JP5986858B2 - Power management system, power management apparatus, power management method, and program - Google Patents

Description

  The present invention relates to a power management system, a power management apparatus, a power management method, and a program.

For example, there is a growing interest in energy defense measures against disasters such as earthquakes, tsunamis, typhoons, and tornadoes. As one of such energy defense measures, for example, it is effective to construct a self-sustaining operation system that performs self-sustained operation without depending on the power of the commercial power supply system by using a storage battery or a distributed power source.
Therefore, the following are known as self-sustained operation systems. In other words, this self-sustained operation system supplies power to a plurality of consumers including a customer having a master distributed power source and a customer having a slave distributed power source, and the distributed power source is connected to the low voltage system. Is separated from the high-voltage system when an abnormality occurs in the high-voltage system that is the higher-level system. And this self-sustained operation system maintains the voltage of the low voltage system by the master distributed power source in a state where the low voltage system is separated from the high voltage system, calculates the excess or deficiency of the power for each consumer, and the consumers with surplus power The surplus power is supplied to consumers who lack power. On top of that, if there is no surplus power for consumers with slave distributed power sources, this customer is disconnected from the low-voltage system, and the load is shut off in order of increasing priority until surplus power is generated. is there.

Japanese Patent No. 4944578

In the self-sustained operation system of Patent Literature 1, by supplying surplus power of a consumer with surplus power to a consumer with insufficient power, self-sustained operation in an area including a plurality of consumers is possible.
However, in the self-sustained operation system of Patent Document 1, among the consumers having the slave distributed power source, the consumer that does not generate surplus power is disconnected from the low-voltage system, and at this stage, the operation is switched to the self-sustained operation for each consumer. End up.
For this reason, for example, even if there is a device (load) that a certain consumer wants to keep operating, it may be difficult to supply power to the device. That is, in the self-supporting operation system of Patent Document 1, it is difficult to appropriately operate the devices in a plurality of facilities.

  The present invention has been made in view of such circumstances, and an object of the present invention is to appropriately operate a device as a load in each facility as a power management system for autonomous operation in an area having a plurality of facilities. And

In order to solve the above-described problems, a power management system according to one aspect of the present invention manages a regional storage battery connected to a regional power network for supplying power to a plurality of facilities in a region, and power in the region. A power management device that communicates with the plurality of facilities and the regional storage battery via a communication network, and a commercial power supply system when an abnormality has occurred. An interruption control unit that cuts off the power supply from the power supply system to the regional power network, and the power required to receive the stored power of the regional storage battery at the facility when an abnormality occurs in the commercial power supply system When an abnormality has occurred in the equipment determination unit that determines the power supply equipment that should supply power in the facility and the commercial power system based on emergency power demand information that includes information about the requested equipment The regional storage battery via the communication network so that the stored power of the regional storage battery is supplied to the power supply device determined by the device determination unit via the regional power network. A power supply control unit that controls a power distribution circuit or a device for each facility, and the emergency power demand information has a payable amount that is an amount that can be paid to receive supply of stored power of the regional storage battery It is set for each power requesting device, and the device determining unit is configured to use a usage fee for using the stored power of the regional storage battery from among the power requesting devices indicated in the emergency power demand information, and the emergency The power supply device is determined based on the payable amount set for each of the power requesting devices in the hourly power demand information.

In the power management system of the present invention, the power management apparatus further includes a fee setting unit that sets the usage fee.
Further, in the power management system of the present invention, the charge setting unit, the payable amount shown in the emergency power demand information, the demand power amount predicted after the present, the remaining capacity of the regional storage battery, The usage fee is set based on at least one of recovery information indicating a recovery possibility from an abnormality of the commercial power system.

Further, a power management apparatus as one aspect of the present invention includes a plurality of facilities in a region, a storage battery in a region connected to a regional power network for supplying power to the plurality of facilities, and a communication network. An abnormality has occurred in the commercial power supply system and a cutoff control unit that shuts off power supply from the commercial power supply system to the regional power network when an abnormality has occurred in the communication unit that communicates with the commercial power supply system A device that determines a power supply device to be supplied with power in a facility based on emergency power demand information including information on a power requesting device that is sometimes required to receive the stored power of the regional storage battery in the facility When an abnormality occurs in the determination unit and the commercial power supply system, the stored power of the storage battery in the region is supplied to the power supply device determined by the device determination unit via the regional power network. As fed, via the communication network, and the area storage battery, and a power supply control unit for controlling the power distribution circuit or device in each facility, the emergency power demand information, the area storage battery A payable amount, which is an amount that can be paid to receive the supply of stored power, is set for each of the power requesting devices, and the device determination unit is selected from among the power requesting devices indicated in the emergency power demand information. The power supply device is determined based on the usage fee for using the stored power of the regional storage battery and the payable amount set for each of the power requesting devices in the emergency power demand information.

The power management method as one aspect of the present invention includes a plurality of facilities in a region, a storage battery in a region connected to a region power network for supplying power to the plurality of facilities, and a communication network. A communication step for communication, an interruption control step for cutting off power supply from the commercial power supply system to the regional power network when an abnormality has occurred in the commercial power supply system, and an abnormality has occurred in the commercial power supply system A device that determines a power supply device to be supplied with power in a facility based on emergency power demand information including information on a power requesting device that is sometimes required to receive the stored power of the regional storage battery in the facility And when the abnormality occurs in the commercial power system, the power supply device determined by the device determination step via the regional power network As the power accumulated in the region storage battery is supplied via the communication network, and the area storage battery, and a power supply control step of controlling power distribution circuit or device in each facility, the emergency power demand information A payable amount, which is an amount payable to receive the supply of the stored power of the regional storage battery, is set for each power requesting device, and the device determination step is indicated in the emergency power demand information Among the power requesting devices, the power supply device is based on the usage fee for using the stored power of the regional storage battery and the payable amount set for each power requesting device in the emergency power demand information. decide.

In addition, a program as one embodiment of the present invention includes a computer, a plurality of facilities in a region, a storage battery in a region connected to a region power network for supplying power to the plurality of facilities, and a communication network. A communication step for communication, an interruption control step for cutting off power supply from the commercial power supply system to the regional power network when an abnormality has occurred in the commercial power supply system, and an abnormality has occurred in the commercial power supply system. only contains the information about the power demand equipment that can receive the supply of electric power stored in the area storage battery is desired in the facility, which is willing to spend in order to receive the supply of electric power stored in the area storage battery payment when you are the amount available is based on the emergency power demand information set for each of the power demand equipment, what determines the power supply device to be supplied with power in a facility, the very Among the power requesting devices indicated in the power demand information, the usage fee for using the stored power of the regional storage battery and the payable amount set for each power requesting device in the emergency power demand information A device determination step for determining a power supply device based on the region, and when the abnormality occurs in the commercial power supply system, the region for the power supply device determined by the device determination step via the regional power network In order to supply the stored power of the internal storage battery, the local storage battery and a power supply control step for controlling a power distribution circuit or equipment in each facility are executed via the communication network.

  As described above, according to the present invention, an effect can be obtained in which a device as a load in each facility can be appropriately operated as a power management system that performs independent operation in an area including a plurality of facilities.

It is a figure which shows the structural example of the power management system in 1st Embodiment. It is a figure which shows the structural example in the plant | facility in 1st Embodiment. It is a figure which shows the structural example of the power management apparatus in 1st Embodiment. It is a figure which shows the structural example of the emergency power demand information table in 1st Embodiment. It is a figure which shows the structural example of the apparatus management information in 1st Embodiment. It is a figure which shows the example of a process sequence which the power management apparatus in 1st Embodiment performs in an emergency. It is a figure which shows the structural example of the power management apparatus in 2nd Embodiment. It is a figure which shows the structural example of the emergency power demand information table in 2nd Embodiment. It is a figure which shows the example of a process sequence which the power management apparatus in 2nd Embodiment performs in an emergency.

<First Embodiment>
[Example of overall configuration of power management system]
FIG. 1 shows an example of the overall configuration of a power management system in the present embodiment.
The power management system in the present embodiment manages power used in a plurality of facilities 100 in a certain range of areas indicated as the power management area 1. Such a power management system corresponds to a so-called TEMS (Town Energy Management System), CEMS (Community Energy Management System), or the like.
In addition, the power management system according to the present embodiment, for the commercial power supply system 2 supplied to the power management area 1, for example, when an abnormality such as a power stop or a voltage abnormality due to a disaster or a malfunction of the commercial power facility occurs, The power supply from the commercial power supply system 2 to the power management area 1 is cut off. And the power management system of this embodiment aims at a self-sustained operation by supplying electric power to each facility 100 using the regional storage battery 200 in the power management area 1.

A plurality of facilities 100 exist in the power management area 1 of FIG. These facilities 100 are, for example, any one of housing, commercial facilities, industrial facilities, public facilities, and the like. In these facilities 100, various devices are provided as loads that operate using electric power.
Further, the power management area 1 includes an in-region storage battery 200, a natural energy power generation apparatus 300, a power management apparatus 400, and a switch 500.

The regional storage battery 200 is connected to the regional power network PNW to charge the power supplied via the regional power network PNW. For example, the regional storage battery 200 is charged by inputting the surplus power when the power used by the equipment of each facility 100 is small and surplus occurs in the power supplied from the commercial power supply system 2. Can do.
Further, the regional storage battery 200 performs discharge for supplying the stored power to the equipment of each facility 100 via the regional power network PNW when an abnormality occurs in the commercial power supply system 2.

The natural energy power generation apparatus 300 is a power generation apparatus that generates power using natural energy. In the power management system of the present embodiment, the power generated by the natural energy power generation device 300 is supplied to the regional storage battery 200. That is, the regional storage battery 200 can charge the power supplied from the natural energy power generation apparatus 300 in addition to the surplus power of the commercial power supply system 2.
Specific examples of the natural energy power generation apparatus 300 include a solar power generation apparatus, a wind power generation apparatus, and a geothermal power generation apparatus. In the present embodiment, the natural energy power generation apparatus 300 is not necessarily provided. When the natural energy power generation device 300 is not provided, the regional storage battery 200 can be charged by the power of the commercial power supply system 2.

  The power management apparatus 400 manages power in the power management area 1. That is, power control is executed for the facility 100 in the power management area 1. Further, the power management area 1 controls the charging operation and discharging operation of the regional storage battery 200. Further, the switching of the switch 500 is controlled in accordance with the presence or absence of abnormality in the commercial power supply system 2.

  The regional power network PNW is for supplying power to a plurality of facilities 100 in the power management area 1, and is connected to the commercial power supply system 2 via the switch 500. The regional power network PNW is connected to each facility 100, the regional storage battery 200, and the power management device 400 in the power management region 1.

  Each facility 100, the regional storage battery 200, and the power management apparatus 400 are connected to a communication network NW. Thereby, the power management apparatus 400 can communicate with each facility 100 and the regional storage battery 200. The communication network NW is constructed as, for example, a WAN (Wide Area Network).

In normal times when the commercial power supply system 2 is normally supplied, the switch 500 is controlled by the power management apparatus 400 so as to be in a closed state. In this state, each facility 100 inputs power supplied from the commercial power supply system 2 via the local power network PNW, and uses the input power to operate the devices included in the facility 100. The power management apparatus 400 also operates using the power of the commercial power supply system 2 supplied from the regional power network PNW.
That is, in the power management system of the present embodiment, the power management apparatus 400 performs control so that the power of the commercial power supply system 2 is supplied to the load in the power management area 1 during normal times.

In addition, the power management device 400 is controlled so that the regional storage battery 200 is charged by the surplus power of the commercial power supply system 2 or the power generated by the natural energy power generation device 300 in normal times as described above. To do.
Thereby, the electric power which should be supplied to the apparatus of each facility 100 at the time of emergency can be accumulate | stored in the regional storage battery 200 in normal times.
The emergency means, for example, a state in which power supply from the commercial power supply system 2 to the regional power network PNW is stopped in response to an abnormality such as a power stop or voltage fluctuation in the commercial power supply system 2. .

In an emergency, the power management apparatus 400 opens the switch 500.
Thereby, the commercial power system 2 and the regional power network PNW are disconnected, and the power supply from the commercial power system 2 to the regional power network PNW is cut off.

In this state, the power management apparatus 400 causes the regional storage battery 200 to discharge. Thereby, the stored power of the regional storage battery 200 is supplied to each facility 100 via the regional power network PNW. In each facility 100, the device can be operated by the supplied power. At this time, the power management apparatus 400 can also operate using the power supplied from the regional storage battery 200 via the regional power network PNW.
As described above, the power management system according to the present embodiment supplies the power using the stored power of the regional storage battery 200 when the abnormality occurs in the commercial power supply system 2, so that the equipment of each facility 100 can be used. It can be operated independently. In this way, the power supplied from the regional storage battery 200 is distributed to each facility 100 via the regional power network PNW.

  However, the electric power stored in the regional storage battery 200 is finite. For this reason, in an emergency, if unlimited power is supplied to all the devices used in each facility 100 as in normal times, the commercial power supply system 2 can be recovered in a short time before returning from an abnormal state. The stored power of the regional storage battery 200 may be used up.

Therefore, the power management apparatus 400 according to the present embodiment, based on a request regarding the use of the device from the user of each facility 100, from among all the devices in each facility 100 (power that should be supplied in an emergency (power) Determine supply equipment). Then, control is performed so that the stored power of the regional storage battery 200 is supplied to the power supply device. As described above, in the power management system according to the present embodiment, when a self-sustained operation is attempted in the power management area 1, it is possible to appropriately operate a device that is a load.
Thus, in each facility 100 in an emergency, for example, the minimum necessary equipment requested by the user can be operated, so that the user does not feel inconvenient. In addition, the stored power of the regional storage battery 200 can be made longer.

[Example of facility configuration]
FIG. 2 shows a configuration example of the facility 100. The facility 100 shown in this figure includes a power distribution circuit 110, a plurality of devices 120 (120-1 to 120-N) that are loads, and an in-facility power management device 130.

The power distribution circuit 110 receives power supplied from the regional power network PNW and distributes the input power to the devices 120. In addition, the power distribution circuit 110 can switch on / off of power supply for each device 120 according to the control of the in-facility power management apparatus 130.
Specifically, the distribution circuit 110 is configured to include a distribution board, an outlet, and the like, and a switch for switching on and off the power supply provided in the distribution board, the outlet, and the like.

  The facility power management apparatus 130 manages power in the facility 100. In addition, the in-facility power management device 130 distributes power so that only the device 120 determined as the power supply device by the power management device 400 among the devices 120 of each facility 100 is supplied in an emergency. The circuit 110 is controlled.

FIG. 2 shows a configuration example of the in-facility power management apparatus 130 for supplying power only to the device 120 determined as a power supply device in an emergency.
The facility power management apparatus 130 shown in this figure includes a communication unit 131, a device control unit 132, a device management information storage unit 133, a user interface unit 134, and an emergency power demand information generation unit 135.

The communication unit 131 communicates with the power management apparatus 400 via the communication network NW.
In response to an emergency power supply control instruction from the power management apparatus 400, the device control unit 132 controls the power distribution circuit 110 so that power is supplied only to the device 120 determined as the power supply device.

  For example, the device control unit 132 closes the switchboard and outlet switch to which the device 120 determined as the power supply device is connected among the switchboard and outlet in the distribution circuit 110. In addition, the device control unit 132 performs control so that the switchboard and outlet switch to which the device 120 that is not determined as the power supply device is connected are opened.

  In addition, the device control unit 132 uses the device management information stored in the device management information storage unit 133 when executing this control. That is, the emergency power supply control request transmitted from the power management apparatus 400 includes the device ID of the device 120 determined as the power supply device. In addition, the device management information stored in the device management information storage unit 133 includes a switchboard or a circuit to which the device 120 specified by the device ID is connected to the device ID of each device 120 provided in the same facility 100. Information (distribution circuit information) of which is associated with each other.

The device control unit 132 reads power distribution circuit information associated with the device ID included in the emergency power control instruction from the power management apparatus 400 from the device management information. The device control unit 132 closes the switches provided in the switchboard or the outlet indicated by the read distribution circuit information, and opens the other switches.
Thereby, in an emergency, only the device determined as the power supply device in the facility 100 can be operated. Conversely, for example, even if the user tries to operate a device that is not determined as a power supply device, the device cannot be operated.

The device management information storage unit 133 stores device management information.
The user interface unit 134 collectively shows operation input devices such as a keyboard and a mouse, and user interface functions such as a display unit and an audio output unit.

In the first embodiment, the user of each facility 100 manages the power of a device 120 (power requesting device) that is requested to receive power supply in the facility in an emergency (when the commercial power supply system 2 is shut off). Registration with the device 400 can be made in advance.
The user can perform an operation for registering the power requesting device on the user interface unit 134. In the first embodiment, the electricity charge (use charge) for using the stored power of the regional storage battery 200 in an emergency is set higher than, for example, the use charge of the commercial power supply system 2. The user may determine, as the power requesting device, the device 120 that he / she wants to use preferentially even during an emergency out of the devices 120 in the facility 100 while taking into account the usage charge of the stored power of the regional storage battery 200.
Then, as an operation for registering the power requesting device, the user performs an operation of designating the device 120 determined as the power requesting device on the user interface unit 134 and then instructing the registration of the power requesting device. I do.

The emergency power demand information generation unit 135 generates emergency power demand information. The emergency power demand information includes information on a device (power supply device) that is required to receive power supply in an emergency.
Specifically, the emergency power demand information generation unit 135 includes emergency power demand information including the device ID of the device 120 designated as the power requesting device in response to an operation for instructing registration of the power requesting device. Is generated. The emergency power demand information generation unit 135 transmits the generated emergency power demand information to the power management apparatus 400.
The power management apparatus 400 stores the received emergency power demand information. Thereby, the power requesting device is registered.

[Configuration example of power management device]
FIG. 3 shows a configuration example of the power management apparatus 400.
The power management apparatus 400 shown in this figure includes a commercial power system abnormality detection unit 401, a cutoff control unit 402, an emergency power demand information management unit 403, an emergency power demand information storage unit 404, a device determination unit 405, and a power supply control unit 406. And a communication unit 407.

  The commercial power system abnormality detection unit 401 detects the presence / absence of an abnormality in the commercial power system 2. For example, the commercial power supply system abnormality detection unit 401 monitors the current and voltage in the commercial power supply system 2 and detects the stop of power supply from the commercial power supply system 2, the abnormal voltage in the commercial power supply system 2, and the like. It detects that an abnormality has occurred in the commercial power supply system 2.

The shut-off control unit 402 shuts off the power supply from the commercial power supply system 2 to the local power network PNW when an abnormality occurs in the commercial power supply system 2.
Specifically, when the commercial power supply system abnormality detection unit 401 detects that no abnormality has occurred in the commercial power supply system 2, the shutoff control unit 402 controls the switch 500 to be in a closed state. Thereby, the electric power of the commercial power system 2 is supplied to the local power network PNW.
On the other hand, when the commercial power supply system abnormality detection unit 401 detects that an abnormality has occurred in the commercial power supply system 2, the switch 500 is controlled to be in an open state. Thereby, the power supply from the commercial power supply system 2 to the local power network PNW is cut off.

The emergency power demand information management unit 403 manages emergency power demand information. Specifically, the emergency power demand information management unit 403 inputs emergency power demand information transmitted from the in-facility power management apparatus 130 via the communication network NW from the communication unit 407, and inputs the emergency power demand information input. The information is registered in the emergency power demand information table stored in the emergency power demand information storage unit 404.
The emergency power demand information storage unit 404 stores an emergency power demand information table.

The device determination unit 405 determines a power supply device that may supply power for each facility 100 based on the emergency power demand information.
The power supply control unit 406 supplies the stored power of the storage battery in the area to the power supply device determined by the device determination unit 405 via the local power network PNW when an abnormality occurs in the commercial power supply system 2. To be controlled. At this time, the power supply control unit 406 controls the regional storage battery 200 and the power distribution circuit 110 or the device 120 for each facility 100 via the communication network NW.
The communication unit 407 performs communication with the in-region storage battery 200 and the in-facility power management apparatus 130 of each facility 100 via the communication network NW.

FIG. 4 shows an example of the structure of the emergency power demand information table 404 a stored in the emergency power demand information storage unit 404.
The emergency power demand information table 404a has a structure in which one or more device IDs (emergency power demand information) are associated with each in-facility power management apparatus ID.
The in-facility power management apparatus ID is an identifier that uniquely identifies the in-facility power management apparatus 130 that is the transmission source of emergency power demand information.
The device ID is an identifier that uniquely identifies the device 120 registered as a power requesting device in the facility 100 indicated by the facility power management apparatus ID.

In the first embodiment, the in-facility power management apparatus 130 transmits the device ID of one or more power requesting devices specified by the user's operation in the emergency power demand information. In response to receiving the emergency power demand information, the emergency power demand information management unit 403 converts the device ID included in the emergency power demand information into the in-facility power management of the in-facility in-facility power management apparatus 130. It is registered in the emergency power demand information table 404a so as to be associated with the device ID. The emergency power demand information management unit 403 performs registration of such power requesting devices as needed every time emergency power demand information is received.
The emergency power demand information management unit 403 executes, for example, the following process when an instruction to delete a power requesting device accompanied by a device ID is transmitted from the in-facility power management device 130. That is, the emergency power demand information management unit 403 includes, from among the device IDs associated with the in-facility power management device ID of the in-facility power management device 130 of the instruction transmission source in the emergency power demand information table 404a. The specified device ID is deleted.

In determining the power supply device based on the emergency power demand information table 404a of FIG. 4, the device determination unit 405 uses the power of all the devices 120 registered in the emergency power demand information table 404a. Determine as supply equipment.
The power supply control unit 406 transmits an emergency power supply control request to the in-facility power management apparatus 130 for each facility 100. The emergency power supply control request is a command that requests the in-facility power management apparatus 130 to execute power supply control for supplying power only to the device 120 having the device ID included in the emergency power supply control request. The power supply control unit 406 includes, in the emergency power supply control request, the device ID registered in the emergency power demand information table 404a in association with the in-facility power management device ID of the destination in-facility power management device 130. .

In response to receiving the emergency power supply control request, the device control unit 132 in the in-facility power management apparatus 130 executes power supply control as follows.
Here, FIG. 5 shows a structure example of the device management information 133 a stored in the device management information storage unit 133 of the in-facility power management apparatus 130. As shown in this figure, the device management information 133a associates distribution circuit information indicating an outlet or a distribution board to which the device 120 is connected, for each device ID of the device 120 provided in the corresponding facility 100. Structure.

The device control unit 132 reads the distribution circuit information associated with the device ID included in the received emergency power supply control request from the device management information 133a. The device control unit 132 opens only the outlets and distribution switches provided in the distribution board 110 indicated by the read distribution circuit information, and switches provided in the other outlets and distribution boards. Control is performed to close the.
As a result, power is supplied only to an outlet or a distribution board connected to the device 120 determined as the power supply device. That is, the user can operate only the device 120 determined as the power supply device.

[Example of processing procedure]
The flowchart in FIG. 6 illustrates an example of a processing procedure that the power management apparatus 400 according to the first embodiment executes in an emergency.
In the power management apparatus 400, the commercial power supply system abnormality detection unit 401 waits for an abnormality in the commercial power supply system 2 to be detected (step S101—NO). When an abnormality is detected in the commercial power supply system 2 (step S101—YES), the shut-off control unit 402 switches the switch 500 from the closed state to the open state, so that power from the commercial power system 2 to the local power grid PNW is obtained. Control is performed so that the supply is cut off (step S102). In this way, the power management area 1 shifts to an emergency state by cutting off the power supply from the commercial power supply system 2 to the in-region power network PNW.

  Next, the power supply control unit 406 starts the discharging operation of the regional storage battery 200 in response to the occurrence of an abnormality detected in step S101 (step S103). For this purpose, the power feeding control unit 406 controls the local storage battery 200 to start the discharging operation via the communication network NW.

  In addition, in response to the detection of an abnormality in step S101, the device determination unit 405 uses the emergency power demand information registered in the emergency power demand information table 404a as described above to supply power for each facility 100. A supply device is determined (step S104).

Next, the power supply control unit 406 transmits to the facility 100 an emergency power supply control request that instructs power supply only to the power supply device determined in step S104 (step S105).
Through steps S103 to S105, supply of the stored power of the regional storage battery 200 to only the device 120 determined as the power supply device is started in each facility 100.

  The commercial power supply system abnormality detection unit 401 detects whether or not the commercial power supply system 2 has returned to a normal state in a state where power supply control corresponding to an emergency is being performed (step S106). For example, the commercial power system abnormality detection unit 401 detects that the commercial power system 2 has returned to a normal state in response to detecting that the voltage of the commercial power system 2 has become a value within the normal range. do it.

When it is detected that the commercial power supply system 2 has not returned to a normal state (step S106—NO), the emergency power demand information management unit 403 further stores emergency power demand information during emergency power supply control. It is determined whether or not it has been received (step S107).
In the present embodiment, the user can perform an operation for newly registering or changing a power requesting device even when power supply control corresponding to an emergency is being performed. Thereby, for example, the user can change the registration content of the power requesting device in a flexible manner according to the living situation in the facility 100 when an emergency occurs.
Step S107 is a process of waiting for reception of the emergency power demand information in response to the transmission from the in-facility power management apparatus 130 during the emergency power supply control as described above.

When the emergency power demand information is not received (step S107—NO), the emergency power demand information management unit 403 returns the process to step S106.
On the other hand, when the emergency power demand information is received (step S107-YES), the emergency power demand information management unit 403 registers the received emergency power demand information in the emergency power demand information table 404a (step S108). ), The process returns to step S104.
By returning to step S104 in this way, the power supply device is determined again according to the contents of the emergency power demand information table 404a updated in step S108.
In the first step S104 after shifting to an emergency, an emergency power supply control request is transmitted to all in-facility power management apparatuses 130. However, in the second and subsequent steps S104, for example, only the in-facility power management apparatus 130 of the facility 100 in which the registered content of the emergency power demand information is changed in accordance with step S108, the power supply device in step S104. An emergency power supply control request reflecting the redetermination result may be transmitted.

When it is determined that the commercial power supply system 2 has returned to a normal state (step S106—YES), the power supply control unit 406 stops the discharge operation of the regional storage battery 200 (step S109).
At the same time, the power supply control unit 406 transmits a power supply control stop request for stopping emergency power supply control to each facility (step S110). In the facility power management apparatus 130 that has received this power supply control stop request, the device control unit 132 switches the power distribution circuit 110 so that power can be supplied to all the devices 120.
Moreover, the interruption | blocking control part 402 connects the commercial power supply system 2 to the local electric power network PNW by switching the switch 500 which was open until now to a closed state (step S111).
Through steps S109 to S111, power is supplied from the commercial power supply system 2 to the equipment 120 of each facility 100, and power distribution to the equipment 120 in each facility 100 is not particularly limited, and the normal state is restored. To do.

<Second Embodiment>
[Configuration example of power management device]
Next, the second embodiment will be described.
FIG. 7 shows a configuration example of the power management apparatus 400 as the second embodiment. In this figure, the same parts as those in FIG.

The power management apparatus 400 illustrated in FIG. 7 further includes a fee setting unit 408.
The charge setting unit 408 is based on the payable amount indicated by the emergency power demand information, the demand power amount predicted after the present (predicted demand power amount), the remaining capacity of the regional storage battery 200, and the abnormality of the commercial power system. The usage fee for using the stored power of the storage battery in the area is changed based on the recovery information indicating the expected recovery.
Note that the fee setting unit 408 can obtain the predicted demand power amount using information such as past data of past power consumption in the power management area 1 and weather forecast, for example.
Further, the remaining capacity of the regional storage battery 200 can be acquired from the regional storage battery 200 by performing communication via the communication network NW.
Further, the recovery information can be acquired from a predetermined site or the like via an external network, for example.

For example, the fee setting unit 408 sets the usage fee to increase as the payable amount (for example, the designated limit) indicated by the emergency power demand information tends to increase.
Further, the fee setting unit 408 sets the usage fee to increase as the predicted demand power amount increases. In addition, the fee setting unit 408 sets the usage fee to be higher as the remaining capacity of the in-region storage battery 200 decreases. Further, the fee setting unit 408 sets the usage fee to be lower as the recovery probability indicated by the recovery information is earlier.

  The fee setting unit 408 may change the usage fee using at least one of the payable amount, the predicted demand power amount, the remaining capacity of the regional storage battery 200, and the recovery information. . Further, parameters other than the payable amount, the predicted demand power amount, the remaining capacity of the regional storage battery 200, and the recovery information may be combined.

In addition, in the second embodiment, when the user of the facility 100 registers the power requesting device, the amount of money that can be paid for the power requesting device to receive the stored power of the regional storage battery 200 (paid amount). Is specified.
For example, there are two ways to specify the payable amount. One is to designate the payable amount by the limit price. The other is to designate a payable amount by banking.

  In response to the operation of the user of the facility 100 instructing the registration of the power requesting device, the emergency power demand information generating unit 135, for example, in addition to the device ID of the device 120 designated as the power requesting device, Emergency power demand information including information is generated. In addition, the emergency power demand information management unit 403 registers emergency power demand information including a device ID and a payable amount in association with the in-facility power management apparatus ID in the emergency power demand information table 404a.

FIG. 8 shows a structural example of the emergency power demand information table 404a in the second embodiment.
Emergency power demand information table 404a shown in this figure, for each facility power management device ID, a structure in which emergency power demand information is associated one or more including the payment available-amount and device ID.

In the second embodiment, the device determination unit 405 uses the accumulated power usage fee set by the fee setting unit 408 and the power in the emergency power demand information from the power requesting devices indicated in the emergency power demand information. The power supply device is determined based on the payable amount set for each requested device.
Specifically, first, the device determination unit 405 supplies power to a device with a device ID that is associated with a payable amount indicating “success” from among the device IDs registered in the emergency power demand information table 404a. Determine as equipment.
Next, the device determination unit 405 payable amount indicating a “limit” that is equal to or higher than the usage fee currently set by the fee setting unit 408 among the device IDs registered in the emergency power demand information table 404a. Is also determined as a power supply device.
The power supply control unit 406 performs control so that power is supplied to the power supply device determined as described above.

As described above, in the second embodiment, the usage fee of the stored power is changed according to the emergency situation, and among the power requesting devices, the payable amount is set to be equal to or higher than the usage fee. Is determined as a power supply device.
As a result, for example, the electricity bill in an emergency can be increased, so the user who wants to operate the equipment as much as possible can set all the payable amount set for the power requesting equipment to “market” or set a high “limit” You can increase the amount that can be paid. Thereby, the electric power supply according to a user's hope can be received.
On the other hand, since it may be somewhat inconvenient, a user who wants to operate only the minimum necessary device 120 may specify only the minimum necessary device 120 by “execution”, for example. As a result, the cost of electricity can be reduced after the minimum necessary device 120 is operated.

  In other words, in the second embodiment, it is possible to select a device that can be operated in an emergency with a high degree of freedom, and to impose a usage fee on the device, thereby suppressing the operation of an unnecessarily large number of devices. In the second embodiment, for example, a business model in which the regional storage battery 200 is provided in the power management area 1 and the stored power of the regional storage battery 200 is sold to the user of the facility 100 in an emergency can be realized.

[Example of processing procedure]
The flowchart in FIG. 9 illustrates an example of a processing procedure that the power management apparatus 400 according to the second embodiment executes in an emergency. In this figure, steps that are the same as those in FIG. 6 are denoted by the same reference numerals and description thereof is omitted.

The processing in step S101 and step S102 is the same as that in FIG.
After the power supply from the commercial power supply system 2 to the regional power network PNW is cut off in step S102, the charge setting unit 408, as described above, payable amount, predicted demand power amount, and remaining amount of the regional storage battery 200. Based on the capacity and the recovery information, a charge for using the stored power of the regional storage battery 200 is set ( step S 102-1).

In addition, after step S103 is executed, the device determination unit 405 determines, in the emergency power demand information table 404a, a device ID that is associated with a payable amount indicating “execution” as a power supply device (step S103). S104A). At the same time, the device determining unit 405 also determines a device having a device ID associated with a payable amount indicating a “limit” that is equal to or higher than the usage fee set in step S102-1, as a power supply device (step S104A). .
The processing in steps S105 to S111 is the same as that in FIG.

In addition, the structure of the power management apparatus of this embodiment is not limited to the structure demonstrated so far.
For example, in the power management system, in addition to the regional storage battery 200, there is provided an auxiliary power source such as an emergency storage battery, a fuel cell, or a gas power generation device. May also be able to supply power.
Further, in the above description, the power management apparatus 400 performs power supply control on the device 120 via the in-facility power management apparatus 130 in the facility 100. However, for example, the in-facility power management apparatus 130 may be omitted, and the power management apparatus 400 may directly control power supply to the equipment 120 of each facility 100. However, by interposing the in-facility power management apparatus 130 as in the present embodiment, the control of the power management apparatus 400 is avoided from being complicated, and power supply control can be performed efficiently.
In the above description, the power distribution control for the device 120 is controlled by controlling the power distribution circuit 110. For example, the device 120 itself may be controlled to be turned on / off.

  Also, a program for realizing the function of each functional unit in FIG. 2, FIG. 3, FIG. 7 and the like is recorded on a computer-readable recording medium, and the program recorded on this recording medium is read into a computer system, The power supply control in an emergency may be performed by executing. Here, the “computer system” includes an OS and hardware such as peripheral devices.

Further, the “computer system” includes a homepage providing environment (or display environment) if a WWW system is used.
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. Further, the “computer-readable recording medium” refers to a volatile memory (RAM) in a computer system that becomes a server or a client when a program is transmitted via a network such as the Internet or a communication line such as a telephone line. In addition, those holding programs for a certain period of time are also included. The program may be a program for realizing a part of the functions described above, and may be a program capable of realizing the functions described above in combination with a program already recorded in a computer system.

  The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes designs and the like that do not depart from the gist of the present invention.

DESCRIPTION OF SYMBOLS 1 Power management area 2 Commercial power supply system 100 Facility 110 Distribution circuit 120 Equipment 130 In-facility power management apparatus 131 Communication part 132 Equipment control part 133 Equipment management information storage part 133a Equipment management information 134 User interface part 135 Emergency power demand information generation part 200 Regional Storage Battery 300 Natural Energy Power Generation Device 400 Power Management Device 401 Commercial Power Supply System Abnormality Detection Unit 402 Shutdown Control Unit 403 Emergency Power Demand Information Management Unit 404 Emergency Power Demand Information Storage Unit 404a Emergency Power Demand Information Table 405 Device Determination Unit 406 Power supply control unit 407 Communication unit 408 Charge setting unit 500 Switch NW communication network PNW Regional power network

Claims (6)

A regional storage battery connected to a regional power network for supplying power to a plurality of facilities in the region, and a power management device for managing power in the region,
The power management device includes:
A communication unit that communicates with the plurality of facilities and the regional storage battery via a communication network;
A shut-off control unit that shuts off power supply from the commercial power system to the local power network when an abnormality occurs in the commercial power system;
Based on the emergency power demand information including information on the power requesting equipment that is requested to receive the stored power of the regional storage battery at the facility when an abnormality occurs in the commercial power system, A device determination unit that determines a power supply device to be supplied;
When an abnormality has occurred in the commercial power supply system, the stored power of the regional storage battery is supplied to the power supply device determined by the device determination unit via the regional power network. Via the communication network, the storage battery in the region, and a power supply control unit for controlling the power distribution circuit or equipment in each facility ,
The emergency power demand information is
A payable amount, which is an amount payable to receive supply of stored power of the regional storage battery, is set for each power requesting device,
The device determination unit
Among the power requesting devices indicated in the emergency power demand information, the usage fee for using the stored power of the regional storage battery, and the payable set for each power requesting device in the emergency power demand information A power management system that determines power supply equipment based on the amount of money . The power management system of claim 1 wherein the power management device, further comprising a fee setting unit that sets the usage fee. The charge setting unit determines the amount of money that can be paid indicated in the emergency power demand information, the amount of demand power that is predicted from now on, the remaining capacity of the storage battery in the region, and the expected recovery from an abnormality in the commercial power system. The usage fee is set based on at least one of the recovery information shown
  The power management system according to claim 2.
A plurality of facilities in the region, a regional storage battery connected to a regional power network for supplying power to the plurality of facilities, a communication unit that communicates via a communication network,
When an abnormality occurs in the commercial power supply system, a cutoff control unit that shuts off the power supply from the commercial power supply system to the regional power network,
Based on the emergency power demand information including information on the power requesting equipment that is requested to receive the stored power of the regional storage battery at the facility when an abnormality occurs in the commercial power system, A device determination unit that determines a power supply device to be supplied;
When an abnormality has occurred in the commercial power supply system, the stored power of the regional storage battery is supplied to the power supply device determined by the device determination unit via the regional power network. Via the communication network, the storage battery in the region, and a power supply control unit for controlling the power distribution circuit or equipment in each facility ,
The emergency power demand information is
A payable amount, which is an amount payable to receive supply of stored power of the regional storage battery, is set for each power requesting device,
The device determination unit
Among the power requesting devices indicated in the emergency power demand information, the usage fee for using the stored power of the regional storage battery, and the payable set for each power requesting device in the emergency power demand information A power management device that determines a power supply device based on the amount of money . A plurality of facilities in the region, a regional storage battery connected to a regional power network for supplying power to the plurality of facilities, a communication step of communicating via the communication network,
An interruption control step for interrupting power supply from the commercial power supply system to the regional power network when an abnormality occurs in the commercial power supply system;
Based on the emergency power demand information including information on the power requesting equipment that is requested to receive the stored power of the regional storage battery at the facility when an abnormality occurs in the commercial power system, A device determination step for determining a power supply device to be supplied;
When the abnormality occurs in the commercial power supply system, the stored power of the regional storage battery is supplied to the power supply device determined by the device determination step via the regional power network. Via the communication network, the regional storage battery, and a power supply control step for controlling the power distribution circuit or equipment in each facility ,
The emergency power demand information is
A payable amount, which is an amount payable to receive supply of stored power of the regional storage battery, is set for each power requesting device,
The device determination step includes
Among the power requesting devices indicated in the emergency power demand information, the usage fee for using the stored power of the regional storage battery, and the payable set for each power requesting device in the emergency power demand information A power management method for determining a power supply device based on the amount of money . On the computer,
A plurality of facilities in the region, a regional storage battery connected to a regional power network for supplying power to the plurality of facilities, a communication step of communicating via the communication network,
An interruption control step for interrupting power supply from the commercial power supply system to the regional power network when an abnormality occurs in the commercial power supply system;
See contains information on power requirements equipment it is a desire to receive a supply of electric power stored in the area storage battery in a facility when the abnormality in the commercial power system has occurred, receives a supply of electric power stored in the area storage battery In order to determine the power supply device to which power should be supplied in the facility based on the emergency power demand information in which the payable amount, which is the amount that can be paid for, is set for each power requesting device , the emergency power Based on the usage fee for using the stored power of the regional storage battery among the power requesting devices indicated in the demand information and the payable amount set for each of the power requesting devices in the emergency power demand information A device determination step for determining a power supply device ,
When the abnormality occurs in the commercial power supply system, the stored power of the regional storage battery is supplied to the power supply device determined by the device determination step via the regional power network. A program for executing the regional storage battery and a power supply control step for controlling a power distribution circuit or equipment in each facility via a communication network.

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