JP6696778B2 - Management server and management method - Google Patents

Description

  The present invention relates to a management server and a management method for transmitting a power command message to a communication facility having a power source facility.

  Communication equipment such as base stations and exchanges may have power supply equipment as a backup power supply in a power failure state. It is also considered to use a power supply facility provided in a communication facility for stabilizing a power system (for example, Patent Documents 1 and 2).

  For example, stabilization of the electric power system is performed by transmitting a power command message from a management server belonging to the electric power company or the electric power distribution company so that the amount of electric power supplied from the electric power system is supplied to the tidal flow or the electric power system. The reverse flow rate, which is the amount of electric power generated, can be suppressed. The power command message is, for example, at least one of a power flow suppression message (for example, DR; Demand Response) related to the suppression of the tidal flow rate and a reverse power flow suppression message (for example, an output suppression message) related to the suppression of the reverse flow rate.

JP, 2015-43672, A JP, 2013-74631, A

  By the way, when the load on the communication equipment is large, the reaction to the power command message may be delayed. If such a delay occurs, there is a possibility that the power system cannot be properly stabilized.

  Then, this invention is made in order to solve the subject mentioned above, and an object of this invention is to provide the management server and management method which enable stabilization of an electric power system by transmission of a power command message.

  One feature is a management server, which is a tidal flow rate that is the amount of electric power supplied from a power system or a reverse flow rate that is the amount of electric power supplied to the power system with respect to communication equipment including power supply equipment. A communication unit that transmits a power command message related to suppression of the power consumption, and a control unit that schedules the transmission of the power command message based on the magnitude of the load that affects the operation of the communication facility. The gist of the present invention is that the equipment is provided on a line network and controls communication performed using the communication line network.

  One feature is a management method, which is a tidal flow rate that is an amount of electric power supplied from a power system or a reverse flow rate that is an amount of electric power supplied to the power system for a communication facility including a power supply facility. The step of transmitting a power command message relating to the suppression of the above, and the step B of scheduling the transmission of the power command message based on the magnitude of the load that affects the operation of the communication equipment. The gist of the present invention is that the equipment is provided on a line network and controls communication performed using the communication line network.

  According to the present invention, it is possible to provide a management server and a management method capable of stabilizing a power system by transmitting a power command message.

FIG. 1 is a diagram showing a management system 100 according to the embodiment. FIG. 2 is a diagram showing the communication facility 10 according to the embodiment. FIG. 3 is a diagram showing the management server 20 according to the embodiment. FIG. 4 is a diagram showing an application scene according to the embodiment. FIG. 5 is a sequence diagram showing a management method according to the embodiment.

  Hereinafter, embodiments will be described with reference to the drawings. In the following description of the drawings, the same or similar parts are denoted by the same or similar reference numerals.

  However, it should be noted that the drawings are schematic and the ratio of each dimension may be different from the actual one. Therefore, specific dimensions may be determined in consideration of the following description. In addition, there may be a case where the drawings have some different dimensional relationships and ratios.

[Summary of Disclosure]
A management server according to an embodiment relates to suppression of a tidal flow rate that is an amount of electric power supplied from an electric power system or a reverse flow rate that is an amount of electric power supplied to the electric power system to a communication facility including a power supply facility. A communication unit that transmits a power command message; and a control unit that schedules the transmission of the power command message based on the magnitude of the load that affects the operation of the communication facility. And a facility for controlling communication performed using the communication network.

  In the embodiment, the management server schedules the transmission of the power command message based on the magnitude of the load that affects the operation of the communication facility. As a result, it is possible to reduce the possibility that the reaction to the power command message may be delayed, and it is possible to appropriately stabilize the power system.

[Embodiment]
(Management system)
The management system according to the embodiment will be described below. FIG. 1 is a diagram showing a management system 100 according to the embodiment. As shown in FIG. 1, the management system 100 includes a management server 20, a switching center 200, a base station 300, and a user terminal 400. The management server 20 is managed by a power company, a power aggregator, a communication company, or the like.

  The management server 20 transmits a power command message to the communication equipment including the power supply equipment via the communication line network 50 (for example, the backhaul network of the mobile communication network). That is, the management server 20 may be a DR (Demand Response) server.

  The power command message is a message regarding suppression of the tidal flow rate that is the amount of power supplied from the power system or the reverse flow rate that is the amount of power supplied to the power system. The power command message related to the reduction of the tidal flow may be, for example, a message that the desired amount of power consumption reduction is ∘% reduction, or a message that the desired amount of power consumption reduction is ∘kwh reduction. Alternatively, it may be a message to present an incentive according to the reduction amount. The message regarding the suppression of reverse power flow is assumed to be, for example, a message to reduce the reverse power flow by ∘%. In the embodiment, the communication equipment including the power supply equipment is, for example, at least one of the switching center 200 and the base station 300.

  Switching center 200 is an example of communication equipment including power supply equipment. The switching center 200 communicates with the plurality of base stations 300 and controls the communication via each of the plurality of base stations 300. In the embodiment, a switching center 200A and a switching center 200B are provided.

  The base station 300 is an example of communication equipment including power supply equipment. The base station 300 has a communication area 310 and performs wireless communication with the user terminal 400 located in the communication area 310. In the embodiment, base stations 300A to 300D are provided. The base stations 300A to 300D have communication areas 310A to 310D.

  The user terminal 400 performs wireless communication with the base station 300. The user terminal 400 is, for example, a mobile phone, a tablet terminal, or the like.

(Communication equipment)
Below, the communication equipment concerning an embodiment is explained. FIG. 2 is a diagram showing the communication facility 10 according to the embodiment. The communication facility 10 is provided on the communication line network 50 and may be any facility that controls communication performed using the communication line network 50. In the embodiment, the communication facility 10 is, for example, the switching center 200 and the base station 300 described above. As shown in FIG. 2, the communication facility 10 includes a power source facility 11 and a control facility 12.

  The power supply facility 11 may be a facility that outputs electric power supplied from the communication facility 10 to the power system (for example, a storage battery, a solar cell, or a fuel cell). The power supply facility 11 may be a facility (for example, a storage battery) that stores the power supplied from the power system to the communication facility 10. The power supply facility 11 may be, for example, a facility that outputs power to cover the power consumed by the communication facility 10 in the case where the power supplied from the power system is insufficient, such as a power outage.

  Here, the capacity of the power supply equipment 11 may be a capacity that can be output from the power supply equipment 11. Therefore, when the power supply equipment 11 is a storage battery, the capacity of the power supply equipment 11 may be the discharge capacity of the storage battery. When the power supply facility 11 is a power generation facility such as a solar cell or a fuel cell, the capacity of the power supply facility 11 may be the power generation capacity of the power generation facility. The capacity of the power supply facility 11 may be a capacity that can be stored in the power supply facility 11. Therefore, when the power supply facility 11 is a storage battery, the capacity of the power supply facility 11 may be the storage capacity of the storage battery. The storage capacity may be synonymous with the above-mentioned discharge capacity.

  The control facility 12 controls communication with the user terminal 400. For example, when the communication equipment 10 is the switching center 200, the control equipment 12 includes a base or the like for controlling communication via each of the plurality of base stations 300. On the other hand, when the communication equipment 10 is the base station 300, the control equipment 12 includes a base for controlling communication with the user terminal 400 located in the communication area 310.

(Management server)
The management server 20 according to the embodiment will be described below. FIG. 3 is a diagram showing the management server 20 according to the embodiment. As shown in FIG. 3, the management server 20 has a communication unit 21 and a control unit 22.

  The communication unit 21 is composed of a communication module, and transmits to the communication facility 10 a power command message regarding suppression of the tidal flow rate or the reverse tidal flow rate. The communication unit 21 may transmit the power command message to the plurality of communication facilities 10.

  The control unit 22 includes a CPU and a memory, and controls the management server 20. The control unit 22 schedules the transmission of the power command message based on the magnitude of the load that affects the operation of the communication facility 10.

  Here, the scheduling of transmission of the power command message may be a process of selecting a transmission partner (communication equipment 10) of the power command message, or a process of determining the transmission order of the power command messages to the communication equipment 10. Good.

  In the embodiment, the load that affects the operation of the communication facility 10 is processed by the number of communication partners connected to the communication facility 10, the congestion state of the communication line connecting the communication facility 10 and the communication partner, and the communication facility 10. It is at least one of the signal amounts to be performed. When the communication facility 10 is the switching center 200, the communication partner may be the number of base stations 300 that communicate with the switching center 200, and the communication is performed via the base station 300 that communicates with the switching center 200. It may be the user terminal 400. On the other hand, when the communication facility 10 is the base station 300, the communication partner may be the user terminal 400 that performs wireless communication with the base station 300.

  For example, the scheduling of transmission of the power command message is performed by at least one of the procedures shown below.

  (A) The control unit 22 schedules the transmission of the power command message according to the load state of each of the plurality of communication facilities 10. For example, consider a case where the communication equipment 10 includes a first communication equipment affected by the first load and a second communication equipment affected by a second load larger than the first load. In such a case, the control unit 22 preferentially schedules the transmission of the power command message to the first communication equipment over the transmission of the power command message to the second communication equipment. For example, the control unit 22 may preferentially select the first communication facility over the second communication facility as a transmission partner (communication facility 10) of the power command message, and transmit the power command message to the second communication facility. The transmission order of the power command message to the first communication facility may be earlier than the order. That is, the control unit 22 preferentially schedules the transmission of the power command message to the communication equipment 10 affected by the relatively small load.

  (B) The control unit 22 may exclude the communication equipment 10 having a load larger than the predetermined threshold value from the other party (communication equipment 10) to which the power command message is transmitted. When the reference timing is the transmission timing of the power command message to the communication equipment 10 having a load smaller than the predetermined threshold, the control unit 22 determines the transmission timing of the power command message to the communication equipment 10 having the load larger than the predetermined threshold. It may be delayed from the reference timing.

  (C) The control unit 22 may schedule the transmission of the power command message according to the capacities of the power supply facilities 11 included in the plurality of communication facilities 10. For example, consider a case where the communication facility 10 includes a first communication facility including a power facility 11 having a first power storage capacity and a second communication facility including a power facility 11 having a second power storage capacity smaller than the first power storage capacity. In such a case, the control unit 22 preferentially schedules the transmission of the power command message to the first communication equipment over the transmission of the power command message to the second communication equipment. For example, the control unit 22 may preferentially select the first communication facility over the second communication facility as the transmission partner (communication facility 10) of the power command message, and transmit the power command message to the second communication facility. The transmission order of the power command message to the first communication facility may be earlier than the order. That is, the control unit 22 preferentially schedules the transmission of the power command message to the communication equipment 10 including the power supply equipment 11 having a relatively large capacity.

  (D) The control unit 22 may exclude the communication equipment 10 including the power supply equipment 11 having a capacity smaller than the predetermined threshold value from the other party (communication equipment 10) to which the power command message is transmitted. When the reference timing is the transmission timing of the power command message to the communication equipment 10 including the power supply equipment 11 having a capacity larger than the predetermined threshold, the control unit 22 communicates with the power supply equipment 11 having the capacity smaller than the predetermined threshold. The transmission timing of the power command message to the equipment 10 may be delayed from the reference timing.

  (E) The control unit 22 may schedule the transmission of the power command message according to both the load states of the plurality of communication facilities 10 and the capacities of the power supply facilities 11 included in the plurality of communication facilities 10. .. In such a case, the control unit 22 schedules the transmission of the power command message based on the priority based on the load state and the priority based on the capacity. The control unit 22 may schedule the transmission of the power command message based on the result of multiplying each of the priority based on the load state and the priority based on the capacity by the weighting coefficient.

  In the procedure described above, the load of the communication facility 10 may be the current value of the load of the communication facility 10 acquired during a period in which the tidal flow rate or the reverse flow rate is suppressed (hereinafter referred to as a suppression period). The load of the communication equipment 10 may be a predicted value of the load of the communication equipment 10 during the suppression period. The predicted value may be acquired before the suppression period.

  In the procedure described above, the capacity of the power supply equipment 11 may be the maximum capacity of the power supply equipment 11. The capacity of the power supply facility 11 may be the current value of the capacity of the power supply facility 11 acquired during the suppression period. The capacity of the power supply facility 11 may be a predicted value of the capacity of the power supply facility 11 during the suppression period. The predicted value may be acquired before the suppression period.

(Applicable scene)
The applicable scenes according to the embodiment will be described below. FIG. 4 is a diagram showing an application scene according to the embodiment. FIG. 4 exemplifies a case where the power command message is a message related to the suppression of the tidal flow rate. The power command message includes information indicating the required reduction capacity that is the tidal flow rate to be reduced in the section managed by the management server 20.

  As shown in FIG. 4, a case where communication equipment A to communication equipment E are provided as the communication equipment 10 and each of the communication equipment A to communication equipment E includes a storage battery as the power supply equipment 11 will be described as an example. The loads (congestion state) of the communication equipments A to E change with time, and the storage capacities (discharge capacity) of the storage batteries included in the communication equipments A to E also change with time.

  Under such a premise, in the first 10 minutes, the communication equipment A with the smallest load (congestion state) is selected first and the load (congestion state) is second smallest as a transmission partner of the power command message. The communication equipment B is selected second, and the communication equipment C having the second smallest load (congestion state) is selected third. Since the capacity capable of reducing the tidal flow reaches the required storage capacity at the time when the communication equipment A to the communication equipment C are selected as the recipients of the power command message, the communication equipments D and E are excluded from the recipients of the power command message. To be done. In such a case, the transmission order of the power command message to the communication equipment C having the largest storage capacity is first, and the transmission order of the power command message to the communication equipment B having the second largest storage capacity is second. Yes, the transmission order of the power command message to the communication facility B having the third largest storage capacity may be the third.

  Also in the second 10 minutes and the last 10 minutes, the transmission partner of the power command message is selected based on the load of the communication facility 10 according to the same procedure as in the first 10 minutes. Further, the transmission order of the power command messages may be determined based on the capacity of the power supply equipment 11 according to the same procedure as the first 10 minutes.

  In addition, the required reduced capacity may be calculated based on the suppression request, the system power condition, or the like, or the initially planned reduced capacity may be corrected, as described later.

(Management method)
The management method according to the embodiment will be described below. FIG. 5 is a sequence diagram showing a management method according to the embodiment.

  As shown in FIG. 5, in step S10, the management server 20 receives a request for suppressing the tidal flow rate or the reverse tidal flow rate. The suppression request may be accepted by the reception of the message received from the electric power company, or may be accepted by the input of the operator.

  In step S11, the management server 20 transmits an inquiry message to the communication facility group 10. The inquiry message is a message requesting transmission of information indicating the load (current value or predicted value) of the communication facility 10. The inquiry message may be a message requesting transmission of information indicating the capacity (current value or predicted value) of the power supply equipment 11.

  In step S12, the communication facility group 10 transmits a response message to the management server 20. The response message includes information indicating the load (current value or predicted value) of the communication facility 10. The response message may include information indicating the capacity (current value or predicted value) of the power supply equipment 11.

  In step S13, the management server 20 schedules the transmission of the power command message based on the magnitude of the load that affects the operation of the communication facility 10.

  Here, the scheduling of transmission of the power command message may be a process of selecting a transmission partner (communication equipment 10) of the power command message, or a process of determining the transmission order of the power command messages to the communication equipment 10. Good.

  In step S14, the management server 20 transmits a power command message to the communication equipment 10 group based on the scheduling result of step S13.

(Action and effect)
In the embodiment, the management server 20 schedules the transmission of the power command message based on the magnitude of the load that affects the operation of the communication facility 10. As a result, it is possible to reduce the possibility that the reaction to the power command message may be delayed, and it is possible to appropriately stabilize the power system.

  In the embodiment, the management server 20 may schedule the transmission of the power command message based on the capacity of the power supply equipment 11 included in the communication equipment 10. Thereby, the transmission of the power command message can be efficiently scheduled.

[Other Embodiments]
Although the present invention has been described by the above-described embodiments, it should not be understood that the description and drawings forming a part of this disclosure limit the present invention. From this disclosure, various alternative embodiments, examples, and operation techniques will be apparent to those skilled in the art.

  In the embodiment, the case where the management server 20 manages only the communication equipment 10 including the power supply equipment 11 as the equipment (or the equipment) that contributes to the suppression of the tidal flow rate or the reverse tidal flow rate has been mainly described. However, the embodiment is not limited to this. The management server 20 is, as a facility (or facility) that contributes to the suppression of the tidal flow rate or the reverse tidal flow rate, in addition to the communication facility 10 including the power supply facility 11, a consumer facility that does not control communication performed using the communication network 50. May be managed. In such a case, the management server 20 (control unit 22) transmits the power instruction message to the communication facility rather than the power instruction message to the consumer facility that does not control the communication performed using the communication network 50. You may schedule by priority.

  10 ... Communication equipment, 11 ... Power equipment, 12 ... Control equipment, 20 ... Management server, 21 ... Communication section, 22 ... Control section, 50 ... Communication network, 100 ... Management system, 200 ... Exchange station, 300 ... Base station , 310 ... Communication area, 400 ... User terminal

Claims (7)

For the transmission partner, which is at least one of the plurality of communication facilities including the power supply facility, of the tidal flow rate that is the amount of power supplied from the power system or the reverse flow rate that is the amount of power supplied to the power system. A communication unit that transmits a power command message regarding suppression,
Based on the size of the load of each of the plurality of communication equipment and the capacity of the power supply equipment of each of the plurality of communication equipment, a control unit that performs scheduling for selecting the transmission partner at predetermined time intervals,
The capacity of the power supply equipment is a capacity that can be output from the power supply equipment or a capacity that can be stored in the power supply equipment,
The communication facility is a facility that is provided on a communication network and controls communication performed using the communication network,
The control unit preferentially selects the transmission partner from the plurality of communication facilities in the ascending order of load until the total capacity of the power supply facilities of the transmission partner satisfies the required capacity at each of the predetermined time intervals. Then
The management server , wherein the required capacity is a tidal flow rate to be reduced or a reverse flow rate to be reduced . The communication equipment includes a first communication equipment affected by a first load and a second communication equipment affected by a second load larger than the first load,
The management according to claim 1, wherein the control unit preferentially schedules the transmission of the power command message to the first communication facility over the transmission of the power command message to the second communication facility. server. The communication equipment includes a first communication equipment including the power supply equipment having a first storage capacity and a second communication equipment including the power supply equipment having a second storage capacity smaller than the first storage capacity.
The control unit preferentially schedules the transmission of the power command message to the first communication equipment over the transmission of the power command message to the second communication equipment. Management server.   The control unit preferentially schedules the transmission of the power command message to the communication facility over the transmission of the power command message to a consumer facility that does not control communication performed using the communication network. The management server according to any one of claims 1 to 3.   The load is at least one of the number of communication partners connected to the communication facility, a congestion state of a communication line connecting the communication facility and the communication partner, and a signal amount to be processed by the communication facility. The management server according to any one of claims 1 to 4, wherein   6. The communication facility according to claim 1, wherein the communication facility is at least one of a base station that performs wireless communication with a user terminal and an exchange that communicates with the base station. Management server listed. For the transmission partner, which is at least one of the plurality of communication facilities including the power supply facility, of the tidal flow rate that is the amount of power supplied from the power system or the reverse flow rate that is the amount of power supplied to the power system. Step A of transmitting a power command message regarding suppression,
A step B of performing scheduling for selecting the transmission partner at a predetermined time interval based on a load size of each of the plurality of communication facilities and a capacity of the power supply facility of each of the plurality of communication facilities,
The capacity of the power supply equipment is a capacity that can be output from the power supply equipment or a capacity that can be stored in the power supply equipment,
The communication facility is a facility that is provided on a communication network and controls communication performed using the communication network,
In the step B, the transmission partner is preferentially selected from the plurality of communication facilities in the ascending order of load until the total capacity of the power supply facilities of the transmission partner meets the required capacity at each of the predetermined time intervals. the step of viewing including,
The management method , wherein the required capacity is a tidal flow rate to be reduced or a reverse flow rate to be reduced .

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