JP6736496B2 - Facility design support method, facility design support apparatus, and program - Google Patents

Description

The embodiment of the present invention relates to a facility design support method, a facility design support device, and a program.

Conventionally, when introducing a power supply and demand adjustment system that uses hydrogen storage equipment into an electric power environment such as islands that is independent of the electric power system, the power source depends on renewable energy from a disaster response and economic/environmental point of view. Attention is focused on how to do it. In this system, an evaluation method from the viewpoint of stable supply and economic efficiency is being prepared, but an evaluation method for the entire system from the viewpoint of environmental characteristics such as CO ₂ emission and land use has not been established.

In this regard, among the diversified types of power sources, the quality required by the customer is satisfied, and the environmental load is the smallest in consideration of indirect environmental load increasing factors and environmental load reducing factors. A technique for appropriately selecting a power source is disclosed. In addition, a technology is disclosed that enables the establishment of environmental objectives/goals and environmental management plans for each business based on information related to the environmental aspects, and highly reliable evaluation of the activity results for the environmental management plan for each business. ing. In addition, the environmental impact sensitivity analysis is automatically performed by obtaining the environmental impact sensitivity ratio for all input processes of the life cycle of the target product and all the input elements of the environmental load index, which is the basis of evaluation. A technique is disclosed that enables an element with a high rate to be accurately found with a minimum of work.

In the conventional technology, there are cases where it is not possible to support the design of a system including a power generation facility and a hydrogen storage facility from an environmental viewpoint.

JP, 2006-074977, A JP, 2010-102589, A JP, 2008-287580, A

The problem to be solved by the present invention is to provide a facility design support method, a facility design support device, and a program capable of supporting the design of a system including a power generation facility and a hydrogen storage facility from the viewpoint of environment. is there.

In the equipment design support method of the embodiment, the information processing apparatus determines the specifications of a plurality of equipment including a power generation equipment and a hydrogen storage equipment within a range satisfying the electric power demand in a target electric power environment, and the determination is performed. A process of calculating a value indicating an environmental load in the power environment based on specifications and environmental load degree data preset for each of the plurality of facilities is executed.

The figure which shows an example of the electric power supply system 1000 designed by the equipment design support apparatus of embodiment. The figure which shows an example of a function structure of the equipment design support apparatus 1 of embodiment. The figure which shows an example of the environmental load conversion table 450. The figure which shows an example of a structure of the specification determination part 100. The figure which shows an example of a structure of the environmental load analysis part 300. The flowchart which shows an example of the process by the equipment design support apparatus 1 of embodiment. The figure which shows an example of the electric power supply system 1000A of 2nd Embodiment. The figure which shows an example of a function structure of 100 A of specification determination parts of 2nd Embodiment. The figure which shows an example of the environmental load conversion table 450B of 3rd Embodiment. The figure which shows an example of a structure of the environmental load analysis part 300B.

Hereinafter, a facility design support method, a facility design support apparatus, and a program of an embodiment will be described with reference to the drawings.

(First embodiment)
FIG. 1 is a diagram showing an example of a power supply system 1000 designed by the equipment design support apparatus of the embodiment. In the embodiment, the power supply system 1000 is a system that is installed in a power environment such as an island that is not connected to a power system and supplies power to the electric load 1010. The power supply system 1000 includes, for example, a power generation facility 1001 and a hydrogen storage facility 1002.

The power generation facility 1001 is, for example, a power generation facility using renewable energy such as solar power generation, wind power generation, and hydroelectric power generation. However, the present invention is not limited to this, and the power generation facility 1001 may include a power generation facility using thermal power generation or nuclear power generation.

The hydrogen storage facility 1002 is a facility that converts the electric power generated by the power generation facility 1001 into hydrogen energy and stores the hydrogen energy. The hydrogen storage facility 1002 includes, for example, a water electrolysis device 1021, a hydrogen tank 1022, and a fuel cell 1023. The water electrolysis device 1021 is connected to the power generation facility 1001 and decomposes water using the electric power generated by the power generation facility 1001 to produce hydrogen. The hydrogen tank 1022 stores hydrogen produced by the water splitting device 1021. The fuel cell 1023 uses hydrogen supplied from the hydrogen tank 1022 to generate electric power by reacting hydrogen with oxygen.

The electric load 1010 is a device that consumes electric power, such as an electric device or an electronic device installed in an electric power environment including the electric power supply system 1000. The electric load 1010 receives power supply from the power supply system 1000. A PCS (Power Conditioning System), a transformer, or the like may be provided between the electric load 1010 and the power generation facility 1001 of the power supply system 1000 or the fuel cell 1023, but they are not shown.

FIG. 2 is a diagram showing an example of a functional configuration of the equipment design support device 1 of the embodiment. As illustrated in FIG. 2, the facility design support device 1 according to the embodiment includes, for example, a communication interface 10, a specification determination unit 100, a determined specification management unit 200, an environmental load analysis unit 300, and a storage unit 400. The facility design support apparatus 1 of the embodiment is, for example, an information processing apparatus that supports facility design by a cloud service, and its form will be described below. However, the present invention is not limited to this, and the equipment design support device 1 of the embodiment is a device that includes an operation unit and a display unit, and that causes the display unit to display the result of processing based on the information input via the operation unit. May be.

The communication interface 10 includes a network interface such as a NIC (Network Interface Card). The communication interface 10 is connected to a client computer via a network and acquires a design request from the client. Various processes described below are executed, for example, in response to a design request, and the processing result is returned to the client computer by the communication interface 10.

The specification determination unit 100, the determined specification management unit 200, and the environmental load analysis unit 300 are realized, for example, by a processor such as a CPU (Central Processing Unit) executing a program (software). Further, some or all of these constituent elements may be realized by hardware such as LSI (Large Scale Integration), ASIC (Application Specific Integrated Circuit), and FPGA (Field-Programmable Gate Array), or software. And hardware may cooperate.

The specification determination unit 100 determines the specifications of a plurality of facilities including the power generation facility 1001 and the hydrogen storage facility 1002 within a range that satisfies the power demand in the target power environment. The specification determination unit 100 may comprehensively obtain the equipment specification patterns that can be taken under the above-mentioned restrictions as the equipment specification candidates. The specifications include elements that represent the scale of each facility and the objects and methods used in the manufacturing process.For example, the dimensions, structure, rated value, performance, characteristics, raw materials, manufacturing method, test method, etc. of each facility are included. included. Note that the specification determining unit 100 may comprehensively obtain specification candidates within a range that does not exceed a predetermined regulation value for each facility, and includes power loss due to direct current, alternating current, transformer, etc. You may decide the specifications.

The determined specification management unit 200 stores the specifications determined by the specification determination unit 100 in the storage unit 400. Further, the determined specification management unit 200 gives an operation instruction to the specification determination unit 100.

The environmental load analysis unit 300 calculates a value indicating the environmental load in the power environment based on the specifications determined by the specification determination unit 100 and an environmental load conversion table 450 (an example of environmental load degree data) described later. The environmental load analysis unit 300 may calculate a value indicating the environmental load for each of the plurality of candidates determined by the specification determination unit 100.

The storage unit 400 is realized by a storage device such as a RAM (Random Access Memory), a hard disk, or a flash memory. Part or all of the storage unit 400 may be realized by a storage device external to the equipment design support device 1. The storage unit 400 stores, for example, power demand data 410, power supply data 420, weather data 430, decision specification data 440, and an environmental load conversion table 450.

The power demand data 410 is data indicating the power demand in the entire target power environment, and includes, for example, the amount of power supplied to the electric load 1010 in the past. For example, the power demand data 410 is stored by month, by season such as summer, spring/autumn, and winter, and by weather.

The power supply data 420 is data indicating power supply in the entire target power environment, and includes, for example, the amount of power supplied by an existing facility in the past or the amount of power estimated to be capable of being supplied. .. The amount of power that is estimated to have been able to be supplied can be generated based on past weather data of the target power environment when the power generation equipment such as photovoltaic power generation, wind power generation, and hydropower generation has a certain rated value. It is obtained by calculating the renewable energy. For example, the power supply data 420 is stored by month or by season such as summer, spring/autumn, and winter, and by weather such as fine, cloudy, and rain. For example, power generation of 12 months×3 (clear, cloudy, rain) pattern Contains data.

The weather data 430 is data indicating the tendency of weather in the target area.

The determined specification data 440 is data indicating the specifications determined by the specification determination unit 100.

The environmental load conversion table 450 is a table in which the equipment included in the power generation equipment 1001 and the hydrogen storage equipment 1002 is associated with a value indicating an environmental load. The environmental load is an environmental load generated in each process from manufacturing to disposal of each equipment, and includes, for example, CO ₂ , SOx, NOx, BOD (Biochemical Oxygen Demand), COD (chemical oxygen demand), and GHG (warm temperature). Greenhouse gas), air/soil/water pollutants, natural resource consumption, human toxicity, land use area, impact on landscape, noise, etc. Each process from manufacturing to disposal of each facility includes the steps of creating raw materials for each facility, manufacturing each facility using raw materials, transporting raw materials and parts of each facility, finished products, etc. It includes the process of operating, the process of discarding each facility, and so on. The value indicating the environmental load is represented by a value per standard such as generating 1 kW of electric power and 1 m ³ of hydrogen. Note that the environmental load generated in each process from the manufacturing to the disposal of each facility other than the operation process may be derived based on the electric power generated and the hydrogen generated during the period of use before the disposal of each facility. For example, the emission amount of the environmental load of thermal power generation may include the emission amount related to the transportation of fuel. Further, the discharge amount of the environmental load of the hydrogen tank may include the discharge amount for each compression condition and each manufacturing material.

FIG. 3 is a diagram showing an example of the environmental load conversion table 450. In the example of FIG. 3, the environmental load conversion table 450 includes, for example, values of the environmental load per standard for each of solar power generation, wind power generation, thermal power generation, fuel cells, water electrolysis devices, and hydrogen tanks. The CO ₂ emission amount, which is an example, is associated. The CO ₂ emission amount to the hydrogen tank is the CO ₂ emission amount generated when the hydrogen tank is manufactured. The CO ₂ emission amount is represented by a CO ₂ emission unit [g-CO ₂ /kWh] or [g-CO ₂ /m ³ ].

Next, the specification determination unit 100 will be described in detail with reference to FIG. FIG. 4 is a diagram illustrating an example of the configuration of the specification determination unit 100.

As shown in FIG. 4, the specification determination unit 100 includes, for example, a fuel cell specification determination unit 110, a renewable energy specification determination unit 120, a water electrolysis device specification determination unit 130, and a hydrogen tank capacity specification unit 140.

The fuel cell specification determination unit 110 determines the specifications of the fuel cell 1023 according to the correlation between the power demand and the power supply based on the power demand data 410 and the power supply data 420. For example, the fuel cell specification determination unit 110 sets the maximum value of the power demand and the minimum value of the power supply per day in the set period (for example, one month) for each of the specifications of the virtually set power generation facility 1001. The candidates for the specifications of the fuel cell 1023 for generating the difference power are determined. Note that the fuel cell specification determination unit 110 may determine the specification candidate of the fuel cell 1023 for each specification candidate of the power generation facility 1001 determined by the renewable energy specification determination unit 120.

The renewable energy specification determination unit 120 determines the specifications of the power generation facility 1001 based on the power demand data 410, the power supply data 420, and the weather data 430. For example, the renewable energy specification determination unit 120 changes the ratio of the amount of power generated by each facility included in the power generation facility 1001 and specifications of the power generation facility 1001 for generating the power of the total power demand per year. Determine the candidate. Further, in addition to the above method, the renewable energy specification determination unit 120 may determine a candidate for specifications of the power generation facility 1001 for each virtually set operating rate (or facility utilization rate) of the power generation facility 1001. Good. The operating rate and the facility utilization rate are derived by the renewable energy specification determination unit 120 based on the weather data 430, for example.

The water electrolysis device specification determination unit 130 determines the specifications of the water electrolysis device 1021 based on the specifications of the power generation facility 1001 determined by the renewable energy specification determination unit 120 and the power demand data 410 and the power supply data 420. .. For example, the water electrolysis device specification determination unit 130 determines whether the water electrolysis device specifications determination unit 130 determines the water The candidates for the specifications of the electrolysis device 1021 are determined. Part of the power is, for example, power generated by the power generation facility 1001 that exceeds the minimum power required to cover the power demand, and is a minimum value of the power demand per day in a set period (for example, one month). It is the difference from the minimum value of the power supply. Further, in addition to the above method, the water electrolysis device specification determination unit 130 may determine a specification candidate for the water electrolysis device 1021 according to the efficiency of the water electrolysis device 1021.

The hydrogen tank capacity specification unit 140 uses the hydrogen tank 1022 based on the specifications of the fuel cell 1023 determined by the fuel cell specification determination unit 110 and the specifications of the water electrolysis device 1021 determined by the water electrolysis device specification determination unit 130. Determine the specifications of. For example, the hydrogen tank capacity specification unit 140 generates hydrogen in the water electrolysis device 1021 having the specifications determined by the water electrolysis device specification determination unit 130 for each specification of the fuel cell 1023 determined by the fuel cell specification determination unit 110. A candidate for the specifications of the hydrogen tank 1022 that can store is determined.

Next, the environmental load analysis unit 300 will be described in detail with reference to FIG. FIG. 5 is a diagram showing an example of the configuration of the environmental load analysis unit 300.

As illustrated in FIG. 5, the environmental load analysis unit 300 includes, for example, a specification-specific environmental load calculation unit 310, a condition determination unit 320, and a condition-based environmental load calculation unit 330.

The specification-specific environmental load calculation unit 310 refers to the environmental load conversion table 450 for each facility included in the power generation facility 1001 and the hydrogen storage facility 1002, and indicates the environmental load corresponding to the specifications determined by the specification determination unit 100. Calculate the value.

The condition determination unit 320 compares the environmental loads calculated by the environmental load calculation unit for each specification 310 and determines a candidate with a small environmental load as a suitable specification. For example, the condition determination unit 320 selects a combination having the smallest environmental load corresponding to each specification candidate from the combination of the specification candidates of each equipment included in the power generation equipment 1001 and the hydrogen storage equipment 1002, and selects by condition. It is output to the environmental load calculation unit 330.

The condition-specific environmental load calculation unit 330 calculates a value indicating the overall environmental load when each candidate is selected, based on the specification candidates selected by the condition determination unit 320. In addition, the condition determination unit 320 may transmit the specification candidate selected by the condition determination unit 320 and the calculated environmental load to the external device using the communication interface.

Next, an example of processing by the equipment design support device 1 of the embodiment will be described. FIG. 6 is a flowchart showing an example of processing by the equipment design support device 1 of the embodiment.

First, the decision specification management unit 200 receives designation of a target power environment (step S1). For example, when the decision specification management unit 200 receives information indicating the designated power environment using the communication interface 10, the decision specification management unit 200 instructs the specification decision unit 100 to decide the specifications of each facility based on the received information. Give instructions.

As a result, the renewable energy specification determination unit 120 determines candidates for specifications of the power generation facility 1001 within the range that satisfies the power demand (step S2). Next, the fuel cell specification determination unit 110 determines a specification candidate for the fuel cell 1023 for each of the specification candidates determined by the renewable energy specification determination unit 120 (step S3). Then, the water electrolysis device specification determination unit 130 determines a specification candidate for the water electrolysis device 1021 for each specification candidate for the power generation facility 1001 determined by the renewable energy specification determination unit 120 (step S4). The hydrogen tank capacity specification unit 140 uses the hydrogen tank 1022 based on the specifications of the fuel cell 1023 determined by the fuel cell specification determination unit 110 and the specifications of the water electrolysis device 1021 determined by the water electrolysis device specification determination unit 130. The candidates for the specifications are determined (step S5). Then, the determined specification management unit 200 stores the specification candidates determined by the specification determination unit 100 in the determined specification data 440 (step S6).

Next, the specification-specific environmental load calculation unit 310 refers to the environmental load conversion table 450 for each facility and calculates a value indicating the environmental load corresponding to the specifications determined by the specification determination unit 100 (step S7). The condition determination unit 320 compares the environmental loads calculated by the environmental load calculation unit for each specification 310, and determines a candidate with a small environmental load as a suitable specification (step S8). Then, the condition-based environmental load calculation unit 330 calculates a value indicating the overall environmental load when each candidate is selected, based on the specification candidates selected by the condition determination unit 320 (step S9).

According to the equipment design support device 1 of the first embodiment described above, in the design of the power supply system 1000 including the power generation equipment 1001 and the hydrogen storage equipment 1002, the specifications of both equipments are determined and based on the determined specifications. By calculating the value indicating the environmental load by using the above, it is possible to support the facility design from the viewpoint of environmental friendliness. As a result, it is possible to determine the specifications of each facility that can minimize the environmental impact in consideration of the power supply and demand that changes day by day and season according to the power environment in which the power supply system 1000 is installed. it can. Further, by determining the specifications for each facility, it is possible to determine the balance between the renewable energy power generation facility and hydrogen storage facility and the existing facility such as thermal power generation facility from the viewpoint of environment.

Further, according to the equipment design support device 1 of the first embodiment described above, by determining a plurality of specification candidates for a plurality of equipment and selecting a suitable specification from the plurality of candidates, the environment From the point of view, it is possible to design a system with an optimum combination of specifications.

(Second embodiment)
Next, a second embodiment will be described. Hereinafter, differences from the first embodiment will be mainly described. Regarding the configuration having the same name, different points will be described, and detailed description of the same functional configuration will be omitted. FIG. 7: is a figure which shows an example of the electric power supply system 1000A of 2nd Embodiment. The power supply system 1000A further includes a storage battery facility 1004 when compared with the power supply system 1000 of the first embodiment. The storage battery equipment 1004 is connected to the power generation equipment 1001 and stores the electric power generated by the power generation equipment 1001.

FIG. 8 is a diagram illustrating an example of a functional configuration of the specification determining unit 100A of the second embodiment. The specification determination unit 100A further includes a fuel cell specification determination unit 110A, a hydrogen tank capacity specification unit 140A, a power balance calculation unit 150, and a power storage facility specification determination unit 160.

The power balance calculation unit 150 refers to the power demand data 410, the power supply data 420, and the weather data 430 to calculate surplus power or shortage power for a predetermined period (for example, one month). For example, the power balance calculation unit 150 refers to the weather data 430 to acquire weather data for a predetermined period, calculates power demand and power supply for a predetermined period based on the acquired weather data, and calculates the difference between the two. Ask. The difference between positive values is surplus power, and the difference between negative values is insufficient power. The power balance calculation unit 150 calculates, for example, surplus power or shortage power for 12 months, and outputs the calculation result to the power storage equipment specification determination unit 160 and the hydrogen tank capacity specification unit 140A.

The power storage facility specification determination unit 160 determines the specifications of the storage battery facility 1004 based on the surplus power calculated by the power balance calculation unit 150. For example, the power storage equipment specification determination unit 160 determines a candidate specification of the storage battery equipment 1004 capable of storing surplus power for each specification candidate of the power generation equipment 1001 determined by the renewable energy specification determination unit 120. Here, the electricity storage facility specification determining unit 160 may determine the specification candidates of the storage battery facility 1004 so that the remaining power obtained by subtracting the power provided to the water electrolysis device 1021 from the surplus power can be stored.

The fuel cell specification determination unit 110A may determine the specifications of the fuel cell 1023 in consideration of fluctuations in the power supply and demand that can be absorbed by the storage battery facility 1004. For example, the fuel cell specification determination unit 110 generates a fuel that is insufficient in power demand even if both the power generated by the power generation facility 1001 and the power stored in the storage battery facility 1004 are used. A specification candidate for the battery 1023 is determined. As described above, the fuel cell specification determining unit 110A determines the specifications of the fuel cell 1023 in consideration of the stored power by the storage battery facility 1004, so that the water electrolysis device specification determining unit 130 and the hydrogen tank capacity specification unit 140A respectively The specifications of the water electrolysis device 1021 and the hydrogen tank 1022 can be determined in consideration of fluctuations in power supply and demand that can be absorbed by the storage battery equipment 1004.

Further, the renewable energy specification determination unit 120 may determine the specifications of the power generation equipment 1001 for each of the specifications of the storage battery equipment 1004 determined by the power storage equipment specifications determination unit 160. Thereby, the renewable energy specification determination unit 120 can determine the specification of the power generation equipment 1001 in consideration of the fluctuation of the power supply and demand that can be absorbed by the storage battery equipment 1004.

In addition, the hydrogen tank capacity specification unit 140A includes a specification of the fuel cell 1023 determined by the fuel cell specification determination unit 110, a specification of the water electrolysis device 1021 determined by the water electrolysis device specification determination unit 130, and a power balance calculation unit. The specifications of the hydrogen tank 1022 may be determined based on the power shortage calculated by 150. For example, the hydrogen tank capacity specification unit 140 generates hydrogen in the water electrolysis device 1021 having the specifications determined by the water electrolysis device specification determination unit 130 for each specification of the fuel cell 1023 determined by the fuel cell specification determination unit 110. And a candidate for the specification of the hydrogen tank 1022 for storing hydrogen for generating insufficient power in the fuel cell 1023.

In the second embodiment, the environmental load conversion table 450A (not shown) is associated with the environmental load related to the storage battery facility 1004 in addition to the above-described environmental load related to solar power generation and the like.

According to the equipment design support device 1A of the second embodiment described above, it is possible to support the equipment design from the viewpoint of environment for a system including electric power storage equipment other than the hydrogen storage equipment 1002. Further, by calculating the balance between the power supply and demand in the power balance calculation unit 150, the specifications of each facility can be determined in consideration of the surplus and shortage of the power generated by the power generation facility 1001.

(Third Embodiment)
Next, a third embodiment will be described. Hereinafter, differences from the first embodiment will be mainly described. Regarding the configuration having the same name, different points will be described, and detailed description of the same functional configuration will be omitted.

The facility design support apparatus 1B of the third embodiment refers to the environmental load conversion table 450B as shown in FIG. 9 in the process of calculating the value indicating the environmental load in the power environment, and refers to the environment of different types in the power environment. Each load is calculated.

FIG. 9 is a diagram illustrating an example of the environmental load conversion table 450B according to the third embodiment. As shown in FIG. 9, the environmental load conversion table 450B is a table in which each facility is associated with a value indicating an environmental load per standard for each type of environmental load.

Next, the environmental load analysis unit 300B will be described in detail with reference to FIG. FIG. 10 is a diagram showing an example of the configuration of the environmental load analysis unit 300B.

As shown in FIG. 10, the environmental load analysis unit 300B includes a specification-specific environmental load calculation unit 310B, a condition determination unit 320B, a condition-based environmental load calculation unit 330, and an environmental load integration unit 340.

The specification-specific environmental load calculation unit 310B refers to the environmental load conversion table 450B and calculates a value indicating a different type of environmental load corresponding to each specification based on the specifications determined by the specification determination unit 100. For example, the specification-specific environmental load calculation unit 310B refers to the environmental load conversion table 450B for each type of environmental load and calculates a value indicating the environmental load of each facility included in the power generation facility 1001 and the hydrogen storage facility 1002. ..

The environmental load integration unit 340 integrates environmental loads of different types based on the calculation result by the environmental load calculation unit 310B for each specification to calculate an integrated value, and outputs the integrated value to the condition determination unit 320. For example, the environmental load integration unit 340 multiplies the values indicating the calculated environmental loads for each facility by a preset weight, and obtains the sum of them. The weight is obtained by using a general environmental impact assessment method, for example, a life cycle impact assessment method or the like.

The condition determination unit 320B compares the integrated values calculated by the environmental load integration unit 340 and determines a candidate having a small integrated value of environmental load as a suitable specification. For example, the condition determination unit 320B selects, from among combinations of specifications of each facility included in the power generation facility 1001 and the hydrogen storage facility 1002, a combination in which the total environmental load corresponding to each candidate of specifications is the minimum, It outputs to the environmental load calculation part 330 classified by conditions.

Note that the present invention is not limited to this, and the integrated result may be calculated using a table in which weights determined for each type of environmental load are defined. For example, the environmental load integration unit 340 multiplies one environmental load (for example, CO ₂ emission amount) calculated for each facility by a weight for each type of environmental load, and other environmental loads (for example, SOx, NOx, GHG, etc.) may be calculated.

According to the equipment design support device 1B of the third embodiment described above, values indicating different types of environmental loads are calculated, and the environmental load integrated for each equipment is used to select a candidate having a small environmental load. By determining the specifications, it is possible to reduce the overall environmental load.

According to at least one embodiment described above, within a range that satisfies the power demand in the target power environment, a process of determining the specifications of a plurality of facilities including a power generation facility and a hydrogen storage facility, and the determined specifications A process of calculating a value indicating an environmental load in the electric power environment based on the environmental load degree data set in advance for each of the plurality of facilities, thereby supporting from an environmental viewpoint. You can

Although some 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 embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the spirit of the invention. These embodiments and modifications thereof are included in the invention described in the claims and equivalents thereof as well as included in the scope and the gist of the invention.

DESCRIPTION OF SYMBOLS 1... Facility design support device, 10... Communication interface, 100... Specification determination part, 110... Fuel cell specification determination part, 120... Renewable energy specification determination part, 130... Water electrolysis device specification determination part, 140... Hydrogen tank capacity specification Part, 200... Decision specification management part, 300... Environmental load analysis part, 310... Specification-specific environmental load calculation part, 320... Condition determination part, 330... Conditional environmental load calculation part, 400... Storage part, 410... Electric power demand data , 420... Power supply data, 430... Weather data, 440... Decision specification data, 450... Environmental load conversion table, 1000, 1000A... Power supply system, 1001... Power generation facility, 1002... Hydrogen storage facility, 1021... Water electrolysis device, 1022... Hydrogen tank, 1023... Fuel cell, 1010... Electric load

Claims (8)

The information processing device
A process of determining specifications of a plurality of facilities including a power generation facility and a hydrogen storage facility within a range satisfying power demand in a target power environment,
Based on the determined specifications and environmental load degree data preset for each of the plurality of facilities, a process of calculating a value indicating an environmental load in the power environment,
The execution,
The power environment is a power environment that is not connected to the power grid,
Equipment design support method. The information processing device
A process of determining specifications of a plurality of facilities including a power generation facility and a hydrogen storage facility within a range satisfying power demand in a target power environment,
Based on the determined specifications and environmental load degree data preset for each of the plurality of facilities, a process of calculating a value indicating an environmental load in the power environment,
The execution,
The information processing device is
In the process of determining the specifications of the plurality of equipment, determine a plurality of candidates for the specifications of the plurality of equipment, further,
In the process of calculating the value indicating the environmental load in the power environment, the value indicating the environmental load calculated for each candidate is compared, and the process of determining a candidate with a small environmental load as a suitable specification is executed.
Equipment design support method. The plurality of facilities further includes a storage battery facility,
The information processing device is
In the process of determining the specifications of the plurality of facilities, the specifications of the plurality of facilities are determined in consideration of fluctuations in power supply and demand that can be absorbed by the storage battery facility.
The equipment design support method according to claim 1 . The information processing device
A process of determining specifications of a plurality of facilities including a power generation facility and a hydrogen storage facility within a range satisfying power demand in a target power environment,
Based on the determined specifications and environmental load degree data preset for each of the plurality of facilities, a process of calculating a value indicating an environmental load in the power environment,
The execution,
The information processing device is
In a process of calculating a value indicating an environmental load in the power environment, different types of environmental loads in the power environment are respectively calculated.
Equipment design support method. The information processing device is
The facility according to claim 4 , wherein in the process of calculating the value indicating the environmental load in the electric power environment, an integrated value indicating the environmental load is calculated by weighting the different types of environmental loads. Design support method. The information processing device is
In the process of determining the specifications of the plurality of equipment, determine a plurality of candidates for the specifications of the plurality of equipment, further,
In a process of calculating a value indicating an environmental load in the power environment, a specification in which an integrated value calculated for each candidate is good is executed as a preferable specification.
The facility design support method according to claim 1. A specification determination unit that determines specifications of a plurality of facilities including a power generation facility and a hydrogen storage facility within a range that satisfies the power demand in the target power environment,
Based on the determined specifications and environmental load degree data preset for each of the plurality of facilities, an environmental load analysis unit that calculates a value indicating an environmental load in the power environment,
The power environment is a power environment that is not connected to the power grid,
Equipment design support device. In the information processing device,
A process of determining specifications of a plurality of facilities including a power generation facility and a hydrogen storage facility within a range satisfying power demand in a target power environment,
Based on the determined specifications and environmental load degree data preset for each of the plurality of facilities, a process of calculating a value indicating an environmental load in the power environment,
Was executed,
The power environment is a power environment that is not connected to the power grid,
program.

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