WO2017022135A1 - Hydrogen supply management device and hydrogen supply management method - Google Patents

Abstract

The hydrogen supply management device according to an embodiment of the invention is to be applied to a system containing at least one hydrogen producing installation for producing hydrogen from water or hydrocarbon by using power that is generated using renewable energy, at least one transportation means for transporting the hydrogen produced by the hydrogen producing installation, and at least one hydrogen demanding installation utilizing the hydrogen transported by the transportation means. The hydrogen supply management device comprises: calculation means using at least weather information indicating the weather for a given region, and information indicating the demand for electricity or heat at each hydrogen demanding installation to calculate an estimated production amount for the hydrogen produced by each hydrogen producing installation the following day, and an estimated usage amount for the hydrogen used by each hydrogen demanding installation the following day; and display control means using the calculation results from the calculation means to display together on one screen of a display device at least the estimated production amount for the hydrogen produced by each hydrogen producing installation the following day, and the estimated usage amount for the hydrogen used by each hydrogen demanding installation the following day.

Description

Hydrogen supply management device and hydrogen supply management method

Embodiments of the present invention relate to a hydrogen supply management device and a hydrogen supply management method.

In recent years, hydrogen energy has attracted attention as one of the next generation energy, and an attempt has been made to put into practical use the operation of a hydrogen supply chain from hydrogen production to transportation and use.

In the operation of the hydrogen supply chain, it is desirable to construct a mechanism that allows the operator to easily grasp the hydrogen supply / demand relationship between each hydrogen production facility and each hydrogen demand facility scattered throughout the region. However, no effective technology has been proposed at present.

The problem to be solved by the present invention is to provide a hydrogen supply management device and a hydrogen supply management method that make it possible to easily grasp the hydrogen supply / demand relationship between each hydrogen production facility and each hydrogen demand facility. It is to provide.

The hydrogen supply management device of the embodiment transports at least one hydrogen production facility that produces hydrogen from water or hydrocarbons using electric power generated using renewable energy, and hydrogen produced by the hydrogen production facility A hydrogen supply management device applied to a system including at least one transportation means that performs the above and at least one hydrogen demand facility that uses hydrogen transported by the transportation means. Using information and information indicating the demand for electricity or heat at each hydrogen demand facility, the expected amount of hydrogen produced by each hydrogen production facility the next day and the expected use of hydrogen used by each hydrogen demand facility the next day A calculation means for calculating the amount, and using the calculation result of the calculation means, at least an estimated production amount of hydrogen produced by each hydrogen production facility on the next day; The estimated amount of hydrogen the hydrogen demand equipment day use, and a display control means for displaying together on a single screen of the display device.

FIG. 1 is a diagram illustrating a schematic configuration of a hydrogen supply system according to an embodiment. FIG. 2 is a diagram illustrating an example of a display screen displayed on the display device by the display control device in the hydrogen supply management device.

Hereinafter, embodiments will be described with reference to the drawings.

[Configuration of hydrogen supply system]
FIG. 1 is a diagram illustrating a schematic configuration of a hydrogen supply system according to an embodiment.

The hydrogen supply system according to the present embodiment realizes operation of a hydrogen supply chain from hydrogen production to storage, transportation, and use in a certain region, and at least one hydrogen production as a main component. The facility 10 includes a transportation system 20 including at least one transportation vehicle, at least one hydrogen demand facility 30, and a hydrogen supply management device 40. Here, a case where there are a plurality of hydrogen production facilities 10 and a plurality of hydrogen demand facilities 30 and the transport system 20 includes a plurality of transport vehicles will be illustrated. However, it is not limited to this example.

The hydrogen production facility 10 is a facility that generates power using renewable energy such as hydropower, wind power, and sunlight, and uses the power generated by the power generation to manufacture hydrogen from water or hydrocarbons. The hydrogen production facilities 10 are arranged so as to be scattered in mountainous areas, the seaside, and the like.

The transport system 20 includes transport vehicles 1, 2, 3,... That transport the hydrogen produced by the hydrogen production facility 10 to the hydrogen demand facility 30. The transport vehicles 1, 2, 3,... Are, for example, trailers or curdles that can transport containers, tanks, and the like that store hydrogen.

The hydrogen demand facility 30 receives hydrogen transported by the transport vehicles 1, 2, 3,... Of the transport system 20, generates electricity and heat from the hydrogen by the fuel cell device, and uses the generated electricity and heat. Equipment. For example, the equipment of a warm water pool, the equipment of a dairy farmer, a fuel cell vehicle, etc. are mentioned.

The hydrogen supply management device 40 integrally manages the hydrogen supply chain in this hydrogen supply system by controlling the hydrogen production facility 10, the transport system 20, and the hydrogen demand facility 30, respectively.

[Configuration of individual hydrogen production facility 10]
The hydrogen production facility 10 includes a power generation device 11, a hydrogen production device 12, a data collection device 13, a communication device 14, and a control device 15 as main components. In addition, a hydrogen storage device and a storage battery (not shown) are also provided.

The power generation device 11 corresponds to a hydroelectric power generation device, a wind power generation device, a solar power generation device, or the like, and generates power using renewable energy. Part or all of the power generation device 11 may be provided outside the hydrogen production facility 10.

The hydrogen production apparatus 12 produces hydrogen by electrolyzing water supplied from, for example, a separately provided water storage tank, using the electric power generated by the power generation apparatus 11. The hydrogen production apparatus 12 is equipped with instruments (not shown) for measuring the flow rate [Nm ³ / h], capacity [Nm ³ ], purity [%], pressure [kPa], etc. of the produced hydrogen. It is done. The produced hydrogen is stored in a hydrogen storage device (not shown) and then transported to any hydrogen demand facility 30 by any transport vehicle of the transport system 20.

The data collection device 13 collects data such as the flow rate, capacity, purity, and pressure of hydrogen measured by the instruments on the hydrogen production device 12 side every day or every fixed time.

The communication device 14 performs wireless communication with the communication device 44 on the hydrogen supply management device 40 side. For example, the communication device 14 has a function of transmitting various data required by the hydrogen supply management device 40 to the hydrogen supply management device 40 and receiving a command transmitted from the hydrogen supply management device 40. Yes.

The control device 15 controls the entire operation of the hydrogen production facility 10. For example, the control device 15 controls the amount of electricity stored in the power generation device 11, controls the amount of hydrogen produced and the amount of hydrogen stored in the hydrogen production device 12, and is collected by the data collection device 13. The data such as the flow rate, capacity, purity, pressure, etc. of the hydrogen are transmitted to the hydrogen supply management device 40 via the communication device 14 every day or every fixed time, or a command transmitted from the hydrogen supply management device 40 is sent. Acquired via the communication device 14 and performs processing according to the command.

[Configuration of Transportation System 20]
The transport system 20 (or transport vehicles 1, 2, 3,...) Is also provided with a communication device and a control device (not shown).

The communication device of the transportation system 20 performs wireless communication with the communication device 44 on the hydrogen supply management device 40 side. For example, the communication device 14 has a function of transmitting various data required by the hydrogen supply management device 40 to the hydrogen supply management device 40 and receiving a command transmitted from the hydrogen supply management device 40. Yes.

The control device of the transportation system 20 controls the operation of the entire transportation system 20. For example, the control device of the transport system 20 may provide various information for each transport vehicle (identification information indicating the hydrogen production facility 10 of the hydrogen supply source, identification information indicating the hydrogen demand facility 30 of the hydrogen supply destination, the amount of hydrogen transported, Mileage etc.) is transmitted to the hydrogen supply management device 40 via the communication device every day or every fixed time, or a command transmitted from the hydrogen supply management device 40 is acquired via the communication device, Perform processing according to the command.

[Configuration of individual hydrogen demand equipment 30]
The hydrogen demand facility 30 includes a fuel cell device 31, a load 32, a data collection device 33, a communication device 34, and a control device 35 as main components.

The fuel cell device 31 generates electricity using hydrogen transported from any transport vehicle of the transport system 20 and generates electric power and heat. The fuel cell device 31 is provided with instruments (not shown) for measuring the flow rate [Nm ³ / h], capacity [Nm ³ ], purity [%], pressure [kPa], etc. of hydrogen used. It is done.

The load 32 corresponds to an electric power load or a heat load that consumes electric power or heat generated by the fuel cell device 31. The load 32 is provided with instruments (not shown) for measuring the amount of power and heat consumed.

The data collection device 33 includes data such as the flow rate, capacity, purity, pressure, etc. of hydrogen measured by the instruments on the fuel cell device 31 side, data such as the amount of power and heat measured by the instruments on the load 32 side, Or the data which show the demand amount of the electricity and the heat which the load 32 requires are collected every day or every fixed time.

The communication device 34 performs wireless communication with the communication device 44 on the hydrogen supply management device 40 side. For example, the communication device 34 has a function of transmitting various data required by the hydrogen supply management device 40 to the hydrogen supply management device 40 and receiving a command transmitted from the hydrogen supply management device 40. Yes.

The control device 35 controls the operation of the entire hydrogen demand facility 30. For example, the control device 35 controls the operation of the fuel cell device 31, data such as the flow rate, capacity, purity, and pressure of hydrogen collected by the data collection device 13, and data such as the amount of power consumed and the amount of heat consumed. Alternatively, data indicating the demand amount of electricity and heat required by the load 32 is transmitted to the hydrogen supply management device 40 via the communication device 14 every day or every predetermined time, or transmitted from the hydrogen supply management device 40. It has a function of acquiring an incoming command via the communication device 14 and executing processing according to the command.

[Configuration of Hydrogen Supply Management Device 40]
The hydrogen supply management device 40 includes an arithmetic device 41, a display device 42, a display control device 43, a communication device 44, and a control device 45 as main components.

The arithmetic unit 41 controls individual information (information transmitted from each hydrogen production facility 10, information transmitted from the transport system 20, individual information acquired through the communication device 44 under the control of the control device 45. Various calculations are performed using information transmitted from the hydrogen demand facility 30 and weather information transmitted from the weather forecasting organization.

For example, the computing device 41 indicates at least weather information (such as temperature, humidity, precipitation, wind conditions, and solar radiation in a predetermined area) indicating the weather in a certain area, and the demand for electricity or heat in each hydrogen demand facility. Using the information, it has a function of calculating the expected amount of hydrogen produced by each hydrogen production facility on the next day and the expected amount of hydrogen used by each hydrogen demand facility on the next day.

In addition, the calculation device 41 uses a predetermined algorithm to calculate a hydrogen transport route between each hydrogen production facility and each hydrogen demand facility on the next day (for each transport vehicle, hydrogen production from the hydrogen supply source). It further has a function of determining identification information indicating the facility 10, identification information indicating the hydrogen demand facility 30 of the hydrogen supply destination, and hydrogen transport amount). In determining the hydrogen transport route, the above algorithm prevents a certain amount of unused hydrogen from occurring in the entire hydrogen supply chain and prevents a shortage of hydrogen from exceeding a certain amount. In addition, the amount of hydrogen transported by each transport vehicle is set to fall between a predetermined lower limit value and an upper limit value, and the distance traveled by each transport vehicle does not exceed the predetermined value.

The display device 42 is a device capable of displaying information and inputting information, such as a tablet terminal with a touch panel.

The display control device 43 displays information as shown in FIG. 2 on the display screen of the display device 42 under the control of the control device 45.

For example, the display control device 43 uses the calculation result of the calculation device 41 to at least predict the hydrogen production amount produced by each hydrogen production facility on the next day and the estimated hydrogen use amount used by each hydrogen demand facility on the next day. Are collectively displayed on one screen of the display device 42.

The display control device 43 has a function of further displaying on the screen the amount of hydrogen produced by each hydrogen production facility today and the amount of hydrogen used by each hydrogen demand facility today. Yes.

Further, the display control device 43 has a function of further displaying information indicating the type of renewable energy used by each hydrogen production facility on the screen.

Further, the display control device 43 displays on the screen information indicating the hydrogen transportation route of today and / or the next day connecting each hydrogen production facility and each hydrogen demand facility on the screen. A function for displaying on the screen an item that can be set or changed.

The communication device 44 performs wireless communication with the communication device 14 on the hydrogen production facility 10 side, the communication device 34 on the hydrogen demand facility 30 side, and the communication device on the transport system 20 side. For example, the communication device 44 transmits information transmitted from each hydrogen production facility 10, information transmitted from each hydrogen demand facility 30, weather information transmitted from a weather forecasting agency, and transmitted from the transport system 20. It has a function of receiving incoming information and transmitting various commands to the individual hydrogen production equipment 10, the individual hydrogen demand equipment 30, and the transportation system 20.

The control device 45 is responsible for the overall operation of the hydrogen supply management device 40. For example, the control device 45 uses the calculation device 41 to determine the hydrogen production amount to be produced by each hydrogen production facility on the next day and the hydrogen production facility to be used on the next day from each piece of information received by the communication device 44. Calculating the expected usage amount, determining the next day's hydrogen transportation route using the computation result of the computing device 41, and sending a command for instructing the determined transportation route to the transportation system 20 via the communication device 44; The next day when various information based on the calculation result of the calculation device 41 is displayed together on the single screen of the display device 42 by the display control device 43, or the operator sets or changes the items displayed on the display device 42. A command for instructing the hydrogen transport route is transmitted to the transport system 20 via the communication device 44, and a command relating to the amount of hydrogen production and supply is sent to each individual hydrogen via the communication device 44. Concrete or transmission facility to 10, has a function or to send to individual hydrogen demand equipment 30 via the communication device 44 the command about the amount of hydrogen used.

[Specific examples of screen display]
Next, an example of a display screen that the display control device 43 displays on the display device 42 will be described with reference to FIG.

In this example of the display screen, information about each hydrogen production facility 10, information about each hydrogen demand facility 30, and information indicating a hydrogen transport route connecting the individual hydrogen production facility 10 and each hydrogen demand facility 30 are shown. Are simultaneously displayed in one screen.

Information on individual hydrogen production facilities 10 includes name (A to F, etc.), location (XX town, etc.), type (wind, solar, small hydro, etc.), rated output ( ○○ W, etc.), etc. today the hydrogen production amount (○○ Nm ^3), and tomorrow's hydrogen anticipated production volume (such as ○○ Nm ^3).

On the other hand, information on individual hydrogen demand facilities 30 includes name (△ factory, ▽ building, etc.), location (XX town, etc.), rated output (such as XXW), today hydrogen consumption (such as ○○ Nm ^3), and tomorrow's hydrogen expected usage (such as ○○ Nm ^3).

As information indicating the hydrogen transportation route, for example, a path connecting each hydrogen production facility and each hydrogen demand facility individually is displayed, and a transport identification number (for example, a transport vehicle number) 1 is further displayed on the path. ~ 9 are displayed. In addition to displaying today's transportation route, the transportation route scheduled for the next day may be displayed in different colors. The operator can set or change the displayed transportation route for the current day or the next day by performing a drag operation or the like.

According to the present embodiment, the operator can grasp at a glance the hydrogen supply / demand relationship between each hydrogen production facility and each hydrogen demand facility by viewing the screen displayed as shown in FIG. Can do. In that case, it is possible to grasp not only the relationship between hydrogen supply and demand on the current day but also the relationship between hydrogen supply and demand on the next day, and it is possible to grasp changes and trends in the relationship between supply and demand. Furthermore, it is also possible to grasp the hydrogen transport route connecting each hydrogen production facility and each hydrogen demand facility. Therefore, the operator can grasp the operation status of the entire hydrogen supply chain at a glance, and can grasp the hydrogen operation plan for the next day and after at a glance.

In addition, the operator can set or change it by dragging the current day's transportation route or the next day's transportation route, so the hydrogen supply amount or usage amount is expected for some reason. In contrast, if it changes, the hydrogen transportation plan can be changed manually as appropriate.

The hydrogen production facility 10 may be a facility that produces hydrogen from water or hydrocarbons using system power.

Alternatively, the hydrogen produced by the hydrogen production facility 10 may be supplied to the hydrogen demand facility 30 through a hydrogen pipe without using the transport system 20. As described in detail above, according to the embodiment, it is possible to easily grasp the hydrogen supply / demand relationship between each hydrogen production facility and each hydrogen demand facility.

Although several embodiments of the present invention have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

10 ... Hydrogen production facility, 20 ... Transportation system, 30 ... Hydrogen demand facility, 40 ... Hydrogen supply management device.

Claims (8)

1. At least one hydrogen production facility for producing hydrogen from water or hydrocarbons, at least one transportation means for transporting hydrogen produced by the hydrogen production equipment, and at least one for utilizing hydrogen transported by the transportation means A hydrogen supply management device applied to a system including a hydrogen demand facility,
   Calculation means for calculating the expected production amount of hydrogen produced by each hydrogen production facility on the next day and the expected use amount of hydrogen used by each hydrogen demand facility on the next day,
   Using the calculation result of the calculation means, at least the estimated production amount of hydrogen produced by each hydrogen production facility on the next day and the estimated use amount of hydrogen used by each hydrogen demand facility on the next day are displayed on the screen of the display device. And a display control means for displaying the hydrogen supply management device.
2. At least one hydrogen production facility for producing hydrogen from water or hydrocarbons, at least one transportation means for transporting hydrogen produced by the hydrogen production equipment, and at least one for utilizing hydrogen transported by the transportation means A hydrogen supply management device applied to a system including a hydrogen demand facility,
   A hydrogen supply comprising display control means for displaying at least the amount of hydrogen produced by each hydrogen production facility and the amount of hydrogen used by each hydrogen demand facility on the screen of a display device Management device.
3. The display control means further displays, on the screen, the amount of hydrogen produced by each hydrogen production facility today and the amount of hydrogen used by each hydrogen demand facility today. Item 2. The hydrogen supply management device according to Item 1.
4. The said display control means further displays the information which shows the transport route of the hydrogen which connects each hydrogen production equipment and each hydrogen demand equipment on the said screen, The any one of Claim 1 thru | or 3 characterized by the above-mentioned. The hydrogen supply management device described in 1.
5. The display control means further displays on the screen an item that enables setting or changing a hydrogen transportation route connecting each hydrogen production facility and each hydrogen demand facility. The hydrogen supply management device described.
6. The calculation means uses at least meteorological information indicating the weather in a certain area, information indicating the demand for electricity or heat in each hydrogen demand facility, and the expected production amount of hydrogen produced by each hydrogen production facility on the next day, 2. The hydrogen supply management apparatus according to claim 1, wherein an expected amount of hydrogen used by each hydrogen demand facility on the next day is calculated.
7. At least one hydrogen production facility for producing hydrogen from water or hydrocarbons, at least one transportation means for transporting hydrogen produced by the hydrogen production equipment, and at least one for utilizing hydrogen transported by the transportation means A hydrogen supply management method applied to a system including a hydrogen demand facility,
   Calculate the expected amount of hydrogen produced by each hydrogen production facility on the next day and the estimated amount of hydrogen used by each hydrogen demand facility on the next day by the calculation means,
   By using the calculation result of the calculation means by the display control means, at least the expected production amount of hydrogen produced by each hydrogen production facility on the next day and the expected use amount of hydrogen used by each hydrogen demand facility on the next day, A method for managing hydrogen supply, comprising: displaying on a screen of a display device.
8. At least one hydrogen production facility for producing hydrogen from water or hydrocarbons, at least one hydrogen demand facility using hydrogen, and a hydrogen pipe for supplying hydrogen produced by the hydrogen production facility to the hydrogen demand facility A hydrogen supply management device applied to a system including:
   A hydrogen supply comprising display control means for displaying at least the amount of hydrogen produced by each hydrogen production facility and the amount of hydrogen used by each hydrogen demand facility on the screen of a display device Management device.

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