CN114119286A - Building carbon neutralization data real-time transmission system - Google Patents

Abstract

The invention provides a building carbon neutralization data real-time transmission system, which relates to the technical field of carbon neutralization and comprises the following steps: the system comprises a server, a building area dividing unit, an area equipment analysis unit, an area operation analysis unit, a neutralization amount comparison unit and a data transmission unit, wherein the building area dividing unit, the area equipment analysis unit, the area operation analysis unit and the neutralization amount comparison unit are connected with the server; for dividing the building area into a plurality of sub-areas, respectively; acquiring and analyzing the carbon emission information of the equipment in each subregion, and acquiring subregions needing equipment data statistics; acquiring and analyzing carbon emission information of public equipment and personnel of each subregion, and acquiring the subregion required to be operated and collected; acquiring sub-regions which need to be subjected to equipment data statistics and/or carbon difference of each sub-region which needs to be subjected to operation data acquisition; obtaining the carbon allowance of each remaining subarea; comparing the carbon difference with the carbon residue to obtain a carbon neutralization result of the building; and sending the carbon neutralization result to a manager in real time. The invention improves the accuracy and the real-time performance of carbon neutralization data acquisition and transmission.

Description

Building carbon neutralization data real-time transmission system

Technical Field

The invention belongs to the technical field of carbon neutralization, and particularly relates to a building carbon neutralization data real-time transmission system.

Background

Global warming is a consequence of earth climate change caused by human behavior. "carbon" is a natural resource composed of carbon elements such as petroleum, coal, wood, etc. The "carbon" is much more consumed and the very "carbon dioxide" that causes global warming is also much more produced. With human activities, global warming is also changing (affecting) people's lifestyle, bringing about more and more problems.

The term of carbon neutralization and energy conservation and emission reduction refers to that enterprises, groups or individuals measure and calculate the total amount of greenhouse gas emission generated directly or indirectly within a certain time, and the emission of carbon dioxide generated by the enterprises, the groups or the individuals is counteracted through the forms of tree planting, energy conservation and emission reduction and the like, so that the zero emission of the carbon dioxide is realized. And the carbon peak is that the carbon emission enters a stable descending stage after entering a plateau stage. In short, the carbon dioxide emissions "balance out".

In the prior art, the carbon neutralization data of a building are transmitted with low accuracy, and the real-time carbon emission amount and the real-time carbon emission state of each area cannot be accurately analyzed, so that the carbon neutralization data cannot be accurately acquired.

Disclosure of Invention

Aiming at the problems, the invention provides a real-time transmission system for carbon neutralization data of a building, which judges the corresponding state of carbon emission of equipment in each subregion, thereby accurately analyzing the equipment emission of the building and improving the accuracy of carbon neutralization data acquisition.

In order to achieve the above object, the present invention discloses a building carbon neutralization data real-time transmission system, which comprises: the system comprises a server, a building area dividing unit, an area equipment analysis unit, an area operation analysis unit and a neutralization amount comparison unit, wherein the building area dividing unit, the area equipment analysis unit, the area operation analysis unit and the neutralization amount comparison unit are in communication connection with the server;

the building area partitioning unit is configured to:

dividing the building area into a plurality of sub-areas;

the area device analysis unit is configured to:

acquiring and analyzing the carbon emission information of the equipment in each subregion in real time to acquire the subregion needing equipment data statistics;

the regional operation analysis unit is configured to:

acquiring and analyzing the carbon emission information of public equipment and the carbon emission information of personnel of each subregion in real time to acquire the subregion needing operation data acquisition;

the neutralization amount comparison unit is used for:

acquiring the carbon difference quantity of the sub-area which needs to be subjected to equipment data statistics and/or each sub-area which needs to be subjected to operation data acquisition;

obtaining the carbon residue of each of the remaining sub-regions;

comparing the carbon difference with the carbon residue to obtain a carbon neutralization result of the building;

the data transmission unit is configured to:

and sending the carbon neutralization result to a manager in real time.

As a further improvement of the present invention, the carbon weight of the building is divided equally for a plurality of the sub-areas.

As a further improvement of the present invention, the carbon difference amount of each sub-region where device data statistics is required and/or each sub-region where operation data acquisition is required is obtained; obtaining the carbon residue of each of the remaining sub-regions; the method comprises the following steps:

collecting carbon emission of each sub-region which needs to be subjected to equipment data statistics and/or operation data collection, and calculating carbon difference according to the carbon emission and the carbon weight of the corresponding sub-region;

and collecting the carbon emission of each remaining sub-area, and calculating the carbon surplus according to the carbon emission and the carbon weight corresponding to the sub-area.

As a further improvement of the present invention, the sub-regions for which device data statistics is required are obtained by acquiring and analyzing the device carbon emission information of each sub-region in real time; the method comprises the following steps:

collecting equipment of each subregion, and obtaining the subregions with equipment emission;

collecting the average total electricity consumption amount per day and the average carbon dioxide amount released by operation per day of the equipment in each subarea with equipment emission;

and respectively comparing the average total electricity consumption of the equipment and the average carbon dioxide amount released in operation every day with a preset threshold value to obtain the subarea needing equipment data statistics.

As a further improvement of the present invention,

presetting a total electricity consumption threshold and a carbon dioxide threshold of equipment;

if the average total electricity consumption per day of the equipment is greater than the total electricity consumption threshold value, and the average carbon dioxide amount released in operation per day is greater than the carbon dioxide release amount threshold value, performing equipment data statistics on the corresponding sub-area;

otherwise, the sub-region does not need to carry out equipment data statistics.

As a further improvement of the invention, the sub-regions required to be operated and collected are obtained by acquiring and analyzing the carbon emission information of the public equipment and the carbon emission information of personnel of each sub-region in real time; the method comprises the following steps:

collecting the electric energy consumption of the public equipment in each subarea and the carbon emission generated by driving the automobile by people;

and respectively comparing the electric energy consumption of the public equipment and the carbon emission generated by the driving of the automobile by the personnel with a preset threshold value to obtain the sub-region needing operation data acquisition.

As a further improvement of the present invention,

presetting an electric energy consumption threshold and an automobile carbon emission threshold;

if the electric energy consumption of the sub-region public equipment is larger than the electric energy consumption threshold value, or the carbon emission generated by driving of the automobile by personnel in the sub-region is larger than the automobile carbon emission threshold value, the corresponding sub-region needs to carry out operation data acquisition;

otherwise, the sub-region does not need to perform operation data acquisition.

As a further improvement of the present invention, said comparing said carbon residue amount with said carbon residue amount, obtaining a carbon neutralization result of the building; the method comprises the following steps:

if the sum of the carbon difference is greater than the sum of the carbon residuals, sending the carbon emission and the carbon difference of all the sub-areas needing equipment data statistics and/or the sub-areas needing operation data acquisition as results to the data transmission unit;

and if the carbon residual amount is less than the carbon residual amount, sending the carbon residual amount as a result to the data transmission unit.

As a further improvement of the present invention,

and the data transmission unit is used for carrying out data compression processing on the carbon neutralization result and transmitting the compressed data to a mobile phone terminal of a manager in real time.

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

the building is divided into a plurality of sub-areas, and the corresponding state of the carbon emission of the equipment in each sub-area is judged, so that the equipment emission of the building is accurately analyzed, and the accuracy of carbon neutralization data acquisition is improved; performing operation analysis on the divided sub-regions, and judging whether the basic carbon emission of the sub-regions meets the acquisition state or not, so that the acquisition of the common basic carbon emission is avoided being omitted; judging the real-time difference value between the carbon emission amount and the carbon weight amount of each region, and acquiring carbon neutralization data of each sub-region;

the invention improves the efficiency of carbon neutralization data acquisition, and can adjust carbon neutralization resources in time by acquiring the carbon neutralization data, thereby preventing the carbon right amount from remaining and causing unnecessary waste of the carbon neutralization corresponding resources.

Drawings

Fig. 1 is a schematic diagram of a system for real-time transmission of carbon neutral data in a building according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

The invention is described in further detail below with reference to the attached drawing figures:

as shown in fig. 1, the present invention discloses a building carbon neutralization data real-time transmission system, which comprises: the system comprises a server, a building area dividing unit, an area equipment analysis unit, an area operation analysis unit and a neutralization amount comparison unit, wherein the building area dividing unit, the area equipment analysis unit, the area operation analysis unit and the neutralization amount comparison unit are in communication connection with the server;

at the beginning, the server generates a building area division signal and sends the building area division unit;

after the area division is completed, the server generates an area equipment analysis signal and sends the area equipment analysis unit;

after the regional equipment is analyzed, the server generates an operation analysis signal and sends the operation analysis unit to the regional operation analysis unit;

after the regional operation analysis is completed, the server generates a neutralization signal and sends a neutralization amount comparison unit;

and the neutralization amount comparison unit obtains a result and sends the result to the data transmission unit.

Specifically, the method comprises the following steps:

(1) a building area partitioning unit to:

dividing a building area into a plurality of sub-areas;

and dividing the carbon weight of the building equally corresponding to a plurality of sub-areas.

Wherein the content of the first and second substances,

dividing the building area into i sub-areas, dividing the sub-areas equally according to the carbon weight of the building area to enable the carbon weight of the i sub-areas to be the same, and sending the i sub-areas and the corresponding carbon weight to a server;

i is a natural number greater than 1, and the carbon weight is expressed as the amount of carbon dioxide allowed to be emitted in the analysis area.

(2) A regional equipment analysis unit to:

acquiring and analyzing the carbon emission information of the equipment in each subregion in real time to acquire subregions needing equipment data statistics;

namely:

the regional equipment analysis unit performs equipment analysis on the divided sub-regions and judges the corresponding state of the carbon emission of the equipment of each sub-region, so that the equipment emission of the building is accurately analyzed, and the accuracy of carbon neutralization data acquisition is improved;

specifically, the method comprises the following steps:

performing equipment acquisition on the subareas, if equipment exists in the subareas, marking the corresponding subareas as equipment emission subareas, and if equipment does not exist in the subareas, marking the corresponding subareas as non-equipment emission subareas;

marking the device emission subarea as o, wherein o is a natural number larger than 1, and the devices in the subarea are related energy consumption devices for construction and the like in the subarea;

acquiring the average total electricity consumption per day and the average carbon dioxide amount correspondingly released by operation per day of equipment corresponding to the equipment emission subregion, and respectively marking the average total electricity consumption per day and the average carbon dioxide amount correspondingly released by operation per day of equipment corresponding to the equipment emission subregion as HDo and SFo;

comparing the average total electricity consumption HDo per day and the carbon dioxide amount SFo released correspondingly to the average operation per day of the equipment corresponding to the equipment emission subregion with a total electricity consumption threshold value and a carbon dioxide release amount threshold value respectively:

if the average total electricity consumption HDo of the equipment corresponding to the equipment emission sub-area is larger than the total electricity consumption threshold value and the average carbon dioxide amount SFo correspondingly released during the operation every day is larger than the carbon dioxide release amount threshold value, marking the corresponding equipment emission sub-area as an area needing equipment data statistics, and sending the area needing equipment data statistics, the real-time total electricity consumption and the carbon dioxide release amount to the server together;

if the average total electricity consumption HDo of the equipment corresponding to the equipment emission sub-area per day is smaller than the total electricity consumption threshold, or the average carbon dioxide amount SFo correspondingly released during the operation per day is smaller than the carbon dioxide release amount threshold, marking the corresponding equipment emission sub-area as an area which does not need equipment data statistics, and sending the area which does not need the equipment data statistics to the server.

(3) A regional operations analysis unit to:

acquiring and analyzing the carbon emission information of public equipment and the carbon emission information of personnel of each subregion in real time to acquire the subregion required to carry out operation data acquisition;

namely:

the regional operation analysis unit performs operation analysis on the divided sub-regions and judges whether the basic carbon emission of the sub-regions meets the acquisition state or not, so that whether the carbon weight of each sub-region is enough or not is more accurately analyzed;

the method specifically comprises the following steps:

collecting the electric energy consumption of public equipment (the public equipment comprises public street lamps or public drinking water machines and other related energy consumption equipment) corresponding to each subarea and the carbon emission generated by driving automobiles by personnel in the subareas; respectively comparing the electric energy consumption of the public equipment corresponding to each subarea and the carbon emission generated by the driving of the automobile by personnel in the subarea with an electric energy consumption threshold and an automobile carbon emission threshold;

if the electric energy consumption of the public equipment corresponding to the sub-area is larger than the electric energy consumption threshold value, and the carbon emission generated by the personnel driving the automobile in the sub-area is larger than the automobile carbon emission threshold value, marking the corresponding sub-area as an area needing operation data acquisition, and sending the area needing operation data acquisition, the electric energy consumption of the public equipment and the carbon emission generated by the automobile to a server;

if the electric energy consumption of the public equipment corresponding to the sub-area is smaller than the electric energy consumption threshold value and the carbon emission generated by the personnel driving the automobile in the sub-area is smaller than the automobile carbon emission threshold value, marking the corresponding sub-area as an area which does not need to be subjected to operation data acquisition, and sending the area which does not need to be subjected to operation data acquisition to a server;

(4) a neutralization amount comparison unit for:

acquiring sub-regions which need to be subjected to equipment data statistics and/or carbon difference of each sub-region which needs to be subjected to operation data acquisition;

obtaining the carbon allowance of each remaining subarea;

comparing the carbon difference with the carbon residue to obtain a carbon neutralization result of the building;

wherein the content of the first and second substances,

collecting carbon emission of each sub-area which needs to be subjected to equipment data statistics and/or operation data collection, and calculating carbon difference according to the carbon emission and the carbon weight of the corresponding sub-area;

and (4) collecting the carbon emission of each remaining subregion, and calculating the carbon allowance according to the carbon emission and the carbon weight of the corresponding subregion.

If the sum of the carbon difference is larger than the sum of the carbon allowance, sending the carbon emission and the carbon difference of all sub-areas needing equipment data statistics and/or sub-areas needing operation data acquisition as results to a data transmission unit;

if the carbon difference is less than the carbon residue, the carbon residue is sent to the data transmission unit as a result.

(5) A data transmission unit for:

and sending the result to a manager in real time.

Wherein the content of the first and second substances,

and the data transmission unit is used for compressing the carbon neutralization result and transmitting the compressed data to the mobile phone terminal of the manager in real time.

And (3) adjusting carbon neutralization resources in real time by managers according to the carbon neutralization result of the building, such as: when the result is the carbon difference, adding carbon neutralization resources to the corresponding region; and when the result is carbon residue, removing part of carbon neutralization resources of the corresponding area.

The basic principle of the invention is as follows:

when the system works, the carbon neutralization data transmission platform is used for analyzing the carbon neutralization of a building, the server generates a building area division signal and sends the building area division signal to a building area division unit, and the building area division unit is used for dividing a building area; the server generates a regional equipment analysis signal and sends the regional equipment analysis signal to a regional equipment analysis unit, and the regional equipment analysis unit is used for carrying out equipment analysis on the divided sub-regions; the server generates an operation analysis signal and sends the operation analysis signal to a regional operation analysis unit, and the regional operation analysis unit is used for performing operation analysis on the divided sub-regions; the server generates a neutralization signal and sends the neutralization signal to a neutralization amount comparison unit, and the neutralization amount comparison unit is used for analyzing according to the operation data acquisition area and the equipment data acquisition area.

The invention has the advantages that:

the building is divided into a plurality of sub-areas, and the corresponding state of the carbon emission of the equipment in each sub-area is judged, so that the equipment emission of the building is accurately analyzed, and the accuracy of carbon neutralization data acquisition is improved; performing operation analysis on the divided sub-regions, and judging whether the basic carbon emission of the sub-regions meets the acquisition state or not, so that the acquisition of the common basic carbon emission is avoided being omitted; judging the real-time difference value between the carbon emission amount and the carbon weight amount of each region, and acquiring carbon neutralization data of each sub-region;

the invention improves the efficiency of carbon neutralization data acquisition, and can adjust carbon neutralization resources in time by acquiring the carbon neutralization data, thereby preventing the carbon right amount from remaining and causing unnecessary waste of the carbon neutralization corresponding resources.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A building carbon neutralization data real-time transmission system, comprising: the system comprises a server, a building area dividing unit, an area equipment analysis unit, an area operation analysis unit and a neutralization amount comparison unit, wherein the building area dividing unit, the area equipment analysis unit, the area operation analysis unit and the neutralization amount comparison unit are in communication connection with the server;

the building area partitioning unit is configured to:

dividing the building area into a plurality of sub-areas;

the area device analysis unit is configured to:

acquiring and analyzing the carbon emission information of the equipment in each subregion in real time to acquire the subregion needing equipment data statistics;

the regional operation analysis unit is configured to:

acquiring and analyzing the carbon emission information of public equipment and the carbon emission information of personnel of each subregion in real time to acquire the subregion needing operation data acquisition;

the neutralization amount comparison unit is used for:

acquiring the carbon difference quantity of the sub-area which needs to be subjected to equipment data statistics and/or each sub-area which needs to be subjected to operation data acquisition;

obtaining the carbon residue of each of the remaining sub-regions;

comparing the carbon difference with the carbon residue to obtain a carbon neutralization result of the building;

the data transmission unit is configured to:

and sending the carbon neutralization result to a manager in real time.

2. The system of claim 1, wherein: and dividing the carbon weight of the building equally corresponding to a plurality of the sub-areas.

3. The system of claim 2, wherein: acquiring carbon difference quantity of each sub-region which needs to be subjected to equipment data statistics and/or each sub-region which needs to be subjected to operation data acquisition; obtaining the carbon residue of each of the remaining sub-regions; the method comprises the following steps:

collecting carbon emission of each sub-region which needs to be subjected to equipment data statistics and/or operation data collection, and calculating carbon difference according to the carbon emission and the carbon weight of the corresponding sub-region;

and collecting the carbon emission of each remaining sub-area, and calculating the carbon surplus according to the carbon emission and the carbon weight corresponding to the sub-area.

4. The system of claim 1, wherein: the carbon emission information of the equipment in each sub-area is obtained and analyzed in real time, and the sub-area needing equipment data statistics is obtained; the method comprises the following steps:

collecting equipment of each subregion, and obtaining the subregions with equipment emission;

collecting the average total electricity consumption amount per day and the average carbon dioxide amount released by operation per day of the equipment in each subarea with equipment emission;

and respectively comparing the average total electricity consumption of the equipment and the average carbon dioxide amount released in operation every day with a preset threshold value to obtain the subarea needing equipment data statistics.

5. The system of claim 4, wherein:

presetting a total electricity consumption threshold and a carbon dioxide threshold of equipment;

if the average total electricity consumption per day of the equipment is greater than the total electricity consumption threshold value, and the average carbon dioxide amount released in operation per day is greater than the carbon dioxide release amount threshold value, performing equipment data statistics on the corresponding sub-area;

otherwise, the sub-region does not need to carry out equipment data statistics.

6. The system of claim 1, wherein: the public equipment carbon emission information and the personnel carbon emission information of each subregion are obtained and analyzed in real time, and the subregion needing operation data acquisition is obtained; the method comprises the following steps:

collecting the electric energy consumption of the public equipment in each subarea and the carbon emission generated by driving the automobile by people;

and respectively comparing the electric energy consumption of the public equipment and the carbon emission generated by the driving of the automobile by the personnel with a preset threshold value to obtain the sub-region needing operation data acquisition.

7. The system of claim 6, wherein:

presetting an electric energy consumption threshold and an automobile carbon emission threshold;

if the electric energy consumption of the sub-region public equipment is larger than the electric energy consumption threshold value, or the carbon emission generated by driving of the automobile by personnel in the sub-region is larger than the automobile carbon emission threshold value, the corresponding sub-region needs to carry out operation data acquisition;

otherwise, the sub-region does not need to perform operation data acquisition.

8. The system of claim 1, wherein: comparing the carbon difference with the carbon residue to obtain a carbon neutralization result of the building; the method comprises the following steps:

if the sum of the carbon difference is greater than the sum of the carbon residuals, sending the carbon emission and the carbon difference of all the sub-areas needing equipment data statistics and/or the sub-areas needing operation data acquisition as results to the data transmission unit;

and if the carbon residual amount is less than the carbon residual amount, sending the carbon residual amount as a result to the data transmission unit.

9. The system of claim 1, wherein:

and the data transmission unit is used for carrying out data compression processing on the carbon neutralization result and transmitting the compressed data to a mobile phone terminal of a manager in real time.

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