CN114240463A - Carbon emission monitoring and management system based on big data - Google Patents

Abstract

The invention discloses a carbon emission monitoring and management system based on big data, relates to the technical field of carbon emission monitoring, and solves the technical problem that a supervision department cannot timely give an early warning and control because accurate monitoring of carbon emission data of an enterprise cannot be realized in the prior art; the central processing unit and the edge processors are used for collecting monitoring data, and electric power data and experience data are supplemented to analyze and early warn carbon emission data of a jurisdiction area or a monitoring area; not only can the key area be accurately monitored in time, but also the whole area can be macroscopically analyzed and regulated, so that a supervision unit can conveniently manage and control carbon emission data in time; the carbon emission early warning threshold value of the jurisdiction area is obtained through the remote sensing technology, the remote sensing technology range and the aging advantage are fully utilized, the carbon emission mean value in a certain time period is obtained, the state of carbon emission data in the current jurisdiction area is analyzed, and early warning and early regulation and control of the carbon emission data are facilitated for workers.

Description

Carbon emission monitoring and management system based on big data

Technical Field

The invention belongs to the field of carbon emission monitoring, relates to a carbon emission monitoring and management technology based on big data, and particularly relates to a carbon emission monitoring and management system based on big data.

Background

Carbon emission is a general term for greenhouse gas emission, and a large amount of greenhouse gas is generated in both life and production processes; enterprises can generate a large amount of waste gas in the production process, and the waste gas is discharged after being treated, namely the carbon emission process; since carbon emissions have a great influence on the environment, it is very important to accurately monitor and manage the carbon emissions.

In the exhaust emission process of the existing enterprise, the situations of standard exceeding, emission stealing and the like easily occur, the carbon emission exceeds the standard due to untimely equipment updating, and a supervision unit cannot accurately monitor the carbon emission process of the enterprise through the prior art, so that the early warning and control on the carbon emission of the enterprise cannot be realized; therefore, a carbon emission monitoring and management system capable of accurately monitoring carbon emission data of an enterprise is needed.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art; therefore, the invention provides a carbon emission monitoring and management system based on big data, which is used for solving the technical problem that a supervision unit cannot timely early-warning and control because the accurate monitoring of carbon emission data of an enterprise cannot be realized in the prior art.

In order to achieve the above object, an embodiment according to a first aspect of the present invention provides a big data based carbon emission monitoring and management system, which includes a central processing unit, and a plurality of edge processors connected to the central processing unit;

monitoring data are collected through a data collection terminal connected with a plurality of edge processors, data processing is carried out on the monitoring data, and regional carbon emission labels are obtained; sending the monitoring data and the regional carbon emission label to a central processing unit; wherein the monitoring data comprises carbon emission data and power data;

the central processing unit acquires monitoring data and regional carbon emission labels through an edge processor connected with the central processing unit, and acquires comprehensive carbon emission labels and comprehensive early warning labels of the corresponding jurisdiction region of the central processing unit based on the monitoring data and the auxiliary data; performing carbon emission visualization and early warning management on the jurisdiction area based on the regional carbon emission label, the comprehensive carbon emission label and the comprehensive early warning label; the auxiliary data is carbon emission data acquired by a remote sensing technology.

Preferably, each jurisdiction is provided with one central processor, and the edge processors in the jurisdiction are associated with the central processors; each edge processor corresponds to one monitoring area, and the data acquisition terminal in the monitoring area is associated with the edge processor.

Preferably, the edge processor, in combination with the monitoring data acquisition area carbon rank label, comprises:

after receiving the monitoring data, the edge processor performs data processing to obtain initial data; wherein, the data processing comprises data supplement and data deduplication;

extracting carbon emission data and power data in the initial data;

setting a regional carbon emission label by comparing and analyzing the carbon emission data and a regional carbon emission threshold; wherein, the regional carbon row threshold value is obtained through power data and a conversion coefficient, or is manually set.

Preferably, the central processing unit obtains the comprehensive early warning tag based on the monitoring data and the auxiliary data, and includes:

after the central processing unit receives the monitoring data, integrating and acquiring the monitoring data of the jurisdiction corresponding to the central processing unit;

extracting carbon emission data in the monitoring data, and simultaneously acquiring a carbon emission early warning threshold value of the jurisdiction area through a remote sensing technology;

and comparing and analyzing the carbon emission data of the jurisdiction area and the carbon emission early warning threshold value, and setting a comprehensive early warning label.

Preferably, before the central processing unit acquires the comprehensive early warning label, the comprehensive carbon emission label is acquired by combining the monitoring data of the jurisdiction area;

when the carbon emission data of the jurisdiction area is smaller than the comprehensive carbon emission threshold value, acquiring a comprehensive early warning label of the jurisdiction area; wherein, the comprehensive carbon emission threshold value is obtained through electric power data and a conversion coefficient.

Preferably, the step of obtaining the carbon emission early warning threshold value of the jurisdiction area through the remote sensing technology comprises the following steps:

acquiring a preset evaluation period; wherein the evaluation period comprises one month, one quarter, and one year;

and taking the current moment as a starting point, obtaining the average value of carbon emission data of the jurisdiction in the evaluation period, and marking the average value as a carbon emission early warning threshold value.

Preferably, the central processing unit performs carbon emission visualization and early warning management on the jurisdiction, and includes:

acquiring position information of an edge processor or a data acquisition terminal;

the GIS service platform establishes a visual model according to the position relation, and displays the regional carbon emission label, the comprehensive carbon emission label and the comprehensive early warning label in the visual model;

and meanwhile, carrying out manual early warning or automatic early warning according to the visual model.

Preferably, in the visual model, the regional carbon emission label, the comprehensive carbon emission label and the comprehensive early warning label are displayed in different colors.

Preferably, the data acquisition terminal comprises a carbon emission tracker, a fixed source carbon emission online monitoring device and an unorganized carbon emission online monitoring device; and the data acquisition terminal is in communication and/or electrical connection with its associated edge processor; the edge processor is in communication and/or electrical connection with the central processor.

Compared with the prior art, the invention has the beneficial effects that:

1. the central processing unit and the edge processors are used for collecting monitoring data, and electric power data and experience data are supplemented to analyze and early warn carbon emission data of a jurisdiction area or a monitoring area; the method can not only timely and accurately monitor key areas, but also can perform macroscopic analysis and regulation on the whole area, and is convenient for supervision units to timely manage and control carbon emission data.

2. The carbon emission early warning threshold value of the jurisdiction area is obtained through the remote sensing technology, the remote sensing technology range and the aging advantage are fully utilized, the carbon emission mean value in a certain time period is obtained, the state of carbon emission data in the current jurisdiction area is analyzed, and early warning and early regulation and control of the carbon emission data are facilitated for workers.

Drawings

FIG. 1 is a schematic diagram of the working steps of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Carbon emission is a general term for greenhouse gas emission, and a large amount of greenhouse gas is generated in both life and production processes; enterprises can generate a large amount of waste gas in the production process, and the waste gas is discharged after being treated, namely the carbon emission process; since carbon emissions have a great influence on the environment, it is very important to accurately monitor and manage the carbon emissions.

In the exhaust emission process of the existing enterprise, the situations of standard exceeding, emission stealing and the like easily occur, the carbon emission exceeds the standard due to untimely equipment updating, and a supervision unit cannot accurately monitor the carbon emission process of the enterprise through the prior art, so that the early warning and control on the carbon emission of the enterprise cannot be realized; according to the invention, the carbon emission data of an enterprise or a park is collected through the data collection terminal, and is verified by assisting with the electric power data, and the carbon emission data of the jurisdiction area is analyzed by combining the remote sensing technology, so that accurate monitoring and early warning of carbon emission are realized.

Referring to fig. 1, the present application provides a carbon emission monitoring and management system based on big data, which includes a central processing unit, and a plurality of edge processors connected to the central processing unit;

monitoring data are collected through a data collection terminal connected with a plurality of edge processors, data processing is carried out on the monitoring data, and regional carbon emission labels are obtained; sending the monitoring data and the regional carbon emission label to a central processing unit;

the central processing unit acquires monitoring data and regional carbon emission labels through an edge processor connected with the central processing unit, and acquires comprehensive carbon emission labels and comprehensive early warning labels of the corresponding jurisdiction region of the central processing unit based on the monitoring data and the auxiliary data; and performing carbon emission visualization and early warning management on the jurisdiction area based on the regional carbon emission label, the comprehensive carbon emission label and the comprehensive early warning label.

The monitoring data in the application comprises carbon emission data and power data; the data acquisition terminal specifically comprises a carbon emission tracker, fixed source carbon emission online monitoring equipment and unorganized carbon emission online monitoring equipment; patent invention with CN102651150B as a carbon emission tracker, an on-line monitoring device for carbon emission from a fixed source, and an on-line monitoring device for carbon emission from an unorganized source (Forum article) as references (https://zhuanlan.zhihu.com/p/382855000) Introduction of (1).

In the application, each jurisdiction is provided with one central processing unit, and an edge processor in the jurisdiction is associated with the central processing unit; it is understood that a jurisdiction may be an administrative area, such as a city, or may be a self-defined area; the central processing unit in each jurisdiction is used as a monitoring center to comprehensively monitor the carbon emission data of the whole jurisdiction.

In the application, each edge processor corresponds to one monitoring area, and a data acquisition terminal in the monitoring area is associated with the edge processor; obviously, the monitoring area of the present application is smaller than the jurisdiction area, for example, when the jurisdiction area is a city, the monitoring area may be an economic development area in the city area, and when the jurisdiction area is a development area, the monitoring area may be an enterprise in the development area.

Therefore, the central processor is connected with a plurality of edge processors, and the edge processors can be arranged in an enterprise or a comprehensive monitoring center in a monitoring area.

The data acquisition terminal is in communication and/or electrical connection with an edge processor associated therewith; the edge processor is in communication and/or electrical connection with the central processor; essentially, edge computing techniques are utilized.

In one embodiment, the edge processor in combination with monitoring the data acquisition area carbon rank labels comprises:

after receiving the monitoring data, the edge processor performs data processing to obtain initial data;

extracting carbon emission data and power data in the initial data;

and setting a regional carbon row label by comparing and analyzing the carbon emission data and the regional carbon row threshold value.

The data processing in this embodiment includes data supplementation, data deduplication, and the like, and mainly aims to ensure the quality of the removed monitoring data.

Specifically, when the carbon emission data of the monitored area corresponding to the edge processor is greater than or equal to the area carbon emission threshold, setting the area carbon emission label to be 1; otherwise, the area carbon rank flag is set to 0.

Notably, the regional carbon black threshold is obtained through power data and a conversion coefficient, or is manually set; the regional carbon emission threshold value in the embodiment is obtained by multiplying the power data by the conversion coefficient; meanwhile, the carbon emission data of the monitoring area can be understood as the sum of the carbon emission data acquired by a plurality of data acquisition terminals.

The conversion coefficient refers to a conversion relation between the enterprise electricity consumption and the enterprise carbon emission data, is determined according to the industry and the scale of the enterprise, and can refer to the following data: 1 degree electricity 0.997 kg "carbon dioxide"; carbon emission data of an enterprise can be well monitored through power consumption, and other illegal carbon emission behaviors can be effectively avoided.

And the product of the power data and the conversion coefficient is used as the regional carbon emission threshold value in the embodiment, which is reasonable, because the carbon emission data of the enterprise can be controlled by limiting the power consumption of the enterprise.

In this embodiment, when the label of the regional carbon emission is 1, the corresponding supervision unit, and the like should be pre-warned so as to be processed as soon as possible.

Before the central processing unit obtains the comprehensive early warning label, the comprehensive carbon emission label is obtained by combining the monitoring data of the jurisdiction area;

when the carbon emission data of the jurisdiction area is smaller than the comprehensive carbon emission threshold value, acquiring a comprehensive early warning label of the jurisdiction area; wherein, the comprehensive carbon emission threshold value is obtained through electric power data and a conversion coefficient.

When the carbon emission data of the jurisdiction region is larger than or equal to the comprehensive carbon emission threshold value, the carbon emission data of the jurisdiction region reaches an early warning critical value, and early warning is needed; however, when the carbon emission data of the jurisdiction area is smaller than the comprehensive carbon emission threshold, the early warning requirement is not met, and the state of the carbon emission data needs to be analyzed to achieve the purpose of early warning, so that when the carbon emission data of the jurisdiction area is smaller than the comprehensive carbon emission threshold, the comprehensive early warning label of the jurisdiction area is obtained.

In one implementation, the central processor obtains a comprehensive early warning tag based on the monitoring data and the auxiliary data, including:

after the central processing unit receives the monitoring data, integrating and acquiring the monitoring data of the jurisdiction corresponding to the central processing unit;

extracting carbon emission data in the monitoring data, and simultaneously acquiring a carbon emission early warning threshold value of the jurisdiction area through a remote sensing technology;

and comparing and analyzing the carbon emission data of the jurisdiction area and the carbon emission early warning threshold value, and setting a comprehensive early warning label.

Specifically, when the carbon emission data of the jurisdiction area is greater than or equal to the carbon emission early warning threshold, the comprehensive early warning label is set to be 1; otherwise, the comprehensive early warning label is set to be 0.

In a specific embodiment, the obtaining of the carbon emission early warning threshold of the jurisdiction area by the remote sensing technology includes:

acquiring a preset evaluation period;

and taking the current moment as a starting point, obtaining the average value of carbon emission data of the jurisdiction in the evaluation period, and marking the average value as a carbon emission early warning threshold value.

In the embodiment, the convenience of the satellite image is fully utilized, the carbon emission data of the jurisdiction area is inverted through the satellite image, and the average value of the carbon emission data of the jurisdiction area in an evaluation period before the current moment is obtained and recorded as the carbon emission early warning threshold.

The embodiment compares the carbon emission data of the current jurisdiction area with the historical data, and provides data reference for monitoring personnel so as to achieve the purpose of early warning.

In this application, central processing unit carries out carbon emission visualization and early warning management to the jurisdiction, includes:

acquiring position information of an edge processor or a data acquisition terminal;

the GIS service platform establishes a visual model according to the position relation, and displays the regional carbon emission label, the comprehensive carbon emission label and the comprehensive early warning label in the visual model; the GIS service platform comprises services or software related to geographic information such as ArcGIS and the like;

and meanwhile, carrying out manual early warning or automatic early warning according to the visual model.

Displaying the position of the edge processor or the data acquisition terminal in a visual model, and displaying the regional carbon emission label, the comprehensive carbon emission label and the comprehensive early warning label in the visual model in real time; specifically, when the area carbon row label and the comprehensive carbon row label are 1, the corresponding position is marked as red, and when the area carbon row label and the comprehensive carbon row label are 0, the corresponding position is marked as green; and when the comprehensive early warning label is 1, marking the corresponding position as yellow.

One of the core points of this application: collecting monitoring data through a central processing unit and a plurality of edge processors, and analyzing and early warning carbon emission data of a jurisdiction area or a monitoring area by assisting with electric power data and empirical data; the method can not only timely and accurately monitor key areas, but also can perform macroscopic analysis and regulation on the whole area, and is convenient for supervision units to timely manage and control carbon emission data.

The core of the application is two: the carbon emission early warning threshold value of the jurisdiction area is obtained through the remote sensing technology, the remote sensing technology range and the aging advantage are fully utilized, the carbon emission mean value in a certain time period is obtained, the state of carbon emission data in the current jurisdiction area is analyzed, early warning of workers is facilitated, and the carbon emission data can be adjusted and controlled early.

The working principle of the invention is as follows:

monitoring data are collected through a data collection terminal connected with a plurality of edge processors, data processing is carried out on the monitoring data, and regional carbon emission labels are set through comparative analysis of carbon emission data and regional carbon emission thresholds.

The central processing unit obtains monitoring data and regional carbon emission labels through the edge processor connected with the central processing unit, and obtains comprehensive carbon emission labels of the jurisdiction area by combining the monitoring data and the comprehensive carbon emission threshold value.

When the carbon emission data of the jurisdiction area is smaller than the comprehensive carbon emission threshold, acquiring a carbon emission early warning threshold of the jurisdiction area by combining a remote sensing technology; and comparing and analyzing the carbon emission data of the jurisdiction area and the carbon emission early warning threshold value, and setting a comprehensive early warning label.

Although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the present invention.

Claims (8)

1. Carbon emission monitoring management system based on big data, including central processing unit to and a plurality of marginal treater that are connected with central processing unit, its characterized in that includes:

monitoring data are collected through a data collection terminal connected with a plurality of edge processors, data processing is carried out on the monitoring data, and regional carbon emission labels are obtained; sending the monitoring data and the regional carbon emission label to a central processing unit; wherein the monitoring data comprises carbon emission data and power data;

the central processing unit acquires monitoring data and regional carbon emission labels through an edge processor connected with the central processing unit, and acquires comprehensive carbon emission labels and comprehensive early warning labels of the corresponding jurisdiction region of the central processing unit based on the monitoring data and the auxiliary data; performing carbon emission visualization and early warning management on the jurisdiction area based on the regional carbon emission label, the comprehensive carbon emission label and the comprehensive early warning label; the auxiliary data is carbon emission data acquired by a remote sensing technology.

2. The big data based carbon emission monitoring and management system according to claim 1, wherein one central processor is provided for each jurisdiction, and the edge processors in the jurisdiction are associated with the central processor; each edge processor corresponds to one monitoring area, and the data acquisition terminal in the monitoring area is associated with the edge processor.

3. The big-data based carbon emission monitoring and management system according to claim 1, wherein the edge processor in combination with a monitoring data acquisition area carbon rank label comprises:

after receiving the monitoring data, the edge processor performs data processing to obtain initial data; wherein, the data processing comprises data supplement and data deduplication;

extracting carbon emission data and power data in the initial data;

setting a regional carbon emission label by comparing and analyzing the carbon emission data and a regional carbon emission threshold; wherein, the regional carbon row threshold value is obtained through power data and a conversion coefficient, or is manually set.

4. The big data based carbon emission monitoring and management system according to claim 1, wherein the central processor obtains a comprehensive early warning label based on the monitoring data and the auxiliary data, comprising:

after the central processing unit receives the monitoring data, integrating and acquiring the monitoring data of the jurisdiction corresponding to the central processing unit;

extracting carbon emission data in the monitoring data, and simultaneously acquiring a carbon emission early warning threshold value of the jurisdiction area through a remote sensing technology;

and comparing and analyzing the carbon emission data of the jurisdiction area and the carbon emission early warning threshold value, and setting a comprehensive early warning label.

5. The big-data-based carbon emission monitoring and management system according to claim 4, wherein before the central processing unit acquires the comprehensive early warning label, the comprehensive carbon emission label is acquired in combination with monitoring data of the jurisdiction;

when the carbon emission data of the jurisdiction area is smaller than the comprehensive carbon emission threshold value, acquiring a comprehensive early warning label of the jurisdiction area; wherein, the comprehensive carbon emission threshold value is obtained through electric power data and a conversion coefficient.

6. The big data based carbon emission monitoring and management system according to claim 4, wherein the obtaining of carbon emission early warning threshold values of the jurisdiction area by the remote sensing technology comprises:

acquiring a preset evaluation period; wherein the evaluation period comprises one month, one quarter, and one year;

and taking the current moment as a starting point, obtaining the average value of carbon emission data of the jurisdiction in the evaluation period, and marking the average value as a carbon emission early warning threshold value.

7. The big data based carbon emission monitoring and management system according to claim 1, wherein the central processor performs carbon emission visualization and early warning management on the jurisdiction, and comprises:

acquiring position information of an edge processor or a data acquisition terminal;

the GIS service platform establishes a visual model according to the position relation, and displays the regional carbon emission label, the comprehensive carbon emission label and the comprehensive early warning label in the visual model;

and meanwhile, carrying out manual early warning or automatic early warning according to the visual model.

8. The big-data-based carbon emission monitoring and management system according to claim 2, wherein the data acquisition terminal comprises a carbon emission tracker, a fixed-source carbon emission online monitoring device and an unorganized carbon emission online monitoring device; and the data acquisition terminal is in communication and/or electrical connection with its associated edge processor; the edge processor is in communication and/or electrical connection with the central processor.

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