JP2018205873A - Procurement support device, procurement support system, procurement support method and program - Google Patents

Abstract

To provide a procurement support device, a procurement support system, a procurement support method and a program which can promote a user of an electric vehicle having a storage battery adapted to an energy storage system to replace the storage battery.SOLUTION: A procurement support device 30 comprises: a condition setting unit 332 which sets a first characteristic indicative of a characteristic relating to a degraded state of a storage battery stored in an energy storage system, as a condition for the storage battery; a characteristic acquisition unit 333 which acquires a second characteristic indicative of a characteristic relating to a degraded state of a storage battery in an electric vehicle; an adaptation determination unit 334 which determines the storage battery in the electric vehicle to be adapted to the energy storage system if a value indicative of a difference between the first characteristic and the second characteristic is smaller than a prescribed value; and a notification unit 336 which notifies a user of the electric vehicle having the storage battery determined to be adapted to the energy storge system by the adaptation determination unit 334, of information for promoting the user to replace the storage battery.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a procurement support apparatus, a procurement support system, a procurement support method, and a program.

When constructing an energy storage system (ESS: Energy Storage System) composed of a plurality of storage batteries, it is considered to collect and reuse used storage batteries from, for example, an electric vehicle.
For example, in Patent Document 1, based on information indicating the state of the storage battery stored in the power storage system and information indicating the state of the used storage battery, a plurality of used storage batteries possessed by the supplier are used to store power. A system for selecting a storage battery that is compatible with the system is disclosed.

JP 2014-139725 A

Since the power storage system is configured by using a large number of storage batteries, when a storage battery having different characteristics is used, a difference occurs in the voltage level of each storage battery with charge / discharge. That is, when charging / discharging is performed on a plurality of storage batteries of the power storage system, the timing at which the operation upper limit voltage (charge end voltage) or the operation lower limit voltage (discharge end voltage) is reached varies. As a result, the charging / discharging of the power storage system is stopped in accordance with the storage battery that has previously reached the operation upper limit or the operation lower limit voltage, so that the operation range of the power storage system is limited.
It is also conceivable to use a balance circuit so that all storage batteries are charged up to the upper operating voltage during charging. However, in a storage battery that has reached the upper limit of operation voltage first, energy supplied while continuing charging is discarded, so energy may be wasted.
For this reason, when configuring a power storage system, it is required to procure storage batteries having similar characteristics, that is, the same degree of deterioration.

  As a storage battery to be reused for an electric power storage system, it is conceivable to use a used storage battery of an electric vehicle. However, the characteristics of the storage battery of the electric vehicle change according to the usage history (usage period, travel distance, etc.) of the electric vehicle. Further, the timing for replacing the storage battery of the electric vehicle depends on the user of the electric vehicle. Therefore, it has been difficult to procure a storage battery having characteristics suitable for the power storage system.

  The present invention has been made in view of such problems, and a procurement support apparatus, a procurement support system, and a procurement support that can prompt a user of an electric vehicle having a storage battery that is compatible with the power storage system to replace the storage battery. Methods and programs are provided.

In order to solve the above problems, the present invention employs the following means.
According to the first aspect of the present invention, the procurement support apparatus is a procurement support apparatus that supports procurement of a storage battery stored in an electric power storage system including a plurality of storage batteries, and is stored in the power storage system. As a condition of the storage battery, a condition setting unit that sets a first characteristic indicating a characteristic related to the deterioration state of the storage battery, a characteristic acquisition unit that acquires a second characteristic indicating a characteristic related to the deterioration state of the storage battery of the electric vehicle, When a value indicating a difference between the first characteristic and the second characteristic is smaller than a predetermined value, a conformity determination unit that determines that the storage battery of the electric vehicle is a storage battery suitable for the power storage system; A notification unit for notifying a user of an electric vehicle having a storage battery determined to be compatible by the compatibility determination unit, information for prompting replacement of the storage battery.
By doing in this way, the procurement support device can prompt the user of the electric vehicle having a storage battery suitable for the power storage system to replace (replace) the storage battery. Thereby, the operator who manufactures or maintains the power storage system can purchase a storage battery suitable for the power storage system from the user who replaced the storage battery in response to the notification. For this reason, since the business operator can omit a step of purchasing a plurality of storage batteries having different characteristics and screening a storage battery suitable for the power storage system from the plurality of storage batteries, the cost for manufacturing or maintenance is reduced. be able to.

According to the second aspect of the present invention, the procurement support apparatus according to the first aspect described above further includes a deterioration information acquisition unit that acquires deterioration information indicating a deterioration state of the storage battery stored in the power storage system. . The condition setting unit sets the first characteristic based on the deterioration information.
In this way, the procurement support apparatus can replace the storage battery of the existing electric power storage system as a substitute for the storage battery from the storage battery of the recurrent electric vehicle when the storage battery needs to be replaced due to a failure or the like. Can be sorted out.

According to the third aspect of the present invention, the procurement support apparatus according to the first or second aspect described above further includes an incentive setting unit that sets an incentive when replacing the storage battery of the electric vehicle. The incentive setting unit increases the incentive of the storage battery suitable for the power storage system having a higher priority than the storage battery suitable for the power storage system having a low priority, and the notification unit provides the user with the incentive. Information including
By doing in this way, a procurement support device can raise the possibility that a user will replace a storage battery by giving an incentive when replacing a storage battery. Thereby, the operator who manufactures or maintains the power storage system can easily obtain a storage battery suitable for the power storage system.
Moreover, since the incentive setting unit sets a larger incentive for a power storage system with higher priority, the possibility of obtaining a storage battery suitable for the power storage system with higher priority can be increased.

  According to a fourth aspect of the present invention, a procurement support system is a procurement support system that supports procurement of a storage battery stored in a power storage system including a plurality of storage batteries, the power storage system and the storage battery. Is provided, and the procurement support apparatus according to any one of the first to third aspects described above.

  According to a fifth aspect of the present invention, a procurement support method is a procurement support method for supporting the procurement of a storage battery stored in a power storage system composed of a plurality of storage batteries, and is stored in the power storage system. A condition setting step for setting a first characteristic indicating characteristics relating to the deterioration state of the storage battery as a condition for the storage battery; a characteristic acquisition step for acquiring a second characteristic indicating characteristics relating to the deterioration state of the storage battery of the electric vehicle; When the value indicating the difference between the first characteristic and the second characteristic is smaller than a predetermined value, the compatibility determination step of determining that the storage battery of the electric vehicle is a storage battery suitable for the power storage system; A notification step of notifying a user of an electric vehicle having a storage battery determined to be compatible in the compatibility determination step, information prompting replacement of the storage battery; Having.

  According to the sixth aspect of the present invention, there is provided a program for causing a computer of a procurement support apparatus that supports procurement of a storage battery stored in an power storage system including a plurality of storage batteries to cause the computer to operate the power storage system. A condition setting step for setting a first characteristic indicating a characteristic relating to the deterioration state of the storage battery as a condition of the storage battery stored in the battery, and a characteristic acquisition for acquiring a second characteristic indicating a characteristic relating to the deterioration state of the storage battery of the electric vehicle When the value indicating the difference between the step and the first characteristic and the second characteristic is smaller than a predetermined value, the conformity determination is performed to determine that the storage battery of the electric vehicle is a storage battery suitable for the power storage system. And replacement of the storage battery for a user of an electric vehicle having a storage battery determined to be compatible in the determination step A notification step of notifying the information urging, to execution.

  According to the procurement support device, the procurement support system, the procurement support method, and the program according to the present invention, it is possible to prompt the user of an electric vehicle having a storage battery suitable for the power storage system to replace the storage battery.

It is the schematic which shows an example of the procurement assistance system which concerns on one Embodiment of this invention. It is a block diagram which shows an example of the procurement assistance apparatus which concerns on one Embodiment of this invention. It is a 1st flowchart which shows an example of the process in the procurement assistance apparatus which concerns on one Embodiment of this invention. It is a 2nd flowchart which shows an example of the process in the procurement assistance apparatus which concerns on one Embodiment of this invention. It is a figure which shows an example of the hardware constitutions of the procurement assistance apparatus which concerns on one Embodiment of this invention.

  Hereinafter, a procurement support system 100 according to an embodiment of the present invention will be described with reference to the drawings.

(overall structure)
FIG. 1 is a schematic diagram illustrating an example of a procurement support system according to an embodiment of the present invention.
In the present embodiment, the procurement support system 100 is a system for supporting the procurement of storage batteries stored in the power storage system 20 including a plurality of storage batteries. The procurement support system 100 reuses a used storage battery of the electric vehicle 10 as a storage battery stored in the power storage system 20.
As shown in FIG. 1, the procurement support system 100 includes an electric vehicle 10, a power storage system 20, and a procurement support device 30.

The electric vehicle 10 includes a storage battery 11, a BMS (Battery Management System) 12, and an in-vehicle device 13.
The BMS 12 monitors the state of the storage battery 11 and outputs a deterioration characteristic (for example, an internal resistance of the storage battery 11) indicating characteristics related to the deterioration state (deterioration degree) of the storage battery 11 to the vehicle-mounted device 13.
The vehicle-mounted device 13 transmits the deterioration characteristics of the storage battery 11 to the procurement support apparatus 30 via the network NW.
Although omitted in FIG. 1, the procurement support system 100 includes a plurality of electric vehicles 10 having the same configuration.

An energy storage system (ESS) 20 is a stationary power storage system including a plurality of storage batteries 21. In the example of FIG. 1, the procurement support system 100 includes a plurality of power storage systems 20 and is installed in different places such as a power plant, a factory, and a charging station for an electric vehicle.
The power storage system 20 has an ESS monitoring server 25 that monitors the state of the storage battery 21. The ESS monitoring server 25 creates deterioration information including characteristics relating to the deterioration state of the storage battery 21 stored in the power storage system 20 (for example, internal resistance of the storage battery 21) and transmits the deterioration information to the procurement support apparatus 30 via the network NW. To do.
The power storage system 20 is in the same degree of deterioration, that is, close to a reference characteristic set for each power storage system 20 (for example, an average value of internal resistances of all the storage batteries 21 stored in the power storage system 20). The storage battery 21 having the characteristics is collected and configured. For this reason, in this embodiment, the ESS monitoring server 25 shall transmit the information containing the characteristic used as the reference | standard set according to the electric power storage system 20 to the procurement assistance apparatus 30 as deterioration information.
In the example of FIG. 1, a mode in which the power storage system 20 includes the ESS monitoring server 25 is illustrated, but the embodiment is not limited thereto. In another embodiment, one ESS monitoring server 25 may monitor a plurality of power storage systems 20.

  The procurement support device 30 is a device for supporting the procurement of the storage battery 21 stored in the power storage system 20 based on the information collected from the electric vehicle 10 and the power storage system 20.

(Functional configuration of procurement support equipment)
FIG. 2 is a block diagram illustrating an example of a procurement support apparatus according to an embodiment of the present invention.
As shown in FIG. 2, the procurement support apparatus 30 is a computer that includes a communication unit 31, an input / output unit 32, a CPU 33, and a storage unit 35.

  The communication unit 31 transmits and receives various types of information between the electric vehicle 10 and the ESS monitoring server 25 via the network NW.

  The input / output unit 32 is an input / output interface of the procurement support apparatus 30. The input / output unit 32 includes an input device such as a keyboard that receives input of information from an operator (operator) that manufactures or maintains the power storage system 20, and a display device such as a monitor that outputs (displays) various information. .

The CPU 33 reads out a program stored in the storage unit 35, develops it in a main storage device (not shown), and executes various processes according to the program. In addition, this program may be distributed to the procurement support apparatus 30 via an interface. In this case, the procurement support apparatus 30 that has received the distribution may develop the program in the main storage device and execute various processes.
The CPU 33 includes a deterioration information acquisition unit 331, a condition setting unit 332, a characteristic acquisition unit 333, a conformity determination unit 334, an incentive setting unit 335, a notification unit 336, a V2G (Vehicle to Grid) information acquisition unit 337, have.

  The deterioration information acquisition unit 331 acquires deterioration information indicating the deterioration state of the storage battery 21 stored in the power storage system 20 from the ESS monitoring server 25 via the communication unit 31.

  The condition setting unit 332 sets a target characteristic (first characteristic) indicating characteristics relating to the deterioration state of the storage battery 21 as a condition of the storage battery 21 stored in the power storage system 20.

  The characteristic acquisition unit 333 acquires a deterioration characteristic (second characteristic) indicating characteristics related to the deterioration state of the storage battery 11 of the electric vehicle 10 from the electric vehicle 10 via the communication unit 31.

When the value indicating the difference between the target characteristic set by the condition setting unit 332 and the deterioration characteristic of the storage battery 11 of the electric vehicle 10 acquired by the characteristic acquisition unit 333 is smaller than a predetermined value, the conformity determination unit 334 It is determined that the storage battery 11 mounted on the battery is a storage battery that is compatible with the power storage system 20.
Note that the conformity determination unit 334 may set a value stored in advance in the storage unit 35 as a predetermined value, or may set a value input by the operator via the input / output unit 32. It may be.

The incentive setting unit 335 sets an incentive when replacing the storage battery 11 of the electric vehicle 10.
For example, the incentive setting unit 335 increases the purchase price of the used storage battery 11 or reduces the purchase price of the new storage battery when the storage battery 11 of the electric vehicle 10 is replaced (replaced) with a new storage battery. Set incentives.

The notification unit 336 notifies the user of the electric vehicle 10 having the storage battery 11 determined to be compatible by the compatibility determination unit 334 of information that prompts replacement of the storage battery 11.
Note that the notification unit 336 transmits the information to the vehicle-mounted device 13 of the electric vehicle 10. Then, when receiving the information, the vehicle-mounted device 13 of the electric vehicle 10 displays the received information on a monitor (not shown) and notifies the user. The notification unit 336 may transmit the information to the mobile terminal T owned by the user of the electric vehicle 10. In this case, it is assumed that user information that associates the electric vehicle 10 with the portable terminal T possessed by the user of the electric vehicle is stored in the storage unit 35 in advance.

The V2G information acquisition unit 337 acquires V2G information including a participation history in V2G that supplies (sells) power stored in the storage battery 11 of the electric vehicle 10 from the electric vehicle 10 via the communication unit 31. To do.
The V2G information includes information such as the date and time when the electric vehicle 10 participated in V2G, the amount of power supplied to the power system, and the income obtained as consideration for the supplied power.

The storage unit 35 stores the deterioration information of the storage battery 21 acquired by the deterioration information acquisition unit 331 for each power storage system 20. In addition, the storage unit 35 stores deterioration characteristics of the storage batteries 11 of the electric vehicle 10 and V2G information.
The storage unit 35 includes, for example, an HDD (Hard Disk Drive), an SSD (Solid State Drive), a magnetic disk, a magneto-optical disk, a CD-ROM (Compact Disc Read Only Memory), a DVD-ROM (Digital Versatile Disc Read Only Memory), A non-temporary tangible storage medium such as a semiconductor memory. The storage unit 35 may be an internal medium directly connected to the bus of the procurement support apparatus 30 or an external medium connected to the procurement support apparatus 30 via an interface.

(Processing flow of procurement support equipment)
FIG. 3 is a first flowchart showing an example of processing in the procurement support apparatus according to the embodiment of the present invention.
Hereinafter, with reference to FIG. 3, when the procurement support apparatus 30 procures a storage battery to be stored in the new power storage system 20, a process for prompting the user of the electric vehicle 10 to replace the storage battery will be described. .

First, the condition setting part 332 sets the target characteristic (for example, internal resistance of a storage battery etc.) which shows the characteristic regarding the deterioration state of the storage battery 21 as conditions of the storage battery 21 stored in the new electric power storage system 20 (step S101). .
At this time, the condition setting unit 332 may set a preset characteristic as a target characteristic of the new power storage system 20, or may use a value input by the operator via the input / output unit 32. You may make it set.

  Next, the characteristic acquisition part 333 acquires the deterioration characteristic (for example, internal resistance of the storage battery 11 etc.) which shows the characteristic regarding the deterioration state of the storage battery 11 of the electric vehicle 10 (step S102).

Next, the conformity determination unit 334 determines whether or not the deterioration characteristic of the storage battery 11 of the electric vehicle 10 conforms to the conditions required for the storage battery of the new power storage system 20 (step S103).
Specifically, when the value indicating the difference between the target characteristic of the new power storage system 20 and the deterioration characteristic of the storage battery 11 of the electric vehicle 10 is smaller than a predetermined value, the conformity determination unit 334 The storage battery 11 is determined to be a storage battery suitable for the new power storage system 20 (step S103: YES), and the process proceeds to the next step S104.
On the other hand, when the value indicating the difference between the target characteristic of the new power storage system 20 and the deterioration characteristic of the storage battery 11 of the electric vehicle 10 is greater than a predetermined value, the conformity determination unit 334 determines that the storage battery 11 of the electric vehicle 10 is Then, it is determined that the storage battery is not compatible with the new power storage system 20 (step S103: NO), and the process proceeds to step S105.

When it is determined that the storage battery 11 is compatible with the new power storage system 20 (step S103: YES), the notification unit 336 provides information prompting the user of the electric vehicle 10 having the storage battery 11 to replace the storage battery 11 to the user. (Step S104).
The notification unit 336 notifies information including at least one of a purchase price of the storage battery 11 and a purchase price of a new storage battery as information for prompting replacement of the storage battery 11. At this time, it is assumed that the storage unit 35 stores in advance a purchase price table that associates the deterioration characteristics of the storage battery 11 with the purchase price, and a purchase price of a new storage battery.
The incentive setting unit 335 may give an incentive to the replacement of the storage battery 11 in order to increase the possibility that the user will replace the storage battery 11. For example, the incentive setting unit 335 sets an incentive to increase the purchase price of the storage battery 11. The incentive setting unit 335 may set an incentive for discounting the purchase price of a new storage battery for a user who replaces the storage battery 11. The notification unit 336 may notify the information including the purchase price of the storage battery 11 to which the incentive set by the incentive setting unit 335 is given and the purchase price of a new storage battery.
Further, the notification unit 336 may include the income from the V2G participation of the electric vehicle 10 in the information that prompts the replacement of the storage battery 11 based on the V2G information acquired by the V2G information acquisition unit 337.

Next, the suitability determination unit 334 determines whether or not the suitability of all the electric vehicles 10 for the storage battery 11 has been checked (step S105). It is assumed that the list of electric vehicles 10 to be checked is stored in the storage unit 35 in advance.
The conformity determination unit 334 ends the process when it is checked whether or not the electrical batteries 10 of all the electric vehicles 10 are conformable (step S105: YES).
On the other hand, when there is an electric vehicle 10 that has not been checked for suitability (step S105: NO), the suitability determination unit 334 returns to step S102. In this way, the procurement support apparatus 30 repeatedly executes the above processing until the checks on the storage batteries 11 of all the electric vehicles 10 are completed.

FIG. 4 is a second flowchart showing an example of processing in the procurement support apparatus according to the embodiment of the present invention.
Hereinafter, with reference to FIG. 4, the process of the procurement support apparatus 30 when at least one storage battery 21 of the existing power storage system 20 needs to be replaced due to a failure or the like will be described.

First, the deterioration information acquisition unit 331 acquires deterioration information of the storage battery 21 from the power storage system 20 (step S201).
The deterioration information acquisition unit 331 acquires deterioration information for each power storage system 20 when the plurality of power storage systems 20 needs to replace the storage battery 21.

Next, the condition setting unit 332 sets the target characteristics of the storage battery that will replace the storage battery 21 that needs to be replaced based on the deterioration information acquired by the deterioration information acquisition unit 331 (step S202).
In this embodiment, the deterioration information includes characteristics relating to the deterioration state (such as the internal resistance of the storage battery 21). For this reason, the condition setting unit 332 sets the characteristic included in the deterioration information as the target characteristic of the alternative storage battery.
When there are a plurality of power storage systems 20 having storage batteries 21 that need to be replaced, different target characteristics are set based on the deterioration information of each of the power storage systems 20.

Next, the incentive setting unit 335 sets an incentive to be given to the replacement (replacement) of the storage battery 11 in order to increase the possibility of purchasing the storage battery 11 having characteristics close to the target characteristics (step S203).
For example, when the plurality of power storage systems 20 require replacement of the storage battery 21, the incentive setting unit 335 sets the incentive of the storage battery stored in the power storage system 20 having a high priority to the power storage system 20 having a low priority. Larger than the storage battery stored in the battery.
The storage unit 35 stores priorities set in advance according to the use of the power storage system 20 and the installed location. The incentive setting unit 335 may dynamically change the priority so that the priority becomes higher as the number of storage batteries that need to be replaced increases.

Next, the procurement support apparatus 30 performs processing for notifying the user of the electric vehicle 10 having the storage battery 11 that is compatible with the power storage system 20 of information that prompts replacement (step S204). In step S204, the same processing as in steps S102 to S105 in FIG. 3 is performed, and thus detailed description thereof is omitted.
In addition, when a plurality of target characteristics are set in the process corresponding to step S103 in FIG. 3, the conformity determination unit 334 determines whether or not the storage battery 11 of the electric vehicle 10 is suitable for each target characteristic. to decide.
Further, the notification unit 336 notifies the user of information including the incentive set by the incentive setting unit 335 in the process corresponding to step S104 in FIG.

(Hardware configuration)
The procurement support apparatus 30 and the ESS monitoring server 25 can be realized using, for example, a general computer 500. FIG. 5 shows an example of the configuration of the computer 500.
FIG. 5 is a diagram illustrating an example of a hardware configuration of the procurement support apparatus according to the embodiment of the present invention.
The computer 500 includes a CPU (Central Processing Unit) 501, a RAM (Random Access Memory) 502, a ROM (Read Only Memory) 503, a storage device 504, an external I / F (Interface) 505, an input device 506, an output device 507, communication. I / F508 and the like. These devices transmit and receive signals to and from each other via the bus B.

  The CPU 501 is an arithmetic device that implements each function of the computer 500 by reading out programs and data stored in the ROM 503, the storage device 504, and the like onto the RAM 502 and executing the processing. For example, each functional unit described above is a function provided in the computer 500 when the CPU 501 reads and executes a program stored in the ROM 503 or the like. A RAM 502 is a volatile memory used as a work area for the CPU 501. The ROM 503 is a nonvolatile memory that retains programs and data even when the power is turned off. The storage device 504 is realized by, for example, an HDD (Hard Disk Drive), an SSD (Solid State Drive), and the like, and stores an OS (Operation System), application programs, various data, and the like. The external I / F 505 is an interface with an external device. Examples of the external device include a recording medium 509. The computer 500 can read and write the recording medium 509 via the external I / F 505. The recording medium 509 includes, for example, an optical disk, a magnetic disk, a memory card, a USB (Universal Serial Bus) memory, and the like.

  The input device 506 includes, for example, a mouse and a keyboard, and inputs various operations and the like to the computer 500 in response to instructions from the operator. The output device 507 is realized by a liquid crystal display, for example, and displays a processing result by the CPU 501. The communication I / F 508 is an interface that connects the computer 500 to a network such as the Internet by wired communication or wireless communication. The bus B is connected to each of the above constituent devices, and transmits and receives various signals and the like between the constituent devices.

  Each process in the procurement support apparatus 30 described above is stored in a computer-readable recording medium in the form of a program, and the program is read and executed by the computer of the procurement support apparatus 30 to execute the above process. Is done. Here, the computer-readable recording medium means a magnetic disk, a magneto-optical disk, a CD-ROM, a DVD-ROM, a semiconductor memory, or the like. Alternatively, the computer program may be distributed to the computer via a communication line, and the computer that has received the distribution may execute the program.

The program may be for realizing a part of the functions described above. Furthermore, what can implement | achieve the function mentioned above in combination with the program already recorded on the computer system, what is called a difference file (difference program) may be sufficient.
In addition, the procurement support apparatus 30 or the like may be configured by a single computer, or may be configured by a plurality of computers that are communicably connected.

(Function and effect)
As described above, the procurement support apparatus 30 according to the present embodiment is a procurement support apparatus 30 that supports the procurement of storage batteries stored in the power storage system 20 including the plurality of storage batteries 21. The condition setting unit 332 that sets a target characteristic (first characteristic) that indicates characteristics related to the deterioration state of the storage battery, and the deterioration characteristics that indicate characteristics related to the deterioration state of the storage battery 11 of the electric vehicle 10 (the first characteristic). When the value indicating the difference between the target characteristic and the deterioration characteristic is smaller than a predetermined value, the storage battery 11 of the electric vehicle 10 is a storage battery suitable for the power storage system 20. For the user of the electric vehicle 10 having the suitability judgment unit 334 that judges that there is a match and the storage battery 11 that the suitability judgment unit 334 has judged to be fit, Comprising a notification unit 336 for notifying information prompting the conversion, the.
By doing in this way, the procurement support apparatus 30 can prompt the user of the electric vehicle 10 having the storage battery 11 suitable for the power storage system 20 to replace (replace) the storage battery 11. Thereby, the business operator who manufactures or maintains the power storage system 20 can purchase the storage battery 11 suitable for the power storage system 20 from the user who replaced the storage battery 11 in response to the notification. For this reason, since a business operator can purchase a plurality of storage batteries having different characteristics and screen a storage battery suitable for the power storage system 20 from the plurality of storage batteries, the cost for manufacturing or maintenance can be reduced. Can be made.

The procurement support apparatus 30 further includes a deterioration information acquisition unit 331 that acquires deterioration information indicating the deterioration state of the storage battery 21 stored in the power storage system 20. The condition setting unit 332 sets a target characteristic of a storage battery that is an alternative to the storage battery 21 stored in the power storage system 20 based on the deterioration information.
By doing in this way, when the storage battery 21 of the existing power storage system 20 needs to be replaced due to a failure or the like, the procurement support apparatus 30 can change the storage battery 21 from the storage battery 11 of the recurrent electric vehicle 10. Suitable storage batteries can be selected as alternatives.

The procurement support apparatus 30 further includes an incentive setting unit 335 that sets an incentive when replacing the storage battery 11 of the electric vehicle 10. The incentive setting part 335 makes the incentive of the storage battery suitable for the power storage system 20 with a high priority larger than the storage battery suitable for the power storage system 20 with a low priority. The notification unit 336 notifies the user of information including incentives.
By doing in this way, procurement support device 30 can raise a possibility that a user will replace storage battery 11 by giving an incentive when replacing storage battery 11. Thereby, the procurement support apparatus 30 can make it easy for a business operator who manufactures or maintains the power storage system 20 to obtain a storage battery suitable for the power storage system 20.
Moreover, since the incentive setting part 335 sets a larger incentive for the power storage system 20 having a higher priority, the possibility of obtaining a storage battery suitable for the power storage system 20 having a higher priority can be increased.

  Further, the notification unit 336 may include the income from the V2G participation of the electric vehicle 10 in the information that prompts the replacement of the storage battery 11 based on the V2G information acquired by the V2G information acquisition unit 337. Thereby, the user of the electric vehicle 10 replaces the storage battery 11 in consideration of the income from the V2G participation and the timing at which the purchase price of the storage battery 11 is increased (or the timing at which the purchase price of a new storage battery is reduced). The existence of merit can be examined. As a result, the user of the electric vehicle 10 can replace the storage battery 11 at a timing at which his / her merit is maximized, and can reduce the operating cost of the electric vehicle 10.

As mentioned above, although embodiment of this invention was described in detail, unless it deviates from the technical idea of this invention, it is not limited to these, A some design change etc. are possible.
For example, in the above-described embodiment, the ESS monitoring server 25 includes information that is a reference characteristic set for each power storage system 20 (for example, an average value of internal resistances of all the storage batteries 21 stored in the power storage system 20). However, the present invention is not limited to this. For example, in other embodiments, the ESS monitoring server 25 may include the characteristics of the storage batteries 21 of the power storage system 20 in the deterioration information.
In this case, the condition setting unit 332 of the procurement support device 30 may set the target characteristic based on the deterioration characteristic of the storage battery 21 that needs to be replaced among the plurality of storage batteries 21. Moreover, when there are a plurality of storage batteries 21 that need to be replaced, different target characteristics may be set for each storage battery 21.

In the above-described embodiment, the procurement support apparatus 30 determines whether each storage battery 11 of the electric vehicle 10 is compatible with the power storage system 20 when the storage battery 21 of the existing power storage system 20 needs to be replaced. Although the aspect of determining whether or not is described, the present invention is not limited to this.
In another embodiment, the deterioration information acquisition unit 331 of the procurement support apparatus 30 periodically acquires deterioration information of the storage battery 21 of the power storage system 20, and based on the deterioration information, each storage battery 21 has a predetermined period (for example, It may be predicted whether or not replacement is required after 6 months). When the deterioration information acquisition unit 331 determines that there is a storage battery 21 that is expected to be replaced after a predetermined period of time, the condition setting unit 332 sets the target characteristic of the storage battery that is to replace the storage battery 21. You may make it do.
Thereby, the procurement support apparatus 30 can prompt the user to replace the storage battery 11 in time for the replacement timing of the storage battery 21 of the power storage system 20.

Moreover, in the above-mentioned embodiment, although the procurement assistance apparatus 30 demonstrated the aspect which supports the procurement of the storage battery stored in the new power storage system 20, or the storage battery stored in the existing power storage system 20, There is no limit.
In another embodiment, the characteristic acquisition unit 333 of the procurement support apparatus 30 periodically acquires the deterioration characteristics and V2G information of the storage battery 11 of the electric vehicle 10 and predicts the future deterioration state of the storage battery 11. Good.
For example, when the user participates in a program that replaces (replaces) the electric vehicle 10 or the storage battery 11 after a predetermined period, the characteristic acquisition unit 333 predicts the deterioration state of the storage battery 11 when the predetermined period has elapsed. Then, the suitability determination unit 334 may determine which power storage system 20 is suitable among the plurality of power storage systems 20 based on the predicted deterioration state of the storage battery 11.
Thereby, the used storage battery 11 can be smoothly reused at the replacement time of the electric vehicle 10 or the storage battery 11. In addition, since the operator who manufactures or maintains the power storage system 20 can know in advance when to obtain a storage battery suitable for the power storage system 20, the accuracy of the plan for manufacturing and maintaining the power storage system 20 is improved. Can be made.

Moreover, in the above-mentioned embodiment, although the aspect which the procurement assistance apparatus 30 was provided in the place different from the electric vehicle 10 and the ESS monitoring server 25 was demonstrated, it is not restricted to this.
In other embodiments, the procurement support apparatus 30 may be mounted on the electric vehicle 10. Further, the function of the procurement support apparatus 30 may be incorporated in the ESS monitoring server 25.

DESCRIPTION OF SYMBOLS 10 Electric vehicle 11 Storage battery 13 Onboard equipment 20 Power storage system 21 Storage battery 25 ESS monitoring server 30 Procurement support apparatus 31 Communication part 32 Input / output part 35 Storage part 100 Procurement support system 331 Degradation information acquisition part 332 Condition setting part 333 Characteristic acquisition part 334 Suitability determination unit 335 Incentive setting unit 336 Notification unit 337 V2G information acquisition unit T Mobile terminal

Claims (6)

A procurement support device that supports the procurement of storage batteries stored in a power storage system composed of a plurality of storage batteries,
A condition setting unit that sets a first characteristic indicating characteristics relating to a deterioration state of the storage battery as a condition of the storage battery stored in the power storage system;
A characteristic acquisition unit for acquiring a second characteristic indicating characteristics relating to a deterioration state of the storage battery of the electric vehicle;
When a value indicating a difference between the first characteristic and the second characteristic is smaller than a predetermined value, a conformity determination unit that determines that the storage battery of the electric vehicle is a storage battery suitable for the power storage system;
A notification unit for notifying the user of an electric vehicle having a storage battery determined to be compatible by the compatibility determination unit, information for prompting replacement of the storage battery;
A procurement support device comprising: A deterioration information acquisition unit for acquiring deterioration information including characteristics relating to a deterioration state of the storage battery stored in the power storage system;
The condition setting unit sets the first characteristic based on the deterioration information.
The procurement support apparatus according to claim 1. An incentive setting unit for setting an incentive for replacing the storage battery of the electric vehicle;
The incentive setting unit increases the incentive of the storage battery suitable for the power storage system having a higher priority than the storage battery suitable for the power storage system having a low priority,
The notification unit notifies the user of information including the incentive;
The procurement support apparatus according to claim 1 or 2. A procurement support system for supporting the procurement of storage batteries stored in a power storage system composed of a plurality of storage batteries,
The power storage system;
An electric vehicle equipped with a storage battery,
The procurement support apparatus according to any one of claims 1 to 3,
Procurement support system with A procurement support method for supporting the procurement of storage batteries stored in a power storage system composed of a plurality of storage batteries,
A condition setting step for setting a first characteristic indicating characteristics relating to a deterioration state of the storage battery as a condition of the storage battery stored in the power storage system;
A characteristic acquisition step of acquiring a second characteristic indicating a characteristic relating to a deterioration state of the storage battery of the electric vehicle;
When the value indicating the difference between the first characteristic and the second characteristic is smaller than a predetermined value, the compatibility determination step of determining that the storage battery of the electric vehicle is a storage battery suitable for the power storage system;
A notification step for notifying the user of an electric vehicle having a storage battery determined to be compatible in the compatibility determination step of information prompting replacement of the storage battery;
Procurement support method. A program for functioning a computer of a procurement support apparatus that supports procurement of a storage battery stored in a power storage system composed of a plurality of storage batteries,
In the computer,
A condition setting step for setting a first characteristic indicating characteristics relating to a deterioration state of the storage battery as a condition of the storage battery stored in the power storage system;
A characteristic acquisition step of acquiring a second characteristic indicating a characteristic relating to a deterioration state of the storage battery of the electric vehicle;
When the value indicating the difference between the first characteristic and the second characteristic is smaller than a predetermined value, the compatibility determination step of determining that the storage battery of the electric vehicle is a storage battery suitable for the power storage system;
A notification step for notifying the user of an electric vehicle having a storage battery determined to be compatible in the compatibility determination step of information prompting replacement of the storage battery;
A program that executes

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