JP2016071843A - Power delivery system and power delivery method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power delivery system and method for performing charging or discharging by a power delivery moving body for storage batteries of users.SOLUTION: The power delivery system comprises a power delivery management device 100 and a power delivery moving body. The power delivery management device 100 is provided with: a required charge/discharge power amount acquisition part 121 that acquires a required charge power amount or a required discharge power amount of each of the storage batteries of user facilities in a delivery region; and a charge/discharge price determination part 122 that determines a charge price corresponding to the charge to each storage battery or a discharge price, which is a price of power discharged from each storage battery, on the basis of the required charge power amount or the required discharge power amount of each of the storage batteries obtained by the required charge/discharge power amount acquisition part 121. The power delivery moving body is configured to move between the user facilities in such a manner that charging or discharging corresponding to the required charge power amount or the required discharge power amount acquired by the required charge/discharge power amount acquisition part 121 is performed for the storage batteries of each of the user facilities.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a power distribution system and a power distribution method.

  For example, a power generation facility and a storage battery are installed in each of a plurality of facilities existing in a specific area, such as a convenience store, and the surplus power of the storage battery of a certain facility is charged to the battery of the delivery vehicle, and the delivery vehicle moves to another facility. And the electric power delivery system of charging the electric power charged by the battery to the storage battery in other facilities is known (for example, refer to patent documents 1).

JP 2011-14279A

For example, it is conceivable to operate a power delivery service that performs charging for purchasing surplus power from a storage battery provided in a consumer by a power delivery mobile body such as a vehicle or charges a storage battery.
However, the power distribution system described in Patent Document 1 merely interchanges surplus power of the storage battery between specific facilities such as a convenience store. Therefore, even if the system of Patent Document 1 is directly applied to the power delivery service as described above, it is difficult to perform an appropriate operation.

  This invention is made in view of such a situation, and it aims at enabling it to operate appropriately the electric power delivery service which charges or discharges for the storage battery with which a consumer is equipped with an electric power delivery mobile body. .

  One aspect of the present invention for solving the above-described problem includes a power delivery management device and a power delivery mobile body, and the power delivery management device has a required charging power amount of a storage battery of each customer facility in a delivery area or Corresponding to charging the storage battery based on the required charging power amount or the required discharging power amount of each storage battery acquired by the required charging / discharging power amount acquisition unit that acquires the required discharging power amount and the required charging / discharging power amount acquisition unit And a charge / discharge price determination unit for determining a discharge price that is a price of electric power discharged from the storage battery, and the power delivery mobile unit targets the storage battery of each customer facility for the necessary charge. This is a power delivery system that moves between customer facilities so as to perform charging or discharging according to the required charging power amount or the required discharging power amount acquired by the discharging power amount acquisition unit.

  Moreover, 1 aspect of this invention is said electric power delivery system, Comprising: The required charging / discharging electric energy acquisition part is the said required charge determined based on the storage battery state information which shows the state of the said storage battery transmitted from a storage battery You may acquire electric energy or the said required discharge electric energy.

  Moreover, 1 aspect of this invention is said electric power delivery system, Comprising: The said required charging / discharging electric energy acquisition part is based on the charge order or the discharge order with respect to the said storage battery from the consumer corresponding to the said consumer facility. The determined required charge power amount or the required discharge power amount may be acquired.

  One aspect of the present invention includes a power delivery management device, a shared storage battery, and a power delivery mobile body, and the power delivery management device calculates a required charge power amount or a required discharge power amount of a storage battery of each customer facility in a delivery area. A charge / discharge price determination unit that determines a charge price corresponding to charging to the storage battery, or a discharge price that is a price of power discharged from the storage battery; The delivery mobile unit is configured to perform charging or discharging according to the required charging power amount or the required discharging power amount acquired by the required charging / discharging power amount acquisition unit for the storage battery of each customer facility. And the shared storage battery stores the electric power charged in the power delivery mobile body from the storage battery of the customer facility, and the electric power according to the required charge power amount is delivered by the electric power delivery. Discharge to be charged to the moving object is performed, the charging and discharging pricing section, based on the amount of power stored in the shared storage battery, a power delivery system for determining the charging price or discharging price.

  One embodiment of the present invention is the above-described power distribution system, further including an external storage battery that is installed outside the distribution area and charges the power distribution mobile unit with electric power.

  Moreover, 1 aspect of this invention is said electric power delivery system, Comprising: The storage battery in the said consumer facility may be a storage battery with which the said vehicle is equipped as a power supply which drives a vehicle.

  One aspect of the present invention is a power delivery method in a power delivery system including a power delivery management device and a power delivery mobile body, wherein the power delivery management device is a required charging power of a storage battery of each customer facility in a delivery area. The required charge / discharge power amount acquisition step for acquiring the amount or the required discharge power amount, and charging the storage battery based on the required charge power amount or the required discharge power amount of each storage battery acquired by the required charge / discharge power amount acquisition step A charge price corresponding to the charge price, or a charge / discharge price determination step for determining a discharge price that is a price of power discharged from the storage battery, wherein the power delivery mobile unit targets the storage battery of each consumer facility, Charge or discharge according to the required charge power amount or the required discharge power amount acquired in the required charge / discharge power amount acquisition step. It is a power delivery method for dynamic.

  One aspect of the present invention is a power delivery method in a power delivery system including a power delivery management device, a power delivery mobile unit, and a shared storage battery, wherein the power delivery management device is a storage battery of each customer facility in a delivery area. The required charge / discharge power amount acquisition step for acquiring the required charge power amount or the required discharge power amount, and the charge for determining the charge price corresponding to the charge to the storage battery or the price of the power discharged from the storage battery. A discharge price determination step, and the power delivery mobile unit is charged according to the required charge power amount or the required discharge power amount acquired by the required charge / discharge power amount acquisition step for the storage battery of each customer facility. Or it moves between customer facilities so that it discharges, and the electric power charged in the power distribution mobile body from the storage battery of the customer facility is the shared storage battery. In addition to being charged, discharging is performed such that power corresponding to the required charge / discharge power amount is charged in the power delivery mobile body, and the charge / discharge price determination step includes the power amount stored in the shared storage battery. This is a power delivery method for determining the charge price or the discharge price based on.

  As described above, according to the present invention, it is possible to appropriately operate a power delivery service for charging or discharging a storage battery included in a consumer by using a power delivery mobile body.

It is a figure which shows the structural example of the electric power delivery system in 1st Embodiment. It is a figure which shows the structural example of the electric power delivery management apparatus in 1st Embodiment. It is a figure which shows an example of the required charging / discharging electric energy table in 1st Embodiment. It is a figure which shows an example of the charging / discharging price table in 1st Embodiment. It is a flowchart which shows the example of a process sequence which the electric power delivery management apparatus in 1st Embodiment performs. It is a figure which shows the structural example of the electric power delivery system in 2nd Embodiment. It is a figure which shows the structural example of the electric power delivery system in 3rd Embodiment. It is a figure which shows the structural example of the electric power delivery system in 4th Embodiment.

<First Embodiment>
Hereinafter, a power distribution system according to an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 shows a configuration example of a power distribution system in the present embodiment. As shown in the figure, in the power distribution system of the present embodiment, the power distribution center 10 performs various management related to the power distribution service for the storage batteries 300 in a plurality of customer facilities 30-1 to 30-5 in the distribution area 20. I do.
In the following description, the customer facility 30-1 to 30-5 will be referred to as the customer facility 30 when it is not necessary to distinguish between them. Moreover, in the same figure, although the example where the five customer facilities 30-1 to 30-5 exist in the delivery area 20 is shown, the number of the customer facilities 30 which exist in the delivery area 20 is not specifically limited.

In the present embodiment, power delivery is performed by a delivery vehicle 800 (an example of a power delivery mobile body).
The delivery vehicle 800 includes a storage battery 801 and a charge / discharge device 802 corresponding to the storage battery 801. For example, a delivery operator who operates the delivery vehicle 800 can charge and discharge the storage battery 801 using the charging / discharging device 802.

In the present embodiment, power delivery refers to charging from the storage battery 801 to the storage battery 300 of the consumer facility 30 and from the storage battery 300 of the consumer facility 30 while the delivery vehicle 800 moves between the customer facilities 30 in the delivery area 20. It refers to charging the storage battery 801.
Here, charging from the storage battery 801 to the storage battery 300 of the customer facility 30 is power purchase from a power delivery service provider when viewed from the consumer. On the other hand, charging from the storage battery 300 of the customer facility 30 to the storage battery 801 is a power sale to a power delivery service provider when viewed from the consumer.

The customer facility 30 is a facility used by the customer. The customer facility 30 may be a facility such as a commercial facility, a factory, or a hospital in addition to a house, for example.
The customer facility 30-1 includes a storage battery 300, a solar battery 400, a network terminal 500, and a telephone 600.

The storage battery 300 can store electric power supplied from a commercial power source or the solar battery 400. Furthermore, in this embodiment, the electric power supplied from the storage battery 801 of the delivery vehicle 800 can also be accumulated as described above.
In addition, the storage battery 300 can supply the stored power as power used by loads such as various electronic devices in the customer facility 30-1. In addition, the power stored in the storage battery 300 can be sold to a power delivery service provider. When selling power, the storage battery 801 included in the delivery vehicle 800 is charged with the power discharged from the storage battery 300 as described above.
Storage battery 300 includes a plug that can be connected to storage battery 801 of delivery vehicle 800.

As the storage battery 300, for example, a lithium ion battery can be used.
The storage battery 801 of the delivery vehicle 800 can employ, for example, a lithium ion battery, a lead battery, a sodium ion battery, or the like.

  In the present embodiment, the storage battery 300 is sold or lent to consumers by the power delivery service provider. Further, even a storage battery that is not purchased or loaned from a power delivery service provider can receive the power delivery service of this embodiment by a contract between the power delivery service provider and a consumer.

The storage battery 300 in the present embodiment has a communication function, and is communicably connected to the power distribution management device 100 of the power distribution center 10 via the storage battery compatible communication network 40. The storage battery 300 transmits storage battery status information indicating its own state to the power delivery management device 100 periodically or in response to a request from the power delivery management device 100. The storage battery state information includes, for example, SOC (State Of Charge). The SOC is a ratio of the current storage amount to the fully charged state in the storage battery 300.
In the example of the figure, the storage battery 300 itself has a communication function, and the storage battery 300 and the power delivery management device 100 directly communicate with each other. However, for example, the storage battery 300 may be communicably connected to the power delivery management device 100 via a device having a communication function provided in the customer facility 30.

The network terminal 500 in the customer facility is connected to the power delivery management apparatus 100 via the network 50 so as to be communicable.
Here, the power delivery management device 100 receives an order for charging (power purchase) (charging order) for the storage battery 300 or an order for discharging (power selling) stored in the storage battery 300 (discharge order) from a consumer. It also functions as a web server for providing a charge / discharge order website.
When the network terminal 500 is connected to the power delivery management apparatus 100, the network terminal 500 displays a charge / discharge order website.
The consumer can place a charge order or a discharge order by operating the charge / discharge order website displayed on the network terminal 500.
The network terminal 500 may be any terminal that can be connected to a network, such as a personal computer, a tablet terminal, or a smartphone.

  The customer can place a charge order and a discharge order by calling the power distribution center 10 using the telephone 600. An operator in the power distribution center 10 receives a telephone call from a customer via the telephone 200.

Moreover, as shown as customer facility 30-2, in the customer facility 30, the solar cell 400 does not necessarily need to be provided.
The remaining customer facilities 30-3, 30-4, and 30-5 are respectively an equipment configuration in which the solar cell 400 is provided like the customer facility 30-1, and a solar cell like the customer facility 30-2. 400 has any one of the equipment configurations not provided.

As understood from the above description, the storage battery state information is transmitted from the storage battery 300 of each customer facility 30 to the power distribution management device 100 in the power distribution center 10.
Therefore, the power delivery management device 100 grasps the SOC of each storage battery 300 based on the storage battery state information, and based on the grasped result, the required charge power amount (required charge power amount) or the necessary discharge power for each storage battery 300. Determine the amount (required amount of discharge power).

For example, the power delivery management device 100 stores a chargeable capacity as a specification for each storage battery 300. The power delivery management device 100 obtains the amount of power that can be charged to the storage battery 300 from the SOC of the storage battery 300 indicated by the storage battery status information and the chargeable capacity, for example, and calculates the required amount of charge power based on the obtained chargeable power amount. Can be determined. Moreover, when the SOC of the storage battery 300 indicated by the storage battery status information is greater than a predetermined threshold, the power delivery management device 100 may determine the amount of power corresponding to the surplus SOC that is greater than the threshold as the required discharge power amount. it can.
Note that the above-described determination of the required charge power amount and the required discharge power amount is merely an example.
In the following description, when there is no particular distinction between the required charge power amount and the required discharge power amount, the required charge / discharge power amount is described.

  The required charge / discharge power amount may be determined at a predetermined delivery plan determination time. The delivery plan determination time is determined periodically, for example, at a fixed time every day.

In addition, a charge order or a discharge order may be placed in the power distribution center 10 by the customer's network terminal 500 or telephone.
Charge order requires more charge energy than is determined based on battery status information, for example, the next day may consume more power than usual for general cleaning, home parties, etc. It is done when it becomes.
In addition, since the discharge order is absent for several days from tomorrow, for example, it is necessary to sell all the electric power generated by the solar battery 400 and charged in the storage battery 300.
In the following description, when there is no particular distinction between a charge order and a discharge order, the charge / discharge order is described.

When a charge / discharge order is made from the network terminal 500, the power delivery management device 100 stores the contents of the charge / discharge order received from the network terminal 500 as charge / discharge order information.
When a charge / discharge order is made by telephone, an operator in the power distribution center 10 inputs the content of the charge / discharge order received by telephone to the power delivery management apparatus 100 as charge / discharge order information. The power delivery management device 100 stores the input charge / discharge order information.

Then, the power delivery management device 100 determines whether or not charge / discharge order information is stored for the storage battery 300 in a certain customer facility 30 corresponding to the customer facility 30 at the delivery plan determination time. The required charge / discharge energy is determined as follows.
That is, when the charge / discharge order information is not stored, the power delivery management device 100 determines the necessary charge / discharge power amount based on the storage battery state information transmitted from the storage battery 300. On the other hand, when the charge / discharge order information is stored, the power delivery management apparatus 100 determines the necessary charge / discharge power amount based on the charge / discharge order information.
Even when the charge / discharge order information is stored, the power delivery management device 100 may determine the required charge / discharge power amount using the storage battery state information as necessary. For example, the power delivery management device 100 determines a basic required charge / discharge power amount based on the storage battery state information. In addition, when the charge / discharge order information is stored, the power delivery management device 100 determines the basic required charge / discharge power amount determined based on the storage battery state information according to the order content indicated by the charge / discharge order information. May be corrected.

As described above, the power delivery management device 100 determines the required charge / discharge power amount for each storage battery 300 of the customer facility 30. And the electric power delivery management apparatus 100 determines charging / discharging price using the required charging / discharging electric energy determined for every storage battery 300 of the consumer facility 30. FIG.
The charge / discharge price is divided into a charge price and a discharge price. The charge price is a power purchase price that the consumer should pay to the power delivery service provider in accordance with charging the storage battery 300 for which the required charge power amount has been determined. The discharge price is the power selling price that the consumer should receive from the power delivery service provider (the purchase price of the power delivery service provider) in response to receiving the power discharged from the storage battery 300 for which the required amount of discharged power has been determined. It is.

Here, the charge / discharge price can be determined based on the balance between the required charge power amount and the required discharge power amount based on the standard power purchase price and power sale price.
Moreover, the charge / discharge price in the present embodiment is updated according to the delivery plan determination time. However, for example, it is possible to obtain the required charge power amount and the required discharge power amount by processing a charge / discharge order in real time and, for example, change all day.
Also, for example, on the charge / discharge order website, the current charge / discharge price and the charge / discharge price in the last few days are displayed along with the weather conditions, etc., so that customers can make a charge / discharge order reference. Also good.

Moreover, the power delivery management apparatus 100 can determine a uniform power unit price for each customer facility 30 that should charge the storage battery 300 for the charging price. Similarly, the power delivery management device 100 can determine a uniform power unit price for each consumer facility 30 that should discharge from the storage battery 300 with respect to the discharge price.
Or the electric power delivery management apparatus 100 is different in charge price and discharge price for every consumer facility 30 according to the required charge electric energy, the required discharge electric energy, etc. for every consumer facility 30 which should charge the storage battery 300, for example. May be determined. Further, discounts according to the continuous contract period and time zone of the power delivery service may be applied to the charge price and the discharge price.

The power delivery management device 100 determines the charge / discharge price as described above, and determines the power delivery plan by the delivery vehicle 800 based on the required charge / discharge power amount of each customer facility 30.
The determination of the delivery plan here corresponds to determination of a route for traveling around the customer facility 30 including the storage battery 300 to be charged or discharged by the delivery vehicle 800. Further, as the delivery plan, the amount of power that should be stored in advance in the storage battery 801 of the delivery vehicle 800 at the time of departure is also determined.

For example, when the total amount of required charging power of all the storage batteries 300 to be charged is smaller than the total amount of required discharging power of all the storage batteries 300 to be discharged, the total amount of required charging power is Covered by the total amount of required discharge power.
In this case, for example, the power delivery management device 100 determines that the amount of electricity stored in the storage battery 801 of the delivery vehicle 800 at the time of departure may be zero. In addition, the power delivery management device 100 plans a traveling route as follows.
That is, first, the customer facility 30 including the storage battery 300 to be discharged is circulated first, and a certain amount or more of electric power is accumulated in the storage battery 801, and then the storage battery 300 to be charged next is stored. Several customer facilities 30 are provided and charged by the storage battery 801. When the stored power of the storage battery 801 decreases, similarly, the customer battery 30 including the storage battery 300 to be discharged is circulated several times to sufficiently accumulate power in the storage battery 801, and the storage battery to be charged. This is a patrol route that patrols the customer facility 30 having 300.

On the other hand, when the total amount of required charging power cannot be covered by the total amount of required discharging power, the power delivery management device 100 is based on, for example, the difference between the total amount of required charging power and the total amount of required discharging power. Then, the amount of power stored in the storage battery 801 of the delivery vehicle 800 at the time of departure is determined. In the present embodiment, the storage battery 801 is charged by, for example, a power delivery service provider purchasing power from an external system (existing power infrastructure) (not shown).
In addition, the power delivery management device 100 determines a patrol route that patrols the customer facility 30 including the storage battery 300 to be charged and the customer facility 30 including the storage battery 300 to be discharged.

  Note that a plurality of delivery vehicles 800 traveling around the delivery area 20 may be provided. In this case, the power delivery management apparatus 100 plans a traveling route for each of the plurality of delivery vehicles 800.

Then, the driver (delivery worker) of the delivery vehicle 800 is notified of the delivery plan determined by the power delivery management device 100. The notification of the delivery plan may be received from the operator of the power delivery center 10 by, for example, a sheet on which the delivery plan is output from the power delivery management apparatus 100 by printing or the like. Or you may notify a delivery worker by transmitting a delivery plan from the power delivery management apparatus 100 to the network terminal which a delivery worker carries via a network.
Alternatively, the delivery destination may be notified from the operator to the delivery operator as appropriate by a mobile phone or dedicated wireless communication.
Then, the delivery worker uses the storage battery 801 for the storage battery 300 of the customer facility 30 while moving by the delivery vehicle 800 to the customer facility 30 that is the patrol destination in the delivery area 20 according to the notified delivery plan. Then, charge or discharge is performed appropriately.

Thus, in the present embodiment, the power delivery service is performed so that the storage battery 300 in the customer facility 30 is charged or discharged using the delivery vehicle 800.
Such a power delivery service is such that the delivery vehicle 800 circulates each customer facility 30 to charge or discharge the storage battery 300, so that it is not necessary to use the existing power infrastructure.
When using the existing power infrastructure, for example, when the power of the storage battery 300 is sold to the power grid in order to sell it, there are various restrictions such as not to exceed the allowable voltage fluctuation range. . According to the present embodiment, it is possible to realize power interchange between the customer facilities 30 without receiving various restrictions due to the use of the existing power infrastructure.
Further, the storage battery is generally used in combination with a power generation means such as a solar battery. However, in the case of the present embodiment, even if there is no solar cell, for example, power that is insufficient with a commercial power supply can be covered by receiving charging by power distribution. That is, even in a customer facility that does not include a power generation device such as a solar battery as in the customer facility 30-2 in FIG. 1, a power management system that includes a storage battery such as a HEMS (Home Energy Management System), for example. It can be built and operated at low cost.
In addition, it does not specifically limit as said electric power generation means, A wind power generator, a hydroelectric generator, a geothermal power generator etc. can be mentioned besides a solar cell.
In addition, the power distribution system that distributes power by the delivery vehicle 800 as in the present embodiment can be effectively used in an area where the power network is not sufficiently prepared, for example. Such a region is, for example, a mountainous area and has a high possibility of a narrow road and a bad road. For example, by using a light vehicle truck or the like for the delivery vehicle 800, power can be delivered efficiently. .

FIG. 2 shows a configuration example of the power delivery management device 100. The power delivery management apparatus 100 shown in the figure includes a communication unit 101, a control unit 102, a storage unit 103, an operation unit 104, and a display unit 105.
The communication unit 101 collectively indicates a part having a communication function with the outside. That is, the communication unit 101 communicates with the network terminal 500 of each customer facility 30 via the network 50. Further, the communication unit 101 communicates with the storage battery 300 of each customer facility 30 via the storage battery compatible communication network 40.

The control unit 102 executes various controls in the power distribution management device 100. The function as the control unit 102 is realized by a CPU (Central Processing Unit) included in the power distribution management apparatus 100 executing a program.
The control unit 102 includes a necessary charge / discharge power amount acquisition unit 121, a charge / discharge price determination unit 122, and a delivery plan determination unit 123 as functional units.

The required charge / discharge power amount acquisition unit 121 acquires the required charge power amount or the required discharge power amount of the storage battery 300 of each customer facility 30.
The charge / discharge price determination unit 122 determines the charge price or the discharge price based on the required charge power amount or the required discharge power amount of each storage battery 300 acquired by the required charge / discharge power amount acquisition unit 121.
The delivery plan determination unit 123 determines a delivery plan based on the required charge power amount or the required discharge power amount of each storage battery 300 acquired by the required charge / discharge power amount acquisition unit 121.

  The storage unit 103 stores various information used by the control unit 102. The storage unit 103 shown in the figure includes a storage battery specification information storage unit 131, a charge / discharge order information storage unit 132, a required charge / discharge power amount storage unit 133, a charge / discharge price storage unit 134, and a delivery plan storage unit 135.

  The storage battery specification information storage unit 131 stores storage battery specification information indicating specifications (such as charging capacity) for each storage battery 300 provided in the customer facility 30 in the delivery area 20.

The charge / discharge order information storage unit 132 stores charge / discharge order information indicating the contents of a charge / discharge order from a customer who has made a charge / discharge order.
In the charge / discharge order information stored in the charge / discharge order information storage unit 132, as described above, the charge / discharge order information indicating the content of the charge / discharge order performed by the network terminal 500 accessing the charge / discharge order website. Is included. In addition, the charge / discharge order information stored in the charge / discharge order information storage unit 132 includes charge / discharge order information in which the operator inputs the content of the charge / discharge order received from the customer by telephone.

The required charge / discharge power amount storage unit 133 stores the required charge power amount or the required discharge power amount for each storage battery 300 of each customer facility 30. The required charge / discharge power amount storage unit 133 stores the required charge power amount or the required discharge power amount for each storage battery 300 according to the structure of the required charge / discharge power amount table, for example.
FIG. 3 shows an example of the necessary charge / discharge power amount table. The required charge / discharge power amount table shown in the figure has a structure in which each area of the customer ID, the storage battery ID, and the required charge / discharge power amount is associated with each storage battery 300 of the customer facility 30.
The customer ID area stores the customer ID assigned to the customer of the corresponding customer facility 30.
The storage battery ID area stores the storage battery ID assigned to the corresponding storage battery 300.
The required charge / discharge power amount area stores the required charge / discharge power amount acquired by the required charge / discharge power amount acquisition unit 121 for the corresponding storage battery 300. A positive value stored in the required charge / discharge power amount area indicates the required charge power amount, and a negative value indicates the required discharge power amount.

Returning to FIG. The charge / discharge price storage unit 134 stores the charge / discharge price for each customer of the customer facility 30 determined by the charge / discharge price determination unit 122. The charge / discharge price storage unit 134 stores the charge / discharge price for each consumer by the structure of the charge / discharge price table.
FIG. 4 shows an example of the charge / discharge price table. The charge / discharge price table shown in the figure has a structure in which a customer ID, a charge price, and a discharge price are associated with each customer. Depending on one consumer, either the charge price or the discharge price is stored.

  Returning to FIG. The delivery plan storage unit 135 stores the delivery plan determined by the delivery plan determination unit 123.

The operation unit 104 collectively indicates operators and input devices provided in the power delivery management apparatus 100. For example, the input of charge / discharge order information corresponding to the charge / discharge order received by the operator by telephone is performed by the operator operating the operation unit 104.
The display unit 105 displays an image according to the control of the control unit 102.

Next, an example of a processing procedure executed by the power delivery management device 100 will be described with reference to the flowchart of FIG.
In the power delivery management apparatus 100, the required charge / discharge power amount acquisition unit 121 is on standby until the delivery plan determination time is reached (step S101—NO).
In accordance with reaching the delivery plan determination time (step S101-YES), the necessary charge / discharge power amount acquisition unit 121 determines the required charge / discharge power amount of the storage battery 300 of each customer facility 30 as follows. Execute the process.

  First, the required charge / discharge power amount acquisition unit 121 is an initial value “1” for a variable n indicating a number assigned to the customer facility 30 when determining the required charge / discharge power amount of the storage battery 300 of each customer facility 30. "Is substituted (step S102).

  Next, the necessary charge / discharge power amount acquisition unit 121 acquires storage battery state information of the storage battery 300 provided in the nth consumer facility 30 (step S103). For this purpose, the required charge / discharge power amount acquisition unit 121 transmits a storage battery state information request to the storage battery 300 provided in the nth consumer facility 30 from the communication unit 101 via the network 50. In response to the storage battery state information request, the storage battery 300 of the nth customer facility 30 returns storage battery state information indicating its own state. The necessary charge / discharge power amount acquisition unit 121 acquires the storage battery state information returned in this way from the communication unit 101.

  Further, the necessary charge / discharge power amount acquisition unit 121 acquires charge / discharge order information from the customer of the same nth customer facility 30 from the charge / discharge order information storage unit 132 (step S104). When there is no charge / discharge order from the customer of the nth customer facility 30, the charge / discharge order information storage unit 132 does not store the charge / discharge order information. In this case, it is not necessary to acquire charge / discharge order information.

Next, the necessary charge / discharge power amount acquisition unit 121, as described above, based on at least one of the storage battery state information acquired in step S103 and the charge / discharge order information acquired in step S104, the nth The required charge / discharge power amount for the storage battery 300 of the customer facility 30 is determined (step S105).
The required charge / discharge power amount acquisition unit 121 stores the required charge / discharge power amount determined as described above in the required charge / discharge power amount storage unit 133.

  After determining the required charge / discharge power amount in step S105, the required charge / discharge power amount acquisition unit 121 increments the variable n (step S106). In addition, the necessary charge / discharge power amount acquisition unit 121 determines whether or not the variable n is larger than the maximum value (step S107). The maximum value of the variable n corresponds to the number of customer facilities 30 in the delivery area 20.

When it is determined that the variable n is equal to or less than the maximum value (step S107—NO), the storage battery 300 of the customer facility 30 for which the required charge / discharge power amount has not yet been determined remains.
Therefore, the required charge / discharge power amount acquisition unit 121 in this case shifts to the process of determining the required charge / discharge power amount for the storage battery 300 of the next consumer facility 30 by returning the process to step S103.

Then, when it is determined that the variable n has exceeded the maximum value (step S107—YES), the charge / discharge price determination unit 122 determines the charge / discharge price (step S108).
In step S108, the charging / discharging price determination part 122 determines charging / discharging price based on the required charging / discharging electric energy of the storage battery 300 of each customer facility 30 obtained by the process so far.
In step S108, as described above, the unit price of power as a uniform (common) charge price or discharge price may be determined for the consumer, or an individual charge price or discharge price may be determined for each consumer. Also good.

Moreover, the delivery plan determination part 123 determines a delivery plan based on the required charging / discharging electric energy of the storage battery 300 of each customer facility 30 obtained by the process so far (step S109).
As described above, the processing of FIG. 5 is executed by the power delivery management device 100, so that the required charge / discharge power amount, charge / discharge price, and delivery plan of the storage battery 300 for each customer facility 30 in the delivery area 20 are determined. It is determined.
Then, the delivery vehicle 800 patrols the customer facility 30 in the delivery area 20 so as to perform charging and discharging according to the determined required charge / discharge power amount according to the delivery plan decided by the power delivery management device 100. To do.
In addition, the power delivery service provider in the power delivery system of the present embodiment provides the power delivery service using the delivery vehicle 800 as described above, and each according to the charge / discharge price determined by the power delivery management device 100. You can exchange charges with customers.
As described above, in the present embodiment, it is possible to appropriately operate a power delivery service in which charging or discharging is performed on a storage battery included in a consumer by using a power delivery moving body.

Note that the storage battery 300 may have a cartridge-type configuration including a replaceable cartridge. The cartridge-type storage battery includes a predetermined number of cartridge slots, and the cartridges are detachable from the slots. A predetermined number of battery cells are built in the cartridge.
Thus, when the storage battery 300 is a cartridge type, the delivery vehicle 800 is loaded with a replacement cartridge of the same standard as the storage battery 300 and moved, and the delivery operator replaces the cartridge for charging and discharging the storage battery 300. You should make it go.
In addition, it is preferable that the storage battery 300 is provided with a security mechanism so that the storage battery 300 is not used in a manner that is not desired by consumers such as theft by a third party. The security mechanism is not particularly limited, and for example, a key using a number input type, an IC card, biometric authentication, or the like can be adopted.

Second Embodiment
Next, the second embodiment will be described.
FIG. 6 shows a configuration example of the power delivery system in the present embodiment. In the figure, the same parts as those in FIG. 1 are denoted by the same reference numerals, and here, differences from FIG. 1 will be mainly described.

As shown in the figure, in the power delivery system in the present embodiment, a shared storage battery 900 is further provided in the delivery area 20.
The shared storage battery 900 is, for example, a storage battery provided in common to each customer facility 30 and has a capacity that exceeds the storage battery 300 provided in each customer facility 30, for example.
In addition, the shared storage battery 900 is connected to the power delivery management device 100 via the storage battery compatible communication network 40 in the same manner as the storage battery 300 in each customer facility 30. Thereby, the power delivery management apparatus 100 can recognize the state of the SOC or the like in the shared storage battery 900 by receiving the storage battery state information transmitted from the shared storage battery 900 in the same manner as the storage battery 300.

The operation of the power distribution system of this embodiment including the shared storage battery 900 as described above is, for example, as follows.
The power delivery management device 100 in the present embodiment receives the storage battery state information transmitted from the storage battery 300 of each customer facility 30 as in the case of the first embodiment. In addition, the power delivery management device 100 receives a charge order or a discharge order from a consumer made to a charge / discharge order website provided by itself. Further, an operator in the power distribution center 10 receives a charge order or a discharge order from a customer by telephone.
The power delivery management device 100 determines the required charge / discharge power amount of the storage battery 300 for each consumer facility 30 based on the storage battery state information of each storage battery 300 received as described above, the charge order or discharge order from the customer. decide.
Then, the power delivery management device 100 determines a power delivery plan by the delivery vehicle 800 based on the required charge / discharge power amount of each customer facility 30.

Here, in the power delivery system of the present embodiment, the shared vehicle 900 is charged with the power stored in the storage battery 801 by discharging the storage battery 300 to be discharged by the delivery vehicle 800, and the power is stored in the shared storage battery 900. Let
Then, when the delivery vehicle 800 charges the storage battery 300 to be charged, power for charging the storage battery 300 can be prepared by charging the storage battery 801 with the power stored in the shared storage battery 900.

That is, in the present embodiment, in the delivery area 20, surplus power that is not supplied to the load or accommodated to other customer facilities 30 out of the electric power stored in the storage battery 300 in the customer facility 30, Accumulation is performed by concentrating on the shared storage battery 900 via the delivery vehicle 800.
Then, when charging the storage battery 300 to be charged by the delivery vehicle 800, for example, the power collected from the storage battery 300 to be discharged is charged according to all the storage batteries 300 to be charged. You may not be able to cover electricity. In such a case, in order to supplement the charging power in the delivery area 20 with the power stored in the shared storage battery 900, the power stored in the shared storage battery 900 is charged in the storage battery 801 of the delivery vehicle 800, The storage battery 300 to be charged can be circulated by the delivery vehicle 800 and charged.

Then, as described above, the power distribution management device 100 according to the present embodiment causes the surplus power to be accumulated in the shared storage battery 900 when surplus occurs in the power collected from the storage battery 300 to be discharged. Next, determine the power distribution plan (circulation route).
In addition, if all the charging power to the storage battery 300 to be charged is less than the power collected from the storage battery 300 to be discharged, in order to charge the storage battery 300 to be charged in the traveling process of the delivery vehicle 800 The power delivery plan (circulation route) is determined so that the power shortage can be charged from the shared storage battery 900 to the storage battery 801 of the delivery vehicle 800.

In such a configuration, for example, the power stored in the storage battery 300 of the customer facility 30 based on the generated power of the solar battery 400 can be operated so as to charge the storage battery 300 of the consumer who wants to be charged. it can.
Therefore, by providing the shared storage battery 900 in the delivery area 20 as in the present embodiment, for example, the power delivery service provider and the customer facility 30 in the delivery area 20 without receiving power supply from an external power infrastructure. Can easily build an independent energy management system.

Moreover, the power delivery management apparatus 100 in this embodiment can determine a charge / discharge price as follows according to providing the shared storage battery 900 in the delivery area 20. FIG.
That is, the charge / discharge price determination unit 122 in the power delivery management device 100 of this embodiment can determine the charge price or the discharge price based on the amount of power stored in the shared storage battery 900.
The shared storage battery 900 in this embodiment is a power source common to the customer facility 30 in the delivery area 20. From this viewpoint, the following can be said as the relationship between the charge / discharge power of the storage battery 300 required by the consumer and the value of the power stored in the shared storage battery 900.
That is, as the number of customer facilities 30 that require charging of the storage battery 300 increases, the amount of power (SOC) stored in the shared storage battery 900 tends to decrease, and the value of the power stored in the shared storage battery 900 increases. .
Moreover, since the necessity for the charge to the shared storage battery 900 increases as the SOC of the shared storage battery 900 decreases, the value of the electric power discharged from the storage battery 300 in the customer facility 30 as power sales increases.

On the other hand, as the number of customer facilities 30 that require charging of the storage battery 300 decreases, the demand for power from the shared storage battery 900 decreases. At this time, since the surplus power in the delivery area 20 also increases, the SOC of the storage battery 300 tends to be large. In such a state, since there is little demand for the amount of electric power that requires interchange from the outside of the customer facility 30 in the delivery area 20, the value of the electric power stored in the shared storage battery 900 is lowered.
Further, as the SOC of the shared storage battery 900 increases, the necessity for charging the shared storage battery 900 also decreases. Therefore, the electric power discharged from the storage battery 300 in the customer facility 30 for power sale and charged to the shared storage battery 900 The value of will be lower.

  Therefore, the charge / discharge price determination unit 122 in the present embodiment sets so that both the charge price and the discharge price increase as the SOC of the shared storage battery 900 decreases. Conversely, the charge / discharge price determination unit 122 determines that both the charge price and the discharge price become lower as the SOC of the shared storage battery 900 increases.

Moreover, several examples can be given as timings for determining the charge price and the discharge price in the present embodiment.
For example, for one, the charge / discharge price determination unit 122 determines the demand of the customer facility 30 including the storage battery 300 to be charged based on the SOC of the shared storage battery 900 when the delivery plan is determined at the delivery plan determination time. The charging price for the house and the discharging price for the consumer of the customer facility 30 including the storage battery 300 to be discharged can be determined.

In addition, the charge / discharge price determination unit 122 is configured to change the customer facility 30 including the storage battery 300 to be discharged based on the SOC of the shared storage battery 900 when charging the shared storage battery 900 from the storage battery 801 of the delivery vehicle 800. The consumer's discharge price can be determined.
In addition, the charge / discharge price determination unit 122 determines the charge of the customer facility 30 including the storage battery 300 to be charged based on the SOC of the shared storage battery 900 when charging the storage battery 801 of the delivery vehicle 800 from the shared storage battery 900. The charging price of the consumer can be determined.

  In the present embodiment, the charge / discharge price determination unit 122 uses the required charge power amount and the required discharge power amount in the previous first embodiment together with the SOC of the shared storage battery 900, for each customer facility 30. The charge price and the discharge price corresponding to the above may be determined.

<Third Embodiment>
Subsequently, the third embodiment will be described. FIG. 7 shows a configuration example of the power distribution system in the present embodiment. In the figure, the same parts as those in FIG. 1 are denoted by the same reference numerals, and here, differences from FIG. 1 will be mainly described.

The power distribution system shown in FIG. 1 further includes a power generation site 1000 installed outside the distribution area 20.
The power generation site 1000 is a power generation facility provided with a large-scale power generation device 1100. As an example of the power generation apparatus 1100, a large-scale solar power generation facility called a mega solar can be given. Examples of the power generation apparatus 1100 include a collective wind power generation facility called a wind farm or the like. Alternatively, the power generation apparatus 1100 may be a thermal power generation facility, a hydropower generation facility, a geothermal power generation facility, or the like.

In addition, the power generation site 1000 includes a storage battery 1200 (an example of an out-of-region storage battery). The storage battery 1200 is larger in scale than the storage battery 801 of the delivery vehicle 800. The storage battery 1200 is provided for accumulating electric power generated by the power generation device 1100 and charging the accumulated electric power to the storage battery 801 of the delivery vehicle 800.
In addition, when the power generation apparatus 1100 uses natural energy, such as a solar power generation facility or a wind power generation facility, the storage battery 1200 is used to smooth out steep fluctuations in generated power according to the weather. May be used.
As the storage battery 1200, for example, a lead battery, a sodium / sulfur battery, a redox flow battery, a lithium ion secondary battery, or the like can be used.

For example, when the required charging power in the delivery area 20 increases more than a certain amount with respect to the required discharging power, the power required to charge all the storage batteries 300 to be charged is used as the storage battery 300 to be discharged. It may be difficult to cover from.
In such a case, in this embodiment, the delivery vehicle 800 moves to the power generation site 1000, and the storage battery 801 of the delivery vehicle 800 can be charged with the electric power stored in the storage battery 1200. As a result, the storage battery 801 of the delivery vehicle 800 stores power for charging the storage battery 300 to be charged in the delivery area 20. Therefore, the delivery vehicle 800 goes around the delivery area 20 and charges the storage battery 300 to be charged with the electric power stored in the storage battery 801.

Under such a configuration, for example, the power delivery service provider corresponding to the delivery area 20 supplies power from the storage battery 1200 of the power generation site 1000 at a lower price than when purchasing power from the existing power infrastructure, for example. Contract to be able to receive.
Thereby, under the power distribution system of the present embodiment, necessary power can be procured at a lower cost than when power is supplied from the existing power infrastructure.

  In the present embodiment, the plugs of the storage battery 801 of the delivery vehicle 800 and the storage battery 1200 of the power generation site 1000 may be unified with the same standard. Thereby, in charging from the storage battery 1200 to the storage battery 801, the storage battery 1200 and the storage battery 801 can be easily connected without interposing an adapter or the like, for example.

Further, for example, the storage battery 1200 of the power generation site 1000 may be configured with a plurality of cartridges or containers, and the storage battery 801 of the delivery vehicle 800 may have the same standard as the cartridge or container included in the storage battery 1200.
With such a configuration, the storage battery 801 of the delivery vehicle 800 can be supplied with electric power by replacing the storage battery 1200 of the power generation site 1000 with a cartridge or container having a certain SOC or more.

In the present embodiment, there may be a plurality of power generation sites 1000 that can supply power corresponding to one delivery area 20. By having a plurality of power generation sites 1000, even if the SOC of the storage battery 1200 at a certain power generation site 1000 is insufficient, power can be supplied from the storage battery 1200 having a high SOC at another power generation site 1000. . Thereby, the risk that the delivery area 20 becomes insufficient in electric power can be suppressed effectively.
In addition, it is possible to select a power generation site 1000 having a low charge from among the plurality of power generation sites 1000 and receive power supply, which is advantageous in terms of cost.

<Fourth embodiment>
Subsequently, a fourth embodiment will be described. FIG. 8 shows a configuration example of the power delivery system in the present embodiment. In the figure, the same parts as those in FIG. 6 are denoted by the same reference numerals, and differences from FIG. 6 will be mainly described here.

  In the present embodiment, among the consumers in the delivery area 20, there are consumers who own the storage battery-equipped vehicle 300 </ b> A instead of the storage battery 300. In the figure, an example is shown in which a consumer of the consumer facility 30-1 owns a storage battery-equipped vehicle 300A in place of the storage battery 300.

In this embodiment, the storage battery-equipped vehicle 300A is a vehicle including a motor that is power and a storage battery 301 as a power source that drives the motor.
Therefore, the storage battery-equipped vehicle 300A in the present embodiment may be an electric vehicle (EV) that does not include a fuel engine, or a hybrid vehicle (HV) that includes a fuel engine, a motor, and a storage battery. May be. Further, the storage battery-equipped vehicle 300A may be, for example, a plug-in hybrid vehicle (PHV: Plug-in Hybrid Vehicle or PHEV: Plug-in Hybrid Electric Vehicle).

In addition, the storage battery 301 of the storage battery-equipped vehicle 300 </ b> A in the present embodiment is also used as a power source for a load in the corresponding customer facility 30. That is, in this embodiment, the customer facility 30 provided with the storage battery-equipped vehicle 300A is constructed as a V2H (Vehicle To Home) system.
That is, the consumer who owns the storage battery-equipped vehicle 300A can use the storage battery-equipped vehicle 300A as a moving means, and can also use it as a load power source in the corresponding consumer facility 30.

  In addition, the storage battery-equipped vehicle 300 </ b> A in the present embodiment is communicably connected to the power distribution management device 100 of the power distribution center 10 via the storage battery compatible communication network 40. The storage battery-equipped vehicle 300A is a moving body. For this reason, communication via the storage battery compatible communication network 40 of the storage battery-equipped vehicle 300A is performed wirelessly.

The customer facility 30 equipped with the storage battery mounted vehicle 300A receives the power delivery service by the delivery vehicle 800 according to the required charge / discharge power amount or the charge / discharge order determined according to the SOC of the storage battery 301 in the storage battery mounted vehicle 300A. Can do.
That is, in the customer facility 30 equipped with the storage battery-equipped vehicle 300A, charging from the storage battery 801 of the delivery vehicle 800 to the storage battery 301 of the storage battery-equipped vehicle 300A or charging from the storage battery 301 to the storage battery 801 is performed.

  As described above, in the present embodiment, charging / discharging is performed between the storage battery 801 of the delivery vehicle 800 and the storage battery 301 of the storage battery-equipped vehicle 300A. Therefore, it is preferable that the standard of plugs and the like in the storage battery 301 of the storage battery mounted vehicle 300A is made common with the storage battery 801 of the delivery vehicle 800 so that it can be easily connected without an adapter. .

  Note that the charging price when the delivery vehicle 800 circulates and charges the storage battery 301 of the storage battery mounted vehicle 300A from the storage battery 801 as described above may be determined in the same manner as in the second embodiment, for example. Similarly, the discharge price when the delivery vehicle 800 circulates and charges the storage battery 801 with the power discharged from the storage battery 301 may be determined in the same manner as in the second embodiment, for example.

In addition, the storage battery-equipped vehicle 300A is a moving body. Therefore, a consumer who owns the storage battery mounted vehicle 300A may drive the storage battery mounted vehicle 300A to move to the shared storage battery 900 and use the shared storage battery 90 as a charge / discharge station of the storage battery mounted vehicle 300A.
That is, the consumer can charge the storage battery 301 of the storage battery-equipped vehicle 300 </ b> A from the shared storage battery 900 or charge the shared storage battery 900 with the electric power discharged from the storage battery 301.

When the power is received between the storage battery 301 and the shared storage battery 900 of the storage battery-equipped vehicle 300A as described above, the charge / discharge price determination unit 122 in the power delivery management device 100 calculates the charge / discharge price as follows. You may decide.
That is, when the charge to the storage battery 301 of the storage battery mounted vehicle 300A is directly charged from the shared storage battery 900, the charge / discharge price determination unit 122 is charged to the storage battery 301 of the storage battery mounted vehicle 300A by the circulation of the delivery vehicle 800. Than set a lower charging price.
Moreover, the charge / discharge price determination part 122 sets a discharge price as follows, when the charge from the storage battery 301 of the storage battery mounted vehicle 300A to the shared storage battery 900 is directly performed. That is, the charge / discharge price determination unit 122 sets a higher discharge price than when charging the storage battery 801 of the delivery vehicle 800 that has circulated to the customer facility 30 from the storage battery 301 of the storage battery-equipped vehicle 300A.
That is, when power is received between the storage battery 301 and the shared storage battery 900 of the storage battery-equipped vehicle 300A, the cost due to the delivery vehicle 800 moving to the customer facility 30 is reduced. Therefore, in such a case, the charge / discharge price is set so that the consumer is more profitable than when the delivery vehicle 800 goes to the customer facility 30 and performs charge / discharge.

Note that, in the configuration including the shared storage battery 900 as in the second embodiment or the fourth embodiment, for example, as a modification, the plurality of delivery areas 20 are further set as one large-scale delivery area, and the large-scale delivery area You may comprise so that the shared storage battery corresponding to may be provided.
The shared storage battery corresponding to the large-scale delivery area is a higher-order shared storage battery with respect to the shared storage battery 900 for each delivery area 20.
Then, in a large-scale delivery area, the upper delivery vehicle is operated. The upper delivery vehicle collects surplus electric power accumulated in the shared storage battery 900 for each delivery area 20 and accumulates the collected electric power in the upper shared storage battery. Moreover, you may make it charge the electric power with which the high-order delivery vehicle received the charge from the high-order shared storage battery with respect to the shared storage battery 900 with insufficient power in the delivery area 20.
The shared storage battery 900 may be configured to be connected to a commercial power source supplied by an existing power infrastructure, for example.

  In each of the above-described embodiments, as a modification, for example, when a plurality of delivery vehicles 800 are operating in the same delivery area 20, power interchange (reception) is performed between the storage batteries 801 of the plurality of delivery vehicles 800. You may do it.

  Note that the power delivery moving body is not limited to a vehicle such as the delivery car 800, and may be a ship, an aircraft, a helicopter, or the like.

The program for realizing the function as the power distribution management device 100 is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read into the computer system and executed. The processing as the power distribution management device 100 may be performed. Here, “loading and executing a program recorded on a recording medium into a computer system” includes installing the program in the computer system. The “computer system” here includes an OS and hardware such as peripheral devices. Further, the “computer system” may include a plurality of computer devices connected via a network including a communication line such as the Internet, WAN, LAN, and dedicated line. The “computer-readable recording medium” refers to a storage device such as a flexible medium, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system. As described above, the recording medium storing the program may be a non-transitory recording medium such as a CD-ROM. The recording medium also includes a recording medium provided inside or outside that is accessible from the distribution server in order to distribute the program. The code of the program stored in the recording medium of the distribution server may be different from the code of the program that can be executed by the terminal device.
That is, the format stored in the distribution server is not limited as long as it can be downloaded from the distribution server and installed in a form that can be executed by the terminal device. Note that the program may be divided into a plurality of parts, downloaded at different timings, and combined in the terminal device, or the distribution server that distributes each of the divided programs may be different. Furthermore, the “computer-readable recording medium” holds a program for a certain period of time, such as a volatile memory (RAM) inside a computer system that becomes a server or a client when the program is transmitted via a network. Including things. 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.

DESCRIPTION OF SYMBOLS 10 Power distribution center, 20 delivery area, 40 Storage battery communication network, 50 network, 100 Power delivery management apparatus, 101 Communication part, 102 Control part, 103 Memory | storage part, 104 Operation part, 105 Display part, 121 Required charging / discharging electric energy Acquisition unit, 122 Charge / discharge price determination unit, 123 Delivery plan determination unit, 131 Storage battery specification information storage unit, 132 Charge / discharge order information storage unit, 133 Required charge / discharge power amount storage unit, 134 Charge / discharge price storage unit, 135 Delivery plan Storage unit, 200 telephone, 300 storage battery, 300A storage battery mounted vehicle, 301 storage battery, 400 solar battery, 500 network terminal, 600 telephone, 800 delivery vehicle, 801 storage battery, 802 charge / discharge device, 900 shared storage battery, 1000 power generation site, 1100 power generation Device, 1200 storage battery

Claims (8)

A power delivery management device and a power delivery mobile;
The power delivery management device includes:
A required charge / discharge power amount acquisition unit for acquiring a required charge power amount or a required discharge power amount of a storage battery of each customer facility in a delivery area;
Based on the required charge power amount or required discharge power amount of each storage battery acquired by the required charge / discharge power amount acquisition unit, the charge price corresponding to the charge to the storage battery, or the price of the power discharged from the storage battery A charge / discharge price determination unit for determining a discharge price;
The power delivery mobile unit performs a charge or discharge according to the required charge power amount or the required discharge power amount acquired by the required charge / discharge power amount acquisition unit for the storage battery of each customer facility. A power distribution system that moves between home facilities. The required charge / discharge power acquisition unit is:
The power distribution system according to claim 1, wherein the required charge power amount or the required discharge power amount determined based on storage battery state information indicating a state of the storage battery transmitted from a storage battery is acquired. The required charge / discharge power acquisition unit is:
The power delivery system according to claim 1 or 2, wherein the required charge power amount or the required discharge power amount determined based on a charge order or a discharge order for the storage battery from a consumer corresponding to the customer facility is acquired. . A power delivery management device, a shared storage battery, and a power delivery mobile;
The power delivery management device includes:
A required charge / discharge power amount acquisition unit for acquiring a required charge power amount or a required discharge power amount of a storage battery of each customer facility in a delivery area;
A charge price corresponding to charging the storage battery, or a charge / discharge price determination unit for determining a discharge price that is a price of electric power discharged from the storage battery,
The power delivery mobile unit performs a charge or discharge according to the required charge power amount or the required discharge power amount acquired by the required charge / discharge power amount acquisition unit for the storage battery of each customer facility. Move between home facilities,
The shared storage battery stores the power charged in the power delivery mobile body from the storage battery of the customer facility, and discharges the power delivery mobile body so that the electric power according to the required charge power amount is charged. Is done,
The charge / discharge price determination unit determines the charge price or the discharge price based on an amount of power stored in the shared storage battery. The power delivery system according to any one of claims 1 to 4, further comprising an external storage battery that is installed outside the delivery area and charges the power delivery mobile unit with electric power. The power delivery system according to any one of claims 1 to 5, wherein the storage battery in the customer facility is a storage battery provided in the vehicle as a power source for driving the vehicle. A power delivery method in a power delivery system comprising a power delivery management device and a power delivery mobile,
The power delivery management device includes:
A required charge / discharge power amount acquisition step of acquiring a required charge power amount or a required discharge power amount of a storage battery of each customer facility in a delivery area;
Based on the required charge power amount or required discharge power amount of each storage battery acquired in the required charge / discharge power amount acquisition step, the charge price corresponding to the charge to the storage battery, or the price of the power discharged from the storage battery. A charge / discharge price determination step for determining a discharge price,
The power delivery mobile unit performs a charge or discharge according to the required charge power amount or the required discharge power amount acquired by the required charge / discharge power amount acquisition step for the storage battery of each customer facility. Power delivery method for moving between home facilities. A power delivery method in a power delivery system comprising a power delivery management device, a power delivery mobile, and a shared storage battery,
The power delivery management device includes:
A required charge / discharge power amount acquisition step of acquiring a required charge power amount or a required discharge power amount of a storage battery of each customer facility in a delivery area;
A charge price corresponding to the charge to the storage battery, or a charge / discharge price determination step for determining a discharge price that is a price of power discharged from the storage battery,
The power delivery mobile unit performs a charge or discharge according to the required charge power amount or the required discharge power amount acquired by the required charge / discharge power amount acquisition step for the storage battery of each customer facility. Move between home facilities,
The shared storage battery stores the power charged in the power delivery mobile body from the storage battery of the customer facility, and discharges the power delivery mobile body so that the electric power according to the required charge power amount is charged. Is done,
The charge / discharge price determination step determines the charge price or the discharge price based on the amount of power stored in the shared storage battery.

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