CN211628272U - Hydrogen storage tank operation system - Google Patents

Abstract

A hydrogen storage tank operation system, the system comprising: the method comprises the following steps that terminal equipment is installed on a hydrogen storage tank, and position information of the hydrogen storage tank and residual hydrogen amount information of the hydrogen storage tank are generated; the user terminal equipment and the service management platform server are both connected with the terminal equipment and receive the position information of the hydrogen storage tank and the residual hydrogen amount information of the hydrogen storage tank; the service management platform server analyzes the position information of the hydrogen storage tank and the residual hydrogen amount information of the hydrogen storage tank to form replacement application information and sends the replacement application information to the user terminal equipment, and the user terminal equipment confirms the replacement information to the service management platform server; the vehicle carrying device comprises carrying terminal equipment which is connected with the service management platform server and used for conveying the hydrogen storage tank to the centralized hydrogen charging service station; the centralized hydrogen charging service station comprises an inflation server which is connected with the carrying terminal equipment and used for replacing or charging the hydrogen storage tank. But the time of changing the hydrogen storage tank is saved to the surplus hydrogen volume of real-time supervision, and the simple operation saves the cost.

Description

Hydrogen storage tank operation system

Technical Field

The application relates to the technical field of hydrogen storage tank operation, in particular to a hydrogen storage tank operation system.

Background

The existing fuel cell cogeneration technology mostly uses natural gas as fuel and prepares hydrogen for the fuel cell to generate electricity through on-site reforming. In recent years, a fuel cell cogeneration technology using hydrogen as a raw material has been proposed, in which hydrogen is stored in a metal hydride hydrogen storage tank, and after the hydrogen storage tank is heated by waste heat generated by power generation of a fuel cell, the hydrogen can be released from the hydrogen storage tank, so that the power generation process is greatly simplified compared with the prior art, and no tail gas is discharged.

However, in order to realize large-scale popularization and application of the cogeneration technology of the fuel cell using hydrogen as a raw material, the problem of replacement of the user-side hydrogen storage tank needs to be solved. Because the hydrogen storage tank has limited hydrogen storage capacity, the hydrogen storage tank needs to be replaced every few days or weeks, and if a conventional mode is adopted, namely, after the user observes that the residual hydrogen capacity of the hydrogen storage tank is insufficient, the user informs an operation company of replacement, so that the defects in several aspects exist. Firstly, normal use is influenced, because the residual hydrogen amount of the hydrogen storage tank is completely monitored by a user, if the user neglects or forgets to check, the situation that the hydrogen storage tank is unavailable is easy to occur, and the normal use of the fuel cell cogeneration system is influenced; secondly, the timeliness is poor, after the application of replacing the hydrogen storage tank of the user is received, an operation company needs to verify user information, inform a subordinate factory of delivery, allocate vehicles and personnel for the subordinate factory, and then deliver the products, so that the whole process takes longer time; thirdly, the user experience is poor, the user needs to pay attention to the residual hydrogen amount of the hydrogen storage tank in real time, and needs to make and receive calls for many times during each replacement, and spends a long time waiting, so that the use convenience and experience are to be improved; fourthly, the comprehensive cost of the operation company is high, the replacement requirement of the user is difficult to predict, and the randomness of the replacement application of the user is added, so that the replacement can be completed in a short time, the replacement service of the operation company only aims at one user every time, and more operators and vehicles need to be equipped for the replacement service.

SUMMERY OF THE UTILITY MODEL

It is an object of the present application to overcome the above problems or to at least partially solve or mitigate the above problems.

According to an aspect of the present application, there is provided a hydrogen storage tank operation system applied to a building fuel cell cogeneration system, the hydrogen storage tank operation system including:

the hydrogen storage tank is provided with terminal equipment and is used for generating position information of the hydrogen storage tank and residual hydrogen amount information of the hydrogen storage tank;

the user terminal equipment is connected with the terminal equipment and is used for receiving the position information of the hydrogen storage tank and the residual hydrogen amount information of the hydrogen storage tank;

the service management platform server is connected with the terminal equipment and is used for receiving the position information of the hydrogen storage tank and the residual hydrogen amount information of the hydrogen storage tank, analyzing the position information of the hydrogen storage tank and the residual hydrogen amount information of the hydrogen storage tank, forming replacement application information, sending the replacement application information to the user terminal equipment, and sending confirmed replacement information to the service management platform server after the user terminal equipment receives the replacement application information;

the vehicle carrying device comprises a carrying terminal device, wherein the carrying terminal device is connected with the service management platform server and is used for receiving the confirmed replacement information and conveying the hydrogen storage tank to a centralized hydrogen charging service station;

the centralized hydrogen filling service station comprises an air filling server, and the air filling server is connected with the carrying terminal equipment and used for receiving the confirmed replacement information and replacing or filling hydrogen into the hydrogen storage tank.

Optionally, the terminal device includes:

a processor;

the positioning module is connected with the processor and used for generating position information of the hydrogen storage tank;

the hydrogen storage amount monitoring module is connected with the processor and is used for monitoring the residual hydrogen amount information of the hydrogen storage tank in real time;

the equipment signal transmitting module is connected with the processor and used for uploading/submitting the running state and the residual hydrogen quantity information of the corresponding hydrogen storage tank to the service management platform server and the user terminal equipment;

the equipment signal receiving module is connected with the processor and used for receiving the user identity identification information sent by the service management platform server and the pairing application of the hydrogen storage tank sent by the user terminal equipment;

and the storage module is connected with the processor and is used for storing the position information of the hydrogen storage tank and the residual hydrogen amount information of the hydrogen storage tank.

Optionally, the hydrogen storage tank is one or more metal hydride hydrogen storage tanks.

Optionally, the user terminal device is a first mobile phone or a first computer.

Optionally, the service management platform server is a second mobile phone or a second computer.

Optionally, the vehicle transportation device is a vehicle, and the transportation terminal device is a third mobile phone or a third computer.

Optionally, the inflation server is a fourth cell phone or a fourth computer.

Optionally, the terminal device further includes a display module, connected to the processor, for displaying the operation state of the hydrogen storage tank and the information of the amount of remaining hydrogen in real time.

According to another aspect of the present application, there is provided an operation method of a hydrogen storage tank operation system, which is applied to the above system, the method including the steps of:

generating information of the hydrogen storage tank terminal equipment: generating position information of the hydrogen storage tank and residual hydrogen amount information of the hydrogen storage tank;

a user terminal device receiving step: receiving position information of the hydrogen storage tank and remaining hydrogen amount information of the hydrogen storage tank;

a service management platform server receiving step: receiving the position information of the hydrogen storage tank and the residual hydrogen amount information of the hydrogen storage tank in the information generation step of the hydrogen storage tank terminal device;

the service management platform server processing step: analyzing the position information of the hydrogen storage tank and the residual hydrogen amount information of the hydrogen storage tank to form replacement application information, and sending the replacement application information to user terminal equipment;

user terminal equipment processing steps: after receiving the replacement application information, sending a replacement confirmation information to the service management platform server;

the service management platform server charging step: after receiving the replacement confirmation message, deducting the cost of the user and sending replacement information as soon as possible;

a vehicle transport device transport terminal processing step: receiving the replacement information as soon as possible, and transporting the hydrogen storage tank to a centralized hydrogen filling service station;

the processing steps of the aeration server of the centralized hydrogen filling service station are as follows: and receiving the confirmed replacement information, and replacing or filling hydrogen into the hydrogen storage tank.

Optionally, the information generating step of the hydrogen storage tank terminal device includes:

a positioning step: generating position information of the hydrogen storage tank;

hydrogen storage amount monitoring: monitoring the residual hydrogen quantity information of the hydrogen storage tank in real time;

a device signal sending step: uploading/submitting the running state and the residual hydrogen amount information of the corresponding hydrogen storage tank to the service management platform server and the user terminal equipment;

a device information receiving step: receiving user identity identification information sent by the service management platform server and a pairing application of the hydrogen storage tank sent by the user terminal equipment;

a storage step: storing the position information of the hydrogen storage tank and the remaining hydrogen amount information of the hydrogen storage tank.

Optionally, after the information generating step of the hydrogen storage tank terminal device, a displaying step is further included: and displaying the running state of the hydrogen storage tank and the residual hydrogen amount information in real time.

The hydrogen storage tank operation system generates position information of a hydrogen storage tank and residual hydrogen amount information of the hydrogen storage tank by installing terminal equipment on the hydrogen storage tank, the user terminal equipment is connected with the terminal equipment and receives the position information of the hydrogen storage tank and the residual hydrogen amount information of the hydrogen storage tank, the service management platform server is connected with the terminal equipment and receives the position information of the hydrogen storage tank and the residual hydrogen amount information of the hydrogen storage tank, analyzes the position information of the hydrogen storage tank and the residual hydrogen amount information of the hydrogen storage tank to form replacement application information, sends the replacement application information to the user terminal equipment, the user terminal equipment sends confirmed replacement information to the service management platform server after receiving the replacement application information, the carrying terminal equipment of the vehicle carrying device is connected with the service management platform server and receives the confirmed replacement information and conveys the hydrogen storage tank to a centralized hydrogen charging service station, and the inflation server of the centralized hydrogen filling service station receives the confirmed replacement information and replaces or fills hydrogen for the hydrogen storage tank. But the residual hydrogen tolerance of real-time supervision saves and changes the hydrogen storage tank time, the simple operation to save a large amount of people and materials cost.

The above and other objects, advantages and features of the present application will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the present application will be described in detail hereinafter by way of illustration and not limitation with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

fig. 1 is a block diagram of the structure of a hydrogen storage tank operation system according to an embodiment of the present application;

FIG. 2 is a block diagram of the terminal device of FIG. 1;

fig. 3 is a flowchart of an operation method of a hydrogen storage tank operation system according to an embodiment of the present application;

fig. 4 is a flowchart of the information generation step of the hydrogen storage tank terminal device in fig. 1.

The labels in the figure are:

100. a hydrogen storage tank operation system; 10. a hydrogen storage tank; 101. a terminal device; 20. a user terminal device; 30. A service management platform server; 40. a vehicle handling device; 401. carrying the terminal equipment; 50. a centralized hydrogen charging service station; 501. and an inflation server.

Detailed Description

In a first aspect of the present application, fig. 1 is a block diagram of a hydrogen storage tank operation system according to an embodiment of the present application. The hydrogen storage tank operation system 100 is applied to a building fuel cell cogeneration system, and the hydrogen storage tank operation system 100 may generally include a hydrogen storage tank 10, a user terminal device 20, a business management platform server 30, a vehicle handling device 40, and a centralized hydrogen charging service station 50.

Specifically, a terminal device 101 for generating positional information of the hydrogen storage tank 10 and information on the remaining hydrogen gas amount of the hydrogen storage tank 10 is mounted on the hydrogen storage tank 10. Alternatively, the hydrogen storage tank 10 is one or more metal hydride hydrogen storage tanks. After the metal hydride hydrogen storage tank heats the hydrogen storage tank 10 by waste heat generated by power generation of the fuel cell, hydrogen can be released from the hydrogen storage tank, the power generation process is greatly simplified compared with the prior art, and no tail gas is discharged. The position information of the hydrogen storage tank 10 is updated in real time, and when the residual hydrogen amount is lower than a set value, the terminal device 101 automatically sends the residual hydrogen amount information.

In this embodiment, the user terminal device 20 is in signal connection with the terminal device 101, and is configured to receive the position information of the hydrogen storage tank 10 and the remaining hydrogen amount information of the hydrogen storage tank 10. Optionally, the user terminal device 20 is a first mobile phone or a first computer, and in addition, the user terminal device 20 may also be a smart watch, a bracelet, a tablet computer, or the like.

In this embodiment, the service management platform server 30 is in signal connection with the terminal device 101, and is configured to receive the position information of the hydrogen storage tank 10 and the remaining hydrogen amount information of the hydrogen storage tank 10, analyze the position information of the hydrogen storage tank 10 and the remaining hydrogen amount information of the hydrogen storage tank 10, form replacement application information, and send the replacement application information to the user terminal device 20, and the user terminal device 20 receives the replacement application information and then sends confirmation replacement information to the service management platform server 30. Optionally, the service management platform server 30 is a second mobile phone or a second computer. In addition, the service management platform server 30 may also be a smart watch, a bracelet, a tablet computer, or the like.

In this embodiment, the vehicle transportation apparatus 40 includes a transportation terminal device 401, and the transportation terminal device 401 is in signal connection with the service management platform server 30, and is configured to receive the confirmed replacement information and transport the hydrogen storage tank 10 to the centralized hydrogen filling service station 50. Alternatively, the vehicle transportation device 40 is a vehicle, and the transportation terminal device 401 is a third mobile phone or a third computer. In addition, the vehicle handling device 40 may also be a smart watch, a bracelet, a tablet computer, or the like.

In this embodiment, the centralized hydrogen charging service station 50 includes a charging server 501, and the charging server 501 is in signal connection with the transportation terminal device 401, and is configured to receive the replacement confirmation information and perform replacement or hydrogen charging processing on the hydrogen storage tank 10. Optionally, the inflation server 30 is a fourth cell phone or a fourth computer. In addition, the inflation server 501 may also be a smart watch, a bracelet, a tablet computer, or the like.

Fig. 2 is a block diagram of the terminal device of fig. 1. The terminal device 101 may generally be composed of a processor 1011, a positioning module 1012, a hydrogen storage amount monitoring module 1013, a device signal transmitting module 1014, a device signal receiving module 1015, a storage module 1016, and a display module 1017. Specifically, the positioning module 1012 is connected to the processor 1011 for generating the position information of the hydrogen storage tank 10. The hydrogen storage amount monitoring module 1013 is connected to the processor 1011 and is configured to monitor the remaining hydrogen amount information of the hydrogen storage tank 10 in real time. The device signal transmitting module 1014 is connected to the processor 1011, and is configured to upload/submit the operation state of the hydrogen storage tank 10 and the information about the amount of remaining hydrogen to the service management platform server 30 and the user terminal device 20. The device signal receiving module 1015 is connected to the processor 1011, and is configured to receive the user identification information sent by the service management platform server 30 and the pairing application of the hydrogen storage tank 10 sent by the user terminal device 20. The storage module 1016 is connected to the processor 1011, and is configured to store the position information of the hydrogen storage tank 10 and the remaining hydrogen amount information of the hydrogen storage tank 10. The display module 1017 is connected to the processor 1011 and is configured to display the operation status of the hydrogen storage tank 10 and the remaining hydrogen amount information in real time.

The application of hydrogen storage tank operation system 100 can monitor the residual hydrogen amount in real time, save the replacement 10 time, the simple operation to save a large amount of people and materials cost of hydrogen storage tank.

In a second aspect of the present application, fig. 3 is a flowchart of an operation method of a hydrogen storage tank operation system according to an embodiment of the present application. It applies to the system of the first aspect, the method comprising the steps of:

s10, hydrogen storage tank terminal equipment information generation step: generating position information of the hydrogen storage tank and residual hydrogen amount information of the hydrogen storage tank;

the specification, model, etc. of the hydrogen storage tank may be generated on the basis of the position information of the hydrogen storage tank and the residual hydrogen amount information of the hydrogen storage tank, which will not be described herein.

Optionally, after the information generating step 101 of the hydrogen storage tank terminal device, an information sending step of the hydrogen storage tank terminal device is further included, and the position information of the hydrogen storage tank and the residual hydrogen amount information of the hydrogen storage tank are sent to the user terminal device and the service management platform server at the same time.

S20, receiving by the user terminal equipment: receiving position information of the hydrogen storage tank and remaining hydrogen amount information of the hydrogen storage tank;

s30, the service management platform server receives the steps: receiving the position information of the hydrogen storage tank and the remaining hydrogen gas amount information of the hydrogen storage tank of the information generation step S10 of the hydrogen storage tank terminal device;

s40, the service management platform server processing step: analyzing the position information of the hydrogen storage tank and the residual hydrogen amount information of the hydrogen storage tank to form replacement application information, and sending the replacement application information to user terminal equipment;

in the analysis process, primary prompt information is sent when the residual hydrogen amount in the hydrogen storage tank is 20%, secondary prompt information is sent when the residual hydrogen amount in the hydrogen storage tank is 10%, crisis prompt information is sent when the residual hydrogen amount in the hydrogen storage tank is 5%, final prompt information is sent when the residual hydrogen amount in the hydrogen storage tank is 3%, and the prompt information is sent for 3-5 times after the final prompt information is sent.

Optionally, the content of the replacement application information is: whether the hydrogen storage tank is replaced or not due to insufficient hydrogen gas surplus of the hydrogen storage tank positioned in a certain building is avoided, so that interruption is avoided, the replacement request is 'replaced immediately', the replacement request is 'not replaced', and the gratitude is given.

S50, user terminal equipment processing step: after receiving the replacement application information, sending a replacement confirmation information to the service management platform server;

the confirmed replacement information is "immediate replacement" or "no replacement" returned by the user, and generally, the user returns "immediate replacement" basically.

S50, service management platform server charging step: after receiving the replacement confirmation message, deducting the cost of the user and sending replacement information as soon as possible;

s70, vehicle transport device transport terminal processing step: receiving the replacement information as soon as possible, and transporting the hydrogen storage tank to a centralized hydrogen filling service station;

s80, the centralized hydrogen filling service station inflating server processing steps: and receiving the confirmed replacement information, and replacing or filling hydrogen into the hydrogen storage tank.

In this embodiment, the information generating step at the hydrogen storage tank terminal device includes:

s101, positioning: generating position information of the hydrogen storage tank;

s102, hydrogen storage amount monitoring: monitoring the residual hydrogen quantity information of the hydrogen storage tank in real time;

s103, equipment signal sending step: uploading/submitting the running state and the residual hydrogen quantity information of the corresponding hydrogen storage tank to the service management platform and the user terminal equipment;

s104, a device information receiving step: receiving user identity identification information sent by the service management platform server and a pairing application of the hydrogen storage tank sent by the user terminal equipment;

s105, a storage step: storing the position information of the hydrogen storage tank and the remaining hydrogen amount information of the hydrogen storage tank.

S106, after the information generation step of the hydrogen storage tank terminal equipment, a display step S107 is also included: and displaying the running state of the hydrogen storage tank and the residual hydrogen amount information in real time.

The beneficial effect of this application lies in:

1. the normal use is not influenced, and the service management platform carries out real-time remote monitoring on the residual hydrogen amount of the hydrogen storage tank of the user, so that the situation that the hydrogen storage tank is not available due to negligence or forgetting to check by the user and the normal use of the fuel cell cogeneration system is influenced can be avoided;

2. the timeliness is good, the service management platform monitors the residual hydrogen quantity of the hydrogen storage tank of the user in real time, when the residual hydrogen quantity is insufficient, the user is contacted to replace the hydrogen storage tank in advance, meanwhile, vehicles and personnel are allocated, the replacement of the hydrogen storage tank is completed in the first time, and the whole process takes short time;

3. the experience of a user is strong, the user does not need to pay attention to the residual hydrogen amount of the hydrogen storage tank in the daily use process of the fuel cell cogeneration system, when the residual hydrogen amount is insufficient, the service management platform can contact with the user in advance and initiatively to change matters, and the user can freely arrange the change time according to the self condition;

4. the operation cost is minimized, and because the operation company can master the residual hydrogen amount and the position information of the hydrogen storage tanks of each user in real time, the company can arrange operation vehicles and personnel overall and optimize the replacement sequence of each hydrogen storage tank group, so that the invested vehicles and personnel are minimized;

5. promote the application of new forms of energy technologies such as hydrogen energy in the building field, because this application makes the use of fuel cell cogeneration system more convenient, save worry, help attracting more users to use fuel cell cogeneration system.

More specifically:

the hydrogen storage tank operation system applied to the building fuel cell cogeneration system comprises user terminal equipment, a plurality of hydrogen storage tanks sleeved with the equipment terminal equipment, a service management platform server, a vehicle handling device and a centralized hydrogen charging service station. Wherein:

the user terminal equipment is self-used by a user and has a communication function, is used for displaying the working state and the residual hydrogen amount of the hydrogen storage tank in real time, receives and responds to a hydrogen storage tank replacement request sent by the service management platform server, and performs rent settlement with the service management platform server; the service management platform server comprises: the system comprises a user input module, a user output module, a user sending module and a user receiving module.

The terminal equipment: the system is used for positioning the hydrogen storage tank, monitoring the residual hydrogen amount of the hydrogen storage tank in real time and sending related information to the user terminal and the service management platform server; the terminal equipment comprises a positioning module, a hydrogen storage amount monitoring module, an equipment signal transmitting module, an equipment signal receiving module, a storage module and a processor.

And the service management platform server is used for monitoring the residual hydrogen amount of the hydrogen storage tank of the user in real time, sending a hydrogen storage tank replacement application to the user, commanding the vehicle carrying device to replace the hydrogen storage tank with insufficient amount of hydrogen, and charging the user by pricing.

The vehicle carrying device receives an instruction of the service management platform server, replaces the hydrogen storage tank with insufficient gas quantity, and conveys the hydrogen storage tank to the centralized hydrogen charging service station for charging hydrogen; and the centralized hydrogen filling service station is used for filling hydrogen and performing daily maintenance on the hydrogen storage tank with insufficient gas quantity.

The user terminal equipment is self-used by a user and has a communication function, is used for displaying the working state and the residual hydrogen amount of the hydrogen storage tank in real time, receiving and responding a hydrogen storage tank replacement request sent by the service management platform server, and performs rent settlement with the service management platform server; the user terminal device includes: the system comprises a user input module, a user output module, a user sending module and a user receiving module.

The modules of the user terminal equipment are separately butted or integrated, and the user input module/output module can be butted with other systems or equipment, such as auxiliary equipment of a notebook computer, a tablet computer, a U disk, a mobile hard disk and the like.

The user input module (the model can be Hi3620) is used for inputting information by a user, and can adopt a mobile phone, a tablet personal computer, a PDA, a notebook computer and special equipment with internet surfing and communication functions;

the user output module (the model can be Hi3620) is used for outputting information to a user, and can adopt a mobile phone, a tablet personal computer, a PDA, a notebook computer and special equipment with internet surfing and communication functions;

the user sending module (the model can be Hi3620) is used for uploading/submitting information to the service management platform;

the user receiving module (model may be Hi3620) is used for the user to download/receive the information sent to the user by the service management platform server.

The terminal equipment is used for positioning the hydrogen storage tank, monitoring the residual hydrogen amount of the hydrogen storage tank in real time and sending related information to the user terminal and the service management platform; the terminal equipment comprises a positioning module, a hydrogen storage amount monitoring module, an equipment signal transmitting module, an equipment signal receiving module, a storage module and a processor;

the positioning module (the model can be UBX-G7020) is used for positioning the position information of the hydrogen storage tank and sending the position information to the service management platform, and is a GPS, a base station, an RFID/sensor or a beacon;

the hydrogen storage amount monitoring module (the model can be DMF-1-3-A) is used for monitoring the residual hydrogen amount information of the hydrogen storage tank in real time;

the equipment signal transmitting module (the model can be BA1404F) is used for uploading/submitting the running state of the hydrogen storage tank and the residual hydrogen quantity information to the service management platform server and the user terminal;

the device signal receiving module (the model may be SYN480R) is configured to receive user identification information sent by the service management center and a pairing application sent by the user terminal.

The hydrogen storage tank is 1 or more metal hydride hydrogen storage tanks; the conveying mode adopted by the vehicle conveying device is as follows: semi-automatic mechanical handling or manual handling; the terminal equipment is provided with a hydrogen storage tank state display module (the model can be LCM12864A) which can display information such as running state and residual hydrogen storage amount.

A hydrogen storage tank leasing operation system for a building fuel cell cogeneration system and a method thereof comprise the following steps:

(a) the equipment terminal monitors that the residual hydrogen quantity of the hydrogen storage tank is lower than a set value (for example, 10 percent of the total hydrogen storage quantity), and sends the residual hydrogen quantity information to the service management platform;

(b) the service management platform server sends a hydrogen storage tank replacement application and prepayment information to the user terminal, the information content comprises the residual hydrogen amount, replacement time, predicted spent time, rent list and the like of the existing hydrogen storage tank, and the user terminal equipment replies the application to the service management platform server; if the user feedback does not accept the application, the user can reserve the next replacement time with the service management platform server;

(c) the service management platform server commands the vehicle carrying device to replace the hydrogen storage tank with insufficient air quantity, and the information informing the vehicle carrying device comprises: the location of the hydrogen storage tanks, the type and number of the hydrogen storage tanks, user information, replacement time, and other information;

(d) the vehicle carrying device completes the replacement of the insufficient-gas hydrogen storage tank, semi-automatic mechanical carrying or manual carrying such as truck cranes and fork trucks can be adopted during the replacement, and then the insufficient-gas hydrogen storage tank is delivered to the centralized hydrogen filling center;

(e) and the centralized hydrogen filling service station completes the hydrogen filling and the daily maintenance of the hydrogen storage tank with insufficient gas quantity.

The above description is only for the preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present application should be covered within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (7)

1. The utility model provides a hydrogen storage tank operation system, its is applied to building fuel cell cogeneration system which characterized in that:

the hydrogen storage tank operation system includes:

a hydrogen storage tank to which a terminal device is mounted;

the user terminal equipment is connected with the terminal equipment;

the service management platform server is connected with the terminal equipment;

the vehicle carrying device comprises carrying terminal equipment, and the carrying terminal equipment is connected with the service management platform server;

and the centralized hydrogen filling service station comprises an air filling server, and the air filling server is connected with the carrying terminal equipment.

2. The hydrogen storage tank operation system according to claim 1, characterized in that:

the terminal device includes:

a processor;

a positioning module connected with the processor;

a hydrogen storage amount monitoring module connected with the processor;

the equipment signal transmitting module is connected with the processor;

a device signal receiving module connected with the processor;

a memory module coupled to the processor.

3. The hydrogen storage tank operation system according to claim 1, characterized in that:

the hydrogen storage tank is one or more metal hydride hydrogen storage tanks.

4. The hydrogen storage tank operation system according to claim 1, characterized in that:

the user terminal equipment is a first mobile phone or a first computer.

5. The hydrogen storage tank operation system according to claim 1, characterized in that:

the service management platform server is a second mobile phone or a second computer.

6. The hydrogen storage tank operation system according to claim 1, characterized in that:

the vehicle carrying device is a vehicle, and the carrying terminal equipment is a third mobile phone or a third computer;

the inflation server is a fourth mobile phone or a fourth computer.

7. The hydrogen storage tank operation system according to claim 2, characterized in that:

the terminal equipment further comprises a display module which is connected with the processor.

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