.

2. The method of claim 1, wherein the managing operation includes performing an upload operation of the target wind farm data in a management database; the determining a target management database for storing and managing the target wind farm data comprises the following steps:

and determining the management database with the uploading operation as a target management database for storing and managing the target wind power plant data.

3. The method of claim 2, wherein the managing operation comprises performing an upload operation of target wind farm data in a user interface of the wind farm data management system; the determining a target management database for storing and managing the target wind farm data comprises the following steps:

Performing data type identification on the target wind power plant data through a data identification model, and determining a target data type to which the target wind power plant data belongs; the data identification model is obtained by training based on sample wind power plant data and data types thereof;

and determining a management database matched with the target data type in the N management databases as a target management database for storing and managing the target wind power plant data.

4. The method of claim 1, wherein the N management databases comprise

The wind power plant data storage preprocessing comprises any one or more of data correction, data interpolation, wind resource vertical extrapolation and wind resource data representing annual correction;

the storing the data after storage preprocessing in the target management database comprises the following steps:

and storing the data subjected to the storage pretreatment and the historical wind power project in the target management database in an associated mode, wherein the association relation between the data subjected to the storage pretreatment and the wind power project provides a reference for the wind power project to be built.

5. The method of claim 1 or 4, wherein the N management databases comprise model libraries, the target wind farm data comprises model information of fans used in historical wind projects, and the storage preprocessing comprises model information correction and associated model information supplementation.

6. The method of claim 5, wherein the model information stored in the model library comprises a model three-dimensional model and model attribute information, the method further comprising:

responding to the unfolding operation of the model information, and displaying the model three-dimensional model and the model attribute information in a user interface;

and if the interactive operation on the model three-dimensional model exists, updating the model three-dimensional model displayed by the user interface according to the interactive operation.

7. The method of claim 5, wherein the N management databases further comprise a reduction database, an overview database, a wind graph spectrum database, and a wind plant database;

wherein, the discount database stores a plurality of groups of corresponding relations between areas and discount items and/or a plurality of groups of corresponding relations between areas and discount items in the historical wind power project; the general calculation database is used for storing general calculation data of different areas and different terrains;

the wind pattern spectrum database is used for storing wind patterns of different areas with different heights;

the wind power equipment database is used for storing a plurality of pieces of equipment data required by wind power projects, and one piece of equipment data comprises an equipment three-dimensional model and equipment attribute information.

8. The method according to any one of claims 1-7, further comprising:

when the wind farm data management system receives a query operation, matching query information carried by the query operation with data in the N management databases; the query operation is input according to a query prompt in a user interface of the wind farm data management system, and the query prompt comprises data structures of data stored in the N management databases;

and displaying the data matched with the query information on the user interface in a grading manner according to the management database where the data are located.

9. The utility model provides a wind farm data management device, characterized in that is applied to wind farm data management system, wind farm data management system includes N management databases that N class wind power data corresponds, wind farm data management device includes:

a determining unit, configured to determine a target management database for storing and managing target wind farm data in response to a management operation on the target wind farm data; the target management database belongs to the N management databases;

the processing unit is used for carrying out storage pretreatment on the target wind power plant data through the target management database so as to obtain target wind power plant data meeting the requirement of a preset format;

And the storage unit is used for storing the data after the storage pretreatment into the target management database.

10. Drawing equipment of wind power resource map, characterized by, include:

a processor adapted to implement one or more computer programs;

computer storage medium storing one or more computer programs adapted to be loaded by a processor and to perform a method of wind farm data management according to any of claims 1-8.