CN117217497B - Comprehensive energy management platform and comprehensive energy management method - Google Patents

Abstract

The invention provides a comprehensive energy management platform and a comprehensive energy management method, and relates to the technical field of comprehensive energy management, wherein the comprehensive energy management platform comprises: an infrastructure layer for storing comprehensive energy data of at least one energy device and/or an energy device production control means; the data transmission layer is used for transmitting the comprehensive energy data to the platform service layer; and the platform service layer is used for receiving the user operation instruction and executing target operation corresponding to the user operation instruction based on the comprehensive energy data. The auxiliary service layer is used for assisting the platform service layer to carry out peak shaving auxiliary processing on each energy device and each energy user. Through the platform, comprehensive energy data are monitored, peak regulation auxiliary treatment is carried out on each energy device and energy using party, and carbon emission of each energy device is controlled, so that the monitoring capability of the comprehensive energy is enhanced, the utilization rate of the comprehensive energy is further improved, and the unified management of the carbon emission is realized.

Description

Comprehensive energy management platform and comprehensive energy management method

Technical Field

The invention relates to the technical field of comprehensive energy management, in particular to a comprehensive energy management platform and a comprehensive energy management method.

Background

In order to develop comprehensive energy business greatly, comprehensive energy companies start to enlarge the construction scale of new energy stations, energy storage stations and comprehensive energy projects, and the comprehensive energy service capability of enterprises is continuously improved. Meanwhile, the comprehensive energy collaborative management is not sound, and the problems of system digestion and the like are gradually exposed.

Therefore, how to strengthen the supervision capability of the comprehensive energy information, improve the utilization rate of the comprehensive energy, and further realize the intelligent management of the comprehensive energy is a problem to be solved urgently at present.

Disclosure of Invention

Aiming at the problems existing in the prior art, the embodiment of the invention provides a comprehensive energy management platform and a comprehensive energy management method.

The invention provides a comprehensive energy management platform, which comprises: an infrastructure layer, a data transmission layer, a platform service layer and an auxiliary service layer;

the infrastructure layer is used for storing comprehensive energy data of at least one energy device and/or an energy device production control device;

the data transmission layer is respectively in communication connection with the infrastructure layer and the platform service layer and is used for transmitting the comprehensive energy data to the platform service layer;

the platform service layer is used for receiving user operation instructions and executing target operations corresponding to the user operation instructions based on the comprehensive energy data;

the auxiliary service layer is in communication connection with the platform service layer and is used for assisting the platform service layer to carry out peak regulation auxiliary processing on each energy device and energy user;

the target operation includes at least one of:

monitoring the comprehensive energy data;

carrying out peak regulation auxiliary treatment on each energy source device and each energy source user;

and controlling the carbon emission of each energy source device.

Optionally, the integrated energy data includes at least one of:

energy data; production data; device data; environmental data; static data.

Optionally, the monitoring the integrated energy data includes:

monitoring the comprehensive energy data to generate a monitoring result;

generating first target information based on the monitoring result; the first target information includes at least one of:

the comprehensive energy management platform is used for generating comprehensive energy management information according to the information generated by the comprehensive energy management platform in the target time period;

energy profile information for characterizing basic information and energy consumption trend of each building using energy;

the energy statistical information is used for representing the energy consumption condition of each building using energy in a target time period;

and the same ratio analysis information is used for representing the total energy data of any energy source in the comprehensive energy data in the target time period.

Optionally, the peak shaving auxiliary processing is performed on each energy device and each energy user, including at least one of the following:

managing the target resource; the target resource is associated with the comprehensive energy data;

the operation data of each energy device is monitored in real time;

managing a baseline load; the baseline load is used for representing the comprehensive energy management platform to participate in peak shaving auxiliary service of each energy device and implementing minute-level average load when in demand response and orderly power utilization;

distributing target resources according to a preset strategy based on clear settlement data, and sending distribution information to equipment associated with each energy user, wherein the clear settlement data is generated based on the comprehensive energy data, and the equipment associated with the energy user is in communication connection with the comprehensive energy management platform;

generating an energy use plan for each energy use party;

reporting the energy use plans of all the energy use parties to a power grid auxiliary service trading platform;

and adjusting the next day response curve of the virtual power plant or the adjustable load resource of the comprehensive energy management platform.

Optionally, the controlling carbon emission of each energy device includes at least one of:

storing carbon check data associated with each energy device;

collecting carbon emission related parameters associated with each energy device; determining carbon emission data associated with each of the energy devices based on the carbon emission related parameters;

collecting carbon asset data of a target enterprise, wherein the target enterprise is an enterprise associated with each energy device;

collecting fossil fuel consumption data and production data of each energy device; based on the fossil fuel data and the production data, a total carbon emissions for each of the energy devices is determined.

Optionally, the platform service layer is further configured to:

and sending second target information to a target terminal, wherein the target terminal is a terminal for sending the user operation instruction, and the second target information is used for reflecting an operation result associated with the target operation.

The invention also provides a comprehensive energy management method, which is applied to the target terminal and comprises the following steps:

transmitting a user operation instruction to an integrated energy management platform, wherein the user operation instruction is used for instructing the integrated energy management platform to execute target operation corresponding to the user operation instruction based on integrated energy data of at least one energy device and/or an energy device production control device;

receiving second target information from the comprehensive energy management platform, wherein the second target information is used for reflecting an operation result related to the target operation;

the target operation includes at least one of:

monitoring the comprehensive energy data;

carrying out peak regulation auxiliary treatment on each energy source device and each energy source user;

and controlling the carbon emission of each energy device.

The invention also provides a comprehensive energy management device, which is applied to the target terminal and comprises:

the system comprises a transmission module, a comprehensive energy management platform and a control module, wherein the transmission module is used for transmitting a user operation instruction to the comprehensive energy management platform, and the user operation instruction is used for instructing the comprehensive energy management platform to execute target operation corresponding to the user operation instruction based on comprehensive energy data of at least one energy device and/or an energy device production control device;

the receiving module is used for receiving second target information from the comprehensive energy management platform, and the second target information is used for reflecting an operation result related to the target operation;

the target operation includes at least one of:

monitoring the comprehensive energy data;

carrying out peak regulation auxiliary treatment on each energy source device and each energy source user;

and controlling the carbon emission of each energy device.

The invention also provides an electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the integrated energy management method as described in any one of the above when executing the program.

The present invention also provides a non-transitory computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements an integrated energy management method as described in any of the above.

The invention also provides a computer program product comprising a computer program which when executed by a processor implements a comprehensive energy management method as described in any one of the above.

According to the comprehensive energy management platform and the comprehensive energy management method, the comprehensive energy management platform monitors the comprehensive energy data by executing the target operation corresponding to the user operation instruction, so that automatic energy consumption monitoring can be realized, running, leakage and comprehensive analysis of energy consumption are prevented, manual transcription cost and electric energy quality monitoring are reduced, and electricity consumption risks are avoided; the peak regulation auxiliary treatment is carried out on each energy device and each energy user, so that the comprehensive energy is polymerized to participate in the peak regulation auxiliary service market, and the utilization rate of the comprehensive energy is improved; the unified management of the carbon emission and carbon quota of each energy device is realized by controlling the carbon emission of each energy device; the comprehensive energy management platform strengthens the supervision capability of comprehensive energy data by executing the target operation, improves the utilization rate of the comprehensive energy, and further realizes the intelligent management of the comprehensive energy.

Drawings

In order to more clearly illustrate the invention or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall architecture of the integrated energy management platform provided by the present invention;

FIG. 2 is a schematic flow chart of the integrated energy management method provided by the invention;

FIG. 3 is a schematic diagram of the structure of the integrated energy management device provided by the invention;

fig. 4 is a schematic structural diagram of an electronic device provided by the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The integrated energy management platform provided by the invention is specifically described below with reference to fig. 1. Fig. 1 is a schematic diagram of an overall architecture of an integrated energy management platform provided by the present invention, and referring to fig. 1, the integrated energy management platform includes: an infrastructure layer, a data transmission layer, a platform service layer and an auxiliary service layer.

The infrastructure layer is used for storing comprehensive energy data of at least one energy device and/or an energy device production control device.

In the embodiment of the invention, the infrastructure layer is derived from the comprehensive energy field and mainly comprises two scenes:

1) Energy equipment, namely photovoltaic, wind power, energy storage, charging piles, refrigerating and heating equipment, industrial and commercial loads and power distribution equipment.

2) The energy equipment production control device, namely a production line/management control device, is a logic control system such as a programmable logic controller (Programmable Logic Controller, PLC), a distributed control system (Distributed Control System, DCS), a safety instrument system (Safety Instrumented System, SIS) and the like.

The above is the production equipment of the comprehensive energy bottom layer.

The data transmission layer is respectively in communication connection with the infrastructure layer and the platform service layer and is used for transmitting the comprehensive energy data to the platform service layer;

in the embodiment of the invention, the main functions of the data transmission layer are as follows: the comprehensive energy data in the energy facilities and the production line/management and control device in the infrastructure layer are collected through the Internet of things, and edge calculation and encryption are carried out through the gateway of the Internet of things. The integrated energy management platform performs data interaction in a unified manner through a certain network transmission manner, such as a 4G/5G manner, an Ethernet (Ethernet), a Modbus protocol, message queue telemetry transmission (Message Queuing Telemetry Transport, MQTT), a controller area network (Controller Area Network, CAN), an IEC-104 protocol, a transmission control protocol/Internet protocol (Transmission Control Protocol/Internet Protocol, TCP/IP) manner and the like.

Optionally, the integrated energy data includes at least one of:

a) Energy data; b) Production data; c) Device data; d) Environmental data; e) Static data.

The platform service layer is used for receiving user operation instructions and executing target operations corresponding to the user operation instructions based on the comprehensive energy data. The target operation includes at least one of:

a) Monitoring the comprehensive energy data;

b) Carrying out peak regulation auxiliary treatment on each energy source device and each energy source user;

c) And controlling the carbon emission of each energy source device.

In the embodiment of the invention, the platform service layer is also a business brain of the comprehensive energy management platform, and mainly embodies three modules:

[1] and the comprehensive energy monitoring module: the system is characterized by full-energy utilization monitoring, equipment supervision, comprehensive analysis, data acquisition and intelligent operation and maintenance. Automatic energy consumption monitoring is realized, and leakage, leakage and comprehensive analysis of energy consumption are prevented.

[2] And the peak shaving auxiliary module is used for resource management, operation monitoring, baseline management, electricity utilization planning and transaction management.

[3] And the double-carbon control module is embodied as carbon check, carbon accounting, carbon statistics and carbon control row.

Optionally, the platform service layer is further configured to:

and sending second target information to a target terminal, wherein the target terminal is a terminal for sending the user operation instruction, and the second target information is used for reflecting an operation result associated with the target operation.

The auxiliary service layer is in communication connection with the platform service layer and is used for assisting the platform service layer to carry out peak shaving auxiliary processing on each energy device and energy user.

Specifically, the auxiliary service layer may be, for example, an intelligent energy service platform, a marketing system, a scheduling system, a demand response system, and the like. The auxiliary service layer has the following specific effects:

the comprehensive energy management platform can be an aggregator for the superior energy management departments, so that the comprehensive energy management platform is used as an aggregate to participate in the electric auxiliary service market and assist the power grid in peak regulation, and the main body of the electric auxiliary service is orderly expanded by participating in the electric auxiliary service market, and meanwhile, a brand new market space is created for a power supply and controllable loads. And the coordination and optimization operation between the controllable load and the energy storage of the distributed power supply are realized gradually. And the absorption and acceptance degree of the power grid to the random renewable energy sources is increased by controlling the smooth distributed energy source power output through internal optimization.

According to the comprehensive energy management platform provided by the invention, by executing the target operation corresponding to the user operation instruction, namely, monitoring the comprehensive energy data, automatic energy consumption monitoring can be realized, leakage and drop can be prevented, comprehensive analysis of energy consumption can be realized, manual transcription cost and electric energy quality monitoring can be reduced, and electricity consumption risks can be avoided; the peak regulation auxiliary treatment is carried out on each energy device and each energy user, so that the comprehensive energy is polymerized to participate in the peak regulation auxiliary service market, and the utilization rate of the comprehensive energy is improved; the unified management of the carbon emission and carbon quota of each energy device is realized by controlling the carbon emission of each energy device; the comprehensive energy management platform strengthens the supervision capability of comprehensive energy data by executing the target operation, improves the utilization rate of the comprehensive energy, and further realizes the intelligent management of the comprehensive energy.

Optionally, the monitoring of the integrated energy data may be specifically implemented by the following steps:

step [1], monitoring the comprehensive energy data to generate a monitoring result;

step [2], based on the monitoring result, generating first target information; the first target information includes at least one of:

a) And the comprehensive energy management platform is used for representing information generated by the comprehensive energy management platform in a target time period.

In the embodiment of the invention, the overview information can be data such as the current date, the current month, the energy consumption index, the carbon emission and the like.

b) The energy profile information is used for representing basic information and energy consumption trend of each building using energy.

In the embodiment of the invention, the energy profile information mainly displays basic building information, classification energy, daily energy consumption trend and the like.

c) And the energy statistical information is used for representing the energy consumption condition of each building using energy in the target time period.

In the embodiment of the invention, the energy statistical information specifically may include at least one of the following:

1. and (3) counting the energy consumption of each building, and counting the comprehensive energy from aspects of overview, energy metering, homonymous analysis, energy flow diagram and the like.

2. And counting total energy consumption of building water, electricity and gas classification in the form of reports according to the day, month and year, and supporting the report data to derive excel.

3. And displaying the energy ring ratio and daily average load curve of the selected branch, wherein the historical trend supports the energy utilization overview of the past period.

4. And counting the total energy of water, electricity and gas classification of the selected branch in the form of reports according to the day, month and year, and supporting the report data to derive excel.

d) And the same ratio analysis information is used for representing the total energy data of any energy source in the comprehensive energy data in the target time period.

The comparison analysis counts the total energy utilization data of one type of energy source in a mode of combining a graph according to the day, month and year.

Optionally, the peak shaving auxiliary processing is performed on each energy device and each energy user, including at least one of the following:

a) Managing the target resource; the target resource is associated with the integrated energy data.

In the embodiment of the invention, the target resource is also called project resource, the project resource is uniformly managed, and the managed content comprises: project name, resource type, project capacity, unit to which the project belongs, operation mode, regulation and control mode, participation market state and other information. And supporting query statistics according to the multiple conditions of the resource type, the project name, the affiliated unit and the like.

b) And monitoring the operation data of each energy device in real time.

In the embodiment of the invention, the real-time monitoring of the operation data of each energy device refers to the real-time monitoring of the real-time operation data of each charging and exchanging station, the energy storage power station project and the aggregated operation data. The method mainly comprises the indexes of electricity load, electricity consumption, and the like.

c) Managing a baseline load; the baseline load is used for representing the comprehensive energy management platform to participate in peak shaving auxiliary service of each energy device and implementing minute-level average load when in demand response and orderly power utilization.

In the embodiment of the invention, the baseline load is the basis for judging the execution effect of the platform participating in the paid peak shaving auxiliary service transaction, and the baseline load is the minute-level average load when the platform participates in the power generation side paid peak shaving auxiliary service transaction, and the demand response and the orderly power utilization are implemented.

The baseline load management comprises a virtual power plant baseline load and an access project baseline load; the baseline load and the project baseline load can be automatically uploaded to the power-saving transaction platform or the intelligent energy service platform through the system.

d) And distributing target resources according to a preset strategy based on clear settlement data, and sending distribution information to equipment associated with each energy user, wherein the clear settlement data is generated based on the comprehensive energy data, and the equipment associated with the energy user is in communication connection with the comprehensive energy management platform.

In the embodiment of the invention, the comprehensive energy management platform receives the clearing settlement data of the power peak shaving auxiliary service system and distributes the clearing settlement data to aggregated project users (i.e. equipment associated with the energy utilization party) according to a preset strategy.

By the method, the benefits of project users aggregated by the virtual power plant can be balanced, and from the fairness perspective, the user benefits are decomposed to fully consider the planned execution deviation condition of each resource project.

e) For each energy consumer, an energy usage plan is generated.

In the embodiment of the invention, the power consumption plan management can be performed, and the power consumption plan management is divided into plan declaration and plan issuing according to the business flow, and is divided into a user side power consumption plan and a platform power consumption plan according to the operation flow.

Wherein, the plan declaration refers to: and the user side electricity utilization plan is compiled by project users and reported to the virtual power plant through the system. And the comprehensive energy management platform receives the electricity utilization plans reported by the users and aggregates the electricity utilization plans into a platform electricity utilization plan according to a strategy.

The plan issuing means: the comprehensive energy management platform receives the issued pre-clearing plan and analyzes and issues the plan to each project user.

f) And reporting the energy use plans of all the energy use parties to the power grid auxiliary service trading platform.

In the embodiment of the invention, the comprehensive energy management platform reports the electricity consumption plan of the next day to the power grid auxiliary service trading platform according to the aggregated electricity charge (consumption) plan, wherein the electricity consumption plan comprises adjustable time periods, adjustable electric power and price.

g) And adjusting the next day response curve of the virtual power plant or the adjustable load resource of the comprehensive energy management platform.

In the embodiment of the invention, the comprehensive energy management platform participates in the power peak shaving auxiliary service and supports two modes of day-ahead response and day-in-real-time response.

The day-ahead response may be used to adjust the virtual power plant's next day response curve by going out of the plan. The real-time response in the day can receive the command issued by the power peak auxiliary service system in real time and adjust the adjustable load resource of the platform according to the command power.

Optionally, the controlling carbon emission of each energy device includes at least one of:

a) And storing the carbon check data associated with each energy device.

In the embodiment of the invention, the carbon check data associated with each energy device is required to be stored, so that the maintenance and management of the carbon check records are realized. And supporting the input or importing of the carbon check result.

Specifically, the enterprise carbon inventory work is one of the basic works of the enterprise. According to the ISO-14064 requirements and an industry greenhouse gas accounting list, the enterprise carbon emission boundary is combed, the enterprise carbon emission source is locked, enterprise carbon emission data is quantized, the enterprise carbon inventory service requirements are solved in one step, and the labor cost of an enterprise is saved.

b) Collecting carbon emission related parameters associated with each energy device; and determining carbon emission data associated with each energy device based on the carbon emission related parameters.

In the embodiment of the invention, data collection is required for the carbon emission related parameters, and all emission related data are calculated according to the multi-dimensions of time period, area and the like.

The carbon accounting can directly quantify the carbon emission data, and can also find out potential emission reduction links and modes by analyzing the carbon emission data of each link.

Industry standard carbon emission calculation methods, such as an emission factor method and a mass balance method, are built in the comprehensive energy management platform, so that automatic calculation of carbon emission data is realized; it should be noted that, the carbon emission calculation method supports updating and expanding according to the latest industry standard.

c) Carbon asset data is collected for a target enterprise, the target enterprise being an enterprise associated with each of the energy devices.

In the embodiment of the invention, the statistics of the carbon asset data of the enterprise according to different time periods and different organization levels are supported. Supporting the same ratio and ring ratio of carbon asset data; supporting comparisons between different enterprises or departments.

Optionally, the statistical result may be displayed in various modes such as a table, a chart, etc., and the data export operation of the statistical result is supported.

d) Collecting fossil fuel consumption data and production data of each energy device; based on the fossil fuel data and the production data, a total carbon emissions for each of the energy devices is determined.

The fossil fuel consumption data and production data collected include:

(1) Fossil fuel consumption of various types.

(2) The production data information comprises data such as generated energy, power supply quantity, purchased power quantity, production plant power quantity (power plant power quantity and plant power quantity special for heat supply), heat supply quantity and the like.

After the fossil fuel consumption data and the production data are collected, the total carbon emission of each energy device may be determined based on the fossil fuel data and the production data.

Specifically, the total carbon emissions calculation includes fossil fuel emissions, and purchase power emissions. The subsystem carbon emission statistics comprises a combustion system, a steam-water system, an electric system, a control system, a dust removal device, a desulfurization device, a denitrification device and the like.

Optionally, in the embodiment of the present invention, periodic reports may also be generated, including month report forms, year report forms, and the like.

The report content includes carbon emission data (fossil fuel emission, electricity purchase emission), production data information (generated energy, electricity supply amount, electricity purchase amount, power consumption of a production plant, heat supply ratio, electricity supply coal consumption, heat supply coal consumption and the like).

Optionally, in an embodiment of the present invention, basic maintenance may also be performed, including:

(1) Basic parameter maintenance, including: elemental carbon content and carbon oxidation rate corresponding to various fossil fuels; and maintaining basic information such as carbon emission factors.

(2) The calculation formula maintenance comprises a carbon emission accounting formula, a carbon quota accounting formula and the like.

Fig. 2 is a schematic flow chart of the integrated energy management method provided by the present invention, referring to fig. 2, the integrated energy management method is applied to a target terminal, and specifically includes steps 201 to 202:

step 201, a user operation instruction is sent to an integrated energy management platform, wherein the user operation instruction is used for instructing the integrated energy management platform to execute target operation corresponding to the user operation instruction based on integrated energy data of at least one energy device and/or an energy device production control device;

step 202, receiving second target information from the comprehensive energy management platform, wherein the second target information is used for reflecting an operation result related to the target operation; the target operation includes at least one of: monitoring the comprehensive energy data; carrying out peak regulation auxiliary treatment on each energy source device and each energy source user; and controlling the carbon emission of each energy device.

According to the comprehensive energy management method provided by the invention, the user operation instruction is sent to the comprehensive energy management platform, so that the comprehensive energy management platform executes target operation corresponding to the user operation instruction, namely, the comprehensive energy data is monitored, automatic energy consumption monitoring can be realized, running, leakage and comprehensive analysis of energy consumption are prevented, the manual transcription cost and the electric energy quality monitoring are reduced, and the power consumption risk is avoided; the peak regulation auxiliary treatment is carried out on each energy device and each energy user, so that the comprehensive energy is polymerized to participate in the peak regulation auxiliary service market, and the utilization rate of the comprehensive energy is improved; the unified management of the carbon emission and carbon quota of each energy device is realized by controlling the carbon emission of each energy device; the target terminal strengthens the supervision capability of the comprehensive energy data by receiving the second target information from the comprehensive energy management platform, improves the utilization rate of the comprehensive energy, and further realizes the intelligent management of the comprehensive energy.

The integrated energy management device provided by the invention is described below, and the integrated energy management device described below and the integrated energy management method described above can be referred to correspondingly. Fig. 3 is a schematic structural diagram of an integrated energy management device according to the present invention, and as shown in fig. 3, the integrated energy management device 300 includes: a transmitting module 301, a receiving module 302, wherein:

a sending module 301, configured to send a user operation instruction to an integrated energy management platform, where the user operation instruction is used to instruct the integrated energy management platform to execute a target operation corresponding to the user operation instruction based on integrated energy data of at least one energy device and/or an energy device production control device;

the receiving module 302 is configured to receive second target information from the integrated energy management platform, where the second target information is used to reflect an operation result associated with the target operation;

the target operation includes at least one of:

monitoring the comprehensive energy data;

carrying out peak regulation auxiliary treatment on each energy source device and each energy source user;

and controlling the carbon emission of each energy device.

According to the comprehensive energy management device provided by the invention, the user operation instruction is sent to the comprehensive energy management platform, so that the comprehensive energy management platform executes target operation corresponding to the user operation instruction, namely, the comprehensive energy data is monitored, automatic energy consumption monitoring can be realized, running, leakage and comprehensive analysis of energy consumption are prevented, the manual transcription cost and the electric energy quality monitoring are reduced, and the power consumption risk is avoided; the peak regulation auxiliary treatment is carried out on each energy device and each energy user, so that the comprehensive energy is polymerized to participate in the peak regulation auxiliary service market, and the utilization rate of the comprehensive energy is improved; the unified management of the carbon emission and carbon quota of each energy device is realized by controlling the carbon emission of each energy device; the target terminal strengthens the supervision capability of the comprehensive energy data by receiving the second target information from the comprehensive energy management platform, improves the utilization rate of the comprehensive energy, and further realizes the intelligent management of the comprehensive energy.

Fig. 4 illustrates a physical schematic diagram of an electronic device, as shown in fig. 4, which may include: processor 410, communication interface (Communications Interface) 420, memory 430 and communication bus 440, wherein processor 410, communication interface 420 and memory 430 communicate with each other via communication bus 440. The processor 410 may invoke logic instructions in the memory 430 to perform an integrated energy management method that is applied to the target terminal, including: transmitting a user operation instruction to an integrated energy management platform, wherein the user operation instruction is used for instructing the integrated energy management platform to execute target operation corresponding to the user operation instruction based on integrated energy data of at least one energy device and/or an energy device production control device; receiving second target information from the comprehensive energy management platform, wherein the second target information is used for reflecting an operation result related to the target operation; the target operation includes at least one of: monitoring the comprehensive energy data; carrying out peak regulation auxiliary treatment on each energy source device and each energy source user; and controlling the carbon emission of each energy device.

Further, the logic instructions in the memory 430 described above may be implemented in the form of software functional units and may be stored in a computer-readable storage medium when sold or used as a stand-alone product. Based on this understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution, in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a server, a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

In another aspect, the present invention also provides a computer program product, where the computer program product includes a computer program, where the computer program can be stored on a non-transitory computer readable storage medium, where the computer program, when executed by a processor, can perform an integrated energy management method provided by the above methods, where the method is applied to a target terminal, and includes: transmitting a user operation instruction to an integrated energy management platform, wherein the user operation instruction is used for instructing the integrated energy management platform to execute target operation corresponding to the user operation instruction based on integrated energy data of at least one energy device and/or an energy device production control device; receiving second target information from the comprehensive energy management platform, wherein the second target information is used for reflecting an operation result related to the target operation; the target operation includes at least one of: monitoring the comprehensive energy data; carrying out peak regulation auxiliary treatment on each energy source device and each energy source user; and controlling the carbon emission of each energy device.

In still another aspect, the present invention also provides a non-transitory computer readable storage medium having stored thereon a computer program which, when executed by a processor, is implemented to perform the integrated energy management method provided by the above methods, the method being applied to a target terminal, including: transmitting a user operation instruction to an integrated energy management platform, wherein the user operation instruction is used for instructing the integrated energy management platform to execute target operation corresponding to the user operation instruction based on integrated energy data of at least one energy device and/or an energy device production control device; receiving second target information from the comprehensive energy management platform, wherein the second target information is used for reflecting an operation result related to the target operation; the target operation includes at least one of: monitoring the comprehensive energy data; carrying out peak regulation auxiliary treatment on each energy source device and each energy source user; and controlling the carbon emission of each energy device.

The apparatus embodiments described above are merely illustrative, wherein the elements illustrated as separate elements may or may not be physically separate, and the elements shown as elements may or may not be physical elements, may be located in one place, or may be distributed over a plurality of network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

From the above description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course may be implemented by means of hardware. Based on this understanding, the foregoing technical solution may be embodied essentially or in a part contributing to the prior art in the form of a software product, which may be stored in a computer readable storage medium, such as ROM/RAM, a magnetic disk, an optical disk, etc., including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method described in the respective embodiments or some parts of the embodiments.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (9)

1. An integrated energy management platform, comprising: an infrastructure layer, a data transmission layer, a platform service layer and an auxiliary service layer;

the infrastructure layer is used for storing comprehensive energy data of at least one energy device and/or an energy device production control device;

the data transmission layer is respectively in communication connection with the infrastructure layer and the platform service layer and is used for transmitting the comprehensive energy data to the platform service layer;

the platform service layer is used for receiving user operation instructions and executing target operations corresponding to the user operation instructions based on the comprehensive energy data;

the auxiliary service layer is in communication connection with the platform service layer and is used for assisting the platform service layer to carry out peak regulation auxiliary processing on each energy device and energy user;

the target operation includes:

monitoring the comprehensive energy data;

carrying out peak regulation auxiliary treatment on each energy source device and each energy source user;

controlling carbon emission of each energy device;

the peak shaving auxiliary processing for each energy source device and energy source user comprises the following steps:

managing the target resource; the target resource is associated with the comprehensive energy data;

the operation data of each energy device is monitored in real time;

managing a baseline load; the baseline load is used for representing the comprehensive energy management platform to participate in peak shaving auxiliary service of each energy device and implementing minute-level average load when in demand response and orderly power utilization; the baseline load is a minute-level average load when the comprehensive energy management platform participates in the paid peak regulation auxiliary service transaction of the power generation side and performs demand response and orderly power utilization;

distributing target resources according to a preset strategy based on clear settlement data, and sending distribution information to equipment associated with each energy user, wherein the clear settlement data is generated based on the comprehensive energy data, and the equipment associated with the energy user is in communication connection with the comprehensive energy management platform;

generating an energy use plan for each energy use party;

reporting the energy use plans of all the energy use parties to a power grid auxiliary service trading platform;

and adjusting the next day response curve of the virtual power plant or the adjustable load resource of the comprehensive energy management platform.

2. The integrated energy management platform of claim 1, wherein the integrated energy data comprises:

energy data; production data; device data; environmental data; static data.

3. The integrated energy management platform of claim 1 or 2, wherein the monitoring of the integrated energy data comprises:

monitoring the comprehensive energy data to generate a monitoring result;

generating first target information based on the monitoring result; the first target information includes:

the comprehensive energy management platform is used for generating comprehensive energy management information according to the information generated by the comprehensive energy management platform in the target time period;

energy profile information for characterizing basic information and energy consumption trend of each building using energy;

the energy statistical information is used for representing the energy consumption condition of each building using energy in a target time period;

and the same ratio analysis information is used for representing the total energy data of any energy source in the comprehensive energy data in the target time period.

4. The integrated energy management platform of claim 1 or 2, wherein the controlling carbon emissions of each of the energy devices comprises:

storing carbon check data associated with each energy device;

collecting carbon emission related parameters associated with each energy device; determining carbon emission data associated with each of the energy devices based on the carbon emission related parameters;

collecting carbon asset data of a target enterprise, wherein the target enterprise is an enterprise associated with each energy device;

collecting fossil fuel consumption data and production data of each energy device; based on the fossil fuel consumption data and the production data, a total carbon emissions for each of the energy devices is determined.

5. The integrated energy management platform of claim 1 or 2, wherein the platform services layer is further configured to:

and sending second target information to a target terminal, wherein the target terminal is a terminal for sending the user operation instruction, and the second target information is used for reflecting an operation result associated with the target operation.

6. An integrated energy management method, which is applied to a target terminal, includes:

transmitting a user operation instruction to an integrated energy management platform, wherein the user operation instruction is used for instructing the integrated energy management platform to execute target operation corresponding to the user operation instruction based on integrated energy data of at least one energy device and/or an energy device production control device;

receiving second target information from the comprehensive energy management platform, wherein the second target information is used for reflecting an operation result related to the target operation;

the target operation includes:

monitoring the comprehensive energy data;

carrying out peak regulation auxiliary treatment on each energy source device and each energy source user;

controlling carbon emission of each energy device;

the peak shaving auxiliary processing for each energy source device and energy source user comprises the following steps:

managing the target resource; the target resource is associated with the comprehensive energy data;

the operation data of each energy device is monitored in real time;

managing a baseline load; the baseline load is used for representing the comprehensive energy management platform to participate in peak shaving auxiliary service of each energy device and implementing minute-level average load when in demand response and orderly power utilization; the baseline load is a minute-level average load when the comprehensive energy management platform participates in the paid peak regulation auxiliary service transaction of the power generation side and performs demand response and orderly power utilization;

distributing target resources according to a preset strategy based on clear settlement data, and sending distribution information to equipment associated with each energy user, wherein the clear settlement data is generated based on the comprehensive energy data, and the equipment associated with the energy user is in communication connection with the comprehensive energy management platform;

generating an energy use plan for each energy use party;

reporting the energy use plans of all the energy use parties to a power grid auxiliary service trading platform;

and adjusting the next day response curve of the virtual power plant or the adjustable load resource of the comprehensive energy management platform.

7. An integrated energy management apparatus, applied to a target terminal, comprising:

the system comprises a transmission module, a comprehensive energy management platform and a control module, wherein the transmission module is used for transmitting a user operation instruction to the comprehensive energy management platform, and the user operation instruction is used for instructing the comprehensive energy management platform to execute target operation corresponding to the user operation instruction based on comprehensive energy data of at least one energy device and/or an energy device production control device;

the receiving module is used for receiving second target information from the comprehensive energy management platform, and the second target information is used for reflecting an operation result related to the target operation;

the target operation includes:

monitoring the comprehensive energy data;

carrying out peak regulation auxiliary treatment on each energy source device and each energy source user;

controlling carbon emission of each energy device;

the peak shaving auxiliary processing for each energy source device and energy source user comprises the following steps:

managing the target resource; the target resource is associated with the comprehensive energy data;

the operation data of each energy device is monitored in real time;

managing a baseline load; the baseline load is used for representing the comprehensive energy management platform to participate in peak shaving auxiliary service of each energy device and implementing minute-level average load when in demand response and orderly power utilization; the baseline load is a minute-level average load when the comprehensive energy management platform participates in the paid peak regulation auxiliary service transaction of the power generation side and performs demand response and orderly power utilization;

distributing target resources according to a preset strategy based on clear settlement data, and sending distribution information to equipment associated with each energy user, wherein the clear settlement data is generated based on the comprehensive energy data, and the equipment associated with the energy user is in communication connection with the comprehensive energy management platform;

generating an energy use plan for each energy use party;

reporting the energy use plans of all the energy use parties to a power grid auxiliary service trading platform;

and adjusting the next day response curve of the virtual power plant or the adjustable load resource of the comprehensive energy management platform.

8. An electronic device comprising a memory, a processor, and a computer program stored on the memory and executable on the processor, wherein the processor implements the integrated energy management method of claim 6 when the program is executed by the processor.

9. A non-transitory computer readable storage medium having stored thereon a computer program, wherein the computer program when executed by a processor implements the integrated energy management method of claim 6.