Double-carbon management method and device, electronic equipment, storage medium and program product

By acquiring dual-carbon configuration information and matching and adapting it based on pre-stored dual-carbon business models, application configuration information is generated, solving the problems of high cost and long cycle in existing dual-carbon management methods, and realizing efficient and low-cost one-stop dual-carbon management.

CN115600869BActive Publication Date: 2026-06-26SUNGROW ICARBON TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
SUNGROW ICARBON TECH CO LTD
Filing Date
2022-10-20
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing dual-carbon management methods suffer from high management costs and long application service design cycles, making it difficult to meet users' personalized needs.

Method used

A standardized dual-carbon management method is adopted. By acquiring dual-carbon configuration information, matching and adapting it based on multiple pre-stored dual-carbon business models, application configuration information is generated, and application services that match the dual-carbon configuration information are determined.

Benefits of technology

It achieves efficient and low-cost one-stop dual-carbon management, shortens the design cycle, reduces system construction and maintenance costs, and improves ease of use and adaptability.

✦ Generated by Eureka AI based on patent content.

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Abstract

A double-carbon management method, device, electronic equipment, storage medium and program product are disclosed. The double-carbon management method comprises: obtaining double-carbon configuration information; the double-carbon configuration information is individualized demand information for double-carbon management; based on the double-carbon configuration information, a double-carbon business model that is matched and adapted from a plurality of double-carbon business models stored in advance is obtained, and business model information of the adapted double-carbon business model is obtained; according to the business model information, application service configuration is performed to obtain application configuration information; and according to the application configuration information, an application service that matches the double-carbon configuration information is determined. Compared with the prior art, the embodiment of the present application reduces the cost and design cycle of the double-carbon management method, and improves the double-carbon management efficiency.
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Description

Technical Field

[0001] This invention relates to the field of dual-carbon technology, and more particularly to a dual-carbon management method, apparatus, electronic device, storage medium, and program product. Background Technology

[0002] Carbon diversification is a complex and long-term task. Specifically, the carbon diversification work has a complex value chain, a long life cycle, involves multiple business application systems, and the application services involved vary at different stages. In existing technologies, personalized customization of application services is required to meet different user needs in order to achieve carbon diversification management. Therefore, existing carbon diversification management methods suffer from high management costs and long application service design cycles. Summary of the Invention

[0003] This invention provides a dual carbon management method, apparatus, electronic device, storage medium, and program product to reduce the cost and design cycle of dual carbon management methods and improve dual carbon management efficiency.

[0004] According to one aspect of the present invention, a dual-carbon management method is provided, comprising:

[0005] Obtain dual-carbon configuration information; the dual-carbon configuration information is personalized requirement information for dual-carbon management;

[0006] Based on the dual-carbon configuration information, the appropriate dual-carbon business model is matched from a pre-stored set of multiple dual-carbon business models to obtain the business model information of the appropriate dual-carbon business model.

[0007] Based on the business model information, the application service is configured to obtain the application configuration information;

[0008] Based on the application configuration information, determine the application service that matches the dual-carbon configuration information.

[0009] Optionally, the step of matching a suitable dual-carbon service model from a pre-stored pool of dual-carbon service models based on the dual-carbon configuration information to obtain the service model information of the suitable dual-carbon service model includes:

[0010] Based on the aforementioned dual-carbon configuration information, user profile feature information for dual-carbon management is extracted;

[0011] The user profile feature information is matched with the dual-carbon business model to obtain the business model information of the adapted dual-carbon business model.

[0012] Optionally, before determining the application service matching the dual-carbon configuration information based on the application configuration information, the method further includes:

[0013] Determine whether the application configuration information meets the requirements of the dual-carbon configuration information;

[0014] If so, the dual-carbon application service configuration is completed; otherwise, continue with the step of matching the appropriate dual-carbon service model from a pre-stored pool of dual-carbon service models based on the dual-carbon configuration information.

[0015] Optionally, after determining the application service matching the dual-carbon configuration information based on the application configuration information, the method further includes:

[0016] The system uses a human-computer interaction interface to display application services that match the dual-carbon configuration information and to obtain user confirmation information; wherein, the user confirmation information indicates whether the application configuration information meets the requirements of the dual-carbon configuration information.

[0017] If so, the dual-carbon application service configuration is completed; otherwise, continue with the step of matching the appropriate dual-carbon service model from a pre-stored pool of dual-carbon service models based on the dual-carbon configuration information.

[0018] Optionally, when matching an appropriate dual-carbon service model from a pre-stored pool of dual-carbon service models based on the dual-carbon configuration information, the method further includes:

[0019] If no suitable dual-carbon business model is found among the pre-stored multiple dual-carbon business models, a general business model will be used as the suitable dual-carbon business model, or a new dual-carbon business model will be created as the suitable dual-carbon business model, or an existing dual-carbon business model will be modified to obtain a derived business model as the suitable dual-carbon business model.

[0020] Optionally, when matching and adapting the dual-carbon business model based on the dual-carbon configuration information, the method further includes:

[0021] There are multiple dual-carbon business models that are compatible with the dual-carbon configuration information; the compatibility result is determined based on at least one of the versions, usage frequency, and evaluations of the multiple dual-carbon business models.

[0022] Optionally, when obtaining the business model information of the adapted dual-carbon business model, the method further includes:

[0023] Pre-set application parameters are obtained based on the dual-carbon configuration information and the dual-carbon business model; in subsequent steps, application services are configured based on the pre-set application parameters and the business model information.

[0024] Optionally, after obtaining the business model information of the adapted dual-carbon business model, the method further includes:

[0025] The dual-carbon configuration information, as well as the business model information and application configuration information adapted to the dual-carbon configuration information, are stored.

[0026] Alternatively, dual-carbon management approaches may also include:

[0027] Update the dual-carbon business model and / or the application service according to preset time conditions;

[0028] And / or, update the dual-carbon business model and / or the application services according to the dual-carbon development conditions.

[0029] Optionally, it is applicable to various departments, positions, and roles in dual-carbon work;

[0030] Before obtaining dual-carbon configuration information, the following is also included:

[0031] Obtain user information; the user information is associated with at least one of the user's department, position, and role;

[0032] Assign corresponding dual-carbon management permissions to the user based on the aforementioned user information.

[0033] Optionally, the dual-carbon configuration information includes at least: interrelated factors and user-personalized parameters;

[0034] The influencing factors include at least one of the user's dual-carbon external factors and user's dual-carbon internal factors;

[0035] The user personalization parameters include at least one of the following: user scenario, user industry, user planning, geographical location, and administrative location.

[0036] Optionally, the business model information includes at least: business model features and business model applications;

[0037] The business model features include at least one of the following: dual-carbon policies, dual-carbon regulations, dual-carbon standards, application scenarios, and application industries.

[0038] The business model applications include at least one of the following: carbon consulting, carbon accounting certification, carbon reduction systems, carbon asset trading, carbon asset management, energy asset operation management, and green financial services.

[0039] Optionally, the application configuration information includes at least: an application service set and application service parameters;

[0040] The application service set includes at least one application service name;

[0041] The application service parameters include: application service parameters matching the application service name. According to another aspect of the present invention, a dual-carbon management device is provided, comprising:

[0042] The configuration information acquisition module is used to acquire dual-carbon configuration information; the dual-carbon configuration information is personalized requirement information for dual-carbon management.

[0043] An application adaptation module is used to match the adapted dual-carbon business model from a pre-stored set of multiple dual-carbon business models based on the dual-carbon configuration information, and obtain the business model information of the adapted dual-carbon business model.

[0044] The application service configuration module is used to configure application services based on the business model information to obtain application configuration information;

[0045] The application determination module is used to determine the application service that matches the dual-carbon configuration information based on the application configuration information.

[0046] According to another aspect of the present invention, an electronic device is provided, the electronic device comprising:

[0047] At least one processor; and

[0048] A memory communicatively connected to the at least one processor; wherein,

[0049] The memory stores a computer program that can be executed by the at least one processor, which enables the at least one processor to perform the dual carbon management method according to any embodiment of the present invention.

[0050] According to another aspect of the present invention, a computer-readable storage medium is provided, the computer-readable storage medium storing computer instructions for causing a processor to execute and implement the dual-carbon management method according to any embodiment of the present invention.

[0051] According to another aspect of the present invention, a computer program product is provided, the computer program product comprising a computer program that, when executed by a processor, implements the dual carbon management method described in any embodiment of the present invention.

[0052] This invention employs a standardized dual-carbon management method. Specifically, it acquires dual-carbon configuration information, matches a suitable dual-carbon business model from a pre-stored pool of multiple dual-carbon business models based on this configuration information, and configures application services according to the business model information of the matched model. This achieves intelligent matching of different user needs. Since the dual-carbon business models are pre-stored, diverse user needs (e.g., different scenarios, industries, and plans) can be considered, enabling efficient and low-cost one-stop dual-carbon management. Furthermore, this invention shortens the design cycle, reduces the system construction, use, and maintenance costs of dual-carbon management, improves the usability of dual-carbon management, and reduces its complexity.

[0053] It should be understood that the description in this section is not intended to identify key or essential features of embodiments of the invention, nor is it intended to limit the scope of the invention. Other features of the invention will become readily apparent from the following description. Attached Figure Description

[0054] To more clearly illustrate the technical solutions in the embodiments of the present invention, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0055] Figure 1 A flowchart illustrating a dual-carbon management method provided in an embodiment of the present invention;

[0056] Figure 2 A flowchart illustrating a specific implementation method of step S120 provided in an embodiment of the present invention;

[0057] Figure 3 A flowchart illustrating another dual-carbon management method provided in an embodiment of the present invention;

[0058] Figure 4 A flowchart illustrating another dual-carbon management method provided in an embodiment of the present invention;

[0059] Figure 5 A flowchart illustrating another dual-carbon management method provided in an embodiment of the present invention;

[0060] Figure 6 This is a schematic diagram illustrating a method for storing dual-carbon configuration information according to an embodiment of the present invention;

[0061] Figure 7 A schematic diagram illustrating another method for storing dual-carbon configuration information provided in an embodiment of the present invention;

[0062] Figure 8 This is a schematic diagram of the structure of a dual-carbon management device provided in an embodiment of the present invention;

[0063] Figure 9 This is a schematic diagram of another dual-carbon management device provided in an embodiment of the present invention;

[0064] Figure 10 This is a schematic diagram of the structure of another dual-carbon management device provided in an embodiment of the present invention;

[0065] Figure 11 This is a schematic diagram of another dual-carbon management device provided in an embodiment of the present invention;

[0066] Figure 12This is a schematic diagram of another dual-carbon management device provided in an embodiment of the present invention;

[0067] Figure 13 This is a schematic diagram of another dual-carbon management device provided in an embodiment of the present invention;

[0068] Figure 14 This is a schematic diagram of the structure of an electronic device provided in an embodiment of the present invention. Detailed Implementation

[0069] To enable those skilled in the art to better understand the present invention, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort should fall within the scope of protection of the present invention.

[0070] It should be noted that the terms "first," "second," etc., in the specification, claims, and accompanying drawings of this invention are used to distinguish similar objects and are not necessarily used to describe a specific order or sequence. It should be understood that such data can be interchanged where appropriate so that the embodiments of the invention described herein can be implemented in orders other than those illustrated or described herein. Furthermore, the terms "comprising" and "having," and any variations thereof, are intended to cover a non-exclusive inclusion; for example, a process, method, system, product, or apparatus that comprises a series of steps or units is not necessarily limited to those steps or units explicitly listed, but may include other steps or units not explicitly listed or inherent to such processes, methods, products, or apparatus.

[0071] This invention provides a dual-carbon management method that can meet the personalized needs of different users regarding dual-carbon management, providing users with applicable application services, such as carbon consulting, carbon verification and certification, carbon reduction systems, carbon asset trading, carbon asset management, energy asset operation and management, green financial services, and application services required for the entire workflow of carrying out dual-carbon work. This dual-carbon management method can be executed by a dual-carbon management device, which can be implemented by software and / or hardware. The device can be integrated into electronic devices such as computers and servers, and displays the corresponding application services to users through a human-computer interaction interface. Figure 1 This is a schematic flowchart illustrating a dual-carbon management method provided in an embodiment of the present invention. See also... Figure 1 The dual-carbon management approach includes the following steps:

[0072] S110. Obtain dual-carbon configuration information; dual-carbon configuration information is personalized requirement information for dual-carbon management.

[0073] The dual-carbon configuration information is provided by the user, who can be a dual-carbon working entity. A dual-carbon management task can be a user's single dual-carbon management request. For example, the user inputs dual-carbon configuration information on a human-computer interaction interface, allowing the dual-carbon management device to obtain this information. The dual-carbon configuration information may include, for example, relevant factors and user-personalized parameters; wherein, user-personalized parameters include at least one of the following: user scenario, user industry, user planning, geographical location, and administrative location. User scenarios may include, for example, cities, industrial parks, export enterprises, public buildings, transportation and energy stations, and event venues. User industries may include, for example, steel, power generation enterprises, cement, chemical, and general industries. Different user industries employ different carbon inventory methodologies and carbon reduction measures. User planning may include, for example, short-term, medium-term, or long-term plans. Geographical location may be the location of the factory area, while administrative location may be the administrative affiliation of the factory area, thus meeting different regional policies.

[0074] By acquiring dual-carbon configuration information, this invention can obtain the user's specific needs for dual-carbon management, thereby providing targeted dual-carbon application services in subsequent steps.

[0075] S120. Based on the dual-carbon configuration information, match the appropriate dual-carbon business model from a pre-stored pool of multiple dual-carbon business models to obtain the business model information of the appropriate dual-carbon business model.

[0076] The dual-carbon business models are pre-stored. For example, multiple dual-carbon business models can be pre-stored in a dual-carbon database, meaning that multiple dual-carbon business models are pre-saved in the dual-carbon database, and the dual-carbon business models are stored in the dual-carbon database in the form of business model information. The dual-carbon business models can include all workflows or application service data for carrying out dual-carbon work. Optionally, the business model information includes at least: business model characteristics and business model applications; wherein, the business model characteristics include at least one of dual-carbon policies, dual-carbon regulations, dual-carbon standards, application scenarios, and application industries; the business model applications include at least one of carbon consulting, carbon accounting certification, carbon reduction systems, carbon asset trading, carbon asset management, energy asset operation management, and green financial services.

[0077] Multiple dual-carbon business models can be used to adapt to different personalized user needs, such as adapting to different stakeholders, different user scenarios, different user industries, different user plans, different geographical locations, and different administrative locations. Optionally, the multiple dual-carbon business models also include a general business model. If no suitable dual-carbon business model is found among the pre-stored multiple dual-carbon business models, the general business model is used as the suitable dual-carbon business model, or a new dual-carbon business model is created, or an existing dual-carbon business model is modified to obtain a derived business model as the suitable dual-carbon business model. This setting can avoid the situation where the output application service is empty. The embodiments of the present invention do not require personalized customization of application services according to different user needs, and can adapt from existing dual-carbon business models, thereby reducing management costs and shortening the design cycle.

[0078] For example, the dual-carbon configuration information input by the user (the dual-carbon working entity) includes: a first user scenario and a first user industry. The first dual-carbon business model in the dual-carbon business model is applicable to a first application scenario and a first application industry. Specifically, the first application scenario is adapted to the first user scenario, and the first application industry is adapted to the first user industry, thus the dual-carbon configuration information is adapted to the first dual-carbon business model.

[0079] S130. Based on the business model information of the adapted dual-carbon business model, configure the application services to obtain the application configuration information.

[0080] The application service configuration process involves activating the corresponding application services in the business model information and configuring application parameters. Optionally, the application configuration information includes at least: an application service set and application service parameters. The application service set includes at least one application service name; the application service parameters include application service parameters matching the application service name. For example, if the application services in the adapted dual-carbon business model include carbon consulting and carbon accounting certification, then the application service set includes carbon consulting and carbon accounting certification. The application service parameters include application service parameters matching carbon consulting and application service parameters matching carbon accounting certification.

[0081] S140. Based on the application configuration information, determine the application service that matches the dual-carbon configuration information.

[0082] Once the application services are identified, they can be activated, displayed, or both activated and displayed. Activating an application service can involve calling the corresponding dual-carbon application service module from the application service center. Displaying an application service can be done through a human-computer interaction interface, providing the dual-carbon application service to the user. Application services can include, for example, carbon consulting, carbon verification and certification, carbon reduction systems, carbon asset trading, carbon asset management, energy asset operation and management, green financial services, and all application services required for the entire workflow of carrying out dual-carbon work.

[0083] This invention employs a standardized dual-carbon management method. Specifically, it acquires dual-carbon configuration information, matches a suitable dual-carbon business model from a pre-stored pool of multiple dual-carbon business models based on this configuration information, and configures application services according to the business model information of the matched model. This achieves intelligent matching of different user needs. Since the dual-carbon business models are pre-stored, diverse user needs (e.g., different scenarios, industries, and plans) can be considered, enabling efficient and low-cost one-stop dual-carbon management. Furthermore, this invention shortens the design cycle, reduces the system construction, use, and maintenance costs of dual-carbon management, improves the usability of dual-carbon management, and reduces its complexity.

[0084] Figure 2 This is a flowchart illustrating a specific implementation method of step S120 provided in an embodiment of the present invention. See also... Figure 2 Based on the above embodiments, optionally, S120 involves matching a suitable dual-carbon service model from a pre-stored pool of dual-carbon service models based on dual-carbon configuration information to obtain the service model information of the suitable dual-carbon service model, including the following steps:

[0085] S121. Extract user profile feature information for dual-carbon management based on dual-carbon configuration information.

[0086] The user profile feature information is personalized feature information obtained by processing the dual-carbon configuration information, such as filtering out information irrelevant to the adaptation process and merging similar items in the dual-carbon configuration information. Optionally, the dual-carbon configuration information includes: intervening factors and user personalized parameters. Based on the user's dual-carbon external factors, user dual-carbon internal factors, and user personalized parameters in the intervening factors of the dual-carbon configuration information, user profile feature information can be extracted, which can be a user profile feature dataset.

[0087] S122. Match the user profile feature information with the dual-carbon business model to obtain the business model information of the adapted dual-carbon business model.

[0088] The dual-carbon business model possesses specific business model characteristics. Specifically, compared to dual-carbon configuration information, user profile features show a better match with the business model characteristics of the dual-carbon business model. Therefore, a match can be determined by comparing the user profile feature dataset with the business model features. For example, if the user profile features match the business model characteristics of the dual-carbon business model, then the dual-carbon business model is compatible with the aforementioned dual-carbon configuration information.

[0089] Optionally, the matching algorithm can be either exact matching or fuzzy matching. In a dual-carbon management system, an exact matching algorithm can be used to select a suitable dual-carbon business model; a fuzzy matching algorithm can also be used; or an exact matching algorithm can be used first, and if no dual-carbon business model can be found, then a fuzzy matching algorithm can be used.

[0090] This invention extracts dual-carbon configuration information by extracting user profile features, which helps improve the accuracy of the adaptation between dual-carbon configuration information and dual-carbon business model.

[0091] Based on the above embodiments, optionally, this embodiment of the invention also provides a step for verifying the adapted dual-carbon business model to further improve the accuracy of the adapted dual-carbon business model. This will be explained in detail below.

[0092] In one embodiment of the present invention, optionally, before determining the application service matching the dual-carbon configuration information based on the application configuration information, a dual-carbon business model verification operation is performed. This eliminates the need for user access, improving the intelligence and convenience of dual-carbon management. Specifically, Figure 3 This is a schematic flowchart illustrating another dual-carbon management method provided in an embodiment of the present invention. See also... Figure 3 Dual carbon management methods include:

[0093] S210. Obtain dual-carbon configuration information; dual-carbon configuration information is personalized requirement information for dual-carbon management.

[0094] S220. Based on the dual-carbon configuration information, match the appropriate dual-carbon business model from a pre-stored pool of multiple dual-carbon business models to obtain the business model information of the appropriate dual-carbon business model.

[0095] S230. Based on the business model information, configure the application services to obtain the application configuration information.

[0096] S240. Determine whether the application configuration information meets the requirements of the dual-carbon configuration information; if yes, execute S250; otherwise, return to execute S220.

[0097] S250. Complete the dual-carbon application service configuration and determine the application service that matches the dual-carbon configuration information based on the application configuration information.

[0098] This invention, through steps S210-S250, achieves efficient and low-cost one-stop dual-carbon management for dual-carbon application services. Furthermore, by performing a dual-carbon business model verification operation before determining the application service matching the dual-carbon configuration information, the accuracy of adapting the dual-carbon business model and the intelligence and convenience of dual-carbon management are improved.

[0099] It should be noted that the technical solution of this embodiment of the invention performs a verification operation on the dual-carbon business model before determining the application service that matches the dual-carbon configuration information. This verification operation does not require user intervention and can be completed automatically by the dual-carbon management device.

[0100] In another embodiment of the present invention, optionally, after determining the application service matching the dual-carbon configuration information based on the application configuration information, the user performs a verification operation on the dual-carbon business model, which helps the dual-carbon business model to better meet the user's needs. Specifically, Figure 4 This is a schematic flowchart illustrating another dual-carbon management method provided in an embodiment of the present invention. See also... Figure 4 Dual carbon management methods include:

[0101] S310. Obtain dual-carbon configuration information; dual-carbon configuration information is personalized requirement information for dual-carbon management.

[0102] S320. Based on the dual-carbon configuration information, match and adapt the dual-carbon business model to obtain the business model information of the adapted dual-carbon business model.

[0103] S330. Based on the business model information, configure the application services to obtain the application configuration information.

[0104] S340. Based on the application configuration information, determine the application service that matches the dual-carbon configuration information.

[0105] S350: Display the application service that matches the dual-carbon configuration information through the human-computer interaction interface, and obtain user confirmation information; wherein, the user confirmation information indicates whether the application configuration information meets the requirements of the dual-carbon configuration information; if yes, complete the dual-carbon application service configuration; otherwise, return to execute S320.

[0106] This invention, through steps S310-S350, achieves efficient and low-cost one-stop dual-carbon management for application services. Furthermore, after determining the application service matching the dual-carbon configuration information, a dual-carbon business model verification operation is performed, allowing the user to confirm the suitability of the matching result, thus helping to meet the user's actual needs.

[0107] It should be noted that, in the technical solution of this embodiment of the invention, after determining the application service that matches the dual-carbon configuration information, the user performs the verification operation step of the dual-carbon business model, which helps to make the final determined dual-carbon business model more in line with the user's needs.

[0108] It should also be noted that in practical applications, the verification operation can be completed automatically by the dual-carbon management device, the verification operation can be performed by the user, or both of the above verification operations can be used simultaneously.

[0109] In the above embodiments, optionally, the dual-carbon business models are pre-stored, for example, a large number of dual-carbon business models are pre-stored in a dual-carbon database. Therefore, there may be multiple compatible dual-carbon business models. Specifically, when matching compatible dual-carbon business models based on dual-carbon configuration information, the method further includes: there are multiple dual-carbon business models compatible with the dual-carbon configuration information; the adaptation result is determined based on at least one of the versions, usage frequencies, and evaluations of the multiple dual-carbon business models. This setting further improves the effectiveness and accuracy of the adaptation results.

[0110] Optionally, if at least two of the following factors—version, frequency of use, and evaluation—are used to determine the adaptation results, then an adaptation priority is selected. For example, if the priority of version, frequency of use, and evaluation decreases in that order, then the dual-carbon business model with the higher version is selected first, followed by the dual-carbon business model with the higher frequency of use, and finally the dual-carbon business model with the highest evaluation. The specific selection criteria and priorities can be determined as needed in practical applications.

[0111] Based on the above embodiments, there are alternatively various ways to configure application services, and this invention does not limit this. In one embodiment, when obtaining the business model information of the adapted dual-carbon business model, the method further includes: obtaining preset application parameters based on the dual-carbon configuration information and the dual-carbon business model, and configuring application services using the preset application parameters. Specifically, Figure 5 This is a schematic flowchart illustrating another dual-carbon management method provided in an embodiment of the present invention. See also... Figure 5 Dual carbon management methods include:

[0112] S410. Obtain dual-carbon configuration information; dual-carbon configuration information is personalized requirement information for dual-carbon management.

[0113] S420. Match and adapt dual-carbon business models based on dual-carbon configuration information; wherein, there are multiple dual-carbon business models adapted to dual-carbon configuration information; determine the adaptation result based on at least one of the versions, usage frequency and evaluations of multiple dual-carbon business models, and obtain the business model information and preset application parameters of the adapted dual-carbon business models.

[0114] Among them, the preset application parameters are application parameters that match the dual-carbon business model, which can be understood as the application parameters of the dual-carbon business model itself.

[0115] S430: Based on the business model information and preset application parameters of the adapted dual-carbon business model, configure the application service to obtain the application configuration information.

[0116] S440. Based on the application configuration information, determine the application service that matches the dual-carbon configuration information.

[0117] S450: Through the human-machine interface, display the application service that matches the dual-carbon configuration information and obtain user confirmation information; the user confirmation information indicates whether the application configuration information meets the requirements of the dual-carbon configuration information; if yes, execute S460; otherwise, return to execute S420.

[0118] S460. Complete the dual-carbon application service configuration, select and activate the corresponding application service and configure the application parameters according to the dual-carbon application service configuration.

[0119] This embodiment of the invention, through steps S410-S460, achieves efficient and low-cost one-stop dual-carbon management for dual-carbon application services. Furthermore, in step S420, this embodiment of the invention improves the efficiency of subsequent application configuration steps by directly calling preset application parameters.

[0120] Based on the above embodiments, optionally, after obtaining the business model information of the adapted dual-carbon business model, the system further includes: storing dual-carbon configuration information, as well as the business model information and application configuration information of the dual-carbon business model adapted to the dual-carbon configuration information. This configuration helps to expand the data volume of the dual-carbon database for subsequent dual-carbon management operations, thereby further improving the reliability and applicability of dual-carbon management.

[0121] Furthermore, for a single dual-carbon management task, i.e., a single user (dual-carbon working entity), the stored information can also include default configuration parameters for each application. Additionally, there is a one-to-one correspondence between application configuration information and users (dual-carbon working entities), meaning one application configuration piece corresponds to one user (dual-carbon working entity). In subsequent dual-carbon management operations, the application configuration information corresponding to that user can be directly retrieved and configured using default settings.

[0122] Based on the above embodiments, the dual-carbon management method may optionally further include: updating the dual-carbon business model and / or application services according to preset time conditions; and / or updating the dual-carbon business model and / or application services according to dual-carbon development conditions.

[0123] The preset time conditions can be, for example, a set time interval, and the dual-carbon development conditions can be changes in user configuration module data, changes in dual-carbon business model module data, changes in application service configuration module data, or changes in dual-carbon work entity requirements, etc. Updating the dual-carbon business model can be done by updating the database storing the dual-carbon business model; updating the application service can be done by re-executing the dual-carbon management method provided in any embodiment of the present invention. Optionally, after updating the dual-carbon business model, the dual-carbon management method provided in any embodiment of the present invention can be re-executed to update the application service.

[0124] Specifically, the dual-carbon management method provided in this embodiment of the invention is dynamically changing and continuously implemented throughout the entire dual-carbon lifecycle. For example, changes in the user configuration module data indicate a shift in user planning from the early stages of carbon reduction to the middle and later stages; changes in the dual-carbon business model module indicate the addition of new dual-carbon business models; and changes in the application service configuration module data indicate a change in the application service configuration method. This setup continuously meets users' needs throughout the entire dual-carbon lifecycle, improves dual-carbon management efficiency, and reduces redundant investment.

[0125] Based on the above embodiments, optionally, the dual-carbon management method is applicable to multiple departments, positions, and roles involved in dual-carbon work. Before obtaining dual-carbon configuration information, the method further includes: obtaining user information; associating user information with at least one of the user's department, position, and role; and assigning corresponding dual-carbon management permissions to the user based on the user information. This setup allows for matching and activating corresponding application services based on the dual-carbon management permissions of different users, further improving the functionality of the dual-carbon management method and facilitating its promotion.

[0126] Based on the above embodiments, there are various ways to set the dual-carbon configuration information, business model information, and application configuration information. Several of these methods will be explained below. Because dual-carbon management is complex and diverse, the appropriate method can be selected based on actual needs in practical applications.

[0127] In one embodiment of the present invention, optionally, the dual-carbon configuration information includes at least: intervening factors and user-personalized parameters; wherein, the intervening factors include at least one of user dual-carbon external factors and user dual-carbon internal factors; and the user-personalized parameters include at least one of user scenario, user industry, user planning, geographical location, and administrative location.

[0128] Specifically, by analyzing the policies, regulations, strategic plans, certification standards, carbon reduction measures, business scope and processes of dual-carbon work entities such as governments, various enterprises and institutions and households in the dual-carbon configuration information, we can summarize the dual-carbon business application services and dual-carbon work related factors throughout the entire life cycle of dual-carbon business.

[0129] External factors related to carbon emissions from users refer to the requirements imposed on the entities involved in carbon emission reduction (in this invention, users) by relevant government agencies, and the requirements imposed on the entities involved by carbon emission reduction organizations. Specifically, these include mandatory or voluntary emission reduction policies and regulations formulated by relevant government agencies, and rules and standards formulated by carbon emission reduction organizations. Government agencies include departments related to ecological environment, economic development, economic and trade, judiciary, finance, regulation, industry, and other relevant sectors. These agencies include central, provincial, municipal, and prefectural levels of competent authorities. Carbon emission reduction organizations are various organizations and related industry standardization organizations established to promote carbon reduction, carbon neutrality, energy conservation, and emission reduction. Depending on the purpose and target audience of carbon emission reduction work, government agencies can be domestic or foreign, and carbon emission reduction organizations can be domestic or international.

[0130] This invention, based on the target audience of the dual-carbon work and the dual-carbon organizations joined, can automatically adapt to dual-carbon related policies, regulations, trading institutions, and relevant dual-carbon organization standards. Furthermore, it can be specifically mapped to corresponding indicators, such as: reduction in total annual energy consumption, reduction in total energy consumption per unit, reduction in total annual carbon emissions, reduction in total carbon emissions per unit, increased green electricity utilization rate, and improved energy efficiency.

[0131] The internal factors affecting dual carbon emissions for users refer to the operational development plan, operational safety plan, dual carbon plan, and proposed carbon reduction measures of the main body responsible for dual carbon work. The operational development plan refers to the organization's operational development plans and data, economic development plans and data, business plans and data, energy consumption plans and data, and other relevant indicators affecting dual carbon emissions. The operational safety plan refers to plans to ensure that operational safety, energy safety, and production safety activities will not be affected by unexpected restrictions or interruptions. The dual carbon plan refers to plans for carbon peaking time, carbon neutrality time, and the time required to meet the dual carbon organization's assessment indicators. Carbon reduction measures refer to measures such as low-emission substitution, energy conservation and emission reduction, carbon sequestration, trading green assets, and carbon resource utilization; multiple carbon reduction measures can be implemented simultaneously. Different industries, different needs, different scenarios, different technological development conditions, and different resource endowments may require different carbon reduction measures.

[0132] In one embodiment of the present invention, optionally, the business model information includes at least: business model features and business model applications; wherein, the business model features include at least one of: dual-carbon policies, dual-carbon regulations, dual-carbon standards, application scenarios, and application industries; and the business model applications include at least one of: carbon consulting, carbon accounting certification, carbon reduction systems, carbon asset trading, carbon asset management, energy asset operation management, and green financial services.

[0133] Among them, business model application refers to the dual-carbon application services required to complete the dual-carbon work business process; carbon consulting includes carbon emission inventory, dual-carbon forecasting and planning; carbon accounting certification includes carbon emission accounting, carbon neutrality certification and low-carbon product certification; and carbon reduction system includes low-carbon substitution, clean integrated energy, energy conservation and emission reduction, industrial energy conservation, carbon sequestration and carbon resource utilization.

[0134] Optionally, the business model information also includes business model evaluation, which refers to the performance of the dual-carbon business model in configuring and activating services and in actual operation and use, including user feedback evaluation, delivery personnel feedback evaluation, and data collection and statistics of the actual operation of the implementation examples.

[0135] Based on the above embodiments, the present invention further limits the storage of various data used in the dual-carbon management method, which will be described in detail below.

[0136] Figure 6 This is a schematic diagram illustrating a method for storing dual-carbon configuration information according to an embodiment of the present invention. See also... Figure 6 The dual-carbon configuration information is stored in separate storage areas for each dual-carbon configuration piece. For example, one dual-carbon configuration piece corresponds to one user configuration information unit, and the storage space contains m user configuration information units, ranging from user configuration unit 1 to user configuration unit m, where m ≥ 1. Each user configuration information unit includes user configuration name, user configuration version, external dual-carbon factors, internal dual-carbon factors, and user personalized parameters. External dual-carbon factors, internal dual-carbon factors, and user personalized parameters or equivalent data are mandatory; other data are optional. Optionally, the user configuration information unit may also include organizational structure, role permissions, etc.

[0137] In this embodiment of the invention, dual-carbon configuration information is stored in different storage areas, with each storage area storing the same amount of data. This storage method is a horizontal storage method, which eliminates the need for joint retrieval and helps improve data processing speed.

[0138] Figure 7 This is a schematic diagram illustrating another method for storing dual-carbon configuration information provided in an embodiment of the present invention. See also... Figure 7 Identical items in each dual-carbon configuration information are stored in the same storage area, while different items are stored in different storage areas. Specifically, the first storage area stores the user configuration names of user configuration information units 1 to m. Optionally, the first storage area also stores a unique identifier for each user configuration name. This unique identifier is an identifier in the database used to establish a mapping relationship with the user configuration version, external dual-carbon factors, internal dual-carbon factors, and user personalized parameters in the second, third, fourth, and fifth storage areas.

[0139] The second storage area stores user configuration versions 1 to m1, and can also store a unique identifier for the user configuration version, which is used to establish a mapping relationship with the user configuration name in the first storage area.

[0140] The third storage area stores user dual carbon external factors 1 to m2, and can also store the unique identification number of the user dual carbon external factor, which is used to establish a mapping relationship with the user configuration name in the first storage area.

[0141] The fourth storage area stores user dual-carbon intrinsic factors 1 to m3, and can also store the unique identification number of the user dual-carbon intrinsic factor, which is used to establish a mapping relationship with the user configuration name in the first storage area.

[0142] The fifth storage area stores user personalization parameters 1 to m4, and can also store the unique identifier of the user personalization parameters, which is used to establish a mapping relationship with the user configuration name in the first storage area.

[0143] It should be noted that the stored content of the second, third, fourth, and fifth storage areas may or may not correspond one-to-one with the user configuration names of the first storage area, both of which are within the scope of protection of this invention. For example, for the first storage area, if m>1 user configuration versions are all V20XX, then the second storage area may have m user configuration versions that correspond one-to-one with the carbon reduction measure names of the first storage area; alternatively, it may have only one, with all m user configuration names mapped to this user configuration version.

[0144] It should also be noted that the first storage area, the second storage area, the third storage area, the fourth storage area, and the fifth storage area can be combined in various ways. For example, the first storage area and the second storage area can be combined into one storage area, which is still within the protection scope of this invention.

[0145] In this embodiment of the invention, identical items in different dual-carbon configuration information are stored in one storage area, which is beneficial for merging identical items with the same value in each dual-carbon configuration information. This storage method is a vertical storage method, which has no redundant information and helps to reduce storage space.

[0146] Based on the above embodiments, optionally, the storage methods of business model information and dual-carbon configuration information are the same or different; the storage methods of application configuration information and dual-carbon configuration information are the same or different.

[0147] In one embodiment of the present invention, optionally, the business model information is stored in different storage areas, i.e., a horizontal storage method. For example, one piece of business model information corresponds to one business model information unit, and the storage space contains n1 business model information units, including business model 1 information unit to business model n1 information units, where n1 ≥ 1. Each business model information unit includes business model name, business model version, business model characteristics, business model application, business model evaluation, etc. Business model characteristics and business model application or equivalent data are mandatory, while other data are optional. Optionally, the business model information unit may also include application default configuration parameters, business model usage frequency, etc.

[0148] In one embodiment of the present invention, optionally, identical items in each business model information are stored in the same storage area, while different items are stored in different storage areas, i.e., a vertical storage method. Its configuration is similar to the vertical storage method for dual-carbon configuration information and will not be described again.

[0149] In one embodiment of the present invention, optionally, the application configuration information is stored in different storage areas, i.e., a horizontal storage method. For example, one application configuration information corresponds to one application configuration information unit, and the storage space contains n² application configuration information units, including application configuration unit 1 to application configuration unit n², where n₁≥2. Each application configuration information unit includes an application configuration name, application configuration version, application service set, application service parameters, etc.

[0150] In one embodiment of the present invention, optionally, identical items in the configuration information of each application are stored in the same storage area, while different items are stored in different storage areas, i.e., a vertical storage method. The setup is similar to the vertical storage method for dual-carbon configuration information and will not be described again.

[0151] This invention provides a dual-carbon management device that can execute the dual-carbon management method provided in any embodiment of this invention, and has corresponding beneficial effects. This dual-carbon management device can meet the personalized needs of different users regarding dual-carbon management with a standard system. Based on the personalized needs of different users, it matches and determines corresponding application services from the standard system, and grants users access to these application services. These application services can include, for example, carbon consulting, carbon verification and certification, carbon reduction systems, carbon asset trading, carbon asset management, energy asset operation and management, green financial services, and application services required for the entire workflow of dual-carbon work. This dual-carbon management device can be integrated into electronic devices such as computers and servers, and displays the corresponding application services to users through a human-computer interaction interface. Figure 8This is a schematic diagram of a dual-carbon management device provided in an embodiment of the present invention. See also... Figure 8 The dual-carbon management device includes:

[0152] The configuration information acquisition module 100 is used to acquire dual-carbon configuration information; the dual-carbon configuration information is the personalized requirement information for dual-carbon management.

[0153] Application adaptation module 200 is used to match and adapt dual-carbon business models based on dual-carbon configuration information to obtain business model information of the adapted dual-carbon business models; wherein, the dual-carbon business models are pre-stored.

[0154] The application service configuration module 300 is used to configure application services based on business model information and obtain application configuration information.

[0155] The application determination module 400 is used to determine the application service that matches the dual-carbon configuration information based on the application configuration information.

[0156] The application determination module 400 can determine and display the various application services required for a dual-carbon management system, such as application service 1, application service 2, ..., application service n3, where n3≥1.

[0157] In the above embodiments, there are multiple ways to set each module. Several of them will be described below, but they are not intended to limit the present invention.

[0158] Figure 9 This is a schematic diagram of another dual-carbon management device provided in an embodiment of the present invention. See also... Figure 9 In one embodiment of the present invention, optionally, the configuration information acquisition module 100, the application adaptation module 200, and the application service configuration module 300 include corresponding storage modules or databases. Specifically, the configuration information acquisition module 100 includes multiple user configuration information units, such as user configuration 1 information unit, user configuration 2 information unit, ..., user configuration m information unit. The application adaptation module 200 includes multiple business model information units, such as business model 1 information unit, business model 2 information unit, ..., business model n1 information unit. The application service configuration module 300 includes multiple application configuration information units, such as application configuration 1 information unit, application configuration 2 information unit, ..., application configuration n2 information unit.

[0159] Figure 10 This is a schematic diagram of another dual-carbon management device provided in an embodiment of the present invention. See also... Figure 10 In one embodiment of the present invention, the dual-carbon management device may optionally include a database 500 for storing dual-carbon business models.

[0160] Optionally, database 500 includes configuration database 510, user database 520, and application service database 530. Configuration database 510 stores dual-carbon configuration information and application configuration information, etc.; user database 520 stores user business data, including dual-carbon business models, etc.; application service database 530 stores dual-carbon application service data, which refers to the software programs, components, etc., required to implement application services, combined with application configuration information to provide application services.

[0161] Optionally, the database 500 is also used to store dual-carbon configuration information, as well as business model information and application configuration information adapted to the dual-carbon configuration information, after obtaining the business model information of the dual-carbon business model.

[0162] Figure 11 This is a schematic diagram of another dual-carbon management device provided in an embodiment of the present invention. See also... Figure 11 Optionally, the configuration information acquisition module 100 includes a user scenario configuration unit 110, a user industry configuration unit 120, and a user planning configuration unit 130. The scenario configuration unit 110 acquires user scenario information and adapts it to the dual-carbon business model based on this information; the user industry configuration unit 120 acquires user industry configuration information and adapts it to the dual-carbon business model based on this information; and the user planning configuration unit 130 acquires user planning configuration information and adapts it to the dual-carbon business model based on this information. Correspondingly, the application adaptation module 200 performs the final adaptation selection based on the comprehensively adapted dual-carbon business model.

[0163] Optionally, the application adapter module 200 is also used for:

[0164] User profile feature information for dual-carbon management is extracted based on dual-carbon configuration information;

[0165] By matching user profile features with the dual-carbon business model, the business model information of the adapted dual-carbon business model is obtained.

[0166] Optionally, the application adapter module 200 is also used for:

[0167] There are multiple dual-carbon business models that are compatible with dual-carbon configuration information; the compatibility result is determined based on at least one of the versions, usage frequency, and evaluations of the multiple dual-carbon business models.

[0168] Optionally, the application adapter module 200 is also used for:

[0169] Pre-set application parameters are obtained based on the dual-carbon configuration information and dual-carbon business model; in the application service configuration module 300, the pre-set application parameters are combined with the business model information to configure the application service.

[0170] Figure 12 This is a schematic diagram of another dual-carbon management device provided in an embodiment of the present invention. See also... Figure 12 In another embodiment of the present invention, unlike the application adaptation module 200 which is used to store the dual-carbon business model, perform dual-carbon business model adaptation, and store preset application parameters, the dual-carbon management device optionally further includes an application parameter module 600. The application parameter module 600 is used to obtain preset application parameters based on the dual-carbon configuration information and the dual-carbon business model. These preset application parameters are application parameters that match the dual-carbon business model, thus realizing the pre-configuration of application parameters.

[0171] Optionally, the dual-carbon management device further includes a first verification module, which is used for:

[0172] Determine whether the application configuration information meets the requirements of the dual-carbon configuration information;

[0173] If yes, complete the dual-carbon application service configuration; otherwise, return to the application adaptation module and continue executing the steps for matching and adapting the dual-carbon business model based on the dual-carbon configuration information.

[0174] Optionally, the dual-carbon management device further includes a second verification module, which is used for:

[0175] Obtain user confirmation information; user confirmation information indicates whether the application configuration information meets the requirements of the dual-carbon configuration information.

[0176] If yes, complete the dual-carbon application service configuration; otherwise, return to the application adaptation module and continue executing the steps for matching and adapting the dual-carbon business model based on the dual-carbon configuration information.

[0177] Optionally, the dual-carbon management method also includes an update module, which is used for:

[0178] Update the dual-carbon business model and / or application services according to preset time conditions;

[0179] And / or, update the dual-carbon business model and / or application services according to dual-carbon development conditions.

[0180] Figure 13 This is a schematic diagram of another dual-carbon management device provided in an embodiment of the present invention. See also... Figure 13 Optionally, the dual-carbon management device further includes: a user organization and permission configuration module 700, which is used for:

[0181] Obtain user information; the user information is associated with at least one of the user's department, position, and role;

[0182] Assign corresponding dual-carbon management permissions to users based on their information.

[0183] It should be noted that the module division methods in the above embodiments are merely illustrative examples. In other embodiments, adaptive adjustments can be made as needed, and the present invention does not impose any limitations.

[0184] This invention also provides an electronic device. Figure 14 This is a schematic diagram of an electronic device provided as an embodiment of the present invention. The electronic device is intended to represent various forms of digital computers, such as laptop computers, desktop computers, workstations, personal digital assistants, servers, blade servers, mainframe computers, and other suitable computers. Figure 14 As shown, the electronic device 10 includes at least one processor 11 and a memory, such as a read-only memory (ROM) 12 or a random access memory (RAM) 13, communicatively connected to the at least one processor 11. The memory stores computer programs executable by the at least one processor. The processor 11 can perform various appropriate actions and processes based on the computer programs stored in the ROM 12 or loaded from storage unit 18 into the RAM 13. The RAM 13 may also store various programs and data required for the operation of the electronic device 10. The processor 11, ROM 12, and RAM 13 are interconnected via a bus 14. An input / output (I / O) interface 15 is also connected to the bus 14. Input units 16 include, for example, a keyboard or mouse; output units 17 include, for example, various types of displays or speakers; storage units 18 include, for example, a disk or optical disk; and communication units 19 include, for example, a network card, a modem, or a wireless transceiver. The communication unit 19 allows the electronic device 10 to exchange information / data with other devices through computer networks such as the Internet and / or various telecommunications networks.

[0185] In some embodiments, the dual-carbon management method may be implemented as a computer program tangibly contained in a computer-readable storage medium, such as storage unit 18. In some embodiments, part or all of the computer program may be loaded and / or installed on electronic device 10 via ROM 12 and / or communication unit 19. When the computer program is loaded into RAM 13 and executed by processor 11, one or more steps of the dual-carbon management method described above may be performed. Alternatively, in other embodiments, processor 11 may be configured to perform the dual-carbon management method by any other suitable means (e.g., by means of firmware).

[0186] In the context of this invention, a computer-readable storage medium can be a tangible medium that may contain or store a computer program for use by or in conjunction with an instruction execution system, apparatus, or device. A computer-readable storage medium may include, but is not limited to, electronic, magnetic, optical, electromagnetic, infrared, or semiconductor systems, apparatus, or devices, or any suitable combination thereof. More specific examples of machine-readable storage media include electrical connections based on one or more wires, portable computer disks, hard disks, random access memory (RAM), read-only memory (ROM), erasable programmable read-only memory (EPROM or flash memory), optical fibers, portable compact disk read-only memory (CD-ROM), optical storage devices, magnetic storage devices, or any suitable combination thereof.

[0187] The systems and technologies described herein can be implemented in computing systems that include backend components (e.g., as data servers), or computing systems that include middleware components (e.g., application servers), or computing systems that include frontend components (e.g., user computers with graphical user interfaces or web browsers through which users can interact with implementations of the systems and technologies described herein), or any combination of such backend, middleware, or frontend components. The components of the system can be interconnected via digital data communication of any form or medium (e.g., communication networks). Examples of communication networks include local area networks (LANs), wide area networks (WANs), blockchain networks, and the Internet.

[0188] It should be understood that the various forms of processes shown above can be used, with steps reordered, added, or deleted. For example, the steps described in this invention can be executed in parallel, sequentially, or in different orders, as long as the desired result of the technical solution of this invention can be achieved, and this is not limited herein.

[0189] The specific embodiments described above do not constitute a limitation on the scope of protection of this invention. Those skilled in the art should understand that various modifications, combinations, sub-combinations, and substitutions can be made according to design requirements and other factors. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of this invention should be included within the scope of protection of this invention.

Claims

1. A dual-carbon management method, characterized in that, include: Obtain dual-carbon configuration information; The dual-carbon configuration information refers to personalized requirements for dual-carbon management. This information includes relevant factors and user-specific parameters. Relevant factors include at least one of external and internal factors affecting user dual-carbon management. User-specific parameters include at least one of user scenario, industry, planning, geographic location, and administrative location. Internal factors affecting user dual-carbon management include the dual-carbon entity's business development plan, operational safety plan, dual-carbon plan, and proposed carbon reduction measures. External factors affecting user dual-carbon management include requirements from relevant government agencies and dual-carbon organizations. Based on the aforementioned dual-carbon configuration information, a suitable dual-carbon business model is matched from a pre-stored pool of multiple dual-carbon business models to obtain the business model information of the suitable dual-carbon business model. The business model information includes at least: business model characteristics and business model applications. The business model characteristics include at least one of: dual-carbon policies, dual-carbon regulations, dual-carbon standards, application scenarios, and application industries. The business model applications include at least one of: carbon consulting, carbon accounting certification, carbon reduction systems, carbon asset trading, carbon asset management, energy asset operation management, and green financial services. Based on the business model information, application services are configured to obtain application configuration information; wherein, the application configuration information includes at least: an application service set and application service parameters; the application service set includes at least one application service name; the application service parameters include application service parameters that match the application service name; Based on the application configuration information, determine the application service that matches the dual-carbon configuration information; Before determining the application service matching the dual-carbon configuration information based on the application configuration information, the process also includes: Determine whether the application configuration information meets the requirements of the dual-carbon configuration information; If so, the dual-carbon application service configuration is completed; otherwise, continue with the step of matching the appropriate dual-carbon service model from a pre-stored pool of dual-carbon service models based on the dual-carbon configuration information.

2. The dual-carbon management method according to claim 1, characterized in that, The step of matching a suitable dual-carbon service model from a pre-stored pool of multiple dual-carbon service models based on the dual-carbon configuration information to obtain the service model information of the suitable dual-carbon service model includes: Based on the aforementioned dual-carbon configuration information, user profile feature information for dual-carbon management is extracted; The user profile feature information is matched with the dual-carbon business model to obtain the business model information of the adapted dual-carbon business model.

3. The dual-carbon management method according to claim 1, characterized in that, After determining the application service matching the dual-carbon configuration information based on the application configuration information, the method further includes: The system uses a human-computer interaction interface to display application services that match the dual-carbon configuration information and to obtain user confirmation information; wherein, the user confirmation information indicates whether the application configuration information meets the requirements of the dual-carbon configuration information. If so, the dual-carbon application service configuration is completed; otherwise, continue with the step of matching the appropriate dual-carbon service model from a pre-stored pool of dual-carbon service models based on the dual-carbon configuration information.

4. The dual-carbon management method according to claim 1, characterized in that, When matching a suitable dual-carbon service model from a pre-stored pool of dual-carbon service models based on the dual-carbon configuration information, the process also includes: If no suitable dual-carbon business model is found among the pre-stored multiple dual-carbon business models, at least one of the following processing methods will be adopted: A general business model serves as an adaptation for the dual-carbon business model; A new dual-carbon business model is established as an adaptation dual-carbon business model; The existing dual-carbon business model is modified to obtain a derived business model as an adapted dual-carbon business model.

5. The dual-carbon management method according to claim 1, characterized in that, When matching and adapting the dual-carbon business model based on the aforementioned dual-carbon configuration information, the following is also included: There are multiple dual-carbon business models that are compatible with the dual-carbon configuration information; the compatibility result is determined based on at least one of the versions, usage frequency, and evaluations of the multiple dual-carbon business models.

6. The dual-carbon management method according to claim 1, characterized in that, When obtaining the business model information of the adapted dual-carbon business model, the following is also included: Pre-set application parameters are obtained based on the dual-carbon configuration information and the dual-carbon business model; in subsequent steps, application services are configured based on the pre-set application parameters and the business model information.

7. The dual-carbon management method according to claim 1, characterized in that, After obtaining the business model information of the adapted dual-carbon business model, the following is also included: The dual-carbon configuration information, as well as the business model information and application configuration information adapted to the dual-carbon configuration information, are stored.

8. The dual-carbon management method according to claim 1, characterized in that, Also includes: Update the dual-carbon business model and / or the application service according to preset time conditions; And / or, update the dual-carbon business model and / or the application services according to the dual-carbon development conditions.

9. The dual-carbon management method according to claim 1, characterized in that, Suitable for various departments, positions, and roles in dual-carbon work; Before obtaining dual-carbon configuration information, the following is also included: Obtain user information; the user information is associated with at least one of the user's department, position, and role; Assign corresponding dual-carbon management permissions to the user based on the aforementioned user information.

10. A dual-carbon management device, characterized in that, include: The configuration information acquisition module is used to acquire dual-carbon configuration information; The dual-carbon configuration information refers to personalized requirements for dual-carbon management. This information includes relevant factors and user-specific parameters. Relevant factors include at least one of external and internal factors affecting user dual-carbon management. User-specific parameters include at least one of user scenario, industry, planning, geographic location, and administrative location. Internal factors affecting user dual-carbon management include the dual-carbon entity's business development plan, operational safety plan, dual-carbon plan, and proposed carbon reduction measures. External factors affecting user dual-carbon management include requirements from relevant government agencies and dual-carbon organizations. An application adaptation module is used to match and adapt a dual-carbon business model from a pre-stored pool of multiple dual-carbon business models based on the dual-carbon configuration information, thereby obtaining the business model information of the adapted dual-carbon business model. The business model information includes at least: business model characteristics and business model applications. The business model characteristics include at least one of: dual-carbon policies, dual-carbon regulations, dual-carbon standards, application scenarios, and application industries. The business model applications include at least one of: carbon consulting, carbon accounting certification, carbon reduction systems, carbon asset trading, carbon asset management, energy asset operation management, and green financial services. The application service configuration module is used to configure application services based on the business model information to obtain application configuration information; wherein, the application configuration information includes at least: an application service set and application service parameters; the application service set includes: at least one application service name; the application service parameters include: application service parameters that match the application service name; The application determination module is used to determine the application service that matches the dual-carbon configuration information based on the application configuration information. The first verification module is used to determine whether the application configuration information meets the requirements of the dual-carbon configuration information; if so, the dual-carbon application service configuration is completed; otherwise, it returns to the application adaptation module and continues to execute the steps of matching and adapting the dual-carbon business model based on the dual-carbon configuration information.

11. An electronic device, characterized in that, The electronic device includes: At least one processor; and A memory communicatively connected to the at least one processor; wherein, The memory stores a computer program that can be executed by the at least one processor to enable the at least one processor to perform the dual-carbon management method according to any one of claims 1-9.

12. A computer-readable storage medium, characterized in that, The computer-readable storage medium stores computer instructions that cause a processor to execute the dual-carbon management method according to any one of claims 1-9.

13. A computer program product, characterized in that, The computer program product includes a computer program that, when executed by a processor, implements the dual-carbon management method according to any one of claims 1-9.