CN116979686A - Electric quantity reporting system based on new energy power station in electric power production operation stage - Google Patents

Abstract

The invention provides an electric quantity reporting system based on a new energy power station in an electric power production operation stage, which comprises an electric quantity data receiving subsystem construction module, an electric quantity data receiving subsystem and a power generation module, wherein the electric quantity data receiving subsystem construction module is used for constructing an electric quantity data receiving subsystem based on micro-services by utilizing a spring closed framework and a Vue framework of JAVA programming language; the electric quantity data reporting module is used for reporting electric quantity data to the electric quantity data receiving subsystem based on a data acquisition and monitoring control platform and a centralized control subsystem of electric power production operation of the new energy power station in a database access mode, processing fault information by utilizing message middleware and carrying out data automation synchronization by utilizing a robot flow automation technology; and the electric quantity data checking module is used for checking the electric quantity data based on a preset data standard. The invention realizes automatic synchronous reporting of the electric quantity data, can avoid the occurrence of manual operation filling errors of the electric quantity data, improves the accuracy of electric quantity data acquisition, and can solve the problem of difficult electric quantity data maintenance.

Description

Electric quantity reporting system based on new energy power station in electric power production operation stage

Technical Field

The invention relates to the technical field of electric quantity reporting management, in particular to an electric quantity reporting system based on a new energy power station in an electric power production operation stage.

Background

Currently, with the popularization of new energy power generation, new energy power stations are widely distributed, after a new energy power station enters an operation and maintenance period, a large amount of data are reported and sent to be concentrated on-line for meter reading, and then a worker manually performs system input; the electric quantity data are recorded every day, counted every day, the workload is large, and time and labor are wasted; meanwhile, the data checking is mainly performed in a manual resolution mode, and the data checking is performed based on experience of staff; the data error correction is mainly to manually adjust the historical daily data; filling data among multiple systems by manual data carrying filling;

the filling of the electric quantity data at the present stage is still concentrated on manual reading and filling among different systems by field staff, and the situations of low efficiency, easy error, fussy and the like exist in data carrying. Because a large number of power stations need to be operated and maintained in a centralized control center management mode, site personnel need to switch sites back and forth to perform data input and calculation; and the data which stays on the basis is calculated and simply accumulated, so that data check is not realized, and the problems of difficult error correction of historical data, large data cleaning workload and the like exist.

Therefore, a new energy power station based electric power generation operation stage electric power reporting system is needed.

Disclosure of Invention

The invention provides an electric quantity reporting system based on a new energy power station in an electric power production operation stage, which realizes automatic synchronous reporting of electric quantity data through database access, message middleware processing and robot flow automation technology, can avoid the occurrence of filling errors of manual operation of the electric quantity data, improves the accuracy of electric quantity data acquisition, can solve the problem of difficult maintenance of the electric quantity data, saves manual operation time and improves working efficiency.

The invention provides an electric quantity reporting system based on a new energy power station in an electric power production operation stage, which comprises the following components:

the electric quantity data receiving subsystem construction module is used for constructing an electric quantity data receiving subsystem based on micro-service by utilizing a Springclosed framework and a Vue framework of a JAVA programming language;

the electric quantity data reporting module is used for reporting electric quantity data to the electric quantity data receiving subsystem based on a data acquisition and monitoring control platform and a centralized control subsystem of electric power production operation of the new energy power station in a database access mode, processing fault information by utilizing message middleware and carrying out data automation synchronization by utilizing a robot flow automation technology;

and the electric quantity data checking module is used for checking the electric quantity data based on a preset data standard.

Further, the electric quantity data receiving subsystem comprises a base layer, a platform layer, a business service layer and an application layer; the base layer is used for acquiring electric quantity data; the platform layer is used for storing electric quantity data; the business service layer is used for analyzing and managing the conditions of the electric power production operation stage based on the electric quantity data; the application layer is used for displaying the electricity quantity data reporting condition at the PC end, the APP end of the mobile terminal equipment and the applet of the mobile terminal equipment.

Further, the electric quantity data reporting module comprises a data conveying unit, a fault information processing unit and a data automation processing unit;

the data transmission unit is used for transmitting the switch electric quantity code table value in the database of the centralized control subsystem to the electric quantity data receiving subsystem;

the fault information processing unit is used for processing fault information in the centralized control subsystem by utilizing the message middleware;

and the data automation processing unit is used for carrying out data automation synchronization by utilizing a robot process automation technology.

Further, the data transmission unit comprises a switching electric quantity code table value record acquisition subunit and a switching electric quantity code table value transmission subunit;

the switching electric quantity code table value record acquisition sub-unit is used for acquiring electric quantity acquisition data by utilizing a data acquisition and monitoring control platform for electric power production operation of the new energy power station based on the centralized control sub-system and storing the electric quantity acquisition data in a relational database in the centralized control sub-system; acquiring a switch electric quantity code table value record based on electric quantity acquisition data;

the switching electric quantity code table value transmission subunit is used for accessing the historical switching electric quantity code table value record of the relational database according to a preset access mode and according to the access link and account authority of the relational database provided by the centralized control subsystem to obtain a switching electric quantity code table value; the preset access mode is as follows: the access is performed periodically, or at a fixed time, or at the last moment of time of day.

Further, the switching electric quantity code table value transmission subunit further comprises a data modification confirmation subunit and a data modification record inquiry subunit;

the data modification confirmation molecular unit is used for acquiring the switch electric quantity code table value to be confirmed in the history switch electric quantity code table value record of the relational database, and confirming or revising the switch electric quantity code table value to be confirmed based on a preset data modification confirmation operation page to obtain the switch electric quantity code table value;

and the data modification record inquiring molecular unit is used for inquiring the application program based on the preset data modification record and inquiring the historical modification record of the switch electric quantity code table value.

Further, the fault information processing unit is used for shielding and pushing invalid fault information by utilizing the message middleware in the centralized control subsystem, performing duplication removal and receiving of the fault information by utilizing the message middleware in the electric quantity data receiving subsystem, and displaying the fault information in an application layer.

Further, the data automation processing unit is used for automatically acquiring the electric quantity data according to the acquisition conditions set by the electric quantity data receiving subsystem by utilizing a robot process automation technology aiming at the non-system platform data; the non-system platform data are: system platform data that is not capable of processing data with the power data receiving subsystem via database access and message middleware.

Further, the electric quantity data checking module comprises a data standard generating unit and a data checking unit;

the data standard generation unit is used for generating an electric quantity data standard based on the electric power production operation index parameters of the new energy power station;

the data checking unit is used for checking the switch power code table value in the power data receiving subsystem by utilizing a database view technology based on the power data standard data.

Further, the system also comprises an electric quantity data reporting monitoring module, which is used for monitoring the process node of the electric quantity data reporting; the electric quantity data reporting and monitoring module comprises a node processing data acquisition unit and a monitoring abnormality prompting unit;

the node processing data acquisition unit is used for setting a plurality of electric quantity data reporting process nodes according to the whole electric quantity data reporting process and setting processing standard parameters of the electric quantity data reporting process nodes; the processing standard parameters comprise processing time and processing result data, and a threshold range of the processing time and a processing result data standard matching library are set;

the monitoring abnormality prompting unit is used for monitoring and acquiring processing data of the reporting process node based on the electric quantity data reporting process monitoring model; based on the processing standard parameters, evaluating and analyzing the processing data, if the processing time in the processing data exceeds the processing time threshold range, or if the processing result data in the processing data is not matched with the processing result data standard matching library, sending out a processing abnormality prompt, positioning to an abnormal reporting process node, and displaying through an application layer.

Further, the system also comprises an electric quantity report scheduling module; the electric quantity reporting and scheduling module comprises an electric quantity data statistics unit, an electric quantity data analysis unit and a power station scheduling processing unit;

the electric quantity data statistics unit is used for carrying out statistics on the checked electric quantity data to obtain comprehensive statistics result data and substation electric quantity statistics result data of a plurality of new energy power stations;

the electric quantity data analysis unit is used for respectively carrying out predictive analysis on the comprehensive statistical result data and the substation electric quantity statistical result data based on the neural network model to obtain a comprehensive electric quantity predictive analysis result and a substation electric quantity predictive analysis result;

the power station scheduling processing unit is used for obtaining the power generation capacity of the new energy power station in the production operation stage according to the substation electric quantity prediction analysis result, and grading the capacity of the new energy power station based on the power generation capacity of the new energy power station in the production operation stage to obtain the capacity grade of the new energy power station;

acquiring an actual power generation capacity target value, and acquiring a power generation capacity predicted value according to a comprehensive electric quantity predicted analysis result; and according to the difference value of the power generation capacity target value and the power generation capacity predicted value, combining the capacity rating and the historical power generation capacity data of the new energy power station, and carrying out stage scheduling management on the production operation of the new energy power station by utilizing a power station production scheduling model.

Compared with the prior art, the invention has the following advantages and beneficial effects: through database access, message middleware processing and robot flow automation technology, automatic synchronous reporting of electric quantity data is realized, the occurrence of manual operation filling errors of the electric quantity data can be avoided, the accuracy of electric quantity data acquisition is improved, the problem of difficult electric quantity data maintenance can be solved, the manual operation time is saved, and the working efficiency is improved.

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 may be realized and attained by the structure particularly pointed out in the written description and drawings.

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of a system for reporting electric power in the power generation and operation stage of a new energy power station according to the present invention;

fig. 2 is a schematic diagram of a power data receiving subsystem of a power reporting system in a power production and operation stage based on a new energy power station according to the present invention;

fig. 3 is a schematic diagram of a power data reporting module of a power reporting system in a power production operation stage of a new energy power station according to the present invention.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

The invention provides an electric quantity reporting system based on a new energy power station in an electric power production operation stage, as shown in fig. 1, an electric quantity data receiving subsystem construction module is used for constructing an electric quantity data receiving subsystem based on micro-service by utilizing a spring closed frame and a Vue frame of JAVA programming language;

the electric quantity data reporting module is used for reporting electric quantity data to the electric quantity data receiving subsystem based on a data acquisition and monitoring control platform and a centralized control subsystem of electric power production operation of the new energy power station in a database access mode, processing fault information by utilizing message middleware and carrying out data automation synchronization by utilizing a robot flow automation technology;

and the electric quantity data checking module is used for checking the electric quantity data based on a preset data standard.

The working principle of the technical scheme is as follows: the electric quantity data receiving subsystem construction module is used for constructing an electric quantity data receiving subsystem based on micro-service by utilizing a Springclosed framework and a Vue framework of a JAVA programming language;

the electric quantity data reporting module is used for reporting electric quantity data to the electric quantity data receiving subsystem based on a data acquisition and monitoring control platform and a centralized control subsystem of electric power production operation of the new energy power station in a database access mode, processing fault information by utilizing message middleware and carrying out data automation synchronization by utilizing a robot flow automation technology;

and the electric quantity data checking module is used for checking the electric quantity data based on a preset data standard.

The beneficial effects of the technical scheme are as follows: by adopting the scheme provided by the embodiment, through database access, message middleware processing and robot flow automation technology, automatic synchronous reporting of electric quantity data is realized, the occurrence of manual operation filling errors of the electric quantity data can be avoided, the accuracy of electric quantity data acquisition is improved, the problem of difficult electric quantity data maintenance can be solved, the manual operation time is saved, and the working efficiency is improved.

In one embodiment, as shown in fig. 2, the power data receiving subsystem includes a base layer, a platform layer, a business service layer, and an application layer; the base layer is used for acquiring electric quantity data; the platform layer is used for storing electric quantity data; the business service layer is used for analyzing and managing the conditions of the electric power production operation stage based on the electric quantity data; the application layer is used for displaying the electricity quantity data reporting condition at the PC end, the APP end of the mobile terminal equipment and the applet of the mobile terminal equipment.

The working principle of the technical scheme is as follows: the electric quantity data receiving subsystem comprises a base layer, a platform layer, a business service layer and an application layer; the base layer is used for acquiring electric quantity data; the platform layer is used for storing electric quantity data; the business service layer is used for analyzing and managing the conditions of the electric power production operation stage based on the electric quantity data; the application layer is used for displaying the electricity quantity data reporting condition at the PC end, the APP end of the mobile terminal equipment and the applet of the mobile terminal equipment.

The beneficial effects of the technical scheme are as follows: by adopting the scheme provided by the embodiment, the automatic receiving and storing of the electric quantity data and the business data system of multi-business aggregation can be realized by constructing the electric quantity data receiving subsystem of the micro-service framework.

In one embodiment, as shown in fig. 3, the electric quantity data reporting module includes a data transmission unit, a fault information processing unit and a data automation processing unit;

the data transmission unit is used for transmitting the switch electric quantity code table value in the database of the centralized control subsystem to the electric quantity data receiving subsystem;

the fault information processing unit is used for processing fault information in the centralized control subsystem by utilizing the message middleware;

and the data automation processing unit is used for carrying out data automation synchronization by utilizing a robot process automation technology.

The working principle of the technical scheme is as follows: the electric quantity data reporting module comprises a data conveying unit, a fault information processing unit and a data automation processing unit;

the data transmission unit is used for transmitting the switch electric quantity code table value in the database of the centralized control subsystem to the electric quantity data receiving subsystem;

the fault information processing unit is used for processing fault information in the centralized control subsystem by utilizing the message middleware;

and the data automation processing unit is used for carrying out data automation synchronization by utilizing a robot process automation technology.

The beneficial effects of the technical scheme are as follows: by adopting the scheme provided by the embodiment, the effective reporting of the electric quantity data can be realized by utilizing the access database, processing the fault information through the message middleware and utilizing the robot flow automation technology to carry out data automation.

In one embodiment, the data transmission unit comprises a switching power code table value record acquisition subunit and a switching power code table value transmission subunit;

the switching electric quantity code table value record acquisition sub-unit is used for acquiring electric quantity acquisition data by utilizing a data acquisition and monitoring control platform for electric power production operation of the new energy power station based on the centralized control sub-system and storing the electric quantity acquisition data in a relational database in the centralized control sub-system; acquiring a switch electric quantity code table value record based on electric quantity acquisition data;

the switching electric quantity code table value transmission subunit is used for accessing the historical switching electric quantity code table value record of the relational database according to a preset access mode and according to the access link and account authority of the relational database provided by the centralized control subsystem to obtain a switching electric quantity code table value; the preset access mode is as follows: the access is performed periodically, or at a fixed time, or at the last moment of time of day.

The working principle of the technical scheme is as follows: the current electric quantity reporting system acquires corresponding electric quantity data through a configured electric quantity formula after acquiring a switch electric quantity code table value; if the normal use is required, acquiring an electric quantity code table value record in the centralized control subsystem; because most new energy power stations have a centralized control subsystem, the records of the electric quantity code table values in the centralized control subsystem are stored in a relational database. The data transmission unit comprises a switching electric quantity code table value record acquisition subunit and a switching electric quantity code table value transmission subunit;

the switching electric quantity code table value record acquisition sub-unit is used for acquiring electric quantity acquisition data by utilizing a data acquisition and monitoring control platform for electric power production operation of the new energy power station based on the centralized control sub-system and storing the electric quantity acquisition data in a relational database in the centralized control sub-system; acquiring a switch electric quantity code table value record based on electric quantity acquisition data;

the switching electric quantity code table value transmission subunit is used for accessing the historical switching electric quantity code table value record of the relational database according to a preset access mode and according to the access link and account authority of the relational database provided by the centralized control subsystem to obtain a switching electric quantity code table value; the preset access mode is as follows: the access is performed periodically, or at a fixed time, or at the last moment of time of day.

The beneficial effects of the technical scheme are as follows: by adopting the scheme provided by the embodiment, the switch electric quantity code table value is obtained by accessing the form of the relational database, and the electric quantity data can be obtained in a mode of interface butt joint.

In one embodiment, the switching power code table value delivery subunit further includes a data modification confirmation subunit and a data modification record query subunit;

the data modification confirmation molecular unit is used for acquiring the switch electric quantity code table value to be confirmed in the history switch electric quantity code table value record of the relational database, and confirming or revising the switch electric quantity code table value to be confirmed based on a preset data modification confirmation operation page to obtain the switch electric quantity code table value;

and the data modification record inquiring molecular unit is used for inquiring the application program based on the preset data modification record and inquiring the historical modification record of the switch electric quantity code table value.

The working principle of the technical scheme is as follows: the method comprises the steps of obtaining a switch electric quantity code table value and storing the switch electric quantity code table value into a database table of an electric quantity data receiving subsystem; however, because the switch electric quantity code table values of the centralized control subsystem are different in position, the user may feel that the acquired data is not very accurate, and thus a function capable of being modified needs to be provided; copying the corresponding switch electric quantity code table value in the database table through the centralized control confirmation function, displaying in a page and modifying; automatically filling the data into the system after confirmation, and recording the data as a switch electric quantity code table value of the current day; after the current day code table value is obtained, a user may need to modify the record before inquiring, and the difference between manual input and collection of the centralized control system can be displayed by designing an inquiring program;

the switching electric quantity code table value transmission subunit further comprises a data modification confirmation subunit and a data modification record inquiry subunit;

the data modification confirmation molecular unit is used for acquiring the switch electric quantity code table value to be confirmed in the history switch electric quantity code table value record of the relational database, and confirming or revising the switch electric quantity code table value to be confirmed based on a preset data modification confirmation operation page to obtain the switch electric quantity code table value;

and the data modification record inquiring molecular unit is used for inquiring the application program based on the preset data modification record and inquiring the historical modification record of the switch electric quantity code table value.

The beneficial effects of the technical scheme are as follows: by adopting the scheme provided by the embodiment, the confirmation of the electric quantity data and the inquiry of the electric quantity data modification record can be ensured in time through the data modification confirmation and the data modification record inquiry.

In one embodiment, the fault information processing unit is configured to utilize a message middleware in the centralized control subsystem to mask and push an invalid fault message, and utilize the message middleware in the power data receiving subsystem to perform duplication removal and reception of the fault message, and display the fault message in an application layer.

The working principle of the technical scheme is as follows: fault information is reported in the centralized control subsystem, and after equipment fails, a user needs to input the fault information; if the electric quantity data receiving subsystem directly obtains the current fault message, directly generating a corresponding fault record after confirmation, so that the workload of manual filling can be effectively reduced; because the fault message has real-time performance, corresponding data cannot be acquired at a fixed time point like the electric quantity data; meanwhile, as the centralized control subsystem is in a safety zone, the electric quantity data receiving subsystem cannot be directly in butt joint with the centralized control subsystem in consideration of safety specifications of the electric power industry, and message middleware is considered to be used; by utilizing the message middleware, data can be pushed to another safety zone through the message middleware, so that possible electric power safety problems can be avoided, and the message middleware can be utilized to shield some false early warning;

the fault information processing unit is used for shielding and pushing invalid fault information by utilizing the message middleware in the centralized control subsystem, performing duplication removal and receiving of the fault information by utilizing the message middleware in the electric quantity data receiving subsystem, and displaying the fault information in an application layer.

The beneficial effects of the technical scheme are as follows: by adopting the scheme provided by the embodiment, the fault information is processed by utilizing the message middleware, so that the accuracy of the electric quantity data can be ensured.

In one embodiment, the data automation processing unit is configured to automatically acquire, for non-system platform data, electric quantity data according to an acquisition condition set by the electric quantity data receiving subsystem by using a robot process automation technology; the non-system platform data are: system platform data that is not capable of processing data with the power data receiving subsystem via database access and message middleware.

The working principle of the technical scheme is as follows: on one hand, the data synchronization in different system platforms can be realized by using an informatization means to carry out butt joint, so that the active or passive data synchronization is realized; but some systems cannot use the mode of the interface or message middleware to process data due to the unreliability factor; for example, the electric quantity data of the OMS are filled, and because the system cannot realize docking transformation for a certain company or platform, the RPA robot is utilized to accurately grasp the data assembly Excel report at fixed time and fixed point according to the setting of the electric quantity reporting system and the data requirement of the OMS system, and the automatic data import is realized in the OMS system, so that the whole process can be automatically triggered and automatically executed without manual intervention;

the data automation processing unit is used for automatically acquiring the electric quantity data according to the acquisition conditions set by the electric quantity data receiving subsystem by utilizing a robot flow automation technology aiming at the non-system platform data; the non-system platform data are: system platform data that is not capable of processing data with the power data receiving subsystem via database access and message middleware.

The beneficial effects of the technical scheme are as follows: by adopting the scheme provided by the embodiment, the automatic reporting of the data of the various system platforms and the electric quantity data receiving subsystem can be realized by utilizing the robot process automation technology.

In one embodiment, the electric quantity data checking module comprises a data standard generating unit and a data checking unit;

the data standard generation unit is used for generating an electric quantity data standard based on the electric power production operation index parameters of the new energy power station;

the data checking unit is used for checking the switch power code table value in the power data receiving subsystem by utilizing a database view technology based on the power data standard data.

The working principle of the technical scheme is as follows: the electric quantity data checking module comprises a data standard generating unit and a data checking unit;

the data standard generation unit is used for generating an electric quantity data standard based on the electric power production operation index parameters of the new energy power station; the data standard can be formed by the parameters such as installation scale, actual operation and the like on the generated energy, the online electric quantity and the network purchasing electric quantity;

the data checking unit is used for checking the switch power code table value in the power data receiving subsystem by utilizing a database view technology based on the power data standard data; the data storage in the traditional mode is performed by using a structured database table, for example, the data such as daily power generation amount, month accumulation power generation type and the like are directly written into the database after the data are calculated on the same day; in this mode, it is the best choice if the daily data ensures no modification; however, for various reasons, when data of a certain day needs to be modified, the data of a day is modified, so that all daily report accumulated data after the date is involved to be modified; for example, after the daily power generation amount of 6 months and 1 day is modified, the accumulated power generation amount of all the daily and monthly power generation amounts after the date need to be recalculated according to the new value and rewritten into a database for storage; the data is updated in real time by utilizing the technologies of database view and the like, the problem of difficult error correction of historical data can be solved, the calculation storage of each index data is reduced by converting the storage of daily data after calculation into real-time calculation, and the current accumulated data is automatically calculated when the data is checked;

the beneficial effects of the technical scheme are as follows: by adopting the scheme provided by the embodiment, the accuracy of the electric quantity data can be ensured by checking the electric quantity data according to the data standard.

In one embodiment, the system further comprises a power data reporting monitoring module, which is used for monitoring the process node of the power data reporting; the electric quantity data reporting and monitoring module comprises a node processing data acquisition unit and a monitoring abnormality prompting unit;

the node processing data acquisition unit is used for setting a plurality of electric quantity data reporting process nodes according to the whole electric quantity data reporting process and setting processing standard parameters of the electric quantity data reporting process nodes; the processing standard parameters comprise processing time and processing result data, and a threshold range of the processing time and a processing result data standard matching library are set;

the monitoring abnormality prompting unit is used for monitoring and acquiring processing data of the reporting process node based on the electric quantity data reporting process monitoring model; based on the processing standard parameters, evaluating and analyzing the processing data, if the processing time in the processing data exceeds the processing time threshold range, or if the processing result data in the processing data is not matched with the processing result data standard matching library, sending out a processing abnormality prompt, positioning to an abnormal reporting process node, and displaying through an application layer.

The working principle of the technical scheme is as follows: the system also comprises an electric quantity data reporting monitoring module, a power supply module and a power supply module, wherein the electric quantity data reporting monitoring module is used for monitoring a process node of electric quantity data reporting; the electric quantity data reporting and monitoring module comprises a node processing data acquisition unit and a monitoring abnormality prompting unit;

the node processing data acquisition unit is used for setting a plurality of electric quantity data reporting process nodes according to the whole electric quantity data reporting process and setting processing standard parameters of the electric quantity data reporting process nodes; the processing standard parameters comprise processing time and processing result data, and a threshold range of the processing time and a processing result data standard matching library are set;

the monitoring abnormality prompting unit is used for monitoring and acquiring processing data of the reporting process node based on the electric quantity data reporting process monitoring model; based on the processing standard parameters, evaluating and analyzing the processing data, if the processing time in the processing data exceeds the processing time threshold range, or if the processing result data in the processing data is not matched with the processing result data standard matching library, sending out a processing abnormality prompt, positioning to an abnormal reporting process node, and displaying through an application layer.

The beneficial effects of the technical scheme are as follows: by adopting the scheme provided by the embodiment, the abnormal problem in the circuit data transmission process can be found in time by monitoring the process node of the electric quantity data report, and the abnormal problem can be displayed in time according to the abnormal prompt, so that a detailed basis is provided for coping with the process.

In one embodiment, the system further comprises an electric quantity report scheduling module; the electric quantity reporting and scheduling module comprises an electric quantity data statistics unit, an electric quantity data analysis unit and a power station scheduling processing unit;

the electric quantity data statistics unit is used for carrying out statistics on the checked electric quantity data to obtain comprehensive statistics result data and substation electric quantity statistics result data of a plurality of new energy power stations;

the electric quantity data analysis unit is used for respectively carrying out predictive analysis on the comprehensive statistical result data and the substation electric quantity statistical result data based on the neural network model to obtain a comprehensive electric quantity predictive analysis result and a substation electric quantity predictive analysis result;

the power station scheduling processing unit is used for obtaining the power generation capacity of the new energy power station in the production operation stage according to the substation electric quantity prediction analysis result, and grading the capacity of the new energy power station based on the power generation capacity of the new energy power station in the production operation stage to obtain the capacity grade of the new energy power station;

acquiring an actual power generation capacity target value, and acquiring a power generation capacity predicted value according to a comprehensive electric quantity predicted analysis result; and according to the difference value of the power generation capacity target value and the power generation capacity predicted value, combining the capacity rating and the historical power generation capacity data of the new energy power station, and carrying out stage scheduling management on the production operation of the new energy power station by utilizing a power station production scheduling model.

The working principle of the technical scheme is as follows: the system also comprises an electric quantity reporting and scheduling module; the electric quantity reporting and scheduling module comprises an electric quantity data statistics unit, an electric quantity data analysis unit and a power station scheduling processing unit;

the electric quantity data statistics unit is used for carrying out statistics on the checked electric quantity data to obtain comprehensive statistics result data and substation electric quantity statistics result data of a plurality of new energy power stations;

the electric quantity data analysis unit is used for respectively carrying out predictive analysis on the comprehensive statistical result data and the substation electric quantity statistical result data based on the neural network model to obtain a comprehensive electric quantity predictive analysis result and a substation electric quantity predictive analysis result;

the power station scheduling processing unit is used for obtaining the power generation capacity of the new energy power station in the production operation stage according to the substation electric quantity prediction analysis result, and grading the capacity of the new energy power station based on the power generation capacity of the new energy power station in the production operation stage to obtain the capacity grade of the new energy power station;

acquiring an actual power generation capacity target value, and acquiring a power generation capacity predicted value according to a comprehensive electric quantity predicted analysis result; and according to the difference value of the power generation capacity target value and the power generation capacity predicted value, combining the capacity rating and the historical power generation capacity data of the new energy power station, and carrying out stage scheduling management on the production operation of the new energy power station by utilizing a power station production scheduling model.

The beneficial effects of the technical scheme are as follows: by adopting the scheme provided by the embodiment, the capacity of the new energy power station can be pertinently scheduled according to the prediction and analysis of the electric quantity, and the management level of the new energy power station can be improved.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (10)

1. Electric quantity reporting system based on new energy power station electric power production operation stage, which is characterized by comprising:

the electric quantity data receiving subsystem construction module is used for constructing an electric quantity data receiving subsystem based on micro-service by utilizing a Springclosed framework and a Vue framework of a JAVA programming language;

the electric quantity data reporting module is used for reporting electric quantity data to the electric quantity data receiving subsystem based on a data acquisition and monitoring control platform and a centralized control subsystem of electric power production operation of the new energy power station in a database access mode, processing fault information by utilizing message middleware and carrying out data automation synchronization by utilizing a robot flow automation technology;

and the electric quantity data checking module is used for checking the electric quantity data based on a preset data standard.

2. The electric quantity reporting system based on the electric power production operation stage of the new energy power station as claimed in claim 1, wherein the electric quantity data receiving subsystem comprises a base layer, a platform layer, a business service layer and an application layer; the base layer is used for acquiring electric quantity data; the platform layer is used for storing electric quantity data; the business service layer is used for analyzing and managing the conditions of the electric power production operation stage based on the electric quantity data; the application layer is used for displaying the electricity quantity data reporting condition at the PC end, the APP end of the mobile terminal equipment and the applet of the mobile terminal equipment.

3. The electric quantity reporting system based on the electric power production operation stage of the new energy power station as claimed in claim 1, wherein the electric quantity data reporting module comprises a data transmission unit, a fault information processing unit and a data automation processing unit;

the data transmission unit is used for transmitting the switch electric quantity code table value in the database of the centralized control subsystem to the electric quantity data receiving subsystem;

the fault information processing unit is used for processing fault information in the centralized control subsystem by utilizing the message middleware;

and the data automation processing unit is used for carrying out data automation synchronization by utilizing a robot process automation technology.

4. The electric quantity reporting system based on the new energy power station electric power production operation stage according to claim 3, wherein the data transmission unit comprises a switching electric quantity code table value recording acquisition subunit and a switching electric quantity code table value transmission subunit;

the switching electric quantity code table value record acquisition sub-unit is used for acquiring electric quantity acquisition data by utilizing a data acquisition and monitoring control platform for electric power production operation of the new energy power station based on the centralized control sub-system and storing the electric quantity acquisition data in a relational database in the centralized control sub-system; acquiring a switch electric quantity code table value record based on electric quantity acquisition data;

the switching electric quantity code table value transmission subunit is used for accessing the historical switching electric quantity code table value record of the relational database according to a preset access mode and according to the access link and account authority of the relational database provided by the centralized control subsystem to obtain a switching electric quantity code table value; the preset access mode is as follows: the access is performed periodically, or at a fixed time, or at the last moment of time of day.

5. The electric quantity reporting system based on the electric power production operation stage of the new energy power station as claimed in claim 4, wherein the switching electric quantity code table value conveying subunit further comprises a data modification confirmation subunit and a data modification record inquiry subunit;

the data modification confirmation molecular unit is used for acquiring the switch electric quantity code table value to be confirmed in the history switch electric quantity code table value record of the relational database, and confirming or revising the switch electric quantity code table value to be confirmed based on a preset data modification confirmation operation page to obtain the switch electric quantity code table value;

and the data modification record inquiring molecular unit is used for inquiring the application program based on the preset data modification record and inquiring the historical modification record of the switch electric quantity code table value.

6. The electric quantity reporting system based on the electric power production operation stage of the new energy power station according to claim 3, wherein the fault information processing unit is used for shielding and pushing invalid fault messages by utilizing message middleware in the centralized control subsystem, performing duplication removal and receiving of the fault messages by utilizing the message middleware in the electric quantity data receiving subsystem, and displaying the fault messages in an application layer.

7. The electric quantity reporting system based on the electric power production operation stage of the new energy power station as claimed in claim 3, wherein the data automation processing unit is used for automatically acquiring electric quantity data according to the acquisition conditions set by the electric quantity data receiving subsystem by utilizing the robot process automation technology aiming at the non-system platform data; the non-system platform data are: system platform data that is not capable of processing data with the power data receiving subsystem via database access and message middleware.

8. The electric quantity reporting system based on the electric power production operation stage of the new energy power station as claimed in claim 3, wherein the electric quantity data checking module comprises a data standard generating unit and a data checking unit;

the data standard generation unit is used for generating an electric quantity data standard based on the electric power production operation index parameters of the new energy power station;

the data checking unit is used for checking the switch power code table value in the power data receiving subsystem by utilizing a database view technology based on the power data standard data.

9. The electric quantity reporting system based on the electric power production operation stage of the new energy power station as claimed in claim 2, further comprising an electric quantity data reporting monitoring module for monitoring a process node of the electric quantity data reporting; the electric quantity data reporting and monitoring module comprises a node processing data acquisition unit and a monitoring abnormality prompting unit;

the node processing data acquisition unit is used for setting a plurality of electric quantity data reporting process nodes according to the whole electric quantity data reporting process and setting processing standard parameters of the electric quantity data reporting process nodes; the processing standard parameters comprise processing time and processing result data, and a threshold range of the processing time and a processing result data standard matching library are set;

the monitoring abnormality prompting unit is used for monitoring and acquiring processing data of the reporting process node based on the electric quantity data reporting process monitoring model; based on the processing standard parameters, evaluating and analyzing the processing data, if the processing time in the processing data exceeds the processing time threshold range, or if the processing result data in the processing data is not matched with the processing result data standard matching library, sending out a processing abnormality prompt, positioning to an abnormal reporting process node, and displaying through an application layer.

10. The electric quantity reporting system based on the new energy power station electric power production operation stage according to claim 1, further comprising an electric quantity reporting scheduling module; the electric quantity reporting and scheduling module comprises an electric quantity data statistics unit, an electric quantity data analysis unit and a power station scheduling processing unit;

the electric quantity data statistics unit is used for carrying out statistics on the checked electric quantity data to obtain comprehensive statistics result data and substation electric quantity statistics result data of a plurality of new energy power stations;

the electric quantity data analysis unit is used for respectively carrying out predictive analysis on the comprehensive statistical result data and the substation electric quantity statistical result data based on the neural network model to obtain a comprehensive electric quantity predictive analysis result and a substation electric quantity predictive analysis result;

the power station scheduling processing unit is used for obtaining the power generation capacity of the new energy power station in the production operation stage according to the substation electric quantity prediction analysis result, and grading the capacity of the new energy power station based on the power generation capacity of the new energy power station in the production operation stage to obtain the capacity grade of the new energy power station;

acquiring an actual power generation capacity target value, and acquiring a power generation capacity predicted value according to a comprehensive electric quantity predicted analysis result; and according to the difference value of the power generation capacity target value and the power generation capacity predicted value, combining the capacity rating and the historical power generation capacity data of the new energy power station, and carrying out stage scheduling management on the production operation of the new energy power station by utilizing a power station production scheduling model.