CN115239090A

CN115239090A - Enterprise carbon efficiency evaluation method based on industrial internet identification analysis

Info

Publication number: CN115239090A
Application number: CN202210780574.XA
Authority: CN
Inventors: 池程; 马宝罗; 刘阳; 张钰雯; 朱斯语
Original assignee: China Academy of Information and Communications Technology CAICT
Current assignee: China Academy of Information and Communications Technology CAICT
Priority date: 2022-07-05
Filing date: 2022-07-05
Publication date: 2022-10-25

Abstract

An enterprise carbon efficiency evaluation method based on industrial internet identification analysis relates to the technical field of industrial internet, is applied to a carbon efficiency code registration analysis platform, and comprises the following steps: receiving an enterprise carbon efficiency evaluation request aiming at a target enterprise, wherein the enterprise carbon efficiency evaluation request comprises target information; acquiring first carbon efficiency evaluation reference data of a target enterprise from an industrial internet identification analysis system according to the enterprise carbon efficiency evaluation request; acquiring second carbon efficiency evaluation reference data of the target enterprise from a third-party platform according to the enterprise carbon efficiency evaluation request; determining a carbon emission factor corresponding to the target information from a preset carbon emission factor library deployed on a carbon-effect code registration and analysis platform; generating an enterprise carbon efficiency evaluation result of the target enterprise according to the carbon emission factor, the first carbon efficiency evaluation reference data and the second carbon efficiency evaluation reference data; and returning an enterprise carbon efficiency evaluation result to the electronic equipment sending the enterprise carbon efficiency evaluation request. The authenticity and the accuracy of the carbon efficiency evaluation result of the enterprise can be guaranteed.

Description

Enterprise carbon efficiency evaluation method based on industrial internet identification analysis

Technical Field

The application relates to the technical field of industrial internet, in particular to an enterprise carbon efficiency evaluation method based on industrial internet identification analysis.

Background

Under some conditions, enterprise carbon efficiency evaluation is required, at present, data required by the enterprise carbon efficiency evaluation is mainly reported by an enterprise independently, so that the risk of data tampering by the enterprise possibly exists, and the authenticity and the accuracy of an enterprise carbon efficiency evaluation result cannot be guaranteed.

Disclosure of Invention

The embodiment of the application provides an enterprise carbon efficiency evaluation method based on industrial internet identification analysis, so as to solve the technical problems.

According to a first aspect of the embodiments of the present application, an enterprise carbon efficiency evaluation method based on industrial internet identification analysis is provided, and is applied to a carbon efficiency code registration analysis platform, and the method includes:

receiving an enterprise carbon efficiency evaluation request aiming at a target enterprise; the enterprise carbon efficiency evaluation request comprises target information, wherein the target information comprises at least one of first business information to which the target enterprise belongs and first energy type information used by the target enterprise;

acquiring first carbon efficiency evaluation reference data of the target enterprise from an industrial internet identification analysis system according to the enterprise carbon efficiency evaluation request;

acquiring second carbon efficiency evaluation reference data of the target enterprise from a third-party platform according to the enterprise carbon efficiency evaluation request;

determining a carbon emission factor corresponding to the target information from a preset carbon emission factor library deployed on the carbon-effect code registration and analysis platform;

generating an enterprise carbon efficiency evaluation result of the target enterprise according to the carbon emission factor, the first carbon efficiency evaluation reference data and the second carbon efficiency evaluation reference data;

and returning the enterprise carbon efficiency evaluation result to the electronic equipment sending the enterprise carbon efficiency evaluation request.

In an optional example, the generating an enterprise carbon efficiency evaluation result of the target enterprise according to the carbon emission factor, the first carbon efficiency evaluation reference data and the second carbon efficiency evaluation reference data comprises:

determining a first type of evaluation parameter according to the carbon emission factor and the first carbon efficiency evaluation reference data; wherein the first type of evaluation parameter comprises at least one of carbon emission intensity and carbon neutralization rate;

determining a second type of evaluation parameter according to the carbon emission factor and the second carbon efficiency evaluation reference data; wherein the second type of evaluation parameter comprises a carbon valid value;

and generating an enterprise carbon efficiency evaluation result of the target enterprise according to the first type of evaluation parameters and the second type of evaluation parameters.

In one alternative example of this, the user may,

determining a first type of evaluation parameter according to the carbon emission factor and the first carbon efficiency evaluation reference data, wherein the determining comprises the following steps:

determining first energy consumption according to the first carbon efficiency evaluation reference data;

converting the first energy consumption into a first carbon emission amount by using the carbon emission factor;

determining at least one of the carbon emission intensity and the carbon neutralization rate according to the first carbon emission amount and a first preset calculation model deployed on the carbon-effect code registration and analysis platform;

and/or the presence of a gas in the atmosphere,

determining a second type of evaluation parameter according to the second carbon efficiency evaluation reference data and the carbon emission factor, wherein the second type of evaluation parameter comprises:

determining a second energy consumption and an industrial added value according to the second carbon efficiency evaluation reference data;

converting the second energy consumption into a second carbon emission amount using the carbon emission factor;

and determining the carbon effective value according to the industry added value, the second carbon emission and a second preset calculation model deployed on the carbon effective code registration and analysis platform.

In one optional example, the method further comprises:

updating at least one of the preset carbon emission factor library, the first preset calculation model, and the second preset calculation model.

In one optional example, the target information includes the first business information, the first energy type information, and an industrial internet identification of the target enterprise;

after receiving the enterprise carbon efficiency evaluation request for the target enterprise, the method further comprises the following steps:

determining second industry information and second energy type information corresponding to the target enterprise according to a preset corresponding relation; the preset corresponding relation is the corresponding relation among enterprises, industry information and energy type information;

the step of acquiring first carbon efficiency evaluation reference data of the target enterprise from an industrial internet identification analysis system according to the enterprise carbon efficiency evaluation request comprises the following steps:

and under the condition that the second industry information is the same as the first industry information and the second energy type information is the same as the first energy type information, acquiring first carbon efficiency evaluation reference data of the target enterprise from an industrial internet identification analysis system according to the industrial internet identification.

In one optional example, the method further comprises:

acquiring third carbon efficiency evaluation reference data of the target enterprise from a block chain according to the enterprise carbon efficiency evaluation request; the industrial internet identification analysis system synchronously uploads the corresponding carbon efficiency evaluation reference data to the block chain for storage when updating and storing the carbon efficiency evaluation reference data each time;

performing preset check operation on the first carbon efficiency evaluation reference data to obtain a first operation result;

performing the preset check operation on the third carbon efficiency evaluation reference data to obtain a second operation result;

and under the condition that the first operation result is the same as the second operation result, executing the step of generating an enterprise carbon efficiency evaluation result of the target enterprise according to the carbon emission factor, the first carbon efficiency evaluation reference data and the second carbon efficiency evaluation reference data.

In one optional example, the method further comprises:

determining a second energy consumption amount according to the second carbon efficiency evaluation reference data;

comparing the first energy consumption with the second energy consumption to obtain a comparison result;

executing the step of generating an enterprise carbon efficiency evaluation result of the target enterprise according to the carbon emission factor, the first carbon efficiency evaluation reference data, and the second carbon efficiency evaluation reference data, in a case where it is determined that the matching check on the first energy consumption amount and the second energy consumption amount passes according to the comparison result; and if not, forbidding to generate an enterprise carbon efficiency evaluation result of the target enterprise, and outputting prompt information for representing the energy consumption abnormity of the target enterprise.

In one optional example, the method further comprises at least one of:

uploading the carbon efficiency evaluation result of the enterprise to a block chain for trusted evidence storage;

and under the condition that the attack on the carbon-effect code registration and analysis platform is monitored, outputting attack alarm information and/or recording log information associated with the attack.

According to a second aspect of embodiments of the present application, there is provided a computer storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of the method according to the first aspect as described above.

According to a third aspect of the embodiments of the present application, there is provided a carbon-efficient code registration parsing platform, including a memory and one or more processors, the memory being configured to store one or more programs; the one or more programs, when executed by the one or more processors, implement the method of the first aspect as described above.

In the scheme provided by the embodiment of the application, after receiving an enterprise carbon efficiency evaluation request for a target enterprise, the carbon efficiency code registration and analysis platform can respectively obtain corresponding carbon efficiency evaluation reference data from the industrial internet identification and analysis system and a third-party platform according to the enterprise carbon efficiency evaluation request, and determine a corresponding carbon emission factor from a preset carbon emission factor library deployed in the platform, so that an enterprise carbon efficiency evaluation result of the target enterprise is generated according to the obtained carbon efficiency evaluation reference data and the determined carbon emission factor, and the enterprise carbon efficiency evaluation result is returned to the electronic device sending the enterprise carbon efficiency evaluation request. Therefore, in the embodiment of the application, based on the construction of the carbon-effect code registration and analysis platform, the data required by the carbon-effect evaluation of the enterprise can be acquired from the industrial internet identification and analysis system, the third party platform and the carbon-effect code registration and analysis platform, so that the carbon-effect evaluation of the enterprise is realized, the enterprise does not need to report the data required by the carbon-effect evaluation of the enterprise autonomously, the risk that the enterprise tampers with the data can be avoided, the authenticity and the accuracy of the acquired data required by the carbon-effect evaluation of the enterprise are ensured, and the authenticity and the accuracy of the carbon-effect evaluation result of the enterprise are ensured. In addition, in the embodiment of the application, data required by the carbon efficiency evaluation of the enterprise can be acquired in real time, the carbon efficiency evaluation of the enterprise can be carried out at any time, and the evaluation period and the evaluation frequency of the carbon efficiency evaluation of the enterprise can be controlled.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 shows one of the flowcharts of the enterprise carbon efficiency evaluation method based on the industrial internet identification resolution provided in the embodiment of the present application;

FIG. 2 illustrates a logical framework diagram of an industrial Internet identity resolution system;

FIG. 3 illustrates a flow diagram of industrial Internet identity resolution by the industrial Internet identity resolution system;

FIG. 4 shows a second flowchart of an enterprise carbon efficiency evaluation method based on industrial Internet identity resolution provided in an embodiment of the present application;

fig. 5 shows a third flowchart of an enterprise carbon efficiency evaluation method based on industrial internet identity resolution provided in an embodiment of the present application;

FIG. 6 is a fourth flowchart of an enterprise carbon efficiency evaluation method based on industrial Internet identity resolution provided in an embodiment of the present application;

FIG. 7 is a fifth flowchart of an enterprise carbon efficiency evaluation method based on industrial Internet identity resolution provided in an embodiment of the present application;

fig. 8 shows a schematic structural diagram of a carbon-efficient code registration parsing platform provided in an embodiment of the present application.

Detailed Description

Referring to fig. 1, a flowchart of an enterprise carbon efficiency evaluation method based on industrial internet identity resolution according to an embodiment of the present application is shown. The method can be applied to a carbon-efficient code registration and resolution platform, and as shown in fig. 1, the method comprises

steps

110, 120, 130, 140, 150 and 160.

Step 110, receiving an enterprise carbon efficiency evaluation request aiming at a target enterprise; the enterprise carbon efficiency evaluation request comprises target information, and the target information comprises at least one of first business information to which the target enterprise belongs and first energy type information used by the target enterprise.

It should be noted that the target enterprise may be any enterprise that needs to perform carbon efficiency evaluation of the enterprise, and the "target" in the target enterprise does not constitute any limitation on the target enterprise.

If the requirement for enterprise carbon efficiency evaluation of the target enterprise exists, an enterprise carbon efficiency evaluation request comprising target information for the target enterprise can be initiated to the carbon efficiency code registration and analysis platform through electronic equipment (for example, terminal equipment), and thus the carbon efficiency code registration and analysis platform can receive the enterprise carbon efficiency evaluation request.

Optionally, in a case that the target information includes first industry information, the first industry information may be characterized by an industry name or an industry code of an industry to which the target enterprise belongs; in the case where the target information includes the first energy type information, the first energy type information may be characterized by an energy type name or an energy type code of the energy used by the target enterprise.

And step 120, acquiring first carbon efficiency evaluation reference data of the target enterprise from the industrial internet identification and analysis system according to the enterprise carbon efficiency evaluation request.

It should be noted that, the logical framework of the industrial internet identity resolution system can refer to fig. 2, and it is easy to see that the industrial internet identity resolution system may include a public recursive resolution node (which may be referred to as a recursive node for short), a top-level node of a country, a second-level node, and an enterprise node. In addition, the industrial internet id parsing process of the industrial internet id parsing system may refer to fig. 3, as shown in fig. 3, the industrial internet id parsing process may generally include the following steps:

(1) The identification analysis client sends an identification analysis request to the recursion node;

(2) The recursive node checks the local cache, and when no cache result exists, the recursive node sends the analysis request to the top-level node of the country;

(3) The national top level node returns a second level node analysis address to the recursion node;

(4) The recursion node sends an analysis request to the secondary node;

(5) The second-level node returns the enterprise node resolution address to the recursion node;

(6) The recursion node sends an analysis request to the enterprise node;

(7) The enterprise node returns an identification resolution service address to the recursion node;

(8) The recursive node returns the identification service address to the identification analysis client;

(9) The identification analysis client sends a query request to the enterprise information system;

(10) And the enterprise information system returns the identification object information to the identification analysis client.

Alternatively, as shown in fig. 4, according to the enterprise carbon-efficiency evaluation request, the carbon-efficiency code registration and resolution platform may send a green low-carbon identifier resolution request including the industrial internet identifier of the target enterprise to the recursive node. The recursion node can send green low-carbon identification analysis requests to the national top node, the second-level node and the enterprise node in sequence. The national top level node, the national second level node and the enterprise node can respectively respond to the received green low-carbon identification analysis request, obtain data required by enterprise carbon efficiency evaluation of the target enterprise through identification analysis, and return the obtained data to the recursion node. The recursion node can integrate data from the top level node of the country, the second level node and the enterprise node to obtain first carbon efficiency evaluation reference data of the target enterprise, and the first carbon efficiency evaluation reference data is returned to the carbon efficiency code registration and analysis platform, so that the carbon efficiency code registration and analysis platform successfully obtains the first carbon efficiency evaluation reference data from the industrial internet identification and analysis system.

And step 130, acquiring second carbon efficiency evaluation reference data of the target enterprise from the third-party platform according to the enterprise carbon efficiency evaluation request.

Optionally, the third-party platform may include platforms of departments of statistics, trust, environmental protection, power, and the like, and the third-party platform may store mass data therein.

In step 130, according to the carbon efficiency evaluation request of the enterprise, carbon efficiency evaluation reference data related to the target enterprise may be acquired from the mass data stored in the third party platform through an Application Programming Interface (API), and the carbon efficiency evaluation reference data may be used as second carbon efficiency evaluation reference data.

And 140, determining a carbon emission factor corresponding to the target information from a preset carbon emission factor library deployed on the carbon-effect code registration and analysis platform.

It should be noted that the carbon-effect code registration and analysis platform may be pre-deployed with a preset carbon emission factor library, where multiple carbon emission factors may be stored in the preset carbon emission factor library, and each carbon emission factor may correspond to one energy type information. Alternatively, each carbon emission factor may be in the form of a percentage less than 100%, or in the form of a decimal less than 1.

Assuming that the target information includes the first energy type information, in step 110, based on the correspondence between the carbon emission factor and the energy type information, the carbon emission factor corresponding to the first energy type information can be determined very conveniently, and the determined carbon emission factor can be used as the carbon emission factor corresponding to the target information.

And 150, generating an enterprise carbon efficiency evaluation result of the target enterprise according to the carbon emission factor, the first carbon efficiency evaluation reference data and the second carbon efficiency evaluation reference data.

Optionally, the enterprise carbon efficiency evaluation result of the target enterprise includes, but is not limited to, an enterprise carbon efficiency evaluation level report, a carbon efficiency code, and the like of the target enterprise. It can be understood that the carbon effect code of the target enterprise can present the enterprise carbon effect evaluation level result of the target enterprise in a very three-dimensional visual form.

And step 160, returning an enterprise carbon efficiency evaluation result to the electronic equipment sending the enterprise carbon efficiency evaluation request.

After the enterprise carbon efficiency evaluation result is returned to the electronic equipment sending the enterprise carbon efficiency evaluation request, the electronic equipment can display the enterprise carbon efficiency evaluation result through the display screen so as to manually look up the enterprise carbon efficiency evaluation result.

In this embodiment of the application, after receiving an enterprise carbon effectiveness evaluation request for a target enterprise, the carbon effectiveness code registration and analysis platform may obtain, according to the enterprise carbon effectiveness evaluation request, corresponding carbon effectiveness evaluation reference data from the industrial internet identification and analysis system and the third-party platform, respectively, and determine, from a preset carbon emission factor library deployed in the platform, a corresponding carbon emission factor, so as to generate an enterprise carbon effectiveness evaluation result of the target enterprise according to the obtained carbon effectiveness evaluation reference data and the determined carbon emission factor, and return the enterprise carbon effectiveness evaluation result to an electronic device that sends the enterprise carbon effectiveness evaluation request. Therefore, in the embodiment of the application, based on the construction of the carbon-effect code registration and analysis platform, the data required by the carbon-effect evaluation of the enterprise can be acquired from the industrial internet identification and analysis system, the third party platform and the carbon-effect code registration and analysis platform, so that the carbon-effect evaluation of the enterprise is realized, the enterprise does not need to report the data required by the carbon-effect evaluation of the enterprise autonomously, the risk that the enterprise tampers with the data can be avoided, the authenticity and the accuracy of the acquired data required by the carbon-effect evaluation of the enterprise are ensured, and the authenticity and the accuracy of the carbon-effect evaluation result of the enterprise are ensured. In addition, in the embodiment of the application, data required by the carbon efficiency evaluation of the enterprise can be acquired in real time, the carbon efficiency evaluation of the enterprise can be carried out at any time, and the evaluation period and the evaluation frequency of the carbon efficiency evaluation of the enterprise can be controlled.

In an alternative example, as shown in fig. 5, step 150, comprises:

step 1501, determining a first type of evaluation parameter according to the carbon emission factor and the first carbon efficiency evaluation reference data; wherein the first type of evaluation parameter comprises at least one of carbon emission intensity and carbon neutralization rate;

step 1503, determining a second type of evaluation parameters according to the carbon emission factor and the second carbon efficiency evaluation reference data; wherein the second type of evaluation parameter comprises a carbon valid value;

step 1505, generating an enterprise carbon efficiency evaluation result of the target enterprise according to the first type evaluation parameter and the second type evaluation parameter.

In one embodiment, step 1501 includes:

determining a first energy consumption amount according to the first carbon efficiency evaluation reference data;

converting the first energy consumption into a first carbon emission amount by using a carbon emission factor;

determining at least one of carbon emission intensity and carbon neutralization rate according to the first carbon emission amount and a first preset calculation model deployed on a carbon effect code registration and analysis platform;

alternatively, the energy consumption amount of the target enterprise, for example, the energy consumption amount of the target enterprise on each day in multiple days, may be included in the first carbon efficiency assessment reference data, and by using these energy consumption amounts to perform calculation, the total energy consumption amount of the target enterprise may be obtained as the first energy consumption amount, or the single-day average energy consumption amount of the target enterprise may be obtained as the first energy consumption amount, or the energy consumption amount of the target enterprise in a specific time period (for example, the last month, the last quarter, and the like) may be obtained as the first energy consumption amount.

After the first energy consumption amount is determined, the carbon emission factor determined in step 140 can be used to determine how much carbon emission is caused by the energy corresponding to the first energy consumption amount, and the determined carbon emission can be used as the first carbon emission amount converted from the first energy consumption amount. Alternatively, if the first energy consumption amount represents that the consumed electric quantity is X degrees, X may be multiplied by the carbon emission factor, and the multiplication result is taken as the first carbon emission amount; if the first energy consumption represents that Y tons of coal are consumed, Y can be multiplied by the carbon emission factor, and the multiplication result is taken as the first carbon emission.

It should be noted that, a first preset calculation model may be deployed on the carbon-efficient code registration and analysis platform, and the first preset calculation model may be a model for calculating at least one of carbon emission intensity and carbon neutralization rate. After the first energy consumption amount is converted into the first carbon emission amount in the above manner, the first carbon emission amount may be provided to a first preset calculation model, and the first preset calculation model may perform calculation according to a predetermined strategy to obtain at least one of the carbon emission intensity and the carbon neutralization rate.

It should be noted that the carbon emission intensity may refer to a carbon dioxide emission amount per GDP, and then the first preset calculation model may specifically calculate based on GDP-related data of the target enterprise and the first carbon emission amount, so as to determine the carbon emission intensity. In addition, carbon neutralization can refer to the total amount of carbon dioxide or greenhouse gas emission generated directly or indirectly by countries, enterprises, products, activities or individuals within a certain time, and the emission amount of the carbon dioxide or greenhouse gas generated by the countries, the enterprises, the products, the activities or the individuals is offset through the forms of tree planting, energy conservation and emission reduction and the like, so that positive and negative offset is realized, and then the first preset calculation model can be specifically calculated based on relevant data of tree planting and forestation of target enterprises (such as the number and the types of planted trees), relevant data of energy conservation and emission reduction (such as the number of degrees of electric energy saved by using clean energy) and the first carbon emission amount, so that the determination of carbon neutralization is realized.

In this embodiment, in combination with the first carbon efficiency evaluation reference data, the carbon emission factor and the unified first preset calculation model, at least one of the carbon emission intensity and the carbon neutralization rate can be determined efficiently and reliably, so as to obtain a first type of evaluation parameter including at least one of the carbon emission intensity and the carbon neutralization rate.

In one embodiment, step 1503 includes:

determining a second energy consumption amount and an industry added value according to the second carbon efficiency evaluation reference data;

converting the second energy consumption into a second carbon emission amount by using the carbon emission factor;

and determining the carbon equivalent value according to the industrial added value, the second carbon emission amount and a second preset calculation model deployed on the carbon equivalent code registration analysis platform.

It should be noted that the method for determining the second energy consumption amount according to the second carbon efficiency evaluation reference data may refer to the description of the method for determining the first energy consumption amount according to the first carbon efficiency evaluation reference data, and the method for converting the second energy consumption amount into the second carbon emission amount by using the carbon emission factor may refer to the description of the method for converting the first energy consumption amount into the first carbon emission amount by using the carbon emission factor, which is not described herein again.

Optionally, the second carbon efficiency evaluation reference data may include an industry increase value, so that the industry increase value may be directly obtained from the second carbon efficiency evaluation reference data.

It should be noted that a second preset calculation model may be deployed on the carbon-valid code registration and analysis platform, and the second preset calculation model may be a model for calculating a carbon-valid value. After the industrial added value and the second carbon emission are obtained in the above manner, the industrial added value and the second carbon emission may be provided to a second preset calculation model, and the second preset calculation model may perform calculation according to a predetermined policy to obtain a carbon effective value. Optionally, the second preset calculation model may specifically divide the carbon emission by the industry added value, and the division result may be used as the carbon effective value.

In this embodiment, the second type of evaluation parameters including the carbon equivalent value can be obtained by efficiently and reliably determining the carbon equivalent value in combination with the industry added value, the second carbon emission amount, and the unified second preset calculation model.

After the first-type evaluation parameters and the second-type evaluation parameters are obtained, enterprise carbon efficiency evaluation grade reports, carbon efficiency codes and the like of the target enterprise can be obtained through analysis, integration and other processing of the first-type evaluation parameters and the second-type evaluation parameters, and accordingly enterprise carbon efficiency evaluation results of the target enterprise are generated.

According to the embodiment of the application, the first type of evaluation parameters can be determined efficiently and reliably by combining the carbon emission factors and the first carbon efficiency evaluation reference data from the industrial internet identification analysis system, the second type of evaluation parameters can be determined efficiently and reliably by combining the carbon emission factors and the second carbon efficiency evaluation reference data from the third-party platform, and the enterprise carbon efficiency evaluation results of the target enterprise can be generated efficiently and reliably by combining the first type of evaluation parameters and the second type of evaluation parameters, so that the enterprise carbon efficiency evaluation of the target enterprise is realized.

In one optional example, the method further comprises:

updating at least one of the preset carbon emission factor library, the first preset calculation model and the second preset calculation model.

Optionally, the carbon-effect code registration and analysis platform may receive configuration information, where the configuration information is used to indicate how to specifically update the preset carbon emission factor library, for example, the configuration information may indicate that a carbon emission factor corresponding to certain energy type information in the preset carbon emission factor library is updated from 0.5 to 0.4 or 0.6, so that the carbon-effect code registration and analysis platform may perform corresponding update processing on the preset carbon emission factor library according to the configuration information.

Optionally, the carbon-effect code registration and parsing platform may receive a first deployment instruction, where the first deployment instruction is used to instruct to deploy a new first preset calculation model, and thus, according to the first deployment instruction, the first preset calculation model currently deployed by the carbon-effect code registration and parsing platform may be replaced by the new first preset calculation model, so as to implement updating of the first preset calculation model.

Optionally, the carbon-effect code registration and parsing platform may receive a second deployment instruction, where the second deployment instruction is used to instruct to deploy a new second preset calculation model, so that according to the second deployment instruction, the new second preset calculation model may be used to replace the second preset calculation model currently deployed by the carbon-effect code registration and parsing platform, so as to update the second preset calculation model.

In the embodiment of the application, the carbon emission factor stored in the preset carbon emission factor library is more accurate through updating the preset carbon emission factor library, the strategy used when the first preset calculation model calculates at least one of the carbon emission intensity and the carbon neutralization rate is more reasonable through updating the first preset calculation model, and the strategy used when the second preset calculation model calculates the carbon effective value is more reasonable through updating the second preset calculation model, so that the accuracy and the reliability of the enterprise carbon efficiency evaluation result are further ensured.

In one optional example, the target information includes first business information, first energy type information, and an industrial internet identification of the target enterprise;

after receiving the enterprise carbon efficiency evaluation request aiming at the target enterprise, the method further comprises the following steps:

determining second industry information and second energy type information corresponding to the target enterprise according to the preset corresponding relation; the preset corresponding relation is the corresponding relation among enterprises, industry information and energy type information;

according to the carbon efficiency evaluation request of the enterprise, acquiring first carbon efficiency evaluation reference data of a target enterprise from an industrial internet identification analysis system, wherein the method comprises the following steps:

and under the condition that the second industry information is the same as the first industry information and the second energy type information is the same as the first energy type information, acquiring first carbon efficiency evaluation reference data of the target enterprise from the industrial internet identification analysis system according to the industrial internet identification.

Optionally, the preset corresponding relationship may be stored in advance in a top node of a country, and the industry information and the energy type information corresponding to any enterprise in the preset corresponding relationship may be: the preset corresponding relation of the industry information and the energy type information provided by the enterprise when registering the green low-carbon identification prefix can also be called identification record information.

After receiving an enterprise carbon efficiency evaluation request for a target enterprise, the carbon efficiency code registration and analysis platform may call the identification record information to determine second industry information and second energy type information corresponding to the target enterprise recorded in the identification record information, compare the second industry information with the first industry information, and compare the second energy type information with the first energy type information.

If the second industry information is the same as the first industry information and the second energy type information is the same as the first energy type information, the first industry information and the first energy type information carried in the enterprise carbon efficiency evaluation request can be considered to be accurate, so that the enterprise carbon efficiency evaluation request can be determined to be a legal request, and therefore, the subsequent steps 120 to 160 can be normally executed to realize normal response to the enterprise carbon efficiency evaluation request.

If the second industry information is different from the first industry information, and/or the second energy type information is different from the first energy type information, at least one of the first industry information and the first energy type information carried in the enterprise carbon efficiency evaluation request may be considered to be inaccurate, so that it may be determined that the enterprise carbon efficiency evaluation request may not be a legal request, and therefore, the subsequent steps 120 to 160 may not be performed.

In the embodiment of the application, the legality of the carbon efficiency evaluation request of the enterprise can be identified by setting the preset corresponding relation and combining the target information in the carbon efficiency evaluation request of the enterprise, and only the legal carbon efficiency evaluation request of the enterprise is responded normally, so that the security of the related data of the enterprise is ensured.

On the basis of the embodiment shown in fig. 1, as shown in fig. 6, the method further includes:

step 141, acquiring third carbon efficiency evaluation reference data of the target enterprise from the block chain according to the enterprise carbon efficiency evaluation request; the industrial internet identification analysis system synchronously uploads corresponding carbon efficiency evaluation reference data to a block chain for storage when updating and storing the carbon efficiency evaluation reference data each time;

142, performing preset check operation on the first carbon efficiency evaluation reference data to obtain a first operation result;

step 143, performing preset check operation on the third carbon efficiency evaluation reference data to obtain a second operation result;

step 144, determining whether the first operation result is the same as the second operation result, if yes, executing step 150.

It should be noted that, for any one of the country top-level node, the second-level node, and the enterprise node, when the carbon efficiency evaluation reference data is updated each time, the updated carbon efficiency evaluation reference data may be uploaded to the block chain to be stored in synchronization, and when the carbon efficiency evaluation reference data is stored each time, the carbon efficiency evaluation reference data may be uploaded to the block chain to be stored in synchronization, that is, under normal conditions, all the carbon efficiency evaluation reference data stored by the country top-level node, the second-level node, and the enterprise node may be stored in the block chain. It will be appreciated that the information stored in the blockchain is difficult to tamper with.

In the embodiment of the application, the carbon effect code registration and analysis platform can acquire the carbon effect evaluation reference data of the target enterprise from the third-party platform according to the carbon effect evaluation request of the enterprise to serve as the third carbon effect evaluation reference data. Next, the carbon-effect code registration and analysis platform may perform a preset check operation on the first carbon-effect evaluation reference data and the third carbon-effect evaluation reference data, respectively, to obtain a first operation result and a second operation result.

Alternatively, the predetermined check operation may be a hash operation, and accordingly, the first operation result and the second operation result are respectively a hash value. Of course, the predetermined Check operation may also be a Cyclic Redundancy Check (CRC) operation or other operations, which are not listed here.

After the first operation result and the second operation result are obtained, the first operation result and the second operation result may be compared to determine whether the first operation result and the second operation result are the same.

If the first operation result and the second operation result are the same, it may be considered that the carbon efficiency assessment reference data stored by the industrial internet identity resolution system and the blockchain for the target enterprise are consistent, which is consistent with a normal situation, and thus it may be determined that the first carbon efficiency assessment reference data obtained from the industrial internet identity resolution system is reliable data, and therefore, the

subsequent steps

150 and 160 may be performed normally to achieve enterprise carbon efficiency assessment for the target enterprise.

If the first operation result is not the same as the second operation result, it may be determined that the first carbon efficiency evaluation reference data obtained from the industrial internet identity resolution system may not be reliable enough, and therefore, the

subsequent steps

150 and 160 may not be performed.

In the embodiment of the application, based on the third carbon efficiency evaluation reference data obtained from the block chain, the execution of the preset checking operation and the comparison of the operation result are combined, whether the first carbon efficiency evaluation reference data obtained from the industrial internet identification analysis system is reliable or not can be efficiently and reliably judged, and the subsequent processing is carried out only under the reliable condition, so that the reliability of the carbon efficiency evaluation result of an enterprise can be further ensured.

On the basis of the embodiment shown in fig. 1, as shown in fig. 7, the method further includes:

step 145, determining a first energy consumption amount according to the first carbon efficiency evaluation reference data;

step 146, determining a second energy consumption amount according to the second carbon efficiency evaluation reference data;

step 147, comparing the first energy consumption amount with the second energy consumption amount to obtain a comparison result;

and 148, determining whether the matching check of the first energy consumption amount and the second energy consumption amount passes according to the comparison result, if so, executing the step 150, and if not, executing the step 170.

And 170, forbidding generation of the enterprise carbon efficiency evaluation result of the target enterprise, and outputting prompt information for representing the energy consumption abnormity of the target enterprise.

It should be noted that, for the specific implementation of step 145 and step 146, reference may be made to the above description of step 1501 and step 1503, which is not described herein again.

Alternatively, the type of energy used by the target enterprise may be electricity, and the first amount of energy consumption may represent an amount of electricity actually consumed by the target enterprise, and the second amount of energy consumption may be an amount of electricity consumed by the target enterprise estimated based on an amount of electricity purchased by the target enterprise from the electricity department, and the estimated amount of electricity consumed by the target enterprise may be the same as an amount of electricity purchased from the electricity department. It should be noted that, under normal circumstances, the amount of power actually consumed by the target enterprise is less than or equal to the amount of power purchased by the target enterprise from the power department.

In a specific example, the first energy consumption amount may indicate that the amount of electricity actually consumed by the target enterprise is 4000 degrees, the second energy consumption amount may indicate that the circuit purchased by the target enterprise from the power part is 5000 degrees, and since 4000 degrees is less than 5000 degrees, it may be determined that the comparison result of the first energy consumption amount and the second energy consumption amount corresponds to a normal condition, and then it may be further determined that the matching check of the first energy consumption amount and the second energy consumption amount passes, and then steps 150 to 160 may be continuously performed to implement enterprise carbon efficiency evaluation for the target enterprise.

In another specific example, the first energy consumption amount may indicate that the amount of electricity actually consumed by the target enterprise is 6000 degrees, the second energy consumption amount may indicate that the circuit purchased by the target enterprise from the power part is 5000 degrees, and since 6000 degrees is 1000 degrees greater than 5000 degrees, it may be determined that the comparison result of the first energy consumption amount and the second energy consumption amount does not correspond to the normal condition, and then it may be further determined that the matching verification of the first energy consumption amount and the second energy consumption amount does not pass, and step 170 may be performed next to prohibit generation of the enterprise carbon efficiency evaluation result of the target enterprise, and output prompt information for indicating that the energy consumption amount of the target enterprise is abnormal. Alternatively, the prompt message may be output by short message, mail, or the like.

In the embodiment of the application, whether the matching verification of the first energy consumption amount and the second energy consumption amount passes can be efficiently and reliably determined through the comparison of the first energy consumption amount determined according to the first carbon efficiency evaluation reference data and the second energy consumption amount determined according to the second carbon efficiency evaluation reference data, if the matching verification passes, the enterprise carbon efficiency evaluation of the target enterprise can be continued, and if the matching verification does not pass, the enterprise carbon efficiency evaluation of the target enterprise can be not continued, and the output of the prompt information is performed to prompt the manual checking of the relevant information of the target enterprise, for example, whether the electric quantity actually consumed by the target enterprise is actually 6000 degrees or not is checked, and for example, whether the industry information and the energy type information corresponding to the target enterprise recorded in the identification filing information are accurate or not is checked.

In one optional example, the method further comprises at least one of:

uploading the carbon efficiency evaluation result of the enterprise to a block chain for credible evidence storage;

and under the condition that the attack on the carbon-effect code registration analysis platform is monitored, outputting attack alarm information and/or recording log information associated with the attack.

In the embodiment of the application, the carbon effect code registration and analysis platform can upload the enterprise carbon effect evaluation result of the target enterprise to the block chain for trusted evidence storage, so that a user in need can look up the enterprise carbon effect evaluation result of the target enterprise based on the block chain.

In the embodiment of the application, the carbon-effect code registration and analysis platform can have a security situation perception function, and based on the security situation perception function, the carbon-effect code registration and analysis platform can determine whether the carbon-effect code registration and analysis platform is attacked or not. If the carbon effect code registration and analysis platform is attacked, attack warning information can be output in a voice form, a character form, a light form and the like, so that a person can know the carbon effect code registration and analysis platform in time and know the attack condition of the carbon effect code registration and analysis platform in time, and can deal with the attack in time, and the safety of the carbon effect code registration and analysis platform is ensured. If the carbon effect code registration and analysis platform is attacked, log information associated with the attack can be recorded, for example, the specific time of the attack, the IP address of the attack and the like are recorded, so that the attack can be handled in a proper manner based on the log information in a manual follow-up process, and the security of the carbon effect code registration and analysis platform is ensured.

In an alternative example, as shown in fig. 4, the enterprise carbon efficiency evaluation may be implemented by:

(1) An enterprise (client) initiates a carbon effect evaluation application, logs in a carbon effect code registration and analysis platform, and selects information such as industries and main energy types of the enterprise (which is equivalent to initiating an enterprise carbon effect evaluation request for a target enterprise to the carbon effect code registration and analysis platform);

(2) The carbon-effect code registration and analysis platform calls identification filing information to compare with filling information (equivalent to the target information in the text above);

(3) The carbon effect code registration and analysis platform determines that filling information is correct (equivalent to that second industry information is the same as the first industry information and second energy type information is the same as the first energy type information in the above) through comparison, and sends a green low-carbon identification analysis request to a recursion node to request to acquire required data (equivalent to that of first carbon effect evaluation reference data in the above);

(4) The recursion node sends green low-carbon identification analysis requests to the national top node, the national second node and the national enterprise node in sequence, obtains corresponding data required by carbon efficiency evaluation through identification analysis, and returns to the recursion node;

(5) The recursion node returns an analysis result, namely, the recursion node synchronizes data (which is equivalent to the first carbon-efficiency evaluation reference data in the above) to the carbon-efficiency code registration analysis platform;

(6) Comparing the analysis data with the block chain storage data by the carbon validity code registration analysis platform, and verifying whether the data is falsified (which is equivalent to determining whether the first carbon validity evaluation reference data is reliable by comparing the first operation result with the second operation result in the above);

(7) If the first operation result is the same as the second operation result, the carbon effect code registration and analysis platform calls a carbon effect calculation model (such as the first preset calculation model and the second preset calculation model), a carbon effect evaluation index system and a carbon emission factor library comprising a plurality of carbon emission factors to calculate indexes such as carbon emission intensity, carbon neutralization rate and the like;

(8) The carbon effect code registration and analysis platform calls data such as statistics and credit through an API (application programming interface) interface and the like (which is equivalent to the second carbon effect evaluation reference data of the target enterprise obtained from the third-party platform in the above description), and calculates a carbon effect value through a carbon effect evaluation index system;

(9) The carbon effect code registration and analysis platform obtains an enterprise carbon effect evaluation report and a carbon effect code (which is equivalent to the enterprise carbon effect evaluation result of the target enterprise generated in the above) through calculation, analysis and evaluation, and returns the enterprise carbon effect evaluation report and the carbon effect code to the enterprise (client).

In summary, the enterprise carbon efficiency evaluation system based on the industrial internet identification analysis is adopted in the embodiment of the application, and comprises a carbon efficiency code registration analysis platform, an industrial internet identification analysis system, a third-party platform, a carbon efficiency calculation model, a carbon efficiency evaluation index system, a carbon emission factor inventory and the like. The carbon effect code registration and analysis platform can be responsible for enterprise carbon effect calculation and collection, storage, management and the like of related data, and has service functions of carbon effect evaluation, evaluation result presentation, data security situation perception and the like; the industrial internet identification analysis system can provide service functions such as data query, analysis and the like for carbon efficiency evaluation of enterprises based on self public data service capability; the third-party platform can comprise platforms of departments of statistics, trust, environmental protection and the like, can count carbon emission related data, and can transmit data to the carbon effect code registration analysis platform through calling of the API interface; the carbon efficiency calculation model can provide service functions such as carbon efficiency calculation and the like according to a carbon efficiency rating index system; the carbon efficiency evaluation index system and the carbon emission factor library can provide specific indexes and calculation factors (corresponding to the carbon emission factors in the above) for carbon efficiency evaluation.

By utilizing the enterprise carbon efficiency evaluation system, the value of the industrial internet identification in the field of the industrial internet can be fully exerted, the problems that an effective data acquisition means is lacked when the enterprise carries out carbon efficiency evaluation at present, pain points and difficulties such as inaccurate carbon efficiency calculation data are caused are solved by utilizing the existing industrial internet identification through an identification analysis system and analyzing data required by carbon efficiency calculation of the enterprise, the problems that the data reported by the enterprise autonomously are inaccurate are solved by registering and analyzing a platform through the carbon efficiency code, calling a calculation model, a carbon efficiency evaluation index system and a carbon emission factor library to carry out active carbon efficiency accurate accounting, so that the problems that the carbon efficiency evaluation data is poor in authenticity, the calculation model is different, the index system is not uniform, and the artificial accounting has errors are solved, the refinement and standardization degrees of the enterprise carbon efficiency evaluation are improved, the authenticity and the accuracy of the enterprise carbon efficiency evaluation result are improved, a reference is provided for the enterprise optimization structure and the green energy-saving technology improvement, and the carbon peak reaching process are promoted.

Based on the same inventive concept, an embodiment of the present application provides a computer storage medium, where a computer program is stored on the computer storage medium, and when the computer program is executed by a processor, the computer program implements the following steps:

receiving an enterprise carbon efficiency evaluation request aiming at a target enterprise; the enterprise carbon efficiency evaluation request comprises target information, and the target information comprises at least one of first business information to which the target enterprise belongs and first energy type information used by the target enterprise;

acquiring first carbon efficiency evaluation reference data of a target enterprise from an industrial internet identification analysis system according to an enterprise carbon efficiency evaluation request;

determining a carbon emission factor corresponding to the target information from a preset carbon emission factor library deployed on a carbon-effect code registration and analysis platform;

and returning an enterprise carbon efficiency evaluation result to the electronic equipment sending the enterprise carbon efficiency evaluation request.

In an alternative example, the computer program when executed by the processor embodies the steps of:

and determining at least one of carbon emission intensity and carbon neutralization rate according to the first carbon emission and a first preset calculation model deployed on a carbon effect code registration and analysis platform.

and determining the carbon effective value according to the industrial added value, the second carbon emission and a second preset calculation model deployed on the carbon effective code registration and analysis platform.

In an alternative example, the computer program when executed by the processor further implements the steps of:

the computer program when executed by the processor further implements the steps of:

after receiving an enterprise carbon efficiency evaluation request aiming at a target enterprise, determining second industry information and second energy type information corresponding to the target enterprise according to a preset corresponding relation; the preset corresponding relation is the corresponding relation among enterprises, industry information and energy type information;

acquiring third carbon efficiency evaluation reference data of the target enterprise from the block chain according to the enterprise carbon efficiency evaluation request; the industrial internet identification analysis system synchronously uploads the corresponding carbon efficiency evaluation reference data to the block chain for storage when updating and storing the carbon efficiency evaluation reference data each time;

performing preset check operation on the third carbon efficiency evaluation reference data to obtain a second operation result;

and under the condition that the first operation result is the same as the second operation result, executing a step of generating an enterprise carbon efficiency evaluation result of the target enterprise according to the carbon emission factor, the first carbon efficiency evaluation reference data and the second carbon efficiency evaluation reference data.

executing a step of generating an enterprise carbon efficiency evaluation result of the target enterprise according to the carbon emission factor, the first carbon efficiency evaluation reference data and the second carbon efficiency evaluation reference data under the condition that the matching verification of the first energy consumption and the second energy consumption is determined to pass according to the comparison result; and if not, forbidding to generate an enterprise carbon efficiency evaluation result of the target enterprise, and outputting prompt information for representing the energy consumption abnormity of the target enterprise.

and uploading the carbon efficiency evaluation result of the enterprise to a block chain for credible evidence storage.

Based on the same inventive concept, the embodiment provides a carbon-efficient code registration and parsing platform, referring to fig. 8, which includes a memory 801, a processor 802, a bus 803, and a computer program stored on the memory 801 and capable of running on the processor 802, and when the processor 802 executes the computer program, the following steps are implemented:

acquiring first carbon efficiency evaluation reference data of a target enterprise from an industrial internet identification analysis system according to the enterprise carbon efficiency evaluation request;

and returning the carbon efficiency evaluation result of the enterprise to the electronic equipment sending the carbon efficiency evaluation request of the enterprise.

In an alternative example, the processor 802, when executing the computer program, implements the following steps:

and generating an enterprise carbon efficiency evaluation result of the target enterprise according to the first type evaluation parameters and the second type evaluation parameters.

and determining at least one of carbon emission intensity and carbon neutralization rate according to the first carbon emission amount and a first preset calculation model deployed on a carbon effect code registration and analysis platform.

In an alternative example, the processor 802 when executing the computer program further performs the steps of:

the processor 802, when executing the computer program, further performs the steps of:

acquiring third carbon efficiency evaluation reference data of the target enterprise from the block chain according to the enterprise carbon efficiency evaluation request; the industrial internet identification analysis system synchronously uploads corresponding carbon efficiency evaluation reference data to a block chain for storage when updating and storing the carbon efficiency evaluation reference data each time;

In an alternative example, the processor 802, when executing the computer program, further performs the steps of:

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims

1. An enterprise carbon efficiency evaluation method based on industrial internet identification analysis is applied to a carbon efficiency code registration analysis platform, and comprises the following steps:

2. The method of claim 1, wherein the generating of the enterprise carbon efficiency evaluation result of the target enterprise according to the carbon emission factor, the first carbon efficiency evaluation reference data and the second carbon efficiency evaluation reference data comprises:

3. The method of claim 2,

and/or the presence of a gas in the gas,

4. The method of claim 3, further comprising:

5. The method of claim 1, wherein the target information includes the first business information, the first energy type information, and an industrial internet identification of the target enterprise;

6. The method of claim 1, further comprising:

acquiring third carbon efficiency evaluation reference data of the target enterprise from a block chain according to the enterprise carbon efficiency evaluation request; the industrial internet identification analysis system synchronously uploads corresponding carbon efficiency evaluation reference data to the block chain for storage when updating and storing the carbon efficiency evaluation reference data each time;

7. The method of claim 1, further comprising:

8. The method of claim 1, further comprising at least one of:

9. A computer storage medium, characterized in that a computer program is stored thereon, which computer program, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 8.

10. A carbon-efficient code registration and parsing platform, comprising a memory and one or more processors, wherein the memory is used for storing one or more programs; the one or more programs, when executed by the one or more processors, implement the method of any of claims 1-8.