JP2016062538A - Power accommodation support device, power accommodation support method, and power accommodation support program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To support power accommodation.SOLUTION: A power accommodation support device includes: a quality determination part for determining contract quality which is quality of power for a supplier to supply to a consumer on the basis of supply quality which is quality of power for the supplier to be able to supply and request quality which is quality of power for the consumer, supplied with the power from the supplier, to request; and a counter value determination part for determining a counter value of the power for the supplier to supply to the consumer on the basis of the contract quality determined by the quality determination part.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a power interchange support device, a power interchange support method, and a power interchange support program.

  A power system called a smart grid or the like that attempts to control a power supply by connecting a control device for controlling power equipment to a communication network to form a network and controlling the power supply has been studied. In such an electric power system, in addition to the electric power system of an electric power company, consumers such as individuals, condominiums, factories, and commercial facilities generate electricity based on power storage facilities and natural energy such as solar power generation and wind power generation. It is assumed that power generation facilities are provided and power is interchanged between consumers (see, for example, Patent Document 1).

JP 2006-288162 A

  However, such a power generation facility based on natural energy cannot always supply power stably because the amount of power generation varies depending on the climate. For this reason, it is difficult to set a fixed electricity charge like the price for power supply by a conventional electric power company. Therefore, it is desirable to support various power interchanges by determining an appropriate price according to such supplied power.

  The present invention has been made in view of such circumstances, and provides a power accommodation support device, a power accommodation support method, and a power accommodation support program that support power accommodation.

  In order to solve the above-described problems, one aspect of the present invention is a request that is a supply quality that is a quality of power that can be supplied by a supplier and a quality that is required by a consumer who is supplied with power from the supplier. The quality determining unit that determines the contract quality, which is the quality of the power supplied by the supplier to the consumer based on the quality, and the power that the supplier supplies to the customer based on the contract quality determined by the quality determining unit A power deciding unit that decides the price of the power interchange support apparatus.

  In addition, according to one embodiment of the present invention, the power quality includes the type of power AC or DC, the rated voltage, the rated current, the rated power amount, and a power failure during power supply from the supplier to the consumer. It is characterized in that it is determined including at least one of the probability, the time zone in which the power failure occurs, the duration of the power failure, and the frequency of occurrence of the power failure.

  One embodiment of the present invention includes a power supply control unit that supplies power from a supplier to a consumer based on the contract quality determined by the quality determination unit.

  In addition, according to one aspect of the present invention, the power supply control unit supplies power from the inside to the outside of each power facility in the power facilities provided by the supplier and the consumer, and supplies power from the outside to the inside. The power is supplied from the supplier to the consumer by transmitting a control signal to the switching device that switches the direction to switch the direction.

  Further, according to one aspect of the present invention, a supply quality information receiving unit that receives supply quality information indicating the quality of power that can be supplied from a supplier, and a supply received by the supply quality information receiving unit from a supplier terminal of the supplier A quality information list is transmitted to the consumer terminal of the consumer and displayed, and a supply quality information list transmission unit for displaying the quality information list and the supply quality information list displayed on the consumer terminal of the consumer. A selected supply quality information receiving unit that receives the selected supply quality information indicating the supply quality information, and the quality determining unit contracts the power quality indicated by the selected supply quality information received by the selected supply quality information receiving unit. Determine as quality.

  Further, according to one aspect of the present invention, there is provided a required quality information receiving unit that receives required quality information indicating the quality of power required by a consumer from a customer terminal of the customer, and a required quality received by the required quality information receiving unit. Either a request quality information list transmission unit for transmitting and displaying a list of information to the supplier's supplier terminal, or one selected by the supplier from the list of required quality information displayed on the supplier's supplier terminal A selection request quality information receiving unit that receives the selection request quality information indicating the requested quality information, and the quality determination unit determines the power quality indicated by the selection request quality information received by the selection request quality information reception unit as the contract quality It is determined as follows.

  In addition, according to one aspect of the present invention, the power interchange support device has a supply quality that is a quality of power that can be supplied by the supplier, and a required quality that is a quality of power that is demanded by a customer who is supplied with power from the supplier. And determining the contract quality, which is the quality of the power supplied by the supplier to the consumer, and determining the consideration for the power supplied by the supplier to the consumer based on the determined contract quality; The power interchange support method is characterized in that

  Another embodiment of the present invention is supply quality, which is the quality of power that can be supplied to a computer of a power interchange support apparatus, and power quality required by a consumer who is supplied with power from the supplier. Based on the required quality, the step of determining the contract quality, which is the quality of the power supplied to the consumer by the supplier, and the price of the power supplied to the consumer by the supplier based on the determined contract quality And a power interchange support program for executing the steps.

  As described above, according to the present invention, the power interchange support device has the supply quality that is the quality of power that can be supplied by the supplier and the quality of power that is demanded by the consumers who are supplied with power from the supplier. A supplier determines the contract quality, which is the quality of power supplied by the supplier to the customer based on a certain required quality, and the supplier supplies the customer based on the contract quality determined by the quality determiner. Since it is provided with a price determination unit that determines the price of power to be provided, it is possible to support power interchange.

It is a block diagram which shows the structure of the power accommodation system by one Embodiment of this invention. It is a figure which shows the example of data of the supply quality information by one Embodiment of this invention. It is a figure which shows the example of data of the required quality information by one Embodiment of this invention. It is a figure showing an example of data of bid history information by one embodiment of the present invention. It is a figure which shows the example of the auction selection screen by one Embodiment of this invention. It is a figure which shows the example of the power sale auction screen by one Embodiment of this invention. It is a figure which shows the example of the power purchase auction screen by one Embodiment of this invention. It is a figure which shows the operation example of the power sale auction by one Embodiment of this invention. It is a figure which shows the operation example of the power purchase auction by one Embodiment of this invention.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a configuration of a power accommodation system 1 according to the present embodiment. The power interchange system 1 is a computer system that controls power supply by connecting a control device that controls power equipment to a communication network to form a network and communicating power status and the like. The power accommodation system 1 includes a parent cluster unit 100, a child cluster unit 200, a child cluster unit 300, a child cluster unit 400, an EMS (Energy Management System) device 500, and a power accommodation support device 600. .

  The parent cluster unit and the child cluster unit are connected via a power network (power supply path 151, power supply path 152, power supply path 153, power supply path 154, etc.). Control device 110 included in parent cluster unit 100, control device 210 and user terminal 230 included in child cluster unit 200, control device 310 and user terminal 330 included in child cluster unit 300, and control device 410 included in child cluster unit 400 The user terminal 430, the EMS device 500, and the power interchange support device 600 are connected via the network 5. The network 5 is an information communication network configured by a wired or wireless communication network that is the Internet, a WAN (Wide Area Network), a LAN (Local Area Network), a dedicated line, a telephone network, or a combination thereof. Here, three child cluster units (child cluster unit 200, child cluster unit 300, and child cluster unit 400) will be described in an explicit manner. However, one or two child cluster units connected to the parent cluster unit 100 may be used. It may be four or more.

The parent cluster unit 100 is a group of power equipment connected to the power system 10, and includes a control device 110, a power receiving / transforming device 121, and a conversion device 122. The power system 10 is a commercial power system supplied from an electric power company.
The power receiving / transforming device 121 includes a circuit breaker (CB (circuit breaker)), a transformer, a protective relay, and the like, and supplies a part of the power received from the power system 10 to the conversion device 122. For example, the power receiving / transforming device 121 steps down a high-voltage AC voltage (for example, three-phase AC 6600 V) supplied from the power system 10 to a predetermined low-voltage AC voltage (for example, three-phase AC 400 V), and converts the low-voltage AC voltage to the conversion device 122. To supply.
The conversion device 122 converts a part of the power supplied from the power system 10 via the power receiving / transforming device 121 into a desired system and voltage, and outputs it to the power supply path 151. For example, the converter 122 is a rectifier that converts commercial AC power into DC power, converts the low-voltage AC voltage input from the power receiving / transforming device 121 into a DC voltage of a predetermined voltage, and outputs the DC voltage to the power supply path 151. .

  The control device 110 is a computer device that communicates with other computer devices via the network 5, and controls the power receiving / transforming device 121 and the conversion device 122. For example, the control device 110 collects information indicating the states of the power receiving / transforming device 121 and the conversion device 122 detected by the power receiving / transforming device 121 and the conversion device 122, respectively, and controls the collected information and the control from the EMS device 500. The power receiving / transforming device 121 and the conversion device 122 are controlled accordingly.

  The child cluster unit 200 is a power equipment group of consumers such as individuals, condominiums, factories, and commercial facilities, and is connected to the power system 10 via the parent cluster unit 100. The child cluster unit 200 includes a control device 210, a detection device 221, a conversion device 222, a power feeding path 223, a power generation device 224, a power storage device 226, a load device 228, and a user terminal 230.

  The converter 222 converts the power supplied via the power supply path 152 and supplies the converted power to the power supply path 223. The conversion device 222 converts the power supplied via the power supply path 223 and supplies the converted power to the power supply path 152. The converter 222 controls whether or not to supply the converted power and the direction of supplying the converted power, that is, the power conversion direction, according to the control from the control device 210. Thus, the conversion device 222 is a switching device that switches between a direction in which power is supplied from the inside of the power facility of the child cluster unit 200 to the outside and a direction in which power is supplied from the outside to the inside. The converter 222 detects the output state, and sends a detection result to the controller 210 in response to a request from the controller 210.

The detection device 221 is provided in the power supply path 152, and is supplied to the child cluster unit 200 via the power supply path 152 and detects the amount of power (power usage) used in the child cluster unit 200. The detection device 221 sends a detection result to the control device 210 in response to a request from the control device 210.
In addition to the conversion device 222, a power generation device 224, a power storage device 226, and a load device 228 are connected to the power supply path 223. The power supply path 223 is an electric path that supplies the power supplied from the conversion device 222, the power generation device 224, and the power storage device 226 to other devices.

The power generation device 224 is a facility that generates electric power. For example, the power generation device 224 generates power based on natural energy and outputs the generated power to the power supply path 223 according to control from the control device 210. For example, the power generation device 224 includes facilities such as solar power generation, wind power generation, small hydropower generation, geothermal power generation, and tidal power generation. In the following description, solar power generation will be described as an example.
The power storage device 226 stores the electric power supplied from the conversion device 222 or the power generation device 224 via the power supply path 223 in accordance with control from the control device 210. The power storage device 226 outputs the stored power to the power supply path 223 according to control from the control device 210 and supplies the power to the conversion device 222 or the load device 228 via the power supply path 223.
The load device 228 consumes power supplied from the conversion device 222, the power generation device 224, and the power storage device 226 via the power feeding path 223.

  The control device 210 collects information such as facility information and operation status regarding the conversion device 222, the power generation device 224, and the power storage device 226. The control device 210 collects information from the conversion device 222, the power generation device 224, and the power storage device 226, and notifies the EMS device 500 of the collection result. The facility information related to the converter 222 includes information such as the rated output power amount and the rated output current. Information such as an operation state regarding the converter 222 includes information indicating an output power amount, an output current, an abnormal state, and the like. The facility information related to the power generation device 224 includes information such as a rated output power amount (rated generated power amount) and a rated output current. Information such as the operating state relating to the power generation device 224 includes information indicating the amount of generated power, the output current, and an abnormal state. The facility information related to the power storage device 226 includes information such as the rated stored power amount (rated stored power amount, storage battery capacity). Information such as an operating state related to power storage device 226 includes information indicating a state of charge (SOC), an abnormal state, and the like.

In addition, the control device 210 controls the conversion device 222, the power generation device 224, and the power storage device 226 in accordance with control from the EMS device 500. For example, the control device 210 controls the conversion device 222 to perform power conversion and the power conversion direction. The control of the power conversion direction means that the power supplied from outside the own cluster is converted and supplied to the inside of the own cluster, or conversely, the power supplied from the inside of the own cluster is converted to the outside of the own cluster. It is the control which sets which of the supply to supply is selected. Further, the control device 210 controls whether or not the generated power is output to the power generation device 224. Control device 210 controls power storage device 226 whether to output the stored power and whether to store the power.
The child cluster unit 200 may not include a part of the configuration of the power generation device 224, the power storage device 226, and the load device 228.

  The user terminal 230 is a computer device used by the user of the child cluster unit 200, and is, for example, a mobile phone terminal such as a PC (Personal Computer), a tablet PC, or a smartphone. The user terminal 230 includes an input unit that receives input of information in accordance with an operation from the user, a display unit that displays information, a communication unit that communicates with other computer devices via the network 5, and the like. In addition, the user terminal 230 communicates with, for example, a web server connected via the network 5 to acquire a web page and display it on a display unit, or to transmit information input from a user. It has the function of.

  The child cluster unit 300 and the child cluster unit 400 have the same configuration as the child cluster unit 200. The child cluster unit 300 includes a control device 310, a detection device 321, a conversion device 322, a power feeding path 323, a power generation device 324, a power storage device 326, a load device 328, and a user terminal 330. The child cluster unit 400 includes a control device 410, a detection device 421, a conversion device 422, a power supply path 423, a power generation device 424, a power storage device 426, a load device 428, and a user terminal 430. Control device 310 and control device 410, detection device 321 and detection device 421, conversion device 322 and conversion device 422, power supply path 323 and power supply path 423, power generation device 324 and power generation device 424, power storage device 326 and power storage The device 426, the load device 328, the load device 428, the user terminal 330, and the user terminal 430 are respectively a control device 210, a detection device 221, a conversion device 222, a power supply path 223, and a child cluster unit 200. The power generation device 224, the power storage device 226, the load device 228, and the user terminal 230 have the same configuration. For example, the capacity of each component can be set to a different value for each child cluster. In the present embodiment, a description will be given mainly using the child cluster unit 200 as an example of a cluster of users who are consumers or suppliers.

  The EMS device 500 communicates with the control devices (the control device 110, the control device 210, the control device 310, and the control device 410) of the parent cluster unit 100 and the child cluster units 200, 300, and 400 to control each power facility. It is. For example, the EMS device 500 controls the conversion device 222, the power generation device 224, and the power storage device 226 via the control device 210. The EMS device 500 collects information collected by the control device 210 from the conversion device 222, the power generation device 224, and the power storage device 226 via the control device 210. Note that the EMS device 500 may be configured such that the EMS device 500 adjusts the control state of the conversion device 222, the power generation device 224, and the power storage device 226 based on information obtained from the outside such as an electric power company.

  The power interchange support device 600 is a computer device connected to the EMS device 500, the parent cluster unit 100, the child cluster unit 200, the child cluster unit 300, and the child cluster unit 400 via the network 5. Support power interchange between clusters. As described above, the child cluster unit 200, the child cluster unit 300, and the child cluster unit 400 are, for example, power equipment groups of consumers such as individuals, condominiums, factories, and commercial facilities. It is possible to supply electric power from the power generation equipment based on the outside. However, such electric power based on natural energy varies in quality of electric power that can be supplied due to fluctuations in the amount of power generated due to climate and the like. Thus, it is desirable to match the quality of the output supplied by the supplier with the quality of the power required by the customer, determine the price according to the situation, and support various power interchanges.

  Therefore, the power interchange support device 600 provides the supply quality, which is the quality of power that can be supplied by the suppliers of each cluster included in the power interchange system 1, and the quality of power required by the consumers who are supplied with power from the suppliers. Collecting information on the required quality and auctioning electricity. In addition, the power interchange support device 600 controls the power supply from the supplier to the consumer based on the power quality and the value determined by the auction. For example, the power interchange support device 600 transmits a list of supply quality information related to the power supplied from the supplier to the user terminal of the consumer, displays the list, and accepts bids from the consumer (hereinafter referred to as power sale). A reverse auction for receiving bids from the supplier (hereinafter also referred to as a power purchase auction). ) (Hereinafter referred to simply as an auction, including both a power selling auction and a power buying auction) control processing. Hereinafter, such an auction control process will be described in detail. The power interchange support device 600 includes a communication control unit 610, a storage unit 620, an auction control unit 630, and a power supply control unit 640.

The communication control unit 610 communicates with the control device 110, the user terminal 230, the user terminal 330, the user terminal 430, and the EMS device 500 via the network 5.
The storage unit 620 includes a supply quality information storage unit 621, a required quality information storage unit 622, and a bid history storage unit 623, and stores various information.
The supply quality information storage unit 621 stores supply quality information that is information related to supply quality, which is the quality of power that can be supplied by the supplier. A power sale auction is performed based on this supply quality information. Here, the quality of power refers to the type of AC or DC, the rated voltage, the rated current, the rated power amount, the probability that a power outage will occur during power supply from the supplier to the customer, and the power outage. Is determined including at least one of the time zone in which the power failure occurs, the duration of the power failure, and the frequency of occurrence of the power failure.

  FIG. 2 is a diagram illustrating a data example of supply quality information stored in the supply quality information storage unit 621. The supply quality information includes user ID (Identifier), contact information, cluster ID, auction ID, auction period, supply period, AC / DC, electric quantity (rated voltage (V) / rated current ( A) / rated power amount (W)), power generation type, power failure information (power failure occurrence probability / power failure time zone / power failure duration / power failure occurrence frequency), and initial charge information are included. Such supply quality information is transmitted from the user terminal of the supplier who supplies the power to the power interchange support device 600 and stored therein.

  The user ID is information for identifying a user who is a supplier in the cluster. The contact information is information indicating the contact information of the corresponding user, and includes, for example, an e-mail address and a telephone number. The cluster ID is information for identifying a cluster having a power facility that supplies power indicated by the supply quality information. The auction ID is information for identifying supply quality information that is a target of a bid by a power sale auction. That is, as will be described later, a series of bids for one supply quality information can be identified by associating the same auction ID with one or a plurality of bids for one supply quality information. The auction period is information indicating a holding period of a power selling auction performed based on the supply quality information. For example, the auction period is associated with the date (for example, YYYY / MM / DD format) indicating the start date and the end date of the power sale auction. The auction period can be set to a certain predetermined period (for example, 15 days), for example.

  The supply period is information indicating a period during which power is supplied with the quality indicated by the supply quality information. The supply period is associated with, for example, the date (for example, YYYY / MM / DD format) indicating the supply start date and the supply end date. In this example, the auction period and the supply period are shown as the year, month, and day, but information including the hour, minute, and second (for example, YYYY / MM / DD hh: mm: ss format) may be used. The auction period and the supply period may be determined in units of years, months, days, and hours, and arbitrary periods may be determined by the user. AC / DC is information indicating whether the supplied power is AC or DC, for example, “AC” is associated with AC and “DC” is associated with DC.

  The amount of electricity (rated voltage (V) / rated current (A) / rated power amount (W)) is information indicating the physical quantity of electricity to be supplied. For example, the rated voltage (V) indicates the supplied voltage, and the rated current. (A) shows the electric current to supply, and rated electric energy (W) shows the electric energy to supply. The power generation type is information indicating a facility that generates power to be supplied, and is associated with a type such as “sunlight” or “wind power”, for example.

  The power failure information (power failure occurrence probability / power failure time zone / power failure duration / power failure occurrence frequency) is information relating to a power failure that may occur during power supply. For example, the probability of a power outage indicates the probability that a power outage will occur, the power outage time zone indicates the time zone during which the power outage occurs, and the power outage duration indicates the time that the power outage will continue ( Time), and the frequency of power outages indicates the frequency of power outages. For example, when the power generation type is sunlight, power cannot be generated at night, and thus the probability of power outage is 100%. In this case, the power failure time zone is a night time zone, for example, from 17:00 to 6:00. In this case, for example, the power outage duration is 13 hours, and the frequency of power outages is daily. Here, the power failure information may be associated with different values depending on the season. Here, for example, in the case of photovoltaic power generation, it is considered that a power failure may occur due to the climate even in the daytime. Therefore, a value different from that at night can be associated with the power failure during the daytime as power failure information. The initial fee is an initial value of the fee in the power sale auction. The fee is a fixed fee per month, for example. The supply quality information storage unit 621 can store a plurality of supply quality information input from a plurality of suppliers.

  The required quality information storage unit 622 is configured with required quality information, which is information related to required quality, which is the quality of power required by a consumer who is supplied with power from a supplier. FIG. 3 is a diagram illustrating a data example of required quality information stored in the required quality information storage unit 622. A power purchase auction is performed based on the required quality information. The supply quality information includes user ID (Identifier), contact information, cluster ID, auction ID, auction period, supply period, AC / DC, electric quantity (rated voltage (V) / rated current ( A) / rated power amount (W)), power generation type, power failure information (power failure occurrence probability / power failure time zone / power failure duration / power failure occurrence frequency), and initial charge information are included. Such required quality information is transmitted from the user terminal of the consumer who requests the power to the power interchange support device 600 and stored.

  Information on each item included in the required quality information is the same as information on each item included in the supply quality information. That is, the user ID is information for identifying a user who is a consumer in the cluster. The contact information is information indicating the contact information of the corresponding user. The cluster ID is information for identifying a cluster having a power facility that requests power indicated by the required quality information. The auction ID is information that identifies required quality information that is a target of a bid by a power purchase auction. The auction period is information indicating a holding period of a power purchase auction performed based on the required quality information. The supply period is information indicating a period in which power is requested with the quality indicated by the required quality information. AC / DC is information indicating whether the supplied power is AC or DC. The amount of electricity (rated voltage (V) / rated current (A) / rated power amount (W)) is information indicating the required physical quantity of electricity. The power failure information (power failure occurrence probability / power failure time zone / power failure duration / power failure occurrence frequency) is information relating to a power failure that can be permitted during the power supply. The initial fee is an initial value of the fee in the power purchase auction. The required quality information storage unit 622 can store a plurality of required quality information input from a plurality of consumers.

  The bid history storage unit 623 stores bid history information indicating the bid history of the auction. FIG. 4 is a diagram illustrating a data example of bid history information stored in the bid history storage unit 623. The bid history information includes auction ID, bid user ID, bid date, and fee information. The auction ID is information for identifying supply quality information stored in the supply quality information storage unit 621 or request quality information stored in the request quality information storage unit 622, and identifies a bid object in the power sale auction or the power purchase auction. Information. The bid user ID is information for identifying a user who has bid for the bid target. The bid date is information indicating the date on which the bid was made. In this example, the bidding date is an example in which the date is a date, but information including up to hour, minute and second may be used. The fee is information indicating a bid fee.

  Returning to FIG. 1, the auction control unit 630 has a function of a web server, for example, and performs auction control processing by communicating with other computer devices via the network 5. The auction control unit 630 includes a supply quality information reception unit 631, a supply quality information list transmission unit 632, a selection supply quality information reception unit 633, a required quality information reception unit 634, a required quality information list transmission unit 635, a selection A required quality information receiving unit 636, a quality determining unit 637, and a consideration determining unit 638 are provided.

  The supply quality information receiving unit 631 receives supply quality information indicating the quality of power that can be supplied from the user terminal 230 that is the supplier terminal of the supplier in the power selling auction, and the received supply quality information Is stored in the supply quality information storage unit 621.

  When the supply quality information list transmission unit 632 receives the power sale auction connection request from the user terminal 230 which is the customer terminal of the customer, the supply quality information reception unit 631 receives and stores it in the supply quality information storage unit 621. A list of supply quality information is read out and transmitted to the user terminal 230 which is a consumer terminal of the consumer for display. FIG. 5 is a diagram illustrating an example of an auction selection screen that the auction control unit 630 transmits to the user terminal 230 for display. On the auction selection screen, a button for selecting a power sale auction and a button for selecting a power purchase auction are displayed. When the user presses a power sale auction button on the auction selection screen, the user terminal 230 transmits a power sale auction connection request to the power interchange support device 600.

  When the supply quality information list transmission unit 632 receives the power sale auction connection request transmitted from the user terminal 230, the power supply auction screen including the supply quality information list is transmitted to the user terminal 230 and displayed. FIG. 6 is a diagram illustrating an example of a power sale auction screen that the supply quality information list transmission unit 632 transmits to the user terminal 230 and displays. The power sale auction screen includes, for example, an auction period, a supply period, AC / DC, electricity (rated voltage (V) / rated current (A) / rated power (W)), power generation type, Information on power outage information (power outage probability / power outage time zone / power outage duration / power outage occurrence frequency) and current charge / initial charge is displayed. The item having the same name as the item included in the supply quality information is the same information, and the current fee indicates the highest amount bid for the supply quality information.

  The supply quality information included in the power sale auction screen can be displayed in the order sorted (rearranged) by arbitrary information. For example, in the initial state, the items can be sorted and displayed in descending order of the end date of the auction period, and can be sorted and displayed by an arbitrary item according to a request from the user. Here, the supply quality information list included in the power sale auction screen includes an auction ID for identifying each supply quality information, but the auction ID may not be displayed on the screen. For example, when the power sale auction screen is configured by HTML (HyperText Markup Language), the auction ID is associated as a hidden tag, and the power requested by the customer is selected from the information included in the supply quality information on the screen. Only useful information can be displayed.

  Here, each of the supply quality information on the power sale auction screen is displayed with an operator for inputting a bid amount and an operator for inputting a bid request in association with each other. In this example, a bid amount text box 901 and a bid button 902 are displayed on the right end of the power sale auction screen. When a user who is a consumer inputs a bid amount exceeding the current fee in the bid amount text box 901 and presses the bid button 902, the user terminal 230 presses the bid amount input in the bid amount text box 901 and The selected supply quality information including the auction ID for identifying the supply quality information corresponding to the bid button 902 is transmitted to the power interchange support device 600.

  The selected supply quality information receiving unit 633 receives any supply quality information selected by the consumer from the list of supply quality information displayed on the user terminal 230 that is the consumer terminal of the consumer in the power selling auction. The selected supply quality information is received. The selected supply quality information receiving unit 633 also includes the auction ID included in the received selected supply quality information, the bid user ID that is the user ID of the user terminal 230 that transmitted the selected supply quality information, and the bid year that is the current date and time. The bid history storage unit 623 stores the bid history information that associates the date and the fee that is the bid amount included in the selected supply quality information.

  The requested quality information receiving unit 634 receives requested quality information indicating the quality of power required by the customer from the user terminal 230 that is the customer terminal of the customer in the power purchase auction, and receives the received requested quality information. The required quality information storage unit 622 is stored.

When the power purchase auction button is pressed on the above-described auction selection screen, the user terminal 230 transmits a power purchase auction connection request to the power interchange support device 600.
When the request quality information list transmission unit 635 receives a power purchase auction connection request from the user terminal 230 that is a supplier terminal of the supplier, the request quality information reception unit 634 receives the request and stores it in the request quality information storage unit 622. A list of required quality information is read, and a power purchase auction screen including a list of supply quality information is transmitted to the user terminal 230 which is a supplier terminal of the supplier and displayed.

  FIG. 7 is a diagram illustrating an example of a power purchase auction screen that the required quality information list transmission unit 635 transmits to the user terminal 230 and displays. The power purchase auction screen includes, for example, an auction period, a supply period, AC / DC, electricity (rated voltage (V) / rated current (A) / rated power (W)), power generation type, Information on power outage information (power outage probability / power outage time zone / power outage duration / power outage occurrence frequency) and current charge / initial charge is displayed. The item having the same name as the item included in the required quality information is the same information, and the current fee indicates the lowest fee bid for the required quality information.

  The required quality information included in the power purchase auction screen can be sorted and displayed in the same manner as the supply quality information included in the power sale auction screen. Here, similarly to the power sale auction screen, the list of required quality information included in the power purchase auction screen includes an auction ID for identifying each required quality information, but the auction ID is displayed on the screen. It does not have to be displayed. Similarly to the power sale auction screen, each of the required quality information on the power purchase auction screen displays an operator for inputting a bid amount and an operator for inputting a bid request in association with each other. . In this example, a bid amount text box 911 and a bid button 912 are displayed at the right end of the power purchase auction screen. When a bid amount lower than the current fee is input to the bid amount text box 911 by the user as a supplier and the bid button 912 is pressed, the user terminal 230 presses the bid amount input to the bid amount text box 911 and The selected requested quality information including the requested auction ID for identifying the requested quality information corresponding to the bid button 912 is transmitted to the power interchange support apparatus 600.

  The selected required quality information receiving unit 636 receives any required quality information selected by the supplier from the list of required quality information displayed on the user terminal 230 that is the supplier terminal of the supplier in the power purchase auction. The selected request quality information is received. The selection request quality information receiving unit 636 also includes the auction ID included in the received selection request quality information, the bid user ID that is the user ID of the user terminal 230 that transmitted the selection request quality information, and the bid year that is the current date and time. The bid history storage unit 623 stores the bid history information that associates the date and the fee that is the bid amount included in the selection request quality information.

  Based on the supply quality that is the quality of the electric power that can be supplied by the supplier and the required quality that is the quality of the electric power requested by the customer who is supplied with power from the supplier, the quality determination unit 637 The contract quality, which is the quality of power supplied to consumers, is determined. For example, the quality determination unit 637 reads the supply quality information stored in the supply quality information storage unit 621 and detects supply quality information whose end date of the auction period is the current date (previous).

  In the power selling auction, the quality determination unit 637 selects the bid history information with the highest fee among the bid history information stored in the bid history storage unit 623 in association with the auction ID included in the detected supply quality information. To detect. The quality determination unit 637 sets the user indicated by the user ID included in the supply quality information as the supplier, and the user indicated by the bid user ID included in the detected bid history information as the consumer. It is determined that power is to be accommodated. That is, it is determined that the user who is the consumer who has presented the highest charge for the supply quality information has made a successful bid within the power sale auction period. Thus, the quality determination unit 637 determines the power quality indicated by the selected supply quality information received by the selected supply quality information reception unit 633 as the contract power quality.

  In the power purchase auction, the quality determination unit 637 selects the bid history information with the lowest charge among the bid history information stored in the bid history storage unit 623 in association with the auction ID included in the detected required quality information. To detect. The quality determination unit 637 uses the user indicated by the user ID included in the required quality information as a consumer, the user indicated by the bid user ID included in the detected bid history information as the supplier, and the quality indicated by the required quality information. It is determined that power is to be accommodated. That is, it is determined that the user who is the supplier who presented the lowest fee for the required quality information has made a successful bid within the power purchase auction period. Thus, the quality determination unit 637 determines the quality of power indicated by the selection request quality information received by the selection request quality information reception unit 636 as the contract quality.

  The consideration determining unit 638 determines the consideration for the electric power supplied from the supplier to the consumer based on the contract quality determined by the quality determining unit 637. For example, the price determination unit 638 is the highest rate among the rates stored in the bid history storage unit 623 in association with the auction ID that identifies the supply quality information determined by the quality determination unit 637 in the power sale auction. Is determined as the price of power. In addition, in the power purchase auction, the consideration determining unit 638 selects the lowest fee among the fees stored in the bid history storage unit 623 in association with the auction ID that identifies the required quality information determined by the quality determining unit 637. Determined as consideration for power.

  The power supply control unit 640 causes the supplier to supply power to the consumer based on the contract quality determined by the quality determination unit 637. For example, in the power selling auction, the power supply control unit 640 supplies the supplier indicated by the supply quality information from the start date to the end date of the supply period indicated by the supply quality information that is the contract quality determined by the quality determination unit 637. The user's child cluster unit, and the user's child cluster unit control unit communicating with the user's child cluster unit controlling the power of the quality indicated by the supply quality information. In addition, control is performed so as to supply power having the quality indicated by the supply quality information.

In addition, the power supply control unit 640 determines the quality indicated by the required quality information from the start date to the end date of the supply period indicated by the required quality information that is the contract quality determined by the quality determining unit 637 in the power purchase auction. It communicates with the control device of the child cluster unit of the user who is the supplier who has made a successful bid for power and the control device of the child cluster unit of the user who is the customer indicated by the required quality information, and from the child cluster unit of the supplier to the child cluster unit of the customer In addition, control is performed so as to supply power having the quality indicated by the required quality information.
At this time, the power supply control unit 640 switches between the direction of supplying power from the inside of each power facility to the outside and the direction of supplying power from the outside to the inside in each power facility provided by the supplier and the customer. By transmitting a control signal to the conversion device, which is a switching device, and switching the direction, power is supplied from the supplier to the consumer. Here, the power supply control unit 640 may communicate with the control device of each child cluster unit via the EMS device 500 to control power supply.

Next, an operation example of the power interchange system 1 according to the present embodiment will be described with reference to the drawings.
FIG. 8 is a diagram illustrating an operation example of a power sale auction by the power interchange system 1 according to the present embodiment. Here, an example of a power sale auction in which the user of the child cluster unit 200 is a supplier and the user of the child cluster unit 300 is a consumer will be described.

  The user terminal 230 of the child cluster unit 200 connects to the power interchange support device 600 in response to an operation from a user who is a supplier, and logs in by transmitting account information such as a predetermined user ID. For example, the auction control unit 630 of the power interchange support device 600 transmits an input screen of supply quality information indicating the quality of power that can be supplied by the supplier to the user terminal 230. The user terminal 230 displays an input screen for supply quality information transmitted from the power interchange support device 600. The user terminal 230 receives input of supply quality information from the supplier (step S1), and transmits the input supply quality information to the power interchange support device 600 (step S2). When the supply quality information receiving unit 631 of the power interchange support apparatus 600 receives the supply quality information transmitted from the user terminal 230, the supply quality information receiving unit 631 stores the received supply quality information in the supply quality information storage unit 621 (step S3).

  The user terminal 330 of the child cluster unit 300 connects to the power interchange support device 600 in response to an operation from a user who is a consumer, and logs in by transmitting account information such as a predetermined user ID. The auction control unit 630 of the power interchange support device 600 transmits an auction selection screen to the user terminal 330. The user terminal 330 displays the transmitted auction selection screen. When a button for selecting a power sale auction is pressed on the auction selection screen, the user terminal 330 transmits a power sale auction connection request to the power interchange support device 600 (step S4).

  When the auction control unit 630 of the power interchange support device 600 receives the power sale auction connection request transmitted from the user terminal 330, the supply quality information list transmission unit 632 includes a plurality of items stored in the supply quality information storage unit 621. Of the supply quality information, the supply quality information whose current date and time is within the period of the auction is read as supply quality information to be auctioned, and a power sale auction screen including a list of read supply quality information is displayed on the user terminal 330. (Step S5). Here, the supply quality information list transmission unit 632 transmits a power sale auction screen including a list of supply quality information for each of a plurality of pages to the user terminal 330 when the number of supply quality information is large and does not fit on one screen. You can also

  When the user terminal 330 receives the power sale auction screen transmitted from the power interchange support apparatus 600, the user terminal 330 displays the received power sale auction screen on its display unit. The user terminal 330 selects one of the supply quality information from the list of supply quality information included in the power sale auction screen according to the operation of the user who is a consumer, inputs the bid amount, and presses the bid button. Then, power supply support is provided for the selected supply quality information in which the auction ID for identifying the selected supply quality information, the bid user ID that is the user ID of the user terminal 330, and the charge that is the input bid amount are associated with each other. It transmits to the apparatus 600 (step S6). Upon receiving the selected supply quality information transmitted from the user terminal 330, the selected supply quality information receiving unit 633 of the power interchange support apparatus 600 receives a bid that associates the received date and time with the bid date that is the current date and time. The history information is stored in the bid history storage unit 623.

  The quality determination unit 637 of the power interchange support device 600 reads the supply quality information stored in the supply quality information storage unit 621, for example, every predetermined period (for example, one day), and sets the auction period included in the supply quality information. Compare the end date with the current date. The quality determination unit 637 detects supply quality information in which the end date of the auction period is the current date, and performs processing for ending the auction for the detected supply quality information. That is, the quality determination unit 637 reads the bid history information stored in the bid history storage unit 623 in association with the auction ID that identifies the detected supply quality information. Detect high bid history information. The quality determination unit 637 determines to supply the power indicated by the corresponding supply quality information to the consumer indicated by the bid user ID included in the highest bid history information (step S7). The consideration determining unit 638 determines the fee included in the bid history information with the highest fee as the consideration for the supplied power (step S8). Here, for example, the auction control unit 630 can notify the contact information of the customer who is the winning bidder, the cluster ID, and the like, with the contact information of the supplier included in the supply quality information as the destination.

  When the current date is within the period of the supply period included in the supply quality information determined in step S7, the power supply control unit 640 of the power interchange support device 600, depending on the power quality indicated in the supply quality information, The power supply is controlled (step S9). For example, the power supply control unit 640 communicates with the control device 210 of the child cluster unit 200 and causes the conversion device 222 to switch the direction so as to supply power from the inside of the child cluster unit 200 to the outside. In addition, the power supply control unit 640 communicates with the control device 310 of the child cluster unit 300 and switches the direction so that the conversion device 322 supplies power from the outside of the child cluster unit 300 to the inside. In addition, the power supply control unit 640 controls the power generation device 224, the power storage device 226, the power generation device 324, and the power storage device 326, and supplies power with quality indicated by the supply quality information.

  In this way, the supplier does not reversely flow the power generated by the power generator 224 included in the child cluster unit 200 to the power system 10 side, and the child cluster unit 300 belonging to the same parent cluster unit 100 does not flow backward. Therefore, the generated power can be efficiently supplied to consumers. Similarly, the power generated by the child cluster unit 200 belonging to the same parent cluster unit 100 is efficiently supplied to the consumer. In addition, it is possible to match power quality such as physical quantity of electric power and power outage time through a power sale auction, and to buy and sell power with consideration after both sides agree. As a result, the electric power to be bought and sold is generated by natural energy, and even when the quality varies, it is possible to efficiently support power interchange.

  Next, an operation example of a power purchase auction will be described. FIG. 9 is a diagram illustrating an operation example of a power purchase auction by the power interchange system 1 according to the present embodiment. Here, an example of a power purchase auction in which the user of the child cluster unit 200 is a consumer and the user of the child cluster unit 300 is a supplier will be described.

  The user terminal 230 of the child cluster unit 200 connects to the power interchange support device 600 in response to an operation from a user who is a consumer, and logs in by transmitting account information such as its own user ID determined in advance. For example, the auction control unit 630 of the power interchange support device 600 transmits a request quality information input screen indicating the quality of power requested by the customer to the user terminal 230. The user terminal 230 displays an input screen for required quality information transmitted from the power interchange support device 600. The user terminal 230 receives input of required quality information from the customer (step S21), and transmits the input required quality information to the power interchange support device 600 (step S22). When the required quality information receiving unit 634 of the power interchange support apparatus 600 receives the required quality information transmitted from the user terminal 230, the received required quality information is stored in the required quality information storage unit 622 (step S23).

  The user terminal 330 of the child cluster unit 300 connects to the power interchange support device 600 in response to an operation from a user who is a supplier, and logs in by transmitting account information such as a predetermined user ID. The auction control unit 630 of the power interchange support device 600 transmits an auction selection screen to the user terminal 330. The user terminal 330 displays the transmitted auction selection screen. When a button for selecting a power purchase auction is pressed on the auction selection screen, the user terminal 330 transmits a power purchase auction connection request to the power interchange support device 600 (step S24).

  When the auction control unit 630 of the power interchange support device 600 receives the power purchase auction connection request transmitted from the user terminal 330, the requested quality information list transmitting unit 635 includes a plurality of request quality information storage units 622 that are stored in the requested quality information storage unit 622. Among the required quality information, the required quality information whose current date and time is within the auction period is read as the required quality information that is the target of the auction, and a power purchase auction screen including a list of the read required quality information is displayed on the user terminal 330. (Step S25).

  Upon receiving the power purchase auction screen transmitted from the power interchange support device 600, the user terminal 330 displays the received power purchase auction screen on its own display unit. The user terminal 330 selects one of the required quality information from the list of required quality information included in the power purchase auction screen according to the operation of the user who is the supplier, inputs the bid amount, and presses the bid button. Then, the selected requested quality information in which the auction ID for identifying the selected requested quality information, the bid user ID that is the user ID of the user terminal 330, and the fee that is the input bid amount is associated with the power interchange support. It transmits to the apparatus 600 (step S26). Upon receiving the selection request quality information transmitted from the user terminal 330, the selection request quality information receiving unit 636 of the power interchange support apparatus 600 receives a bid that associates the received selection request quality information with the bid date that is the current date and time. The history information is stored in the bid history storage unit 623.

  The quality determination unit 637 of the power interchange support device 600 reads out the required quality information stored in the required quality information storage unit 622, for example, every predetermined period (for example, one day), and determines the auction period included in the required quality information. Compare the end date with the current date. The quality determination unit 637 detects required quality information whose end date of the auction period is the current date, and performs a process of ending the auction for the detected required quality information. That is, the quality determination unit 637 reads the bid history information stored in the bid history storage unit 623 in association with the auction ID that identifies the detected supply quality information. Detect low bidding history information. The quality determination unit 637 supplies power of the quality indicated by the required quality information to the customer indicated by the corresponding required quality information from the supplier indicated by the bid user ID included in the lowest bidding history information. Is determined (step S27). The consideration determining unit 638 determines the fee included in the bid history information with the lowest fee as the consideration for the supplied power (step S28). Here, for example, the auction control unit 630 can notify the contact information of the supplier who is the successful bidder, the cluster ID, and the like, with the contact information of the customer included in the required quality information as a destination.

  When the current date is within the period of the supply period included in the required quality information determined in step S27, the power supply control unit 640 of the power interchange support device 600, depending on the power quality indicated in the supply quality information, The power supply is controlled (step S29). For example, the power supply control unit 640 communicates with the control device 210 of the child cluster unit 200 and causes the conversion device 222 to switch the direction so as to supply power from the outside of the child cluster unit 200 to the inside. In addition, the power supply control unit 640 communicates with the control device 310 of the child cluster unit 300, causes the conversion device 322 to switch the direction so as to supply power from the inside of the child cluster unit 300 to the outside, and supply quality information Supply power of the indicated quality.

  In this way, the consumer of the child cluster unit 200 can receive supply from the child cluster unit 300 belonging to the same parent cluster unit 100 for the power of the quality requested by the customer. In addition, the supplier supplies the power generated by the power generation device 324 included in the child cluster unit 300 to the child cluster unit 300 belonging to the same parent cluster unit 100 without causing reverse power flow to the power system 10 side. Therefore, the generated power can be efficiently supplied to consumers. In addition, the power purchase auction can match the physical quantity of electricity and the quality of power such as power outage time, and the power can be bought and sold with consideration after both sides agree. As a result, the electric power to be bought and sold is generated by natural energy, and even when the quality varies, it is possible to efficiently support power interchange.

  Moreover, according to this embodiment, since the electric power generated based on the natural energy can be efficiently matched between the clusters, the electric power can be leveled as a whole. In addition, since the consumer can clearly grasp the consideration of the power required by the customer, the consumer can increase awareness of power saving and contribute to energy saving (energy saving).

  In the present embodiment, an example in which the child cluster unit 200, the child cluster unit 300, and the child cluster unit 400 are hierarchically connected to the power system 10 via the parent cluster unit 100 is shown. Even in a situation where the power system 10 does not exist, even in an environment where the parent cluster unit 100, the child cluster unit 200, the child cluster unit 300, and the child cluster unit 400 connected to the parent cluster unit 100 exist. Good. Even in such an environment, the power interchange support described above can be performed. Alternatively, for example, the power interchange support described above can be performed even in an environment such as P2P (Peer To Peer) in which the parent cluster unit 100 does not exist and a plurality of child clusters communicate autonomously.

In the present embodiment, the EMS device 500 and the power interchange support device 600 have been described as different computer devices. However, the functions of the EMS device 500 and the power interchange support device 600 are configured to be provided in the same computer device. You can also.
In the present embodiment, the power interchange support device 600 collects supply quality information and required quality information transmitted from the user terminals of each cluster via the network 5, and the user terminals of each cluster via the network 5. In the above example, the supply quality information and the required quality information are transmitted. However, one or both of the supply quality information and the required quality information is directly input to, for example, an input unit included in the power interchange support device 600. You can also make it. That is, for example, a supplier or a customer goes to a place where the power interchange support device 600 used in common by a plurality of suppliers and consumers is installed, and inputs such as a keyboard and a mouse provided in the power interchange support device 600 The supply quality information can be input by operating the unit, or the required quality information can be input.

  In the present embodiment, the power interchange support device 600 performs an auction control process for both the power sale auction and the power purchase auction. However, the power interchange support device 600 uses the power sale auction and the power purchase auction. Only one of the control processes may be performed. Alternatively, in the present embodiment, the power interchange support apparatus 600 that is a single computer apparatus performs the auction control process for both the power sale auction and the power purchase auction, but the power sale auction control process is performed. The computer apparatus and the computer apparatus that performs the control process of the power purchase auction can be configured as separate computer apparatuses.

  In addition, each configuration included in the power interchange support device 600 in the present embodiment includes a cloud environment and a network environment, the scale of the power system 10 and the parent cluster unit 100, the scale and number of child cluster units, the number of users and the amount of power to be accommodated, Depending on the hardware specifications and the number of hardware prepared for configuring the power interchange support device 600, it can be distributed or aggregated to any number of computer devices.

  Moreover, in this embodiment, the example which determines one consumer with respect to one supply quality information which a supplier shows, for example in a power sale auction was demonstrated. However, for example, when the power provided by the supplier is large and the supply quality information can cover the power required by multiple consumers, the power indicated by one supply quality information is sold to multiple customers. You may be able to do that. In this case, for example, on the power sale auction screen, an operator (for example, a text box) for inputting power and time zone requested by the customer is displayed together with a bid text box and a bid button, and the value input to this operator is displayed. Depending on the situation, electric power may be supplied to consumers.

  Moreover, in this embodiment, although the example which trades electric power between a supplier and a consumer was shown, the electric power interchange assistance apparatus 600 does not identify a specific supplier and a consumer, for example, all The power required by each child cluster unit may be distributed and sold out from the total amount of power that can be supplied by the child cluster unit.

  In the present embodiment, a predetermined predetermined period is provided as the auction period. However, the auction period may be determined by a supplier or a customer who inputs supply quality information or required quality information. Good. Alternatively, while providing an auction period, it is also possible to determine a prompt decision price or the like in advance, and when there is a bid that matches the prompt decision price, the auction can be terminated at that point.

Further, in the present embodiment, an example is shown in which the consideration for the power to be supplied is a fixed fee for each month, but it may be a fixed fee for each year, or may be an arbitrary predetermined period in which the number of days or months is set. . In addition, for example, it may be billed according to the amount of power used every predetermined period (for example, month).
Further, in the present embodiment, an example in which the power failure occurrence probability is 100% because, for example, in the case of photovoltaic power generation, a power failure occurs at night. It may be expressed by a ratio to a possible time (power failure time). In addition, for example, the probability of blackouts in the daytime when using wind power or solar power, apply the value of the result of numerical prediction based on past statistics such as weather, wind, and temperature, and time changes, etc. Can do.

Further, in the present embodiment, the example in which the power generated by the power generation device is interchanged between the plurality of child cluster units has been described, but fluctuation suppression and load leveling are performed using the power storage device provided in the child cluster unit, The entire power interchange system 1 can also be controlled more efficiently.
Moreover, in this embodiment, although the example which trades both the electric power of alternating current and direct current | flow was shown, you may trade only the electric power of only one.

  Note that a program for realizing the function of the processing unit in the present invention is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read into a computer system and executed to support power interchange. You may go. Here, the “computer system” 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. 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.

  In addition, some or all of the functions described above may be realized as an integrated circuit such as an LSI (Large Scale Integration). Each function described above may be individually made into a processor, or a part or all of them may be integrated into a processor. Further, the method of circuit integration is not limited to LSI, and may be realized by a dedicated circuit or a general-purpose processor. In addition, when an integrated circuit technology that replaces LSI appears due to the advancement of semiconductor technology, an integrated circuit based on the technology may be used.

DESCRIPTION OF SYMBOLS 1 Power interchange system 5 Network 10 Power system 100 Parent cluster part 110 Control apparatus 121 Power receiving / transforming apparatus 122 Conversion apparatus 151 Power supply path 152 Power supply path 153 Power supply path 154 Power supply path 200 Child cluster part 210 Control apparatus 221 Detection apparatus 222 Converter 223 Power supply Path 224 Power generation device 226 Power storage device 228 Load device 230 User terminal 300 Child cluster unit 310 Control device 321 Detection device 322 Conversion device 323 Power supply path 324 Power generation device 326 Power storage device 328 Load device 330 User terminal 400 Child cluster unit 410 Control device 421 Detection Device 422 Conversion device 423 Power feeding path 424 Power generation device 426 Power storage device 428 Load device 430 User terminal 500 EMS device 600 Power interchange support device 610 Communication control unit 620 Storage unit 621 Supply quality information storage unit 622 Request quality information storage unit 623 Bid history storage unit 630 Auction control unit 631 Supply quality information reception unit 632 Supply quality information list transmission unit 633 Select supply quality information reception unit 634 Request quality information reception unit 635 required quality information list transmission unit 636 selection request quality information reception unit 637 quality determination unit 638 consideration determination unit 640 power supply control unit

Claims (8)

Based on the supply quality that is the quality of the power that can be supplied by the supplier and the required quality that is the quality of the power that is demanded by the customer who is supplied with power from the supplier, the supplier supplies the consumer A quality determination unit that determines contract quality, which is the quality of power to be
Based on the contract quality determined by the quality determination unit, a price determination unit that determines the price of power supplied to the consumer by the supplier;
A power interchange support device characterized by comprising: The quality of the power includes the type of AC or DC, the rated voltage, the rated current, the rated power amount, the probability that a power outage will occur during the power supply from the supplier to the consumer, and the power outage occurs. The power interchange support device according to claim 1, wherein the power interchange support device is determined including at least one of a time zone, a duration of the power failure, and a frequency of occurrence of the power failure. The power interchange support apparatus according to claim 1, further comprising: a power supply control unit configured to supply power from the supplier to the consumer based on the contract quality determined by the quality determination unit. . The power supply control unit is configured to switch between a direction in which power is supplied from the inside of each power facility to a outside and a direction in which power is supplied from the outside to the inside in each power facility provided by the supplier and the consumer. The power interchange support apparatus according to claim 3, wherein power is supplied from the supplier to the consumer by transmitting a control signal to the apparatus to switch the direction. A supply quality information receiving unit that receives supply quality information indicating the quality of power that can be supplied by the supplier from the supplier terminal of the supplier;
A supply quality information list transmission unit that transmits and displays a list of supply quality information received by the supply quality information reception unit to the consumer terminal of the consumer;
A selected supply quality information receiving unit for receiving selected supply quality information indicating any supply quality information selected by the consumer from the list of supply quality information displayed on the consumer terminal of the consumer; Prepared,
The said quality determination part determines the quality of the electric power which the said selection supply quality information received by the said selection supply quality information receiving part shows as said contract quality. Any one of Claim 1 to 4 characterized by the above-mentioned. The power interchange support device according to item. A required quality information receiving unit that receives required quality information indicating the quality of power required by the consumer from the consumer terminal of the consumer;
A list of required quality information received by the required quality information receiving unit, and a required quality information list transmitting unit that transmits and displays the list to the supplier terminal of the supplier;
A selection request quality information receiving unit for receiving selection request quality information indicating any request quality information selected by the supplier from the list of request quality information displayed on the supplier terminal of the supplier; Prepared,
The said quality determination part determines the quality of the electric power which the said selection request | requirement quality information received by the said selection request | requirement quality information receiving part shows as said contract quality. Any one of Claim 1-5 The power interchange support device according to item. Power interchange support device
Based on the supply quality that is the quality of the power that can be supplied by the supplier and the required quality that is the quality of the power that is demanded by the customer who is supplied with power from the supplier, the supplier supplies the consumer Determining contract quality, which is the quality of power to be
Determining the price of power supplied by the supplier to the consumer based on the determined contract quality;
The power interchange support method characterized by performing this. In the computer of the power interchange support device,
Based on the supply quality that is the quality of the power that can be supplied by the supplier and the required quality that is the quality of the power that is demanded by the customer who is supplied with power from the supplier, the supplier supplies the consumer Determining contract quality, which is the quality of power to be
Determining the price of power supplied by the supplier to the consumer based on the determined contract quality;
Power interchange support program that executes

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