CN111311079A - Comprehensive energy-using service system for large users - Google Patents

Abstract

The application discloses big user comprehensive energy service system designs big user intelligent energy comprehensive service system as tertiary framework: the upper layer is a multi-type large-user-oriented intelligent energy comprehensive service cloud system, the middle layer is an enterprise-level large-user-oriented intelligent energy comprehensive management system, and the lower layer is an enterprise internal equipment power utilization energy acquisition and controller terminal system, so that the function targets of flexible configuration and user-defined expansion are realized.

Description

Comprehensive energy-using service system for large users

Technical Field

The application relates to the technical field of Internet of things, in particular to a comprehensive energy-using service system for a large user.

Background

With the development of smart power grids, new energy technologies and information technologies, the energy internet integrates the internet and renewable energy technologies together, so that people can produce green renewable energy at home, in offices and in factories, and redundant energy can be shared with other people just like people share information on the internet at present. Compared with other energy forms, the electric energy has characteristics of instantaneous generation and instantaneous supply, and in the future, the energy Internet is bound to take the electric energy as a main form and take an intelligent power grid as a main carrier, and various types of networks such as a power network, an energy network, an information network and a traffic network are fused together to realize comprehensive utilization among various energy forms; the energy internet is an emerging, evolving and developing new technology, wherein the most critical part is the flow of energy flow between the energy internet as an infrastructure. In a traditional power grid, electric power generated by a large-scale power plant is transmitted to users through links such as transmission, transformation, distribution and the like. With the development of distributed energy, power electronic technology and information technology, electric energy is converted from the original unidirectional flow into bidirectional flow, controllable load is allowed to be accessed, and a distributed power supply and distributed energy storage are allowed to be incorporated into a power grid at any time and any place; however, the existing large-user comprehensive energy-consumption service system architecture has poor flexibility and cannot be customized and expanded.

Disclosure of Invention

The embodiment of the application provides a large-user comprehensive energy-use service system, and solves the problems that the conventional large-user comprehensive energy-use service system is poor in configuration flexibility and cannot be customized and expanded.

In view of the above, a first aspect of the present application provides a large user integrated energy service system, including: the intelligent energy comprehensive service cloud system, the intelligent energy comprehensive management system and the power utilization energy acquisition and controller terminal system are arranged;

the power utilization and energy collection and controller terminal system is used for collecting power utilization and energy utilization data of each process of a large user and key equipment thereof, carrying out energy efficiency calculation based on the collected data, and sending the collected data and calculation results to the intelligent energy comprehensive management system through a network;

the intelligent energy comprehensive management system is used for performing energy management on a large user, realizing the functions of energy statistics and energy cost calculation, analyzing the statistical result and the calculation result, and sending the analysis result to the intelligent energy comprehensive service cloud system;

the intelligent energy comprehensive service cloud system is used for performing comprehensive energy service on a large user, so that system management personnel can log in the cloud system at any time and check the analysis result.

Preferably, the smart energy integrated service cloud system includes:

the system comprises a guiding module, a power supply module and a power supply management module, wherein the guiding module is used for performing functions of energy utilization guidance, power purchase strategy guidance, power utilization strategy guidance and demand response guidance on a large user;

the data processing module is used for carrying out unified management on data sent by the intelligent energy comprehensive management system of the large user, and comprises user data management according to the user type and the user scale;

the first central processing module is used for accessing the functions of large user management, modeling and classification of the cloud platform and configuring the related functions of the guidance module and the data processing module through configuration;

the first server module is used for providing computing service for the intelligent energy comprehensive service cloud system, and storing the analysis result and protecting functions.

Preferably, the energy use guide, the electricity purchase strategy guide, the electricity utilization strategy guide and the demand response guide are as follows:

the energy utilization guidance comprises the steps of forming a multi-dimensional power utilization characteristic curve, monitoring the energy flow of a large user, analyzing the energy characteristics of the large user and guiding the energy of the large user;

the power purchasing strategy guides the power purchasing decomposition and the power purchasing scale of the user by analyzing the power purchasing deviation and the power load prediction of the user;

the power utilization strategy guidance is to obtain the transferable load capacity of the user through the analysis of the power utilization characteristics of the user and provide a power utilization strategy for the user according to the transferable load capacity of the user;

and the demand response guide is used for acquiring a user demand response policy and guiding the user demand response policy.

Preferably, the data processing module includes: the system comprises an enterprise energy efficiency data processing module, an electricity selling data processing module and a demand analysis data processing module;

the enterprise energy efficiency data processing module is used for uniformly managing data sent by the intelligent energy comprehensive management system of the large user, and user data management is carried out according to the user type and the user scale;

the electricity selling data processing module is used for counting the electricity purchasing and electricity using data of the enterprise and analyzing the electricity purchasing deviation of the enterprise;

the demand analysis data processing module is used for analyzing the demand response potential of the enterprise according to the energy consumption data.

Preferably, the first server module further comprises:

the collection module is used for collecting the comprehensive energy data of the large user.

Preferably, the first server module further comprises:

the first protection module is used for protecting data in the intelligent energy comprehensive service cloud system in real time.

Preferably, the intelligent energy integrated management system includes:

the management module is used for carrying out whole plant energy balance analysis, whole plant energy utilization statistics, whole plant energy efficiency calculation and energy consumption early warning analysis on the energy and energy efficiency data processed by the management module;

the energy data processing module is used for managing the data energy metering data and the energy efficiency data sent by the power utilization and energy utilization acquisition and controller terminal system, and comprises a data filling base and equipment type classification;

the second central processing module is used for configuring specific functions of the intelligent energy comprehensive management system, performing calculation analysis on the acquired data, and sending the calculation analysis result to the intelligent energy comprehensive service cloud system;

and the second server module is used for providing calculation service and a protection function for the intelligent energy comprehensive management system.

Preferably, the second server module further comprises:

and the second protection module is used for protecting data in the intelligent energy comprehensive management system in real time.

Preferably, the power utilization energy collecting and controlling terminal system comprises:

the energy data processing module is used for acquiring energy data, filtering and removing gross errors of the acquired energy data, and sending the processed energy data to the energy efficiency data processing module;

the energy efficiency data processing module is used for calculating the energy data sent by the energy data processing module and calculating the equipment energy efficiency and the supply and demand energy efficiency according to an energy efficiency calculation standard;

the third central processing module is used for receiving the configuration file of the power utilization and energy utilization acquisition and controller terminal system, completing the functions of data acquisition and energy efficiency calculation according to the configuration file, and sending the calculation result to the intelligent energy comprehensive management system;

the extensible embedded module is used for acquiring energy data of various types and periods and supporting the expansion of an acquisition channel.

Preferably, the intelligent energy comprehensive service cloud system and the intelligent energy comprehensive management system are connected and transmitted through a public network, a mobile network or a VPN network.

According to the technical scheme, the application discloses a large-user comprehensive energy-use service system which comprises a smart energy comprehensive service cloud system, a smart energy comprehensive management system and a power utilization energy acquisition and controller terminal system; the power utilization and energy collection and controller terminal system is used for collecting power utilization and energy utilization data of each process of a large user and key equipment thereof, carrying out energy efficiency calculation based on the collected data, and sending the collected data and calculation results to the intelligent energy comprehensive management system through a network; the intelligent energy comprehensive management system is used for performing energy management on a large user, realizing the functions of energy statistics and energy cost calculation, analyzing the statistical result and the calculation result, and sending the analysis result to the intelligent energy comprehensive service cloud system; the intelligent energy comprehensive service cloud system is used for performing comprehensive energy service on a large user, so that system management personnel can log in the cloud system at any time and check the analysis result.

The application designs the intelligent energy comprehensive service system of the big user into a three-level architecture: the upper layer is a smart energy comprehensive service cloud system facing to multiple types of large users, cloud services such as a demand side response reference strategy and an electric power market quotation suggestion strategy can be provided according to user types and electric power consumption information measured in real time, the middle layer is a smart energy comprehensive management system for enterprise-class large users, the electric power consumption information of enterprises can be collected and analyzed in real time, the cloud comprehensive service can be accessed, the electric power consumption control of enterprise equipment is completed according to a reference decision, and the lower layer is a power consumption collection and controller terminal system of the enterprise equipment, so that the function target of flexible configuration and custom expansion is realized.

Drawings

FIG. 1 is a system architecture diagram of one embodiment of a large user integrated energy service system of the present application;

fig. 2 is a system architecture diagram of another embodiment of a large user integrated energy service system according to the present application.

Detailed Description

The application designs the intelligent energy comprehensive service system of the big user into a three-level architecture: the upper layer is a smart energy comprehensive service cloud system facing to multiple types of large users, cloud services such as a demand side response reference strategy and an electric power market quotation suggestion strategy can be provided according to user types and electric power consumption information measured in real time, the middle layer is a smart energy comprehensive management system for enterprise-class large users, the electric power consumption information of enterprises can be collected and analyzed in real time, the cloud comprehensive service can be accessed, the electric power consumption control of enterprise equipment is completed according to a reference decision, and the lower layer is a power consumption collection and controller terminal system of the enterprise equipment, so that the function target of flexible configuration and custom expansion is realized.

In order to make the technical solutions of the present application better understood, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

For easy understanding, please refer to fig. 1, in which fig. 1 is a system architecture diagram of an embodiment of a large user integrated energy service system according to the present application, and fig. 1 includes:

the intelligent energy comprehensive service cloud system 101, the intelligent energy comprehensive management system 102 and the power utilization energy acquisition and controller terminal system 103.

The power consumption and energy utilization acquisition and controller terminal system 103 is used for acquiring power consumption and energy utilization data of each process and key equipment of a large user, carrying out energy efficiency calculation based on the acquired data, and sending the acquired data and calculation results to the intelligent energy comprehensive management system through a network.

It should be noted that the terminal system 103 may send the collected data and calculation results of the large users to the integrated intelligent energy management system 102 through the intranet.

The smart energy integrated management system 102 is configured to perform energy management on a large user, implement energy statistics and energy cost calculation functions, analyze a statistical result and a calculation result, and send an analysis result to the smart energy integrated service cloud system.

It should be noted that the smart energy integrated management system 102 may be an energy management system of an enterprise-level large user, and implements functions such as whole plant energy statistics and energy cost calculation, and sends an analysis and statistics result to the smart energy integrated service cloud system 101 capable of facing multiple types of large users through the internet of things.

The smart energy comprehensive service cloud system 101 is used for performing comprehensive energy service on a large user, so that system management personnel can log in the cloud system at any time and check an analysis result.

It should be noted that the smart energy integrated service cloud system 101 may perform integrated energy service for large users of different types and different sizes, so that the large users and system managers can log in the cloud system and check related information at any time.

The application designs a with big user's wisdom energy integrated service system to design this system as tertiary framework: the upper layer is a smart energy comprehensive service cloud system facing to multiple types of large users, cloud services such as a demand side response reference strategy and an electric power market quotation suggestion strategy can be provided according to user types and electric power consumption information measured in real time, the middle layer is a smart energy comprehensive management system for enterprise-class large users, the electric power consumption information of enterprises can be collected and analyzed in real time, the cloud comprehensive service can be accessed, the electric power consumption control of enterprise equipment is completed according to a reference decision, and the lower layer is a power consumption collection and controller terminal system of the enterprise equipment, so that the function target of flexible configuration and custom expansion is realized.

For more detailed understanding of the technical solution of the present application, please refer to fig. 2, fig. 2 is a system architecture diagram of another embodiment of a large user integrated energy service system, as shown in fig. 2, which specifically includes:

the upper layer is a multi-type large-user-oriented intelligent energy comprehensive service cloud system 1, the middle layer is an enterprise-level large-user-oriented intelligent energy comprehensive management system 2, the lower layer is an enterprise-level internal equipment power utilization energy acquisition and controller terminal system 3, the intelligent energy comprehensive service cloud system 1 comprises a guide module 11, a data processing module 12, a first central processing module 13 and a first server 14, the intelligent energy comprehensive management system 2 comprises a management module 21, an energy data processing module 22, a second central processing module 23 and a second server 24, the power utilization energy acquisition and controller terminal system 3 comprises an energy data acquisition and processing module 31, an energy efficiency data processing module 32, a third central processing module 33 and an expandable embedded module 34, the guide module 11, the management module 21 and the energy data acquisition and processing module 31 form a business framework 4, the data processing module 12, the energy data processing module 22 and the energy efficiency data processing module 32 form a data architecture 5, the first central processing module 13, the second central processing module 23 and the third central processing module 33 form a technical architecture 6, and the first server 14, the second server 24 and the extensible embedded module 34 form a physical architecture 7.

The power utilization energy acquisition and controller terminal system 3 is used for acquiring power utilization energy data of each process of a large user and key equipment of the large user, carrying out energy efficiency calculation based on the acquired data, and sending the acquired data and calculation results to the intelligent energy comprehensive management system 2 through a network.

It should be noted that the terminal system 3 for collecting and controlling power consumption energy may send the collected data and calculation results to the comprehensive management system 2 for intelligent energy through the intranet.

In a specific embodiment, the terminal system 3 further includes:

the energy data processing module 31 is configured to collect energy data, for example, energy data such as water, electricity, steam, coal, oil, and natural gas, perform filtering and coarse error elimination on the collected energy data, and send the processed energy data to the energy efficiency data processing module.

And the energy efficiency data processing module 32 is used for calculating the energy data sent by the energy data processing module and calculating the equipment energy efficiency and the supply and demand energy efficiency according to the energy efficiency calculation standard.

And a third central processing module 33, which is a management module of the electric energy collection and controller terminal system 3, and is configured to receive the configuration file of the electric energy collection and controller terminal system, complete the functions of data collection and energy efficiency calculation according to the configuration file, and send the calculation result to the smart energy comprehensive management system.

And the extensible embedded module 34 is used for acquiring energy data of various types and periods and supporting the expansion of an acquisition channel.

The intelligent energy comprehensive management system 2 is used for performing energy management on a large user, realizing energy statistics and energy cost calculation functions, analyzing statistical results and calculation results, and sending analysis results to the intelligent energy comprehensive service cloud system 1.

It should be noted that the smart energy comprehensive management system 2 may be an energy management system of an enterprise-level large user, and implements functions of whole plant energy statistics, energy cost calculation, and the like, and sends an analysis and statistics result to the smart energy comprehensive service cloud system 1 capable of facing various large users through the internet of things.

In one specific embodiment, the integrated intelligent energy management system 2 further includes:

and the management module 21 is used for performing plant-wide energy balance analysis, plant-wide energy consumption statistics, plant-wide energy efficiency calculation and energy consumption early warning analysis on the energy and energy efficiency data processed by the management module.

And the energy data processing module 22 is used for managing the data energy metering data and the energy efficiency data sent by the power utilization energy acquisition and controller terminal system, and the data energy metering data and the energy efficiency data comprise operations such as data library filling and equipment type classification, so that the data processing of the subsequent energy processing module is facilitated.

The second central processing module 23 is configured to configure specific functions of the smart energy integrated management system, perform calculation and analysis on the acquired data, send calculation and analysis results to the smart energy integrated service cloud system, and serve as a management module of the smart energy integrated management system layer.

And the second server module 24 is used for providing computing services and protection functions for the intelligent energy integrated management system, and is used as implementation hardware of the intelligent energy integrated management system layer, including a server and a firewall.

It should be noted that the second server module 24 further includes a second protection module, and the second protection module is used for protecting data in the smart energy integrated management system in real time.

The smart energy comprehensive service cloud system 1 is used for performing comprehensive energy service on a large user, so that system management personnel can log in the cloud system at any time and check an analysis result.

It should be noted that the smart energy integrated service cloud system 1 may perform integrated energy service for large users of different types and different sizes, so that the large users and system managers can log in the cloud system and check related information at any time, and the smart energy integrated service cloud system are connected and transmitted through a public network, a mobile network, or a VPN network.

Wisdom energy integrated services cloud end system 1 includes:

and the guiding module 11 is used for performing functions of energy utilization guidance, power purchase strategy guidance, power utilization strategy guidance and demand response guidance on a large user.

It should be noted that the guidance module 11 includes functions of energy guidance, power purchase policy guidance, power utilization policy guidance, and demand response guidance. The energy utilization guidance comprises the steps of forming a multi-dimensional electricity utilization characteristic curve, monitoring the energy flow of a large user through a comprehensive and staggered statistical calculation method, analyzing the energy characteristics of the large user, and guiding the energy of the large user through comparative analysis; the power purchasing strategy guide guides the power purchasing decomposition and the power purchasing scale of a user by analyzing the power purchasing deviation and the power load forecast of the user; the power utilization strategy guidance is to obtain the transferable load capacity of the user through the analysis of the power utilization characteristics of the user and provide a power utilization strategy for the user according to the transferable load capacity of the user; and the demand response guide is used for acquiring a user demand response policy and guiding the user demand response policy.

The data processing module 12 is configured to perform unified management on data sent by the intelligent energy comprehensive management system of a plurality of enterprise-class large users, including performing user data management of the same type according to user type and user scale, performing energy efficiency comparison analysis on the same type of users, and performing energy saving diagnosis.

It should be noted that the data processing module 12 further includes an enterprise energy efficiency data processing module, an electricity selling data processing module, and a demand analysis data processing module.

The enterprise energy efficiency data processing module is used for uniformly managing data sent by the intelligent energy comprehensive management system of the large user, and user data management is carried out according to the user type and the user scale.

The electricity selling data processing module is used for counting the electricity purchasing and electricity using data of the enterprise and analyzing the electricity purchasing deviation of the enterprise;

the demand analysis data processing module is used for analyzing the demand response potential of the enterprise according to the energy consumption data.

The first central processing module 13 is a management module of a 3-layer power utilization energy acquisition and controller terminal system, is used for accessing the large user management, modeling and classification functions of the cloud platform, and configures the related functions of the guidance module and the data processing module through configuration.

The first server module 14 is used for providing computing services, storing analysis results and protecting functions for the smart energy comprehensive service cloud system, and is implementation hardware of a smart energy comprehensive service cloud system layer and deployed in a cloud server.

It should be noted that the first server module 14 further includes an acquisition module and a first protection module, and the acquisition module may be a front-end acquisition device and may be used to acquire the comprehensive energy data of the large user.

The first protection module can be used for protecting data in the intelligent energy comprehensive service cloud system in real time.

The embodiment designs the smart energy comprehensive service system of a large user into a three-level architecture: the upper layer is a smart energy comprehensive service cloud system 1 facing to various large users, cloud services such as a demand side response reference strategy and an electric power market quotation suggestion strategy can be provided according to user types and power consumption information measured in real time, the middle layer is a smart energy comprehensive management system 2 aiming at enterprise-level large users, the power consumption information of enterprises can be collected and analyzed in real time, the cloud comprehensive service can be accessed, power consumption control of enterprise equipment is completed according to reference decision, the lower layer is a power consumption collection and controller terminal system of the enterprise equipment, and the function target of flexible configuration and custom expansion is achieved. And the safety and reliability of information interaction are ensured through the design of the service architecture 4, the data architecture 5, the technical architecture 6 and the physical architecture 7.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

The terms "first," "second," "third," "fourth," and the like in the description of the application and the above-described figures, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

It should be understood that in the present application, "at least one" means one or more, "a plurality" means two or more. "and/or" for describing an association relationship of associated objects, indicating that there may be three relationships, e.g., "a and/or B" may indicate: only A, only B and both A and B are present, wherein A and B may be singular or plural. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship. "at least one of the following" or similar expressions refer to any combination of these items, including any combination of single item(s) or plural items. For example, at least one (one) of a, b, or c, may represent: a, b, c, "a and b", "a and c", "b and c", or "a and b and c", wherein a, b, c may be single or plural.

In the several embodiments provided in the present application, it should be understood that the disclosed system may be implemented in other ways. For example, the system embodiments described above are merely illustrative, and for example, the division of the modules is merely a logical division, and in actual implementation, there may be other divisions, for example, multiple modules may be combined or may be integrated into another system, or some features may be omitted, or not executed.

In addition, functional modules in the embodiments of the present application may be integrated into one processing unit, or each module may exist alone physically, or two or more modules are integrated into one module. The integrated module can be realized in a form of hardware or a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed to by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (10)

1. An integrated energy service system for large users, comprising: the intelligent energy comprehensive service cloud system, the intelligent energy comprehensive management system and the power utilization energy acquisition and controller terminal system are arranged;

the power utilization and energy collection and controller terminal system is used for collecting power utilization and energy utilization data of each process of a large user and key equipment thereof, carrying out energy efficiency calculation based on the collected data, and sending the collected data and calculation results to the intelligent energy comprehensive management system through a network;

the intelligent energy comprehensive management system is used for performing energy management on a large user, realizing the functions of energy statistics and energy cost calculation, analyzing the statistical result and the calculation result, and sending the analysis result to the intelligent energy comprehensive service cloud system;

the intelligent energy comprehensive service cloud system is used for performing comprehensive energy service on a large user, so that system management personnel can log in the cloud system at any time and check the analysis result.

2. The energy integrated service system for large users as claimed in claim 1, wherein the cloud system for intelligent energy integrated service comprises:

the system comprises a guiding module, a power supply module and a power supply management module, wherein the guiding module is used for performing functions of energy utilization guidance, power purchase strategy guidance, power utilization strategy guidance and demand response guidance on a large user;

the data processing module is used for carrying out unified management on data sent by the intelligent energy comprehensive management system of the large user, and comprises user data management according to the user type and the user scale;

the first central processing module is used for accessing the functions of large user management, modeling and classification of the cloud platform and configuring the related functions of the guidance module and the data processing module through configuration;

the first server module is used for providing computing service for the intelligent energy comprehensive service cloud system, and storing the analysis result and protecting functions.

3. The integrated energy service system for large users according to claim 1, wherein the energy use guidance, the power purchase strategy guidance, the power utilization strategy guidance and the demand response guidance are as follows:

the energy utilization guidance comprises the steps of forming a multi-dimensional power utilization characteristic curve, monitoring the energy flow of a large user, analyzing the energy characteristics of the large user and guiding the energy of the large user;

the power purchasing strategy guides the power purchasing decomposition and the power purchasing scale of the user by analyzing the power purchasing deviation and the power load prediction of the user;

the power utilization strategy guidance is to obtain the transferable load capacity of the user through the analysis of the power utilization characteristics of the user and provide a power utilization strategy for the user according to the transferable load capacity of the user;

and the demand response guide is used for acquiring a user demand response policy and guiding the user demand response policy.

4. The integrated energy service system for large users according to claim 2, wherein the data processing module comprises: the system comprises an enterprise energy efficiency data processing module, an electricity selling data processing module and a demand analysis data processing module;

the enterprise energy efficiency data processing module is used for uniformly managing data sent by the intelligent energy comprehensive management system of the large user, and user data management is carried out according to the user type and the user scale;

the electricity selling data processing module is used for counting the electricity purchasing and electricity using data of the enterprise and analyzing the electricity purchasing deviation of the enterprise;

the demand analysis data processing module is used for analyzing the demand response potential of the enterprise according to the energy consumption data.

5. The large-user integrated energy service system according to claim 2, wherein the first server module further comprises:

the acquisition module is used for acquiring the comprehensive energy data of the large user.

6. The large-user integrated energy service system according to claim 2, wherein the first server module further comprises:

the first protection module is used for protecting data in the intelligent energy comprehensive service cloud system in real time.

7. The integrated energy service system for large users as claimed in claim 1, wherein the integrated energy management system comprises:

the management module is used for carrying out whole plant energy balance analysis, whole plant energy utilization statistics, whole plant energy efficiency calculation and energy consumption early warning analysis on the energy and energy efficiency data processed by the management module;

the energy data processing module is used for managing the data energy metering data and the energy efficiency data sent by the power utilization and energy utilization acquisition and controller terminal system, and comprises a data filling base and equipment type classification;

the second central processing module is used for configuring specific functions of the intelligent energy comprehensive management system, performing calculation analysis on the acquired data, and sending the calculation analysis result to the intelligent energy comprehensive service cloud system;

and the second server module is used for providing calculation service and a protection function for the intelligent energy comprehensive management system.

8. The integrated energy service system for large users according to claim 1, wherein the second server module further comprises:

and the second protection module is used for protecting data in the intelligent energy comprehensive management system in real time.

9. The integrated energy service system for large users according to claim 1, wherein the terminal system for collecting and controlling electricity consumption comprises:

the energy data processing module is used for acquiring energy data, filtering and removing gross errors of the acquired energy data, and sending the processed energy data to the energy efficiency data processing module;

the energy efficiency data processing module is used for calculating the energy data sent by the energy data processing module and calculating the equipment energy efficiency and the supply and demand energy efficiency according to an energy efficiency calculation standard;

the third central processing module is used for receiving the configuration file of the power utilization and energy utilization acquisition and controller terminal system, completing the functions of data acquisition and energy efficiency calculation according to the configuration file, and sending the calculation result to the intelligent energy comprehensive management system;

the extensible embedded module is used for acquiring energy data of various types and periods and supporting the expansion of an acquisition channel.

10. The integrated energy service system for large users as claimed in claim 1, wherein the cloud system and the integrated management system are connected and transmitted through a public network, a mobile network or a VPN network.

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