CN114217574A - Energy grid construction system and method based on energy and load matching - Google Patents

Abstract

Translated fromChinese

本发明提供了一种基于能源及负荷匹配的能源网架构建系统，包括匹配模块、信息采集模块和执行模块，所述匹配模块的数据输入端与信息采集模块连接，信息采集模块的数据输出端执行模块连接。本发明所提供的基于能源及负荷匹配的能源网架构建系统通过采集能源系统和负荷系统信息，包括能源信息和负荷信息，将能源信息和负荷信息进行数据匹配后输入能源网架构建模型运算，得到运算结果，并对对能源网架模型进行修正，得到目标能源网架模型，根据目标能源网架模型构建能源网架。

The invention provides an energy grid construction system based on energy and load matching, comprising a matching module, an information collection module and an execution module, wherein a data input end of the matching module is connected with the information collection module, and a data output end of the information collection module is connected. Perform module connection. The energy grid construction system based on energy and load matching provided by the present invention collects energy system and load system information, including energy information and load information, matches the energy information and load information, and then inputs the energy grid construction model calculation. The calculation result is obtained, and the energy grid model is revised to obtain the target energy grid model, and the energy grid is constructed according to the target energy grid model.

Description

Energy grid construction system and method based on energy and load matching

Technical Field

The invention belongs to the technical field of energy grid construction, and particularly relates to an energy grid construction system and method based on energy and load matching.

Background

In order to meet the requirement of large-scale new energy delivery, compared with the traditional power grid, the new energy power grid has the more fresh and clear characteristics in the following aspects: the method becomes a large-scale new energy power transmission and distribution network; organically integrated with a distributed power supply, an energy storage device and an energy comprehensive efficient utilization system to form a flexible and efficient intelligent energy network; the power supply system has extremely high power supply reliability and safety, and the large-area power failure risk is basically eliminated; the system is deeply integrated with an information communication system to become an integrated service system of energy, electric power and information.

At present, the research on the construction of large-scale new energy net racks is still in a starting stage, so the invention provides an energy net rack construction system and method based on energy and load matching.

Disclosure of Invention

The invention provides an energy grid construction system and method based on energy and load matching, and aims to solve the problem.

The invention is realized in this way, an energy grid construction system based on energy and load matching comprises a matching module, an information acquisition module and an execution module, wherein the data input end of the matching module is connected with the information acquisition module, and the data output end of the information acquisition module is connected with the execution module, wherein:

the information acquisition module is used for respectively acquiring information of the energy system and the load system, wherein the information comprises energy information and load information, and sending the energy information data and the load information data to the matching module;

the matching module is used for receiving the energy information data and the load information data sent by the information acquisition module, inputting the energy information data and the load information data into the energy network architecture building model to obtain an operation result, and sending the operation result to the execution module;

and the execution module is used for receiving the operation result sent by the matching module and sending an execution instruction to the energy system and the load system according to the matching result.

Preferably, the information acquisition module comprises an energy information acquisition unit, a load demand acquisition module, a data processing unit and a data sending unit, wherein the energy information acquisition unit and the load demand acquisition module are connected with the data processing unit, and the data processing unit is connected with the data sending unit.

Preferably, the energy information data includes numerical data representing the capacity of the energy system and number data representing the energy system, that is, one number data corresponds to one energy system.

Preferably, the load information data comprises energy demand value data characterizing the load system and number data characterizing the load system, i.e. one number data characterizes one load system.

Preferably, the information acquisition module further comprises a data storage module, and the data storage module is connected with the data processing unit.

Preferably, the matching module comprises a data input unit, a demand integration unit, a processing unit and an instruction sending unit, wherein the data input unit is connected with the demand integration unit, the demand integration unit is connected with the processing unit, and the processing unit is connected with the instruction sending unit.

Preferably, the processing unit comprises a requirement input unit, a model calling unit, a model analysis unit and a result output unit, wherein the requirement input unit is connected with the model calling unit, the model calling unit is connected with the model analysis unit, and the model analysis unit is connected with the result output unit.

Preferably, the processing unit further comprises a model library, and the model library stores at least one energy grid architecture building model pre-input by a user.

Preferably, the system further comprises a feedback module and a monitoring module, wherein the monitoring module is connected with the execution module and the feedback module, and the feedback module is further connected with the execution module and the matching module.

A method for constructing a system by an energy grid based on energy and load matching comprises the following steps:

s001, acquiring information of an energy system and a load system, wherein the information comprises energy information and load information, and inputting the energy information and the load information after data matching into an energy network architecture model building operation to obtain an operation result;

s002, generating an execution instruction according to the operation result, and sending the execution instruction to the energy system and the load system information to obtain an execution result and feedback information;

and S003, correcting the energy grid model according to the feedback information to obtain a target energy grid model, and constructing an energy grid according to the target energy grid model.

Compared with the prior art, the embodiment of the application mainly has the following beneficial effects:

the energy grid construction system based on energy and load matching acquires the energy system and load system information including the energy information and the load information, performs data matching on the energy information and the load information, inputs the data to the energy grid construction model for operation to obtain an operation result, corrects the energy grid model to obtain a target energy grid model, and constructs an energy grid according to the target energy grid model.

Drawings

Fig. 1 is a block diagram of an energy grid construction system based on energy and load matching according to the present invention;

fig. 2 is a block diagram of an information acquisition module in an energy grid construction system based on energy and load matching according to the present invention.

Fig. 3 is a block diagram of a matching module in an energy grid construction system based on energy and load matching according to the present invention.

Fig. 4 is a block diagram of a processing unit in an energy grid construction system based on energy and load matching according to the present invention.

Fig. 5 is a flowchart of an energy grid construction method based on energy and load matching according to the present invention.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used in the description of the application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "including" and "having," and any variations thereof, in the description and claims of this application and the description of the above figures are intended to cover non-exclusive inclusions. The terms "first," "second," and the like in the description and claims of this application or in the above-described drawings are used for distinguishing between different objects and not for describing a particular order.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Example 1

Referring to fig. 1 to 4, an embodiment of the present invention provides an energy grid construction system based on energy and load matching, including a matching module 100, an information acquisition module 200, and an execution module 300, where a data input end of the matching module 100 is connected to the information acquisition module 200, and a data output end of the information acquisition module 200 is connected to the execution module 300, where:

the information acquisition module 200 is configured to acquire information of the energy system and the load system, respectively, where the information includes energy information and load information, and send the energy information data and the load information data to the matching module 100;

the matching module 100 is configured to receive the energy information data and the load information data sent by the information acquisition module 200, input the energy information data and the load information data into an energy network architecture modeling model, obtain an operation result, and send the operation result to the execution module 300;

and the execution module 300 is configured to receive the operation result sent by the matching module 100, and send an execution instruction to the energy system and the load system according to the matching result.

In the embodiment of the present invention, the information acquisition module 200 includes an energy information acquisition unit 210, a load demand acquisition module 220, a data processing unit 230, and a data transmission unit 240, where the energy information acquisition unit 210 and the load demand acquisition module 220 are connected to the data processing unit 230, and the data processing unit 230 is connected to the data transmission unit 240, where:

the energy information acquiring unit 210 is configured to acquire energy system information, obtain energy information data, and send the energy information data to the data processing unit 230;

a load demand obtaining module 220, configured to collect load system information, obtain load information data, and send the load information data to the data processing unit 230;

a data processing unit 230, configured to receive the energy information data sent by the energy information obtaining unit 210; and

receiving load information data sent by the load demand acquisition module 220; and

the data processing unit is configured to perform data processing on the energy information data and the load information data to obtain standard data, and send the standard data to the data sending unit 240;

a data sending unit 240, configured to receive the standard data sent by the data processing unit 230, and send the standard data to the matching module 100;

in the embodiment of the present invention, it should be noted that the energy information data includes numerical data representing the capacity quantity of the energy system and serial number data representing the energy system, that is, one serial number data corresponds to one energy system, the energy system includes a conventional energy station and a new energy station, specifically, the conventional energy station includes a thermal power plant, a natural gas power plant, and the like, and the new energy station includes a wind power plant, a solar power plant, and the like;

furthermore, the load information data includes energy demand value data representing the load system and number data representing the load system, that is, one number data represents one load system, and the load system is generally a power grid in a certain area in practical application;

further, in the embodiment of the present invention, the information acquisition module 200 further includes a data storage module 250, the data storage module 250 is connected to the data processing unit 230, the data storage module 250 is configured to receive standard data sent by the data processing unit 230 and store the standard data, and the storage mode includes local storage and cloud storage, so as to backup the data;

it is understood that when the data processing unit 230 is connected with the data storage module 250, the data processing unit 230 is also used to transmit the standard data to the data storage module 250.

In an embodiment of the present invention, the matching module 100 includes a data input unit 110, a requirement integration unit 120, a processing unit 130, and an instruction sending unit 140, where the data input unit 110 is connected to the requirement integration unit 120, the requirement integration unit 120 is connected to the processing unit 130, and the processing unit 130 is connected to the instruction sending unit 140, where:

the data input unit 110 is configured to receive the energy information data and the load information data sent by the information acquisition module 200, and send the energy information data and the load information data to the requirement sorting unit 120;

a requirement integration unit 120, configured to receive the energy information data and the load information data sent by the data input unit 110, perform data matching on the energy information data and the load information data, generate a matching result, and send the matching result to the processing unit 130;

a processing unit 130, configured to receive the matching result sent by the requirement integrating unit 120;

acquiring an energy network architecture building model;

inputting the matching result data into the energy network architecture modeling to obtain a model operation result, and sending the operation result to the instruction sending unit 140;

the instruction sending unit 140 is configured to receive the operation result sent by the processing unit 130, generate an execution instruction according to the operation result, and send the execution instruction to the execution module 300.

Further, in the embodiment of the present invention, the processing unit 130 includes arequirement input unit 134, a model calling unit 131, a model analyzing unit 132, and a result output unit 133, where therequirement input unit 134 is connected to the model calling unit 131, the model calling unit 131 is connected to the model analyzing unit 132, and the model analyzing unit 132 is connected to the result output unit 133;

still further, the processing unit 130 further includes a model library 150, where the model library 150 stores at least one energy grid architecture model pre-input by a user, so that the model library is called and obtained by the model calling unit 131.

Example 2

Referring to fig. 1 to 4, an embodiment of the present invention provides an energy grid construction system based on energy and load matching, including a matching module 100, an information acquisition module 200, and an execution module 300, where a data input end of the matching module 100 is connected to the information acquisition module 200, and a data output end of the information acquisition module 200 is connected to the execution module 300, where:

the information acquisition module 200 is configured to acquire information of the energy system and the load system, respectively, where the information includes energy information and load information, and send the energy information data and the load information data to the matching module 100;

the matching module 100 is configured to receive the energy information data and the load information data sent by the information acquisition module 200, input the energy information data and the load information data into an energy network architecture modeling model, obtain an operation result, and send the operation result to the execution module 300;

and the execution module 300 is configured to receive the operation result sent by the matching module 100, and send an execution instruction to the energy system and the load system according to the matching result.

In the embodiment of the present invention, the information acquisition module 200 includes an energy information acquisition unit 210, a load demand acquisition module 220, a data processing unit 230, and a data transmission unit 240, where the energy information acquisition unit 210 and the load demand acquisition module 220 are connected to the data processing unit 230, and the data processing unit 230 is connected to the data transmission unit 240, where:

the energy information acquiring unit 210 is configured to acquire energy system information, obtain energy information data, and send the energy information data to the data processing unit 230;

a load demand obtaining module 220, configured to collect load system information, obtain load information data, and send the load information data to the data processing unit 230;

a data processing unit 230, configured to receive the energy information data sent by the energy information obtaining unit 210; and

receiving load information data sent by the load demand acquisition module 220; and

the data processing unit is configured to perform data processing on the energy information data and the load information data to obtain standard data, and send the standard data to the data sending unit 240;

a data sending unit 240, configured to receive the standard data sent by the data processing unit 230, and send the standard data to the matching module 100;

in the embodiment of the present invention, it should be noted that the energy information data includes numerical data representing the capacity quantity of the energy system and serial number data representing the energy system, that is, one serial number data corresponds to one energy system, the energy system includes a conventional energy station and a new energy station, specifically, the conventional energy station includes a thermal power plant, a natural gas power plant, and the like, and the new energy station includes a wind power plant, a solar power plant, and the like;

furthermore, the load information data includes energy demand value data representing the load system and number data representing the load system, that is, one number data represents one load system, and the load system is generally a power grid in a certain area in practical application;

further, in the embodiment of the present invention, the information acquisition module 200 further includes a data storage module 250, the data storage module 250 is connected to the data processing unit 230, the data storage module 250 is configured to receive standard data sent by the data processing unit 230 and store the standard data, and the storage mode includes local storage and cloud storage, so as to backup the data;

it is understood that when the data processing unit 230 is connected with the data storage module 250, the data processing unit 230 is also used to transmit the standard data to the data storage module 250.

In an embodiment of the present invention, the matching module 100 includes a data input unit 110, a requirement integration unit 120, a processing unit 130, and an instruction sending unit 140, where the data input unit 110 is connected to the requirement integration unit 120, the requirement integration unit 120 is connected to the processing unit 130, and the processing unit 130 is connected to the instruction sending unit 140, where:

the data input unit 110 is configured to receive the energy information data and the load information data sent by the information acquisition module 200, and send the energy information data and the load information data to the requirement sorting unit 120;

a requirement integration unit 120, configured to receive the energy information data and the load information data sent by the data input unit 110, perform data matching on the energy information data and the load information data, generate a matching result, and send the matching result to the processing unit 130;

a processing unit 130, configured to receive the matching result sent by the requirement integrating unit 120;

acquiring an energy network architecture building model;

inputting the matching result data into the energy network architecture modeling to obtain a model operation result, and sending the operation result to the instruction sending unit 140;

the instruction sending unit 140 is configured to receive the operation result sent by the processing unit 130, generate an execution instruction according to the operation result, and send the execution instruction to the execution module 300.

Further, in the embodiment of the present invention, the processing unit 130 includes arequirement input unit 134, a model calling unit 131, a model analyzing unit 132, and a result output unit 133, where therequirement input unit 134 is connected to the model calling unit 131, the model calling unit 131 is connected to the model analyzing unit 132, and the model analyzing unit 132 is connected to the result output unit 133;

still further, the processing unit 130 further includes a model library 150, where the model library 150 stores at least one energy grid architecture model pre-input by a user, so that the model library is called and obtained by the model calling unit 131.

Referring to fig. 1 again, the embodiment of the invention is different from embodiment 1 in that:

the system further comprises a feedback module 500 and a monitoring module 400, wherein the monitoring module 400 is connected with the execution module 300 and the feedback module 500, the feedback module 500 is further connected with the execution module 300 and the matching module 100, and the following steps:

a monitoring module 400, configured to obtain an execution command of the execution module 300; and,

Acquiring an execution result of the feedback module 500;

a feedback module 500, configured to obtain an execution command of the instruction module 300; and

executing the execution command in the energy system and the load system to obtain an execution result; and

feedback information is generated according to the instruction result and input to the matching module 100.

Referring to fig. 3 and 4 again, the feedback module 500 is connected to the processing unit 130, specifically:

the processing unit 130 further includes a feedback input unit 133, the feedback module 500 is connected to the feedback input unit 133, and the feedback input unit 133 is connected to the model analysis unit 132.

Example 3

Referring to fig. 5, a method for constructing an energy grid based on energy and load matching includes the following steps:

s001, acquiring information of an energy system and a load system, wherein the information comprises energy information and load information, and inputting the energy information and the load information after data matching into an energy network architecture model building operation to obtain an operation result;

s002, generating an execution instruction according to the operation result, and sending the execution instruction to the energy system and the load system information to obtain an execution result and feedback information;

and S003, correcting the energy grid model according to the feedback information to obtain a target energy grid model, and constructing an energy grid according to the target energy grid model.

It should be noted that, for simplicity of description, the above-mentioned embodiments are described as a series of acts, but those skilled in the art will recognize that the present invention is not limited by the order of acts, as some steps may occur in other orders or concurrently in accordance with the invention. Further, those skilled in the art should also appreciate that the embodiments described in the specification are preferred embodiments and that the acts and modules referred to are not necessarily required by the invention.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus may be implemented in other manners. For example, the above-described embodiments of the apparatus are merely illustrative, and for example, the above-described division of the units is only one type of division of logical functions, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or communication connection may be an indirect coupling or communication connection between devices or units through some interfaces, and may be in a telecommunication or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

The above examples are only used to illustrate the technical solutions of the present invention, and do not limit the scope of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from these embodiments without making any inventive step, fall within the scope of the present invention. Although the present invention has been described in detail with reference to the above embodiments, those skilled in the art may still make various combinations, additions, deletions or other modifications of the features of the embodiments of the present invention according to the situation without conflict, so as to obtain different technical solutions without substantially departing from the spirit of the present invention, and these technical solutions also fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides an energy rack system of constructing based on energy and load match which characterized in that, includes matching module, information acquisition module and execution module, matching module's data input end and information acquisition module are connected, and information acquisition module's data output end execution module connects, wherein:

the information acquisition module is used for respectively acquiring information of the energy system and the load system, wherein the information comprises energy information and load information, and sending the energy information data and the load information data to the matching module;

the matching module is used for receiving the energy information data and the load information data sent by the information acquisition module, inputting the energy information data and the load information data into the energy network architecture building model to obtain an operation result, and sending the operation result to the execution module;

and the execution module is used for receiving the operation result sent by the matching module and sending an execution instruction to the energy system and the load system according to the matching result.

2. The energy grid construction system based on energy and load matching as claimed in claim 1, wherein the information acquisition module comprises an energy information acquisition unit and a load demand acquisition module, a data processing unit and a data transmission unit, the energy information acquisition unit and the load demand acquisition module are connected with the data processing unit, and the data processing unit is connected with the data transmission unit.

3. The energy grid construction system based on energy and load matching according to claim 2, wherein the energy information data comprises numerical data representing the capacity of the energy system and number data representing the energy system, i.e. one number data corresponds to one energy system.

4. An energy grid construction system based on energy and load matching according to claim 2, wherein the load information data comprises energy demand numerical data characterizing the load system and number data characterizing the load system, i.e. one number data characterizes one load system.

5. The energy grid construction system based on energy and load matching as claimed in claim 2, wherein the information collection module further comprises a data storage module, and the data storage module is connected with the data processing unit.

6. The energy grid construction system based on energy and load matching as claimed in claim 1, wherein the matching module comprises a data input unit, a demand integration unit, a processing unit and a command transmission unit, the data input unit is connected with the demand integration unit, the demand integration unit is connected with the processing unit, and the processing unit is connected with the command transmission unit.

7. The energy grid construction system based on energy and load matching as claimed in claim 6, wherein the processing unit comprises a demand input unit, a model calling unit, a model analysis unit and a result output unit, the demand input unit is connected with the model calling unit, the model calling unit is connected with the model analysis unit, and the model analysis unit is connected with the result output unit.

8. The energy grid construction system based on energy and load matching as claimed in claim 7, wherein the processing unit further comprises a model library storing at least one energy grid construction model pre-inputted by a user.

9. The energy grid construction system based on energy and load matching as claimed in claim 8, further comprising a feedback module and a monitoring module, wherein the monitoring module is connected with the execution module and the feedback module, and the feedback module is further connected with the execution module and the matching module.

10. The method for constructing a system based on energy grid structure matching of energy sources and loads according to any one of claims 1 to 9, comprising the steps of:

s001, acquiring information of an energy system and a load system, wherein the information comprises energy information and load information, and inputting the energy information and the load information after data matching into an energy network architecture model building operation to obtain an operation result;

s002, generating an execution instruction according to the operation result, and sending the execution instruction to the energy system and the load system information to obtain an execution result and feedback information;

and S003, correcting the energy grid model according to the feedback information to obtain a target energy grid model, and constructing an energy grid according to the target energy grid model.

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