CN109870057B

CN109870057B - Energy supply operation system

Info

Publication number: CN109870057B
Application number: CN201711251950.1A
Authority: CN
Inventors: 李平; 严峻卫; 王建中
Original assignee: Sabo Energy Internet Of Things Technology Co ltd
Current assignee: Sabo Energy Internet Of Things Technology Co ltd
Priority date: 2017-12-01
Filing date: 2017-12-01
Publication date: 2021-03-05
Anticipated expiration: 2037-12-01
Also published as: CN109870057A

Abstract

The invention discloses an energy supply operation system, which comprises: the system comprises an energy supply operation business management and service platform, and mobile energy supply systems and energy center systems distributed in different areas, wherein each mobile energy supply system comprises a mobile energy storage energy supply device and a first information acquisition and device control system; each first information acquisition and equipment control system and each second information acquisition and equipment control system are in communication connection with the energy supply operation business management and service platform through a network; through this system, can realize the scale energy supply to form energy supply operation system, realize unified control, unified dispatch, unified fortune dimension to energy supply system, solve current scheme function singleness, can't form the problem of scale operation.

Description

Energy supply operation system

Technical Field

The invention relates to an energy supply technology, in particular to an energy supply regulation and control technology.

Background

At present, the problems of extremely serious contradiction between supply and demand of hot and cold energy sources and mode lag exist in China, the urgent need for revolution is met, and the problems of environmental protection and safety of the existing energy supply scheme are outstanding. Due to the pollution problem, the country implements the policy of changing coal into clean energy, and does not allow enterprises to build coal-fired and oil-fired boilers by themselves, but the cost of building gas-fired and electric boilers by themselves is too high. Although the thermal power plant has large supply capacity, the thermal power plant is limited by factors such as large heat pipe network investment, too long heat supply distance, scattered heat utilization user distribution and the like. Meanwhile, the 'peak-valley difference' of the electricity consumption of the whole society is increased year by year, the problem of valley electricity waste is more and more prominent, and the waste of a large amount of waste heat and waste heat of high-energy-consumption enterprises such as power plants, steel plants, chemical plants, coking plants and the like is very serious. How to realize energy supply economically, efficiently and environmentally is a problem which needs to be solved urgently.

The heat storage and energy storage technology is an important technology for solving the energy supply contradiction, the phase change heat storage equipment can be used for releasing heat during valley electricity heat storage and peak electricity, a large amount of waste heat and waste heat of high-energy-consumption enterprises such as power plants, steel mills, chemical plants, coking plants and the like can be recovered and stored, and the high-energy-consumption enterprises can be transported by a tractor to supply heat and hot water for users. In the prior art, for example, a phase change heat storage type electric water heater (patent application No. 2015104643211) using a phase change material to store heat in advance is provided, and after storing heat in advance, hot water can be provided to a user immediately after being started. A multifunctional movable heat accumulating and releasing method and a movable heat supplying device are disclosed in 'a multifunctional movable heat accumulating and releasing method and a movable heat supplying device' (patent application number: 2013100465343.3), which can be used for preparing clean saturated hot water with certain pressure and temperature by utilizing waste heat of various industrial processes such as industrial waste heat and waste gas. Mobile heating is also mentioned in existing news reports and papers. For example, in journal industry and science and technology forum 2013, volume 12, the article "economic evaluation of mobile heating project and analysis of heat energy distribution" (author: Yangjing, Zhao, sea dragon), it is mentioned that the mobile heat storage technology can be used for solving the contradiction between heat energy supply and demand mismatch, and the temporarily unused waste heat or excess heat is stored in a proper medium in the form of physical heat and released by a certain method when needed, thereby solving the problem of low energy utilization rate caused by mismatch and nonuniformity of energy consumption and heat consumption in time or space.

The situation that heat using units need temporary heat supply due to various reasons such as temporary power failure, temporary damage of a heat supply pipe network and the like is also repeatedly mentioned in the network news reports, the heat supply units are informed through a telephone or a network, and the heat supply units temporarily dispatch mobile heat supply vehicles for emergency heat supply.

The existing solution has the following disadvantages: the existing scheme focuses on research on energy storage phase change materials and equipment (such as a water heater and a mobile heating vehicle), mobile heating basically focuses on point-to-point emergency heating, the working mode is single, each event is relatively independent, an operation system is not formed, data unified monitoring, reporting and energy consumption analysis are not performed on energy consumption conditions of large heat and cold consumption units in an operation unit scale manner, a mobile or semi-mobile energy supply scheme aiming at scale requirements is not formed, a unified operation system and a platform are not used for carrying out unified scheduling and management on mobile energy supply vehicles, energy supply equipment and the like, a unified equipment management and operation and maintenance scheme aiming at the mobile or semi-mobile energy supply system is not provided, good interaction with users cannot be formed, the hot users cannot see real-time data, and the hot users cannot interact with the platform on a service level.

Disclosure of Invention

The invention aims to provide an energy supply operation system which can realize scale energy supply, form an energy supply operation system, realize unified monitoring, unified scheduling and unified operation and maintenance of the energy supply system and solve the problems that the existing scheme has single function and cannot form scale operation.

To solve the above technical problem, an embodiment of the present invention provides an energy supply operation system, including: the energy supply system comprises an energy supply operation business management and service platform, and mobile energy supply systems and energy center systems distributed in different areas, wherein each mobile energy supply system comprises a mobile energy storage energy supply device and a first information acquisition and device control system; each first information acquisition and equipment control system and each second information acquisition and equipment control system are in communication connection with the energy supply operation business management and service platform through a network;

the mobile energy storage and supply equipment is used for receiving the charging energy, converting the charged energy into target energy for storage and supplying energy to the energy utilization equipment;

the first information acquisition and equipment control system is used for monitoring the mobile energy storage energy supply equipment and uploading monitored data to the energy supply operation business management and service platform; receiving an instruction from the energy supply operation business management and service platform, and controlling the mobile energy storage and supply equipment;

the energy center station is used for charging energy for the mobile energy storage and supply equipment, converting the existing available energy into target energy and storing the target energy in the mobile energy storage and supply equipment;

the second information acquisition and equipment control system is used for monitoring the states of mobile energy storage and supply equipment and energy charging equipment in the energy center station and uploading monitored data to the energy supply operation service management and service platform; receiving an instruction from the energy supply operation business management and service platform, and performing energy charging allocation on mobile energy storage energy supply equipment according to the received instruction for scheduling and using the energy supply equipment;

the energy supply operation business management and service platform is used for receiving monitoring data from the first information acquisition and equipment control system and the second information acquisition and equipment control system, and carrying out energy supply scheduling and energy charging allocation on each mobile energy supply system and the energy center system according to the received data.

Compared with the prior art, the energy supply system and the energy supply method can realize large-scale energy supply, form an energy supply operation system, realize unified monitoring, unified scheduling and unified operation and maintenance of the energy supply system, and solve the problems that the existing scheme has single function and cannot form large-scale operation.

As a further improvement, the energy supply operation system may further include: each fixed energy supply system is distributed in different areas and comprises fixed energy storage energy supply equipment and a third information acquisition and equipment control system; each third information acquisition and equipment control system is in communication connection with the energy supply operation business management and service platform through a network;

the fixed energy storage and supply equipment is used for receiving and charging energy, converting the charged energy into target energy for storage and supplying energy to the energy utilization equipment;

the third information acquisition and equipment control system is used for monitoring the fixed energy storage and supply equipment and uploading monitored data to the energy supply operation business management and service platform; receiving an instruction from the energy supply operation business management and service platform, and controlling the fixed energy storage and supply equipment;

and the energy supply operation business management and service platform is also used for receiving monitoring data from the third information acquisition and equipment control systems, and carrying out energy supply scheduling and energy charging allocation on the mobile energy supply systems and the energy center system according to the received data.

Through combining together fixed energy storage energy supply equipment and removal energy storage energy supply equipment, effectively solve fixed energy storage energy supply place not enough or the energy is not enough, perhaps remove entirely and send the energy supply can not in time send to and the drawback of unable energy utilization because special reason.

As a further improvement, the energy supply operation system may further include: and the user management platform is in communication connection with the energy supply operation business management and service platform through a wired or wireless network and is used for checking energy consumption data in real time, setting equipment parameters and manually controlling equipment. Therefore, customers or working personnel can check the energy consumption data in real time through the user management platform and know the energy consumption condition at any time; the staff can also send a request instruction to the energy supply operation business management and service platform when the data is abnormal or the communication requirement exists, so that the equipment parameter setting and the equipment manual control are carried out, and the normal operation of the equipment is ensured.

As a further improvement, the monitoring data uploaded by the second information collection and equipment control system at least includes one of the following or any combination thereof:

the number of mobile energy storage energy supply devices for completing energy storage, the number of mobile energy storage energy supply devices for performing energy storage, the number of mobile energy storage energy supply devices for not performing energy storage, the energy charging state of a single mobile energy storage energy supply device, the energy storage progress of a single mobile energy storage energy supply device, the working state of the energy charging device and the working parameters of the energy charging device. Therefore, the energy supply operation business management and service platform can comprehensively master various states of the mobile energy storage energy supply equipment and the energy charging equipment in the energy center station, and the energy charging and allocation can be carried out more effectively.

As a further improvement, the energy supply operation business management and service platform further comprises:

the equipment access and management module is used for carrying out access, authentication and authority management on the first information acquisition and equipment control system, the second information acquisition and equipment control system, the third information acquisition and equipment control system and the user management platform; the first information acquisition and equipment control system, the second information acquisition and equipment control system, the third information acquisition and equipment control system and the bidirectional data transmission between the user management platform and the energy supply operation service management and service platform are safely controlled; and providing protocol analysis and data format conversion for the bidirectional data transmission.

the monitoring data management and application management module is used for inquiring, displaying and monitoring the monitoring data;

the monitoring data for inquiring, displaying and monitoring at least comprises one of the following data or any combination thereof:

the energy consumption condition of the fixed energy storage energy supply equipment, the energy residual condition of the fixed energy storage energy supply equipment, the energy consumption condition of the mobile energy storage energy supply equipment, the energy residual condition of the mobile energy storage energy supply equipment, monitoring data uploaded by the first information acquisition and equipment control system, monitoring data uploaded by the second information acquisition and equipment control system, and monitoring data uploaded by the third information acquisition and equipment control system.

and the data management and decision module is used for carrying out storage management and big data analysis on the monitoring data uploaded by the first information acquisition and equipment control system, the second information acquisition and equipment control system and the third information acquisition and equipment control system, generating an energy charging and allocating instruction for the mobile energy storage energy supply equipment according to an analysis result, and sending the energy charging and allocating instruction to the second information acquisition and equipment control system.

the mobile energy supply scheduling module is used for scheduling the mobile energy storage energy supply equipment, and the scheduling at least comprises one of the following steps: the number, location, time, and/or route of delivery of the mobile energy storage energizing device.

the user management module is used for managing user information and user authority and respectively setting authority for an administrator user and an energy-using user;

and the operation maintenance and management module is used for checking the state of the equipment, maintaining and managing the equipment, alarming the equipment, setting parameters, managing position information and operation logs.

Drawings

FIG. 1 is a block diagram of a powered operating system in accordance with a preferred embodiment of the present invention;

FIG. 2 is a schematic diagram of a platform structure for managing and serving energy-supplying operation services according to a preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail below with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that numerous technical details are set forth in order to provide a better understanding of the present application in various embodiments of the present invention. However, the technical solutions claimed in the claims of the present application can be implemented without these technical details and with various changes and modifications based on the following embodiments.

A preferred embodiment of the present invention relates to an energy supply operation system, as shown in fig. 1, comprising: the energy supply operation business management and service platform, and each fixed energy supply system, each mobile energy supply system and each energy center system which are distributed in different areas; each mobile energy supply system comprises mobile energy storage energy supply equipment and a first information acquisition and equipment control system, and each energy center system comprises an energy center station and a second information acquisition and equipment control system; each fixed energy supply system comprises fixed energy storage energy supply equipment and a third information acquisition and equipment control system; the first information acquisition and equipment control system, the second information acquisition and equipment control system and the third information acquisition and equipment control system are in communication connection with the energy supply operation service management and service platform through a wired or wireless network.

The fixed energy storage and supply equipment is used for receiving and charging energy, converting the charged energy into target energy for storage and supplying energy to the energy utilization equipment; for example, electric energy can be converted into heat energy by charging or other methods and stored in a fixed energy storage and energy supply device, or electric energy can be stored in the fixed energy storage and energy supply device in the form of ice-like cold energy through a refrigeration device.

The third information acquisition and equipment control system is used for carrying out information perception, information aggregation, equipment control and the like on the corresponding fixed energy storage and supply equipment; monitoring fixed energy storage and supply equipment, converging monitored data, and uploading the data to an energy supply operation service management and service platform; and receiving an instruction from the energy supply operation business management and service platform, and controlling the corresponding fixed energy storage and supply equipment. The third information acquisition and equipment control system realizes monitoring through various monitoring equipment (such as monitoring sensors) arranged on the fixed energy storage energy supply equipment, and the monitoring equipment directly sends monitored data or sends the monitored data to the energy supply operation service management and service platform through intermediate equipment (such as routing nodes or gateways).

Use heat energy cold energy supply system as an example, above-mentioned fixed energy storage energy supply equipment is fixed heat energy cold energy storage energy supply equipment, and the monitoring facilities who lays in third information acquisition and the equipment control system can include: temperature monitoring equipment (sensor), pressure monitoring equipment (sensor), flow monitoring equipment (sensor), liquid level monitoring equipment (sensor) and the like. The data monitored by the third information collection and equipment control system may include: the residual energy of the fixed energy storage tank, the temperature of the fixed energy storage tank, the return water and the inlet water temperature of the plate-replaced primary side, the inlet water pressure and the inlet water flow of the plate-replaced primary side, the return water and the inlet water temperature of the plate-replaced secondary side, the inlet water pressure and the inlet water flow of the plate-replaced secondary side, the inlet water flow of the water replenishing tank, the liquid level of the water replenishing tank and. The third information acquisition and device control system receives the instruction from the energy supply operation service management and service platform, and the control of the fixed energy storage energy supply device may include: and controlling a water replenishing switch, an electric valve or a pressure regulating valve of a water replenishing tank in the fixed energy storage and energy supply equipment.

The mobile energy storage and supply device is used for receiving the charging energy from the energy central station, converting the charged energy into target energy for storage, supplying energy to the energy utilization device and conveying the energy to any specified place; for example, the mobile energy storage and energy supply device can convert electric energy into heat energy through charging or other methods to be stored in the fixed energy storage and energy supply device, or the electric energy can store cold energy in the form of ice in the fixed energy storage and energy supply device through the refrigeration device.

The first information acquisition and equipment control system is used for carrying out information perception, information aggregation, equipment control and the like on the mobile energy storage and supply equipment; monitoring mobile energy storage and supply equipment, and gathering and uploading monitored data to an energy supply operation service management and service platform; and receiving an instruction from the energy supply operation business management and service platform, and controlling the mobile energy storage and supply equipment. The first information acquisition and equipment control system realizes monitoring through various monitoring equipment (such as monitoring sensors) arranged on the mobile energy storage energy supply equipment, and the monitoring equipment directly sends monitored data or sends the monitored data to the energy supply operation service management and service platform through intermediate equipment (such as routing nodes or gateways).

Use heat energy cold energy supply system as an example, above-mentioned removal energy storage energy supply equipment is removal heat energy cold energy storage energy supply equipment, and the monitoring facilities who lays in first information acquisition and the equipment control system can include: temperature monitoring equipment (sensor), pressure monitoring equipment (sensor), flow monitoring equipment (sensor), liquid level monitoring equipment (sensor) and the like. The data monitored by the first information collection and equipment control system may include: the residual energy of the movable energy storage box, the temperature of the movable energy storage box, the backwater and water outlet temperature, the water outlet pressure and flow, the cold storage liquid level and the like. The first information acquisition and equipment control system receives an instruction from the energy supply operation service management and service platform, and the controlling the mobile energy storage energy supply equipment may include: and controlling an electric valve or a pressure regulating valve in the mobile energy storage and supply equipment.

The energy central station is used for charging energy for the mobile energy storage energy supply equipment, converting the existing available energy into target energy and storing the target energy in the mobile energy storage energy supply equipment. The energy central station can convert electric energy or other energy sources (such as a high-temperature heat source, a low-temperature cold source or other convertible energy sources) into certain energy by charging or other ways and store the energy in the mobile energy storage and energy supply equipment, such as converting the electric energy into heat energy and storing the heat energy in the mobile energy storage and energy supply equipment, or store the cold energy in the mobile energy storage and energy supply equipment in a form similar to ice by using refrigeration equipment (such as an ice maker) or directly store the electric energy in the mobile energy storage and energy supply equipment. The energy center station has the advantages that energy storage and energy supply equipment is stored in a centralized mode, for example, refrigeration is taken, the energy center station can adopt a high-power ice maker to make ice or ice-like objects in a centralized mode, and energy conversion efficiency is high.

The second information acquisition and equipment control system is used for monitoring the states of mobile energy storage energy supply equipment and energy charging equipment in the energy center station and uploading monitored data to the energy supply operation service management and service platform; receiving an instruction from an energy supply operation business management and service platform, and performing energy charging and allocation of the mobile energy storage energy supply equipment according to the received instruction, such as heat storage or cold storage, arrangement of the number of mobile energy storage energy supply equipment to start energy storage and the like, so that the energy supply equipment is used for scheduling.

The monitoring data uploaded by the second information acquisition and equipment control system may include: the number of mobile energy storage energy supply devices completing energy storage, the number of mobile energy storage energy supply devices performing energy storage, the number of mobile energy storage energy supply devices not performing energy storage, the energy charging state of a single mobile energy storage energy supply device, the energy storage progress of a single mobile energy storage energy supply device, the working state of the energy charging device, the working parameters of the energy charging device and the like. Therefore, the energy supply operation business management and service platform can comprehensively master various states of the mobile energy storage energy supply equipment and the energy charging equipment in the energy center station, and the energy charging and allocation can be carried out more effectively.

Energy supply operation business management and service platform is the integrated management platform who provides energy supply operation business management and service for receive come from each first information acquisition and equipment control system, second information acquisition and equipment control system, the monitoring data that third information acquisition and equipment control system uploaded, it is right according to the data received each mobile energy supply system and energy center system carry out energy supply dispatch and fill can the allotment, realize management, the control to each information acquisition and equipment control device, to the data storage and the processing of gathering, and user management, energy supply dispatch, big data management and decision analysis, warning information storage, warning notice, user remote control and user set up remote management etc..

And, through combining together fixed energy storage energy supply equipment and removal energy storage energy supply equipment, effectively solve fixed energy storage energy supply place not enough or the energy is not enough, perhaps remove entirely and send the drawback that can not reach and can't the energy owing to special reason.

As a further improvement, the energy supply operation system may further include: the user management platform is generally loaded on a user terminal, is in communication connection with the energy supply operation business management and service platform through a wired or wireless network, and is used for checking energy consumption data in real time, setting equipment parameters and manually controlling the equipment.

The user management platform sets different authorities for different users;

the rights of the client user include: checking energy consumption data, sending a request instruction to the energy supply operation business management and service platform when the data is abnormal or communication requirements exist, and receiving response and service of the energy supply operation business management and service platform;

the authority of the staff user comprises: and checking energy consumption data, and sending a request instruction to the energy supply operation service management and service platform when the data is abnormal or communication requirements exist, so as to set equipment parameters and manually control the equipment.

The user management platform can comprise a login module, a monitoring data viewing module, an equipment parameter setting module, a control module, a contact module and the like, wherein the modules and the service use range are determined by user authority.

Through the user management platform, a client or a worker can check the energy consumption data in real time and know the energy consumption condition at any time; the staff can also send a request instruction to the energy supply operation business management and service platform when the data is abnormal or the communication requirement exists, so that the equipment parameter setting and the equipment manual control are carried out, and the normal operation of the equipment is ensured.

As a further improvement, the energy supply operation service management and service platform may further include: the system comprises a device access and management module, a monitoring data management and application management module, a data management and decision-making module, a mobile energy supply scheduling module, a user management module and an operation maintenance and management module, as shown in fig. 2.

The device access and management module comprises three parts of energy supply, and 1) is used for performing device connection management on various devices in the first information acquisition and device control system, the second information acquisition and device control system and the third information acquisition and device control system and a user management platform, wherein the device connection management comprises device connection, login, authentication, authority management and the like; 2) the system is used for carrying out safety control on bidirectional data transmission among various devices, a user management platform and an energy supply operation business management and service platform in the first information acquisition and device control system, the second information acquisition and device control system and the third information acquisition and device control system; 3) the method is used for acquiring and preprocessing equipment data, and comprises equipment data acquisition, protocol analysis, data format conversion and the like.

The monitoring data management and application management module is used for inquiring, displaying and monitoring the monitoring data; the monitoring data for inquiring, displaying and monitoring comprises the following steps: the energy consumption condition of the fixed energy storage energy supply equipment, the energy residual condition of the fixed energy storage energy supply equipment, the energy consumption condition of the mobile energy storage energy supply equipment, the energy residual condition of the mobile energy storage energy supply equipment, the first information acquisition and equipment control system, the second information acquisition and equipment control system, the third information acquisition and equipment control system and various monitoring data, operation parameters and the like.

And the data management and decision module is used for performing storage management and big data analysis on monitoring data uploaded by the first information acquisition and equipment control system, the second information acquisition and equipment control system and the third information acquisition and equipment control system, generating an energy charging and allocating instruction for the mobile energy storage energy supply equipment according to an analysis result, such as heat storage or cold storage, arrangement of the number of mobile energy storage energy supply equipment to start energy storage and the like, and sending the instruction to the second information acquisition and equipment control system of the energy center station for energy charging and allocating.

The mobile energy supply scheduling module is used for scheduling the mobile energy storage energy supply equipment, and comprises: the number, location, time, route, etc. of the mobile energy storage and supply device.

The user management module is used for managing user information and user authority and respectively setting authority for an administrator user and an energy-using user; the energy utilization user in this embodiment is a user who uses the energy provided by the fixed energy supply system and the mobile energy supply system in this embodiment.

It should be noted that each module referred to in this embodiment is a logical module, and in practical applications, one logical unit may be one physical unit, may be a part of one physical unit, and may be implemented by a combination of multiple physical units. In addition, in order to highlight the innovative part of the present invention, elements that are not so closely related to solving the technical problems proposed by the present invention are not introduced in the present embodiment, but this does not indicate that other elements are not present in the present embodiment.

It will be understood by those of ordinary skill in the art that the foregoing embodiments are specific examples for carrying out the invention, and that various changes in form and details may be made therein without departing from the spirit and scope of the invention in practice.

Claims

1. An energy supply operation system, comprising: the energy supply system comprises an energy supply operation business management and service platform, and mobile energy supply systems and energy center systems distributed in different areas, wherein each mobile energy supply system comprises a mobile energy storage energy supply device and a first information acquisition and device control system; each first information acquisition and equipment control system and each second information acquisition and equipment control system are in communication connection with the energy supply operation business management and service platform through a network;

the energy supply operation business management and service platform is used for receiving monitoring data from each first information acquisition and equipment control system and each second information acquisition and equipment control system, and carrying out energy supply scheduling and energy charging allocation on each mobile energy supply system and each energy center system according to the received data;

the energy supply operation system further comprises: each fixed energy supply system is distributed in different areas and comprises fixed energy storage energy supply equipment and a third information acquisition and equipment control system; each third information acquisition and equipment control system is in communication connection with the energy supply operation business management and service platform through a network;

2. The powered operation system of claim 1, further comprising: and the user management platform is in communication connection with the energy supply operation business management and service platform through a wired or wireless network and is used for checking energy consumption data in real time, setting equipment parameters and manually controlling equipment.

3. The powered operation system of claim 2, wherein the customer management platform sets different permissions for different users;

4. The powered operation system of claim 1, wherein the monitoring data uploaded by the second information collection and equipment control system comprises at least one of the following or any combination thereof:

the number of mobile energy storage energy supply devices for completing energy storage, the number of mobile energy storage energy supply devices for performing energy storage, the number of mobile energy storage energy supply devices for not performing energy storage, the energy charging state of a single mobile energy storage energy supply device, the energy storage progress of a single mobile energy storage energy supply device, the working state of the energy charging device and the working parameters of the energy charging device.

5. The powered operations system of claim 2, wherein the powered operations management and services platform further comprises:

6. The powered operations system of claim 2, wherein the powered operations management and services platform further comprises:

7. The powered operations system of claim 2, wherein the powered operations management and services platform further comprises:

8. The powered operations system of claim 2, wherein the powered operations management and services platform further comprises:

the mobile energy supply scheduling module is used for scheduling the mobile energy storage energy supply equipment, and the scheduling at least comprises one of the following steps: the number, location, time, or route of delivery of the mobile energy storage energizing device.

9. The powered operations system of claim 2, wherein the powered operations management and services platform further comprises:

10. The powered operation system of claim 1, wherein the third information collection and equipment control system further comprises: the monitoring equipment is arranged on the fixed energy storage and supply equipment, and sends monitored data to the energy supply operation business management and service platform directly or through intermediate equipment;

the first information collection and device control system further comprises: lay in remove all kinds of monitoring facilities on the energy storage energy supply equipment, monitoring facilities send the data of monitoring directly or through intermediate equipment for energy supply operation business management and service platform.

11. The energy supply operation system of claim 1, wherein the fixed energy supply system is a fixed thermal energy and cold energy supply system, and the fixed energy storage and supply device is a fixed thermal energy and cold energy storage and supply device; the data monitored by the third information acquisition and equipment control system comprises one of the following data or any combination of the following data:

the residual energy of the fixed energy storage tank, the temperature of the fixed energy storage tank, the return water and inlet water temperature of the plate-exchange primary side, the inlet water pressure and flow rate of the plate-exchange primary side, the return water and inlet water temperature of the plate-exchange secondary side, the inlet water pressure and flow rate of the plate-exchange secondary side, the inlet water flow rate of the water replenishing tank and the liquid level of the water replenishing tank;

the mobile energy supply system is a mobile heat energy and cold energy supply system, and the mobile energy storage and energy supply equipment is mobile heat energy and cold energy storage and energy supply equipment; the data monitored by the first information acquisition and equipment control system comprises one of the following data or any combination of the following data:

the residual energy of the movable energy storage box, the temperature of the movable energy storage box, the backwater and water outlet temperature, the water outlet pressure and flow and the cold storage liquid level;

the monitoring devices in the first information collection and device control system and the third information collection and device control system at least comprise one of the following devices or any combination thereof:

a temperature monitoring device, a pressure monitoring device, a flow monitoring device, or a liquid level monitoring device.

12. The energy supply operation system of claim 1, wherein the first information collection and equipment control system receives instructions from the energy supply operation business management and service platform, and the control of the mobile energy storage energy supply equipment comprises at least one of:

controlling an electric valve or a pressure regulating valve in the mobile energy storage and supply equipment;

the third information acquisition and equipment control system receives an instruction from the energy supply operation service management and service platform, and the control of the fixed energy storage energy supply equipment at least comprises one of the following steps:

and controlling a water replenishing switch, an electric valve or a pressure regulating valve of a water replenishing tank in the fixed energy storage and energy supply equipment.