CN113205247A

CN113205247A - Enterprise carbon emission distribution system with automatic benchmarking function

Info

Publication number: CN113205247A
Application number: CN202110453863.4A
Authority: CN
Inventors: 毛志斌; 周俊; 万伟江; 王威力
Original assignee: State Grid Quzhou Integrated Energy Service Co ltd
Current assignee: State Grid Quzhou Integrated Energy Service Co ltd
Priority date: 2021-04-26
Filing date: 2021-04-26
Publication date: 2021-08-03

Abstract

The invention discloses an enterprise carbon emission distribution system with an automatic benchmarking function, which belongs to the technical field of carbon emission and comprises a carbon emission big data center, wherein the output end of the carbon emission big data center is connected with a carbon emission intensity control module, the output end of the carbon emission intensity control module is connected with a distribution unit, and the input end of the distribution unit is connected with a production energy consumption calculation unit. According to the invention, the weighting calculation model is established to carry out weighting budget on the weighting factors, the data support capacity for quota allocation is improved through the judgment of multiple factors, meanwhile, the control capacity for carbon emission intensity in a workshop is improved through the terminal control of the carbon emission intensity control module, the traceability is strong, the phenomenon of steal is avoided, and accurate data allocation support is provided for carbon emission of an enterprise, so that the instantaneity of carbon emission weight allocation in the enterprise is effectively improved, the data allocation precision is improved, and the planning allocation requirement of the enterprise on sustainable development of production is met.

Description

Enterprise carbon emission distribution system with automatic benchmarking function

Technical Field

The invention belongs to the technical field of carbon emission, and particularly relates to an enterprise carbon emission distribution system with an automatic benchmarking function.

Background

Carbon emission refers to greenhouse gas emission, and in order to meet the requirement of environmental protection, the reduction control is performed on the emission of enterprises at present to ensure the requirement of sustainable generation, but the carbon emission is generated due to the fact that the enterprises generate more carbon, so that the total carbon emission amount needs to be distributed reasonably continuously, and the energy conservation and emission reduction are performed on the enterprises with high carbon emission.

However, when the carbon emission is distributed in an enterprise, the carbon emission is easily controlled simply due to efficiency factors, a low-benefit workshop section or a low-benefit workshop section is simply shut down, estimation and distribution of overall energy consumption benefits are lacked, and meanwhile, the current carbon emission energy consumption cannot be displayed in real time, so that the overall development and regulation of the enterprise are supported, and therefore, a distribution system is urgently needed for integrally distributing and predicting the carbon emission in the enterprise.

Disclosure of Invention

The invention aims to: the enterprise carbon emission distribution system with the automatic benchmarking function is provided for solving the problems that carbon emission is easily controlled simply due to efficiency factors, simple shutdown processing is carried out on low-benefit workshop sections or workshops, estimation and distribution of overall energy consumption benefits are lacked, limit display cannot be carried out on current carbon emission energy consumption in real time, and support on overall development regulation and control of an enterprise is affected.

In order to achieve the purpose, the invention adopts the following technical scheme:

an enterprise carbon emission distribution system with an automatic benchmarking function comprises a carbon emission big data center, wherein the output end of the carbon emission big data center is connected with a carbon emission intensity control module, the output end of the carbon emission intensity control module is connected with a distribution unit, the input end of the distribution unit is connected with a production energy consumption calculation unit, the output end of the production energy consumption calculation unit is connected with the output end of the carbon emission big data center, the input end of the carbon emission big data center is connected with a visualization unit, and the output end of the distribution unit is connected with a weight yielding module;

the carbon emission intensity control module is used for carrying out work efficiency control on equipment in a plant through the PLC control center at a terminal to control carbon emission, the production energy consumption calculation unit is used for carrying out model calculation on production energy consumption, the visualization unit is used for publishing a current carbon emission standard and a completion degree through visualization data, the distribution unit is used for distributing carbon emission shares according to energy consumption calculation, and the weight yielding module is used for transferring or purchasing the current carbon emission shares.

As a further description of the above technical solution:

the production energy consumption calculation unit comprises an emission consumption data acquisition module, the output end of the emission consumption data acquisition module is connected with a data comparison module, the output end of the emission consumption data acquisition module is also connected with an energy consumption calculation module, the input end of the energy consumption calculation module is connected with an estimation module, the input end of the estimation module is connected with a consumption module, the input end of the energy consumption calculation module is also connected with an auxiliary production facility module (404) and a production planning module, the data comparison module and the emission consumption data acquisition module are both connected with the output end of a carbon emission big data center, the emission consumption data acquisition module is used for acquiring the data of the carbon emission big data center in the past year, the data comparison module is used for comparing the data of the current year with the data of the past year to acquire a difference value for auxiliary calculation, and the energy consumption calculation module is used for carrying out algorithm calculation on the carbon emission data through the work load of the current year, the auxiliary production facility module and the production planning module are used for providing data support, the estimation module is used for estimating a future carbon emission consumption value according to the currently measured and calculated consumption value, and the consumption module is used for calculating the carbon emission limit after carbon emission consumption.

As a further description of the above technical solution:

the energy consumption measuring and calculating module comprises a workshop gas emission source, fuel use data and a carbon emission factor in a production line.

As a further description of the above technical solution:

the distribution unit comprises a distribution calculation model, the output end of the distribution calculation module is connected with an amount configuration module, the input end of the distribution calculation model is respectively connected with a weight factor module, an entropy value increase and decrease judgment module and a production efficiency benefit module, the distribution calculation model is used for carrying out distribution data support on amount configuration through the weight factors provided by the weight factor module, basic data provided by the production efficiency benefit module and variables provided by the entropy value increase and decrease judgment module, and the amount configuration module is used for configuring the calculated distribution data to a production end for efficiency control.

As a further description of the above technical solution:

the weight factors of the weight factor module comprise the whole carbon emission of production workshops, production lines and work sections in the past year and test weight distribution required by development and innovation of technical openness departments.

As a further description of the above technical solution:

the visualization unit comprises a two-dimension code generation module and a visualization display module, the two-dimension code generation module is used for generating the carbon emission distribution allowance data in the current year, and the visualization display module is used for performing visualization display in the factory.

As a further description of the above technical solution:

the visual display module is used for visually displaying through a factory area display screen.

As a further description of the above technical solution:

the weight yielding module comprises a transaction platform arranged on a factory website, and the transaction amount is calculated and judged by the production energy consumption calculating unit.

As a further description of the above technical solution:

the entropy increase and decrease judgment module is used for judging the total increase or decrease of energy consumption under the current process through the distribution calculation model and is used for judging the process energy consumption.

As a further description of the above technical solution:

the two-dimensional code generated by the two-dimensional code generation module is adjusted to be different colors and used for rapidly displaying and judging the current year allowance.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, the weighting budget is carried out on the weighting factors by establishing the distribution calculation model, the data support capacity for quota allocation is improved by judging multiple factors, the emission consumption data is obtained by the production energy consumption calculation unit and the production energy consumption is calculated, the carbon emission of the whole year can be distributed in a weighting manner according to the current carbon emission data, the control capacity for the carbon emission intensity in a workshop is improved by the terminal control of the carbon emission intensity control module, the traceability capacity is strong, the phenomenon of steal is avoided, and accurate data distribution support is provided for the carbon emission of an enterprise, so that the real-time property of the carbon emission weight distribution in the enterprise is effectively improved, the data distribution precision is improved, and the planning distribution requirement of the enterprise on the sustainable production development is met.

2. According to the invention, the two-dimension code generation module is arranged through the visualization unit, the generated two-dimension code module can rapidly display the current allowance through color difference, and can display the current allowance in an enterprise park through the visualization display module, so that the transparency of distribution display is improved, after the carbon and the codes in the form of the two-dimension code are automatically aligned through scanning the two-dimension code, grading visualization early warning prompts are provided for enterprises and governments, the completion condition of new energy consumption can be directly and rapidly counted and displayed through a two-dimension code program, and the tracking monitoring and supervision of renewable energy consumption by governments are effectively promoted for rapidly displaying and judging the current annual allowance.

Drawings

FIG. 1 is a system diagram of an enterprise carbon emissions distribution system with automatic benchmarking according to the present invention;

FIG. 2 is a block diagram of a system of a production energy consumption calculation unit of an enterprise carbon emission distribution system with an automatic benchmarking function according to the present invention;

FIG. 3 is a block diagram of a distribution unit system of an enterprise carbon emission distribution system with an automatic benchmarking function according to the present invention;

FIG. 4 is a logic diagram of a weight factor module of an enterprise carbon emissions distribution system with an automatic benchmarking function according to the present invention;

FIG. 5 is a logic diagram of an energy consumption measuring module of an enterprise carbon emission distribution system with an automatic benchmarking function according to the present invention;

fig. 6 is a visualization unit diagram of an enterprise carbon emission distribution system with an automatic benchmarking function according to the present invention.

Illustration of the drawings:

1. a carbon row big data center; 2. a carbon emission intensity control module; 3. a visualization unit; 301. a two-dimensional code generation module; 302. a visual display module; 4. a production energy consumption calculating unit; 401. an emission consumption data acquisition module; 402. an estimation module; 403. a digestion module; 404. an auxiliary production facility module; 405. a production planning module; 406. an energy consumption measuring and calculating module; 407. a data comparison module; 5. a distribution unit; 501. distributing a calculation model; 502. a quota configuration module; 503. an entropy increase and decrease judgment module; 504. a weighting factor module; 505. a production efficiency benefit module; 6. a weight assignor module.

Detailed Description

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 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.

Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides an enterprise carbon emission distribution system with automatic benchmarking function, includes carbon row big data center 1, 1 output in carbon row big data center is connected with carbon emission

intensity control module

2, 2 outputs in carbon emission intensity control module are connected with distribution unit 5, the distribution unit 5 input is connected with production energy consumption and calculates unit 4, production energy consumption calculates unit 4 output and is connected with 1 output in carbon row big data center, 1 input in carbon row big data center is connected with visual unit 3, the distribution unit 5 output is connected with weight and is given module 6.

The carbon emission intensity control module 2 is used for carrying out work efficiency control on equipment in a plant through a PLC (programmable logic controller) control center at a terminal to control carbon emission, the production energy consumption calculation unit 4 is used for carrying out model calculation on production energy consumption, the visualization unit 3 is used for publishing a current carbon emission standard and a completion degree through visualization data, the distribution unit 5 is used for distributing carbon emission shares according to energy consumption calculation, and the weight yielding module 6 is used for transferring or purchasing a current carbon emission limit.

The production energy consumption calculation unit 4 comprises an emission consumption data acquisition module 401, the output end of the emission consumption data acquisition module 401 is connected with a data comparison module 407, the output end of the emission consumption data acquisition module 401 is further connected with an energy consumption calculation module 406, the input end of the energy consumption calculation module 406 is connected with an estimation module 402, the input end of the estimation module 402 is connected with a consumption module 403, the input end of the energy consumption calculation module 406 is further connected with an auxiliary production facility module 404 and a production planning module 405, the data comparison module 407 and the emission consumption data acquisition module 401 are both connected with the output end of the carbon emission big data center 1, the emission consumption data acquisition module 401 is used for acquiring the data of the carbon emission big data center 1 in the past year, the data comparison module 407 is used for comparing the data of the current year with the data of the past year to acquire a difference value for auxiliary calculation, the energy consumption measuring and calculating module 406 is used for carrying out algorithm calculation on carbon emission data through the current annual workload;

the carbon emission data calculation comprises a gas emission source, data of fuel consumption is collected, a carbon emission factor is inquired, the carbon emission factor refers to the carbon emission quantity generated by unit energy in the combustion or use process of each energy, a carbon footprint is calculated, the former main energy consumption data comprises natural gas, raw coal, steam, water and electricity consumption, the carbon emission generated by electricity belongs to indirect carbon emission, and the rest of the carbon emission belongs to direct carbon emission, wherein the direct carbon emission is the carbon emission factor of a certain energy consumption multiplied by a certain energy every year, and the indirect carbon emission is the carbon emission factor of a certain electricity consumption multiplied by electricity per year;

the auxiliary production facility module 404 and the production planning module 405 are used for providing data support, the estimation module 402 is used for estimating a future carbon emission consumption value according to a currently estimated consumption value, the consumption module 403 is used for estimating a carbon emission amount after carbon emission consumption is performed, and the energy consumption estimation module 406 comprises a workshop gas emission source and fuel consumption data and an in-line carbon emission factor.

The implementation mode is specifically as follows: the consumption module 403 may consume a part of the carbon emission weight for the responsibility of purchasing the renewable energy power, and use the power data brought into the enterprise by referring to the renewable energy consumption calculation formula to confirm the renewable energy power consumption responsibility weight completed by the enterprise: the enterprise consumption responsibility weight is the sum of the renewable energy electric quantity generated and consumed in the enterprise, the renewable energy electric quantity input outside the enterprise, the net yield of consumption of other enterprises, the sum of green certificate purchase amount, the renewable energy electric quantity corresponding to the assessment-free electric quantity, the enterprise power consumption and the assessment-free electric quantity.

The distribution unit 5 comprises a distribution calculation model 501, the output end of the distribution calculation module is connected with an amount configuration module 502, the input end of the distribution calculation model 501 is respectively connected with a weight factor module 504, an entropy increase and decrease judgment module 503 and a production efficiency benefit module 505, the distribution calculation model 501 is used for carrying out distribution data support on amount configuration through the weight factor provided by the weight factor module 504, the production efficiency benefit module 505 provides basic data and the variable provided by the entropy increase and decrease judgment module, the amount configuration module 502 is used for configuring the calculated distribution data to a production end for efficiency control, the weight factor of the weight factor module 504 comprises the whole carbon emission of production workshops, production lines and production sections in the past year, the weight ratio is adjusted in real time according to the occupied proportion, and test weight distribution required by innovation of technical open departments, the visualization unit 3 includes a two-dimensional code generation module 301 and a visualization display module 302.

The two-dimension code generation module 301 is used for generating carbon emission distribution allowance data of the current year, the visual display module 302 is used for visually displaying in a factory area, the visual display module 302 is used for visually displaying through a factory area display screen, the weight yielding module 6 comprises a transaction platform arranged on a factory area website, the transaction amount is calculated and judged by the production energy consumption calculation unit 4, the entropy increase/decrease judgment module 503 is used for judging the overall increase or decrease of energy consumption under the current process through the distribution calculation module 501 and is used for judging the process energy consumption, the two-dimension code generated by the two-dimension code generation module 301 is adjusted to different colors, the preferred two-dimension code colors are green, yellow and red, wherein the allowance is 60-99% green, 20-59% yellow and 0-19% red, and the use progress of the enterprise carbon quota is assisted to be monitored, after the carbon and code form in the two-dimensional code form is automatically benchmarked by scanning the two-dimensional code, graded visual early warning prompts are provided for enterprises and governments; through the two-dimensional code program, statistics and display of the completion condition of the new energy consumption can be intuitively and quickly carried out, tracking monitoring and supervision of renewable energy consumption by governments are effectively promoted to be used for rapidly displaying and judging the current annual allowance, and the increase and decrease of the entropy value are judged by taking multiple sections or workshops in the current enterprise total carbon emission data as classification factors, so that the increase or decrease of the integral carbon emission value, namely the entropy value, is judged for judging the technological effect at the current annual stage.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The enterprise carbon emission distribution system with the automatic benchmarking function comprises a carbon emission big data center (1) and is characterized in that the output end of the carbon emission big data center (1) is connected with a carbon emission intensity control module (2), the output end of the carbon emission intensity control module (2) is connected with a distribution unit (5), the input end of the distribution unit (5) is connected with a production energy consumption calculation unit (4), the output end of the production energy consumption calculation unit (4) is connected with the output end of the carbon emission big data center (1), the input end of the carbon emission big data center (1) is connected with a visualization unit (3), and the output end of the distribution unit (5) is connected with a weight yielding module (6);

the carbon emission intensity control module (2) is used for carrying out work efficiency control on carbon emission of equipment in a plant through the PLC control center at a terminal, the production energy consumption calculation unit (4) is used for carrying out model calculation on production energy consumption, the visualization unit (3) is used for publishing a current carbon emission standard and a completion degree through visualization data, the distribution unit (5) is used for carrying out distribution of carbon emission shares according to energy consumption calculation, and the weight yielding module (6) is used for transferring or purchasing a current carbon emission limit.

2. The enterprise carbon emission distribution system with the automatic benchmarking function according to claim 1, wherein the production energy consumption calculation unit (4) comprises an emission consumption data acquisition module (401), the output end of the emission consumption data acquisition module (401) is connected with a data comparison module (407), the output end of the emission consumption data acquisition module (401) is further connected with an energy consumption calculation module (406), the input end of the energy consumption calculation module (406) is connected with an estimation module (402), the input end of the estimation module (402) is connected with a consumption module (403), the input end of the energy consumption calculation module (406) is further connected with an auxiliary production facility module (404) and a production planning module (405), the data comparison module (407) and the emission consumption data acquisition module (401) are both connected with the output end of the carbon emission large data center (1), the emission consumption data acquisition module (401) is used for acquiring data of the carbon emission data center (1) in the past year, the data comparison module (407) is used for comparing the data of the current year with the data of the past year to obtain difference value auxiliary calculation, the energy consumption calculation module (406) is used for calculating the carbon emission data through the workload of the current year in an algorithm mode, the auxiliary production facility module (404) and the production planning module (405) are used for providing data support, the estimation module (402) is used for estimating a future carbon emission consumption value according to the currently calculated consumption value, and the consumption module (403) is used for calculating the carbon emission limit after carbon emission consumption.

3. The system of claim 2, wherein the energy consumption estimation module (406) comprises plant gas emission sources and fuel usage data and in-line carbon emission factors.

4. The enterprise carbon emission distribution system with the automatic benchmarking function according to claim 1, wherein the distribution unit (5) includes a distribution calculation model (501), an output end of the distribution calculation model is connected with an amount configuration module (502), an input end of the distribution calculation model (501) is respectively connected with a weight factor module (504), an entropy increase/decrease judgment module (503) and a production efficiency benefit module (505), the distribution calculation model (501) is used for providing distribution data support for amount configuration through the weight factor provided by the weight factor module (504), the production efficiency benefit module (505) provides basic data and the variable provided by the entropy increase/decrease judgment module, and the amount configuration module (502) is used for configuring the calculated distribution data to a production end for performance control.

5. The system for enterprise carbon emission distribution with automatic benchmarking function according to claim 4, wherein the weighting factors of the weighting factor module (504) include the whole carbon emission of the production plant, production line and workshop section in the past year and the experimental weighting distribution required by the development and innovation of the technical openness department.

6. The enterprise carbon emission distribution system with the automatic benchmarking function according to claim 1, wherein the visualization unit (3) comprises a two-dimension code generation module (301) and a visualization display module (302), the two-dimension code generation module (301) is used for generating the carbon emission distribution balance data of the current year, and the visualization display module (302) is used for performing visualization display in the factory floor.

7. The system for enterprise carbon emissions distribution with automatic benchmarking according to claim 6, wherein the visual display module (302) is used for visual display through a factory floor display screen.

8. The system for distributing the carbon emissions of the enterprise with the automatic benchmarking function according to claim 1, wherein the weight assignable module (6) comprises a transaction platform installed on a factory site, and the transaction amount is calculated and judged by the energy consumption calculating unit (4).

9. The system for allocating carbon emissions of enterprises with automatic benchmarking function according to claim 4, wherein said entropy increase/decrease judgment module (503) is used for judging the total increase or decrease of energy consumption under the current process through the allocation calculation model (501) for judging the energy consumption of the process.

10. The system for distributing the carbon emissions of the enterprises with the automatic benchmarking function of claim 6, wherein the two-dimension code generated by the two-dimension code generating module (301) is adjusted to different colors for rapidly displaying and judging the current year allowance.