JP2022056974A - Information processing system and heat pump system - Google Patents

Abstract

To achieve adjustment of skin phase power by a heat pump system in an electric wire of a power distribution system in a case where the heat pump system regulates temperature and/or humidity.SOLUTION: An information processing system includes: acquisition means for acquiring system information regarding a heat pump system used for adjusting skin phase power in an electric wire of a power distribution system and capable of adjusting temperature and/or humidity; capability calculation means for calculating an index regarding capability of adjusting the skin phase power in the electric wire in a case where the heat pump system adjusts temperature and/or humidity based on the system information.SELECTED DRAWING: Figure 8

Description

The present disclosure relates to information processing systems and heat pump systems.

Patent Document 1 describes a second detection unit that detects the current flowing in the power receiving path of the distribution board, a reduction of the harmonic current in the power receiving path of the distribution board based on the detection value detected by the second detection unit, and the reduction of the harmonic current in the power receiving path of the distribution board. A controller that calculates a second compensation component for performing at least one of the improvements in the fundamental wave power factor, and generates a current in which the current for the second compensation component and the current for the first compensation component are superimposed on each other at the current source. The active filter apparatus characterized by the provision of is described.

Japanese Patent No. 6299831

Patent Document 1 discloses that the device adjusts the apparent power inside the facility, but adjusts the apparent power in the electric wire of the distribution system when the heat pump system adjusts the temperature and / or the humidity. That is not disclosed.
It is an object of the present disclosure to realize the adjustment of the apparent power in the electric wire of the distribution system by the heat pump system when the heat pump system adjusts the temperature and / or the humidity.

The information processing system of the present disclosure is an acquisition means for acquiring system information about a heat pump system that is used for adjusting apparent power in electric wires of a distribution system and is capable of adjusting temperature and / or humidity, and the heat pump system is used for temperature and / or. It is an information system including an ability calculation means for calculating an index regarding an ability for adjusting apparent power in the electric wire when the humidity is adjusted based on the system information. In this case, when the heat pump system adjusts the temperature and / or the humidity, it is possible to realize the adjustment of the apparent power in the electric wire of the distribution system by the heat pump system.
Here, the information processing system may further include a margin calculation means for calculating an index relating to a margin of the adjustment capacity when the heat pump system adjusts the apparent power in the electric wire. In this case, the content of the adjustment of the apparent power in the electric wire of the distribution system by the heat pump system can be changed based on the index related to the margin calculated by the margin calculation means.
Further, the information processing system may further include an output means for outputting information about the heat pump system when the index regarding the margin satisfies the condition defined for the margin. In this case, compared to the case where the information about the heat pump system is output regardless of whether or not the index regarding the margin satisfies the condition, the heat pump system is calculated with the index regarding the margin that is not suitable for the adjustment change by the heat pump system. It is possible to suppress the output of information about.
Further, the conditions may be determined based on the life of the heat pump system. In this case, the content of the adjustment of the apparent power in the electric wire by the heat pump system can be changed based on the life of the heat pump system.
The conditions may also be determined based on the use of the heat pump system for temperature and / or humidity control. In this case, the content of the adjustment of the apparent power in the electric wire by the heat pump system can be changed based on the use for adjusting the temperature and / or the humidity of the heat pump system.
Further, the information processing system may further include an output means for outputting information regarding the index that satisfies the condition defined for the adjustment of the apparent power. In this case, it is possible to suppress the output of information on the index having contents that are not suitable for adjusting the apparent power in the electric wire, as compared with the case where the information on the index is output regardless of whether the index satisfies the condition.
Further, the condition may be an index calculated for the heat pump system in which the power is received through the electric wire which is the target of the adjustment of the apparent power. In this case, compared to the case where the information about the index is output regardless of whether the index satisfies the condition, the information about the index about the heat pump system in which power is not received through the electric wire to be adjusted is output. Can be suppressed.
In addition, the above conditions may be defined for the ability to adjust the apparent power. In this case, it is possible to suppress the output of information on an index that is not suitable for the ability of adjusting the apparent power of the electric wire, as compared with the case where the information on the index is output regardless of whether or not the index satisfies the condition.
Further, the condition may be determined based on the relationship between the capacity and the degree of adjustment necessary for the apparent power in the electric wire. In this case, the information about the index that is not suitable for the relationship between the capacity and the degree of adjustment required for the apparent power is output as compared with the case where the information about the index is output regardless of whether the index satisfies the condition. It can be suppressed.
Further, the heat pump system has a conversion unit that converts the received power and supplies the converted power to the load used for adjusting the temperature and / or humidity, and adjusts the apparent power in the power receiving path of the conversion unit. An adjusting unit is provided, and both the conversion unit and the adjusting unit can adjust the apparent power in the electric wire, and the capacity calculation means has the ability to adjust the apparent power in the electric wire by the converting unit. An index relating to the above and an index relating to the ability of the adjusting unit to adjust the apparent power of the electric wire may be calculated. In this case, when the heat pump system adjusts the temperature and / or the humidity, the adjustment by the conversion unit and the adjustment unit of the apparent power in the electric wire of the distribution system can be realized.
Further, the capacity calculation means may calculate a first index related to a predetermined capacity for the adjusting unit, and may calculate a second index related to the capacity lower than the adjusting unit for the conversion unit. In this case, it is possible to suppress the influence on the function of adjusting the temperature and / or the humidity by the heat pump system as compared with the case where the index regarding the capacity higher than that of the adjusting unit is calculated for the converting unit.
Further, the system information may include target information regarding an object for which temperature and / or humidity is adjusted by the heat pump system. In this case, it is possible to calculate an index suitable for the target to which the temperature and / or humidity is adjusted by the heat pump system, as compared with the case where the capacity calculation means calculates the index without using the target information.
From another point of view, the heat pump system of the present disclosure is a heat pump system used for adjusting the apparent power in the electric wire of the distribution system and capable of adjusting the temperature and / or humidity, and the system information regarding the heat pump system. A heat pump including an acquisition means for acquiring the above and a calculation means for calculating an index regarding the ability of the superficial power adjustment in the electric wire when the heat pump system adjusts the temperature and / or humidity based on the system information. It is a system. In this case, when the heat pump system adjusts the temperature and / or the humidity, it is possible to realize the adjustment of the apparent power in the electric wire of the distribution system by the heat pump system.

It is a figure which showed an example of the electric power control system which concerns on this embodiment. It is a figure which showed the hardware configuration of the calculation server and the instruction server. It is a figure which showed the functional structure of HPS. It is a figure which showed the functional structure of the calculation server. It is a figure which showed the relationship management table. (A) is a diagram showing a past information management table, and (b) is a diagram showing a future information management table. (A) is a diagram showing a future information management table, (b) is a diagram showing a past information management table, and (c) is a diagram showing a future information management table. It is a flowchart which showed the flow of the possible amount calculation process. It is a figure which showed the future information management table. (A) and (b) are diagrams showing the management table during adjustment.

Hereinafter, embodiments will be described with reference to the accompanying drawings.
FIG. 1 is a diagram showing an example of a power control system 1 according to the present embodiment.
The power control system 1 as an example of the information processing system is a system for controlling apparent power.
The power control system 1 is provided with a power system 10, a plurality of power consumption facilities 20, a calculation server 30, and an instruction server 40.

The electric power system 10 is a system provided with equipment for supplying electric power to consumers of electric power. The power system 10 includes a power plant 11, a transmission line 12, a supply-side substation 13, a supply-side distribution line 14, an automatic voltage regulator (SVR: Step Voltage Regulator) 15, a receiving-side substation 16, and a receiving-side distribution line 17. , A pillar transformer 18, and a consumer-side distribution line 19 are provided.

The power plant 11 is a facility for generating electricity. Examples of the power plant 11 include a thermal power plant, a hydroelectric power plant, a nuclear power plant, a solar power plant, a wind power plant, a geothermal power plant, and the like.
The transmission line 12 is a line through which the current constituting the electric power generated in the power plant 11 flows. The transmission line 12 is provided from the power plant 11 to the supply side substation 13.

The supply-side substation 13 is a facility for converting voltage. The supply-side substation 13 is provided on the power supply side with respect to the receiving-side substation 16. In the present embodiment, the equipment located on the most supply side of the electric power is the power plant 11. Further, the equipment located on the receiving side of the electric power is the electric power consuming facility 20.
The supply-side substation 13 converts the voltage supplied through the transmission line 12. The substation 13 on the supply side includes, for example, a substation that converts a voltage of 500,000 V to 154,000 V, a substation that converts a voltage of 154,000 V to 66,000 V, and 66,000. Examples include substations that convert the voltage of V to 22,000 V.

The supply-side distribution line 14 is a line through which a current generated by applying a converted voltage to the supply-side substation 13 flows. The supply-side distribution line 14 is provided from the supply-side substation 13 to the receiving-side substation 16. Further, the supply side distribution line 14 is provided on the power supply side with respect to the receiving side distribution line 17.
The SVR 15 adjusts the voltage supplied to the supply side distribution line 14. More specifically, the SVR 15 detects the voltage supplied to the supply side distribution line 14. Then, when the detected voltage is not in the predetermined range, the SVR 15 adjusts the voltage so that the voltage falls within the predetermined range.
The receiving-side substation 16 is a facility that converts the voltage supplied through the supply-side distribution line 14. Examples of the receiving side substation 16 include a substation that converts the supplied voltage to 6600V.

The receiving side distribution line 17 is a line through which a current generated by applying a converted voltage to the receiving side substation 16 flows. The receiving side distribution line 17 is provided from the receiving side substation 16 to the pole transformer 18. In the present embodiment, when the supply side distribution line 14 and the receiving side distribution line 17 are described without particular distinction, they may be simply referred to as “electric wires”.
The pole transformer 18 is a facility that converts the voltage supplied through the receiving side distribution line 17. Examples of the pole transformer 18 include a transformer that converts a voltage of 6600V to 200V, a transformer that converts a voltage of 6600V to 100V, and the like.

The consumer-side distribution line 19 is a line through which a current generated by applying a voltage converted to the pole transformer 18 flows. The power system 10 is provided with a plurality of consumer-side distribution lines 19. More specifically, the consumer-side distribution line 19 is provided for each power consuming facility 20. Each consumer side distribution line 19 is provided from the pole transformer 18 to the power consumption facility 20.
As described above, the electric power system 10 is a system provided outside the electric power consuming facility 20 and is a system for distributing the generated electric power to electric power consumers. Therefore, the power system 10 can also be regarded as a distribution system.

Further, the power system 10 is provided with a plurality of electric wire sensors 10S. The electric wire sensor 10S is connected to the supply side distribution line 14. More specifically, the electric wire sensor 10S is connected to a portion of the supply side distribution line 14 on the power supply side rather than the SVR 15. Further, the electric wire sensor 10S is connected to each of the receiving side distribution electric wires 17 provided in the electric power system 10. In other words, the electric wire sensor 10S is provided for each of the supply side distribution line 14 and the receiving side distribution line 17.

The electric wire sensor 10S detects a parameter relating to apparent power in the connected electric wire. The parameter relating to the apparent power is a parameter that affects the apparent power. Examples of the parameters related to the apparent power include the apparent power, the ineffective power, the ineffective voltage, the harmonic voltage, the current, the power factor, the apparent electric energy in a predetermined period, the ineffective power amount, and the like. Currents as parameters for apparent power include harmonic currents. Further, the harmonic voltage or harmonic current may be a harmonic voltage or harmonic current of a specific order. Specific orders include, for example, fifth harmonics. Further, as the parameters related to the apparent power, for example, the total harmonic distortion (THD) of the current, the THD of the voltage, and the like can be mentioned. Here, the THD of the current is calculated from the following equation (1). Further, the THD of the voltage is calculated from the following equation (2).

In the above equation (1), I ₁ is the fundamental wave current. Further, In is the _nth harmonic current.
In the above equation (2), V ₁ is the fundamental wave voltage. Further, V _n is the nth harmonic voltage.
The electric wire sensor 10S detects the above-mentioned parameters regarding apparent power, for example, at predetermined time intervals. The predetermined time may be any time, but is, for example, 60 seconds. Then, when the electric wire sensor 10S detects a parameter related to the apparent power, it transmits the information indicating the detected parameter to the instruction server 40 together with the electric wire identification information for identifying the electric wire to be detected.

In the illustrated example, one supply-side substation 13 is shown in the power system 10, but the number of supply-side substations 13 is not limited to one in the figure. The power system 10 may be provided with two or more supply-side substations 13 having the same or different voltages to be converted.
Further, in the illustrated example, one receiving side substation 16 is shown in the power system 10, but the number of receiving side substations 16 is not limited to one in the drawing. The power system 10 may be provided with two or more receiving substations 16 having the same or different voltage to be converted.
Further, the number of the supply side distribution line 14 and the reception side distribution line 17 is not limited to the illustrated example. The power system 10 may be provided with more supply-side distribution lines 14 and receiving-side distribution lines 17 than the number shown in the figure. In this case, the electric wire sensor 10S may be provided for each supply side distribution line 14, or the electric wire sensor 10S may be provided for each receiving side distribution line 17.

The power consumption facility 20 is a facility that receives and consumes the power supplied from the power plant 11 through the distribution line 19 on the consumer side. Each power consumption facility 20 is provided with a heat pump system (HPS: Heat Pump System) 21, a load device 22, a set value sensor 23, and an environment sensor 24.

The HPS 21 adjusts the temperature and humidity by using the electric power received from the electric power system 10. The target of adjustment by the HPS 21 includes the temperature and humidity of the space in the power consumption facility 20. Further, the target of the adjustment by the HPS 21 is the temperature of the liquid provided in the power consumption facility 20. In the present embodiment, each HPS 21 is provided with a power conversion device 211 and an active filter (AF: Active Filter) 212.

The power conversion device 211 as an example of the conversion unit includes an inverter (not shown) and a converter (not shown). The power conversion device 211 converts the received power into power having a specific voltage and a specific frequency by using an inverter and a converter. The specific voltage and specific frequency are the voltage and frequency required for the operation of the motor (not shown) provided in the HPS 21. The power conversion device 211 controls the operation of the motor by supplying the converted electric power to the motor. By this control, the temperature and humidity can be adjusted by the HPS21.

The AF 212 as an example of the adjusting unit supplies a current to the path through which the electric power received by the power conversion device 211 in the HPS 21 passes, thereby improving the power factor and reducing the harmonics in this path. The path through which the power received by the power conversion device 211 in the HPS 21 passes may be referred to as a power receiving path below.

Further, in the present embodiment, both the power conversion device 211 and the AF212 supply a current to the power system 10. The power conversion devices 211 and AF212 control the operation of the HPS 21 and supply a current to the electric wire in the electric power system 10 to adjust the above parameters regarding the apparent power in the electric wire. In other words, the power conversion devices 211 and AF212 of the present embodiment adjust the apparent power in the electric wires of the distribution system.

An example of the method of adjusting the parameters related to the apparent power in the electric wire by HPS21 will be described. When a harmonic current is generated in the electric wire, the power conversion device 211 or AF212 of the HPS 21 supplies the harmonic current in the phase for canceling the harmonic current to the electric wire, thereby reducing the harmonic current in the electric wire.
Another example of the method of adjusting the parameters related to the apparent power in the electric wire by HPS21 will be described. When the electric wire has an reactive power, the power conversion device 211 or AF212 of the HPS 21 supplies a current to the electric wire to reduce the reactive power in the electric wire.
As described above, in the present embodiment, the parameters related to the apparent power in the electric wire of the electric power system 10 are adjusted by using the HPS 21. Here, as the parameters related to the apparent power change, the apparent power also changes. Therefore, the adjustment of each of the above parameters regarding the apparent power can be broadly regarded as the adjustment of the apparent power. In the following, each parameter relating to the apparent power to be adjusted may be collectively referred to as “apparent power”.

Examples of the HPS21 include a system that harmonizes temperature and humidity. More specifically, the HPS21 includes equipment used in an HVAC (Heating Ventilation and Air Conditioning) system, such as an air conditioner, a showcase that adjusts the internal temperature, a refrigerator, a refrigerator, and a water heater. Be done. In the following, the HPS 21 will be described as being an air conditioner.
When the HPS 21 receives an instruction from the calculation server 30 to adjust the apparent power in the electric wire of the power system 10, the HPS 21 adjusts the apparent electric power in the electric wire according to the received instruction.

The load device 22 receives and consumes the electric power supplied from the power plant 11 through the consumer-side distribution line 19.
The set value sensor 23 detects the set value in the HPS 21. As the set value in the HPS 21, the value set in the HPS 21 as the target of the temperature of the space in the power consumption facility 20 in which the HPS 21 is provided, and the HPS 21 as the target of the humidity in the space in the power consumption facility 20 in which the HPS 21 is provided. The value set in is mentioned.
The environment sensor 24 detects the weather, temperature, and humidity in the area where the HPS 21 is provided.

The set value sensor 23 and the environment sensor 24 detect the above-mentioned target information at predetermined time intervals. The predetermined time may be any time, but is, for example, 3 hours. When the set value sensor 23 and the environment sensor 24 detect the target information, the set value sensor 23 and the environment sensor 24 use the detected value information indicating the detected value, the HPS identification information for identifying the HPS 21 to be detected, and the date and time when the target information is detected. It is transmitted to the calculation server 30 together with the indicated time information. Here, the detected value information is captured as system information related to HPS21.
If the HPS 21 is not operating at the detection time of the set value sensor 23, the detected value information is not generated in the set value sensor 23. In this case, the set value sensor 23 transmits the HPS identification information and the time information, but does not transmit the detected value information.
Further, two or more set value sensors 23 may be provided for each HPS 21, and each set value sensor 23 may detect different types of set values. Further, two or more environment sensors 24 may be provided for each HPS 21, and each environment sensor 24 may detect different types of information.

Further, in the illustrated example, one power consumption facility 20 is provided for each distribution line 19 on the consumer side, but the present invention is not limited to this. A plurality of power consumption facilities 20 may be provided for each distribution line 19 on the consumer side. Further, the number of HPS 21 and the number of load devices 22 provided in the power consumption facility 20 are not limited to the illustrated examples. The power consumption facility 20 may be provided with more HPS 21 and load devices 22 than the number shown in the figure. Further, there may be a power consumption facility 20 in which the HPS 21 and the load device 22 are not provided.

The calculation server 30 is a server device that calculates a current value that can be supplied by the HPS 21 for adjusting the apparent power in the electric wire of the power system 10, a current value per unit time, or a current value in a predetermined time. When the current value, the current value per unit time, and the current value at a predetermined time are described without particular distinction, they may be simply collectively referred to as "current value". When the current value required to improve the apparent power in the electric wire of the power system 10 is large, the larger the current value that the HPS 21 can supply to the electric wire, the greater the contribution of the HPS 21 to the improvement of the apparent electric power in this electric wire. Therefore, the calculation server 30 calculates the current value that can be supplied by the HPS 21 for adjusting the apparent power in the electric wire by using the detection value information transmitted from the set value sensor 23 and the environment sensor 24. The current value that can be supplied by the HPS 21 for adjusting the apparent power in the electric wire of the power system 10 is hereinafter referred to as an adjustable amount.

The calculation server 30 transmits the possible amount information indicating the calculated adjustable amount to the instruction server 40 together with the HPS identification information for identifying the target HPS 21 and the time information indicating the target date and time. Further, the calculation server 30 receives an instruction for adjusting the apparent power of the electric wire of the power system 10 by the HPS 21 from the instruction server 40. The calculation server 30 instructs the HPS 21 indicated in this instruction to adjust the apparent power in the electric wire of the power system 10 according to the received instruction.

The instruction server 40 is a server device that controls apparent power in the electric wire of the power system 10. When the instruction server 40 acquires the information regarding the detected value transmitted from the electric wire sensor 10S, the instruction server 40 identifies the electric wire that needs to adjust the apparent power from the acquired information. Further, the instruction server 40 acquires possible amount information from the calculation server 30. Then, the instruction server 40 transmits an instruction to the HPS 21 regarding the adjustment of the apparent power in the electric wire to the calculation server 30 by using the acquired possible amount information.

The instruction server 40 and the calculation server 30 are realized by, for example, a computer. The instruction server 40 and the calculation server 30 may be configured by a single computer or may be realized by distributed processing by a plurality of computers. Further, the instruction server 40 and the calculation server 30 may be realized on virtual hardware provided by cloud computing. In the following, when the instruction server 40 and the calculation server 30 are described without particular distinction, they may be simply referred to as a “server”.

In the present embodiment, the calculation server 30, each power consumption facility 20, and the instruction server 40 are connected via a network (not shown). Further, the instruction server 40 and each electric wire sensor 10S are connected via a network (not shown). These networks may be capable of transmitting and receiving data. Further, the communication line used for transmitting and receiving data may be wired or wireless, or may be power line communication (PLC). Further, the configuration may be such that the communication destination is connected to the communication destination via a plurality of networks or communication lines.

Further, the number of calculation servers 30 is not limited to the illustrated example. The power control system 1 may be provided with two or more calculation servers 30. Further, the calculation server 30 may be provided for each power consumption facility 20, for example.

FIG. 2 is a diagram showing the hardware configurations of the calculation server 30 and the instruction server 40.
The server is provided with a CPU 31, a ROM (Read Only Memory) 32, and a RAM (Random Access Memory) 33. Further, the server is provided with a storage device 35 which is composed of a hard disk device or the like and stores information. Further, the server is provided with a communication device 34 (communication I / F) for communicating with the outside.
In addition, the server is provided with an input device used for inputting information such as a keyboard and a mouse, and a display device such as a liquid crystal display.

The ROM 32 and the storage device 35 store a program executed by the CPU 31. The CPU 31 reads out the program stored in the ROM 32 and the storage device 35, and executes the program using the RAM 33 as a work area.
By executing the program stored in the ROM 32 and the storage device 35 by the CPU 31, each functional unit described later is realized.

Here, the program executed by the CPU 31 is stored in a computer-readable recording medium such as a magnetic recording medium (magnetic tape, magnetic disk, etc.), an optical recording medium (optical disk, etc.), an optical magnetic recording medium, or a semiconductor memory. It can be provided to the server in the state. Further, the program executed by the CPU 31 may be provided to the server by using a communication means such as the Internet.

FIG. 3 is a diagram showing a functional configuration of the HPS 21.
As described above, the HPS 21 is provided with the power conversion device 211 and the AF212. Further, the HPS 21 is provided with an adjusting unit 213 and a power receiving path 214 of the power conversion device 211.
The adjusting unit 213 as an example of the load adjusts the temperature and humidity. The adjusting unit 213 is provided with a motor (not shown). This motor operates by receiving electric power converted to a specific voltage and a specific frequency by the power conversion device 211.

In the present embodiment, the AF 212 is electrically connected to the power receiving path 214 of the power conversion device 211 in parallel with the power conversion device 211. The AF 212 adjusts the apparent power in the power receiving path 214 by supplying a current to the power receiving path 214 of the power conversion device 211.

FIG. 4 is a diagram showing a functional configuration of the calculation server 30.
The calculation server 30 is provided with an acquisition unit 301, a storage unit 302, a usage amount calculation unit 303, a set value calculation unit 304, a possible amount calculation unit 305, a margin amount calculation unit 306, and a transmission unit 307.
The acquisition unit 301 as an example of the acquisition means acquires the information transmitted to the calculation server 30 and the information input to the calculation server 30. The information acquired in the acquisition unit 301 is stored in the storage unit 302.
The storage unit 302 stores information. The information stored in the storage unit 302 will be described in detail later.

The usage amount calculation unit 303 calculates the current value used in the HPS 21 as the operation for adjusting the temperature and humidity of the HPS 21 is performed. The current value used in the HPS 21 during the operation for adjusting the temperature and humidity of the HPS 21 is hereinafter referred to as a usage amount. In this embodiment, the amount of HPS21 used is calculated using the detected value information. More specifically, the usage amount calculation unit 303 calculates the usage amount of the power conversion device 211 of the HPS21 and the usage amount of the AF212 of the HPS21. Further, the usage amount calculation unit 303 calculates the past usage amount and the future usage amount of the power conversion device 211 and AF212.

The set value calculation unit 304 calculates the future set value of the HPS 21. The set value calculation unit 304 calculates the future set value of the HPS 21 based on the prediction result of the future weather, the usage schedule of the HPS 21, and the like.

The possible amount calculation unit 305 as an example of the capacity calculation means calculates the future adjustable amount of the HPS 21. More specifically, the possible amount calculation unit 305 calculates the future adjustable amount of the HPS 21 based on the result calculated by the usage amount calculation unit 303 as the future usage amount of the HPS 21. Further, the possible amount calculation unit 305 calculates the adjustable amount of the power conversion device 211 and the adjustable amount of the AF212.

The margin calculation unit 306 as an example of the margin calculation means calculates the current value that the HPS 21 can further supply for adjusting the apparent power in the electric wire when the HPS 21 adjusts the apparent power in the electric wire. In other words, when the HPS 21 adjusts the apparent power in the electric wire, the margin calculation unit 306 calculates the amount of the margin up to the limit of the current value that the HPS 21 can supply for adjusting the apparent power in the electric wire. When the HPS 21 adjusts the apparent power in the electric wire, the amount of margin up to the limit of the current value that the HPS 21 can supply for adjusting the apparent power in the electric wire is hereinafter referred to as a margin amount.
The transmission unit 307 as an example of the output means transmits the information generated in the possible amount calculation unit 305 and the margin amount calculation unit 306 to the instruction server 40.

FIG. 5 is a diagram showing a relationship management table. The relationship management table is a table for managing the relationship between the HPS 21 and the electric wire. The relationship management table is stored in the storage unit 302.
In the relationship management table, the HPS identification information is shown in "HPS". The "A" to "J" attached together with the "21" of the "HPS" are information for identifying which of the plurality of HPS 21 each is.

Further, in the relationship management table, the wire identification information is shown in the "via wire". The electric wire identification information shown in the "via electric wire" is the electric wire identification information of the electric wire passed through in the supply of electric power to the "HPS".
In addition, "supply side" and "receiver side" are indicated in "via electric wire". The “supply side” means that the power system 10 (see FIG. 1) is located on the power supply side rather than the “reception side”. Here, "14" shown in the "supply side" means that the distribution line 14 is on the supply side. Further, "17" indicated on the "receiver side" means that the receiver side distribution line 17. Further, "A" to "E" attached together with "17" are information for identifying which of the plurality of receiving side distribution lines 17 is, respectively.

In the relationship management table, ten "HPS" are associated with "14" of "via wire", while two "HPS" are associated with "17A" to "17E" of "via wire", respectively. Is associated. In other words, in the present embodiment, the number of HPS 21 to which power is supplied via one supply side distribution line 14 is larger than the number of HPS 21 to which power is supplied via one receiving side distribution line 17. There are more.
The "via wire" in the relationship management table is preset by the user of the power control system 1.

Further, in the relationship management table, the capacity of the current value that the HPS 21 can generate is shown in "Capacity". In other words, "capacity" indicates the maximum current value that the HPS 21 can generate. In the "power conversion device" of "capacity", the maximum current value that can be generated by the power conversion device 211 is shown. Further, in "AF" of "capacity", the maximum current value that AF212 can generate is shown.
The "capacity" in the relationship management table is preset by the user of the power control system 1.

An example of the contents of the relationship management table will be described. The "HPS" specified from "21A" is associated with "14" as the "via wire" of the "supply side" and "17A" as the "via wire" of the "receiver side", and "power conversion". "10" is associated with the "capacity" of the "device", and "20" is associated with the "capacity" of the "AF".
In the illustrated example, the "capacity" of the "AF" is larger than the "capacity" of the "power converter" in any of the "HPS", but the present invention is not limited to this. An "HPS" may be provided in which the "capacity" of the "power converter" is larger than the "capacity" of the "AF". Further, an "HPS" in which the "capacity" of the "power conversion device" and the "capacity" of the "AF" are the same may be provided.

FIG. 6A is a diagram showing a past information management table, and FIG. 6B is a diagram showing a future information management table. The past information management table is a table for managing past information, and the future information management table is a table for managing future information. Both the past information management table and the future information management table are stored in the storage unit 302. Further, both the past information management table and the future information management table are provided for each HPS21. Both the past information management table shown in FIG. 6A and the future information management table shown in FIG. 6B target HPS21 whose HPS identification information is “21A”.
In the following, it is assumed that the present time is "February 9, 2020".

In the past information management table shown in FIG. 6A, the date and time indicated in the time information transmitted from the set value sensor 23 and the environment sensor 24 are shown in the “date and time”. When the time information is acquired by the acquisition unit 301, the date and time indicated in the acquired time information is written in the "date and time" of the past information management table.
Further, in the past information management table, the day of the week corresponding to the "date and time" is indicated in the "day of the week".

Further, in the past information management table, the "weather" indicates the weather in the area where the HPS21 is provided. This "weather" is the weather at the associated "date and time".
Further, in the past information management table, the temperature in the area where the HPS 21 is provided is shown in "Temperature (° C.)". This "temperature (° C)" is the temperature at the associated "date and time".
Further, in the past information management table, "humidity (%)" indicates the humidity in the area where the HPS 21 is provided. This "humidity (%)" is the humidity at the associated "date and time".
When the detection value information transmitted from the environment sensor 24 is acquired by the acquisition unit 301, the detection values shown in the acquired detection value information are the "weather", "temperature (° C)" and "temperature (° C.)" of the past information management table. It is written in "humidity (%)".

Further, in the past information management table, the operation history of the HPS 21 at the "date and time" is shown in the "operation history". The "○" shown in the "operation history" means that the HPS 21 was operating for adjusting the temperature and humidity. Further, "-" shown in "operation history" means that the HPS 21 was not operating.
Further, in the past information management table, the set value of HPS21 in the "date and time" is shown in the "set value". The "temperature (° C.)" of the "set value" means the set value of the temperature in the HPS 21. Further, the "humidity (%)" of the "set value" means the set value of the humidity in the HPS 21.
When the detection value information transmitted from the set value sensor 23 is acquired by the acquisition unit 301, the detection values shown in the acquired detection value information are the "temperature (° C.)" and "humidity (° C)" of the past information management table. %) ”Will be written. Further, when the detection value information is transmitted from the set value sensor 23 together with the time information, "◯" is written in the "operation history" associated with the "date and time" shown in the time information. On the other hand, when the time information is transmitted from the set value sensor 23 but the detected value information is not transmitted, "-" is displayed in the "operation history" associated with the "date and time" shown in the time information. It is written.

Further, in the past information management table, the usage amount calculated by the usage amount calculation unit 303 is shown in the "usage amount". The "power conversion device" in the "usage amount" means the usage amount of the power conversion device 211. Further, "AF" in "usage amount" means the usage amount of AF212.

An example of the contents of the past information management table will be described. The "date and time" specified from "2020/02/03/9:00" is associated with the "day" of "month", the "weather" of "fine", and the "temperature" of "5" ( ℃) ”is associated,“ humidity (%) ”of“ 45 ”is associated,“ operation history ”of“ ○ ”is associated, and“ temperature (° C) ”of“ set value ”of“ 22 ”is associated. And the "humidity (%)" of the "set value" of "60" is associated.

In the future information management table shown in FIG. 6 (b), a future date and time for each predetermined time is indicated in "date and time". The predetermined time may be any time, but is, for example, 3 hours.
Further, in the future information management table, the day of the week corresponding to the "date and time" is indicated in the "day of the week".
Further, in the future information management table, the forecast result of the weather in the area where the HPS21 is provided is shown in the "predicted weather". This forecast result of the weather is the forecast result of the weather at the associated "date and time".
Further, in the future information management table, the predicted result of the temperature in the area where the HPS21 is provided is shown in "Predicted temperature (° C.)". This temperature prediction result is the temperature prediction result at the associated "date and time".
Further, in the future information management table, the humidity prediction result in the area where the HPS21 is provided is shown in "Predicted humidity (%)". This humidity prediction result is the humidity prediction result at the associated "date and time".

The calculation server 30 may acquire the prediction results of the weather, temperature, and humidity at the target “date and time” in the area where the HPS 21 is provided via the network (not shown). Further, the user of the power control system 1 may input the weather, temperature, and humidity at the target "date and time" in the area where the HPS 21 is provided. When the prediction result transmitted to the calculation server 30 and the information input to the user are acquired by the acquisition unit 301, the "day of the week" and the "predicted weather" associated with the target "date and time" in the future information management table , "Predicted temperature (° C)", "Predicted humidity (%)".

Further, in the future information management table, the "operation schedule" indicates the operation schedule for adjusting the temperature and humidity of the HPS 21. The "○" shown in the "scheduled operation" means that the HPS21 is scheduled to be operated at the associated "date and time". Further, "-" indicated in "scheduled operation" means that the operation of HPS21 is not scheduled at the associated "date and time".
The calculation server 30 may acquire information regarding the operation schedule of the HPS 21 at the target “date and time” via the network (not shown). Examples of the information regarding the operation schedule of the HPS21 include information regarding the target to which the temperature and humidity are adjusted by the HPS21. Information about an object whose temperature and humidity are adjusted by HPS21 is hereinafter referred to as object information. The target information includes information on whether or not the power consumption facility 20 provided with the HPS 21 is scheduled to be used. Further, the target information includes information on whether or not the specific object is scheduled to be used when the HPS 21 adjusts the temperature and humidity of the specific object. Further, when there is a plan to use the power consumption facility 20 provided with the HPS 21 or a plan to use a specific object, the user of the power control system 1 inputs the operation schedule of the HPS 21 at the target "date and time". Then, the target information may be generated. When the target information transmitted to the calculation server 30 via the network and the target information input to the user are acquired by the acquisition unit 301, the "operation schedule" associated with the target "date and time" in the future information management table Is written in. The target information is information related to HPS21. Therefore, in a broad sense, the target information is also regarded as system information related to HPS21.

Further, in the future information management table, the calculation result by the set value calculation unit 304 as the future set value of the HPS 21 is shown in the "predicted set value". The "temperature (° C.)" of the "predicted set value" is the set value of the temperature of the HPS 21 at the associated "date and time". Further, the "humidity (%)" of the "predicted set value" is the set value of the humidity of the HPS 21 in the associated "date and time".

Further, in the future information management table, the calculation result by the usage amount calculation unit 303 as the future usage amount of the HPS 21 is shown in the "predicted usage amount". The "power conversion device" of the "predicted usage amount" is the usage amount of the power conversion device 211 in the associated "date and time". Further, "AF" of "predicted usage amount" is the usage amount of AF212 in the associated "date and time".

Further, in the future information management table, the calculation result by the possible amount calculation unit 305 as the adjustable amount of the HPS 21 is shown in the "adjustable amount". The "power conversion device" of the "adjustable amount" is the adjustable amount of the power conversion device 211 at the associated "date and time". Further, the "AF" of the "adjustable amount" is the adjustable amount of the AF212 in the associated "date and time".

An example of the contents of the future information management table will be described. The "date and time" specified from "2020/02/10/9: 00" is associated with the "day of the week" of the "month", the "predicted weather" of the "rain", and the "predicted weather" of the "3". "Temperature (° C.)" is associated, "85%" "predicted humidity (%)" is associated, and "○" "scheduled operation" is associated.

(Processing of setting value calculation unit 304)
Next, the processing of the set value calculation unit 304 will be described. The set value calculation unit 304 calculates the set value of the HPS 21 at the “date and time” in which “◯” is indicated in the “operation schedule” in the future information management table (see FIG. 6 (b)).

The set value calculation unit 304 may calculate the set value of the temperature and humidity of the HPS 21 from the viewpoint of keeping the temperature and humidity of the object to be adjusted by the HPS 21 at predetermined values. Further, the set value calculation unit 304 calculates the temperature and humidity set values of the HPS 21 based on the "predicted weather", "predicted temperature (° C)" and "predicted humidity (%)" in the target "date and time". May be. Further, when the heating function is used as the HPS 21, the set value calculation unit 304 may calculate the set value of the temperature of the HPS 21 higher as the "predicted temperature (° C.)" in the target "date and time" is lower. Further, when the cooling function is used as the HPS 21, the set value calculation unit 304 may calculate the set value of the temperature of the HPS 21 lower as the "predicted temperature (° C.)" in the target "date and time" is higher. Further, the set value calculation unit 304 may calculate the humidity setting value of the HPS 21 lower as the "predicted humidity (%)" in the target "date and time" is higher, or the "predicted humidity (%)" in the target "date and time". %) ”Is smaller, the higher the humidity setting value of HPS21 may be calculated.
Further, the set value calculation unit 304 may calculate the future set value of the HPS 21 by using the information in the past information management table (see FIG. 6A). The set value calculation unit 304 sets the same or close to the "day of the week", "predicted weather", "predicted temperature (° C)", and "predicted humidity (%)" in the target "date and time" in the future information management table. Extract the "date and time" of the past information management table associated with "weather", "temperature (° C)", and "humidity (%)". Then, the set value in the target "date and time" may be calculated based on the "set value" associated with the extracted "date and time".

When the set value of the HPS 21 at each "date and time" is calculated by the set value calculation unit 304, the "temperature (° C.)" and the "temperature (° C.)" in the "predicted set value" of the future information management table are shown as shown in FIG. 7 (a). The calculation result by the set value calculation unit 304 is written in "humidity (%)".

(Processing of usage amount calculation unit 303)
Next, the processing of the usage amount calculation unit 303 will be described.
The usage amount calculation unit 303 calculates the usage amount of the HPS 21 in each “date and time” of the past information management table (see FIG. 6A).
The usage calculation unit 303 uses the information of "weather", "temperature (° C)", "humidity (%)", "operation history" and "set value" associated with the target "date and time". The usage amount of the power conversion device 211 and the usage amount of the AF212 in the "date and time" are calculated respectively. The usage calculation unit 303 includes "temperature (° C)" and "humidity (%)" associated with the target "date and time", and "temperature (° C)" and "humidity (%)" in the "set value". The larger the difference between the two, the larger the amount of power conversion device 211 used in this "date and time" may be calculated. Further, the usage amount calculation unit 303 calculates the usage amount of the AF 212 based on the calculated usage amount of the power conversion device 211. The usage amount calculation unit 303 may calculate the usage amount of the AF 212 as the usage amount of the power conversion device 211 increases. When "-" is indicated in the "operation history" associated with the target "date and time", the usage amount calculation unit 303 uses the power conversion device 211 and the AF212 in this "date and time". Are calculated as "0".

When the usage amount of the power conversion device 211 and the usage amount of the AF212 in each "date and time" are calculated by the usage amount calculation unit 303, as shown in FIG. 7B, the "power conversion device" of the past information management table and The calculation result by the usage amount calculation unit 303 is written in the "usage amount" of the "AF".
The "usage amount" written in the past information management table may be an actually measured value of the usage amount. In this case, the set value sensor 23 detects the usage amount of the power conversion device 211 and the usage amount of the AF212 at each “date and time”. When the detection value detected by the set value sensor 23 is acquired by the acquisition unit 301, this detection value is used by the "power converter" and "AF" associated with each "date and time" of the past information management table. Written in "quantity".

Further, the usage amount calculation unit 303 calculates the usage amount of the HPS 21 in each “date and time” of the future information management table (see FIG. 7A).
The usage calculation unit 303 displays information on "predicted weather", "predicted temperature (° C)", "predicted humidity (%)", "scheduled operation", and "predicted set value" associated with the target "date and time". It is used to calculate the usage amount of the power conversion device 211 and the usage amount of AF212 at this “date and time”, respectively. The usage amount calculation unit 303 may calculate the usage amount of the future power conversion device 211 and the usage amount of the AF 212 by the same method as described above for the calculation of the past usage amount.
Further, the usage amount calculation unit 303 may calculate the usage amount of the future power conversion device 211 and the usage amount of the AF 212 by using the information in the past information management table. The usage calculation unit 303 is the same as the "day of the week", "predicted weather", "predicted temperature (° C)", "predicted humidity (%)", and "predicted set value" in the target "date and time" in the future information management table. Or, extract the "date and time" of the past information management table associated with the near "day of the week", "weather", "temperature (° C)", "humidity (%)", and "set value". Then, the usage amount at the target "date and time" may be calculated based on the "usage amount" associated with the extracted "date and time".

When the usage amount of the power conversion device 211 and the usage amount of the AF212 in each “date and time” are calculated by the usage amount calculation unit 303, as shown in FIG. 7C, the “power conversion device” of the future information management table and The calculation result by the usage amount calculation unit 303 is written in the "predicted usage amount" of the "AF".

FIG. 8 is a flowchart showing the flow of the possible amount calculation process. The possible amount calculation process is a process in which the possible amount calculation unit 305 calculates the adjustable amount of the HPS 21. In the present embodiment, when the instruction server 40 sends a request for adjusting the apparent power in the specific electric wire of the power system 10 to the calculation server 30, the possible amount calculation process is started. The request transmitted from the instruction server 40 to the calculation server 30 includes electric wire identification information for identifying the electric wire to be adjusted.
The possible amount calculation unit 305 extracts the HPS 21 associated with the electric wire to be adjusted requested by the instruction server 40 (step (hereinafter referred to as “S”) 101). More specifically, the possible amount calculation unit 305 refers to the relationship management table (see FIG. 5). Then, the HPS 21 whose wire identification information of the wire to be adjusted is specified from the "HPS" associated with the "via wire" is extracted.

The possible amount calculation unit 305 calculates the adjustable amount of HPS21 using the future information management table (see FIG. 7C) for the extracted HPS21 (S102).
An example of a method in which the possible amount calculation unit 305 calculates the adjustable amount will be described. Hereinafter, an example of calculating the usage amount of the power conversion device 211 and the usage amount of the AF212 in “2020/02/10/9:00” of the HPS21 of the “21A” will be described.
The possible amount calculation unit 305 refers to the relationship management table (see FIG. 5). Then, it was obtained by subtracting the "predicted usage amount" associated with the target "date and time" in the future information management table (see FIG. 7 (c)) from the "capacity" associated with the target "HPS". The value is calculated as the adjustable amount of HPS21 at the target "date and time". In this example, from "10" which is the "capacity" of the "power converter" associated with "21A" in the relationship management table, "2020/02/10 /" which is the target "date and time" in the future information management table. Subtract "3", which is the "predicted usage" of the "power converter" associated with "9:00". Then, the value "10-3 = 7" obtained by the subtraction is used as the adjustable amount of the power conversion device 211. Similarly, the adjustable amount of "AF" at "2020/02/10/9:00" is calculated as "20-6 = 14".

The possible amount calculation unit 305 calculates the adjustable amount of the power conversion device 211 and the adjustable amount of AF212 in each “date and time” of the future information management table (see FIG. 7C). Although not shown, the possible amount calculation unit 305 calculates the adjustable amount for each HPS 21 extracted in step 101.
When the adjustable amount of the power conversion device 211 and the adjustable amount of the AF212 at each “date and time” are calculated by the possible amount calculation unit 305, as shown in FIG. 9, the “power conversion device” and “power conversion device” of the future information management table The calculation result by the possible amount calculation unit 305 is written in the "adjustable amount" of "AF".

The possible amount calculation unit 305 determines whether or not the calculated adjustable amount satisfies the transmission condition (S103). The transmission condition is a condition defined for determining whether or not to transmit the information of the adjustable amount calculated by the possible amount calculation unit 305 to the instruction server 40. In the present embodiment, it is defined as a transmission condition that the adjustable amount is equal to or more than a predetermined ratio with respect to the current value required for adjusting the apparent power in the electric wire. The predetermined ratio may be any ratio, but is, for example, 1% or more.
The possible amount calculation unit 305 determines whether or not the transmission condition is satisfied for each calculated adjustable amount.

The transmission unit 307 instructs the possible amount information indicating the adjustable amount satisfying the transmission condition together with the time information indicating the "date and time" associated with the adjustable amount and the HPS identification information for identifying the target HPS21. It is transmitted to the server 40 (S104). On the other hand, the transmission unit 307 does not transmit the adjustable amount of information that does not satisfy the transmission condition to the instruction server 40.
The instruction server 40 uses the HPS 21 for adjusting the apparent power in the electric wire, the current value to be supplied for the adjustment, and the time to be adjusted based on the possible amount information, the time information, and the HPS identification information transmitted from the calculation server 30. Determine the band. Then, the instruction server 40 transmits an instruction to the HPS 21 regarding the adjustment of the apparent power in the electric wire to the calculation server 30. This instruction includes information such as the HPS identification information of the HPS 21 used for adjusting the apparent power in the electric wire, the current value to be supplied for the adjustment, and the time zone to be adjusted. Further, the information of the current value to be supplied for adjustment includes the information of the current value to be supplied to the power conversion device 211 and the information of the current value to be supplied to the AF 212. Upon receiving the instruction, the calculation server 30 instructs the HPS 21 which is the object of the instruction to adjust the apparent power in the electric wire by the current value indicated by the instruction in the time zone indicated by the instruction. Upon receiving an instruction, the HPS 21 supplies a current from the power conversion device 211 or AF212 to the electric wire.

As described above, in the present embodiment, the possible quantity calculation unit 305 calculates an index regarding the ability to adjust the apparent power in the electric wire when the HPS 21 adjusts the temperature and humidity based on the system information. This index is, for example, an adjustable amount.
In this case, the instruction server 40 can determine the current value to be supplied to the HPS 21 in order to adjust the apparent power in the electric wire of the power system 10 based on the adjustable amount calculated by the possible amount calculation unit 305. Further, the HPS 21 supplies the current value determined to the instruction server 40 to the electric wire according to the instruction of the instruction server 40. Therefore, when the HPS 21 adjusts the temperature and humidity, it is possible to realize the adjustment of the apparent power in the electric wire of the power system 10 by the HPS 21.

Further, in the present embodiment, the possible amount calculation unit 305 determines whether or not the calculated adjustable amount satisfies the transmission condition. Then, the transmission unit 307 transmits the possible amount information indicating the adjustable amount determined by the possible amount calculation unit 305 to the instruction server 40 when the transmission condition is satisfied. That is, in the present embodiment, the transmission unit 307 outputs the possible amount information regarding the adjustable amount that satisfies the condition defined for the adjustment of the apparent power.
In this case, the possible amount information that is not suitable for adjusting the apparent power of the electric wire is output as compared with the case where the possible amount information is output regardless of whether or not the adjustable amount satisfies the transmission condition. Can be suppressed.

Further, in the present embodiment, the possible amount information of the adjustable amount of the HPS 21 to which the electric power is received via the electric wire which is the object of the adjustment of the apparent electric power is transmitted to the instruction server 40. In other words, in the present embodiment, the condition for the transmission unit 307 to output the possible amount information is that the adjustable amount indicated in the possible amount information is received through the electric wire which is the target of the adjustment of the apparent power. It is defined as the adjustable amount calculated for HPS21.
In this case, compared to the case where the possible amount information is output regardless of whether the adjustable amount satisfies the condition, the possible amount information about the HPS21 for which power is not received via the electric wire to be adjusted is output. It can be suppressed.

Further, in the present embodiment, the transmission condition is defined for the ability to adjust the apparent power.
In this case, the possible amount information that is not suitable for the ability to adjust the apparent power in the electric wire is output as compared with the case where the possible amount information is output regardless of whether or not the adjustable amount satisfies the transmission condition. Can be suppressed.

Further, in the present embodiment, the transmission condition is determined based on the relationship between the ability to adjust the apparent power and the degree of adjustment required for the apparent power in the electric wire of the power system 10.
In this case, the possible amount information that is not suitable for the relationship between the adjustable amount and the degree of adjustment required is output as compared with the case where the possible amount information is output regardless of whether the adjustable amount satisfies the transmission condition. It can be suppressed.

Further, in the present embodiment, the possible amount calculation unit 305 calculates the adjustable amount by the power conversion device 211 and the adjustable amount by AF212.
In this case, the instruction server 40 supplies the current value supplied to the power conversion device 211 and the AF 212 to adjust the apparent power in the electric wire of the power system 10 based on the adjustable amount calculated by the possible amount calculation unit 305. The current value to be made can be determined. Further, the power conversion devices 211 and AF212 supply the current value determined to the instruction server 40 to the electric wire according to the instruction of the instruction server 40. Therefore, when the HPS 21 adjusts the temperature and humidity, it is possible to realize the adjustment by the power conversion device 211 and the AF212 of the apparent power in the electric wire of the power system 10.

Further, in the present embodiment, the system information includes the target information regarding the target to which the temperature and humidity are adjusted by the HPS21.
In this case, the adjustable amount suitable for the target to which the temperature and humidity are adjusted by the HPS 21 can be calculated as compared with the case where the possible amount calculation unit 305 calculates the adjustable amount without using the target information. ..

In this embodiment, the possible amount calculation unit 305 determines the "predicted usage amount" shown in the future information management table (see FIG. 7C) for the capacity in both the power conversion device 211 and the AF212. The subtraction value is calculated as an adjustable amount, but is not limited to this.
The possible amount calculation unit 305 may calculate a value obtained by further subtracting the above subtraction value calculated for the power conversion device 211 by a correction value as an adjustable amount of the power conversion device 211. The correction value may be determined based on the current value supplied to the power conversion device 211 for adjusting the temperature and humidity. Further, the possible amount calculation unit 305 may calculate the adjustable amount of the power conversion device 211 so as to be lower than the adjustable amount of the AF212. In this case, the adjustable amount of AF212 is taken as a first index for a predetermined capacity. Further, the adjustable amount of the power conversion device 211 is regarded as a second index regarding the capacity lower than the capacity of the AF 212.

When the adjustable amount of the power conversion device 211 is calculated to be larger than the adjustable amount of the AF212, the power is higher than the current value supplied to the AF212 for adjusting the apparent power in the electric wire based on this calculation result. The current value supplied to the converter 211 may be larger. In this case, the current value supplied from the power conversion device 211 to the motor (not shown) of the adjusting unit 213 becomes small, which may affect the function of adjusting the temperature and humidity by the HPS 21.
Therefore, by calculating the adjustable amount of the power conversion device 211 to be lower than the adjustable amount of the AF 212, it is possible to suppress the influence of the temperature and humidity adjustment functions of the HPS 21.

FIG. 10A is a diagram showing a management table during adjustment. The adjusting management table is a table for managing the HPS 21 whose apparent power is being adjusted in the electric wire of the power system 10. The adjusting management table is stored in the storage unit 302. In the following, at 0:00 on February 10, 2020, the power conversion device 211 in the HPS21 of "21A" supplies a current of "5", and the AF212 supplies a current of "10", whereby the HPS21 Is adjusting the apparent power in the electric wire.

In the adjusting management table, "date and time" indicates the current time and a future date and time for each predetermined time. The predetermined time may be any time, but is, for example, 3 hours.
Further, in the adjusting management table, the calculation result of the usage amount calculation unit 303 as the usage amount of the HPS 21 in the "date and time" is shown in the "predicted usage amount". This "predicted usage amount" is the same information as the "predicted usage amount" in the future information management table (see FIG. 7C).
Further, in the adjusting adjustment table, the predicted value of the current supplied by the HPS 21 for adjusting the apparent power in the electric wire is shown in the "predicted adjustment amount". This predicted value is a predicted value at the associated "date and time". Here, the "power conversion device" of the "prediction adjustment amount" is a predicted value of the current supplied by the power conversion device 211. Further, "AF" of "predicted adjustment amount" is a predicted value of the current supplied by AF212. In the present embodiment, the current value being supplied by the HPS 21 is written in the "predicted adjustment amount" at each "date and time".

Further, in the adjusting management table, the calculation result by the margin amount calculation unit 306 as the margin amount of the HPS 21 is shown in the "margin amount". This margin is the margin in the associated "date and time". The "power conversion device" of the "margin amount" is the margin amount of the power conversion device 211. Further, "AF" of "margin amount" is the margin amount of AF212.

Further, in the adjusting management table, the threshold value for the margin amount is shown in the "threshold value". This threshold value is used to determine whether or not to send a warning about the margin amount to the instruction server 40. The "power conversion device" of the "threshold value" is a threshold value for the margin amount of the power conversion device 211. Further, "AF" of "threshold value" is a threshold value for the margin amount of AF212.

The "threshold value" is set in the calculation server 30 based on the life of the power conversion device 211 and the AF212. The "threshold value" may be set higher as the life of the power conversion device 211 or AF212 approaches the limit. Further, the life of the power conversion device 211 or AF212 may be set based on the voltage value applied to the power conversion device 211 or AF212, the usage period of the power conversion device 211 or AF212, the ambient temperature of the HPS21, or the like.
Further, the "threshold value" is set based on the degree to which the power conversion device 211 or AF212 is used for adjusting the temperature or humidity. The "threshold value" may be set higher as the "predicted usage amount" is larger. In the illustrated example, in the "power converter" and "AF", the "predicted usage" showing a value of 2 or more is set rather than the "threshold" associated with the "predicted usage" which is "0". The associated "threshold" is set larger.

(Processing of margin calculation unit 306)
Next, the processing of the margin amount calculation unit 306 will be described.
The margin amount calculation unit 306 calculates the margin amount of the HPS 21 using the adjusting management table.
An example of a method in which the margin amount calculation unit 306 calculates the margin amount of the HPS 21 will be described. Hereinafter, a method for calculating the margin amount of the "power conversion device" of the HPS21 of "21A" and the margin amount of "AF" in "2020/02/10/9:00" will be described.

The margin calculation unit 306 calculates the relationship management table (see FIG. 5). Then, it was obtained by subtracting the "predicted adjustment amount" associated with the target "date and time" in the adjusting management table (see FIG. 10A) from the "capacity" associated with the target "HPS". The value is calculated as the margin amount of HPS21 in the target "date and time". In this example, from "10" which is the "capacity" of the "power converter" associated with "21A" in the relationship management table, "2020/02/10 /" which is the target "date and time" in the adjusting management table. Subtract "5", which is the "predictive adjustment amount" of the "power converter" associated with "9:00". Then, the value "10-5 = 5" obtained by the subtraction is used as the margin amount of the power conversion device 211. Similarly, the margin amount of "AF" in "2020/02/10/9:00" is calculated as "20-10 = 10".

The margin calculation unit 306 calculates the margin of the power conversion device 211 and the margin of the AF 212 in each “date and time” of the adjusting management table. Further, although not shown, the margin amount calculation unit 306 calculates the margin amount for each HPS 21 used for adjusting the apparent power in the electric wire of the power system 10.
When the margin amount of the power conversion device 211 and the margin amount of AF212 in each "date and time" are calculated by the margin amount calculation unit 306, as shown in FIG. 10, the "power conversion device" and "AF" of the adjusting management table The calculation result by the margin amount calculation unit 306 is written in the "margin amount" of.

Further, when the margin amount calculation unit 306 calculates the margin amount, it determines whether or not the calculated margin amount has reached the threshold value. More specifically, the margin amount calculation unit 306 extracts a "margin amount" showing a value equal to or less than the "threshold value" in each "date and time". Then, the transmission unit 307 instructs the extracted warning information regarding the "margin amount" together with the time information indicating the "date and time" associated with the "margin amount" and the HPS identification information for identifying the target HPS21. Send to server 40. The warning information may be information for notifying the instruction server 40 that the target HPS 21 is used for adjusting the temperature and humidity and the margin amount of the HPS 21 is insufficient at the target “date and time”.
In this example, the "margin amount" of the "power conversion device" and the "margin amount" of "AF" in "2020/02/10/9:00" when the "margin amount" is equal to or less than the "threshold value" and "2020". A warning about the "margin" of the "power converter" and the "margin" of the "AF" at "/ 02/10/18: 00" is transmitted.

Further, the transmission unit 307 uses the information indicating the margin amount calculated by the margin amount calculation unit 306, the time information indicating the "date and time" associated with the margin amount, and the HPS identification information for identifying the target HPS 21. At the same time, it may be transmitted to the instruction server 40. The instruction server 40 appropriately changes the current value to be supplied to the HPS 21 being adjusted based on the information of the margin amount transmitted from the transmission unit 307.

As described above, in the present embodiment, the margin amount calculation unit 306 calculates an index regarding the margin of the adjustment capacity when the HPS 21 adjusts the apparent power in the electric wire. This index is, for example, a margin amount.
In this case, the instruction server 40 can change the current value to be supplied to the HPS 21 for adjusting the apparent power in the electric wire of the power system 10 based on the margin amount calculated by the margin amount calculation unit 306.

Further, in the present embodiment, the margin amount calculation unit 306 determines whether or not the calculated margin amount has reached the threshold value. Then, the transmission unit 307 transmits the warning information regarding the margin amount determined by the margin amount calculation unit 306 that the threshold value has been reached to the instruction server 40. In other words, in the present embodiment, the transmission unit 307 outputs information about the HPS 21 when the margin amount satisfies the condition defined for the margin. The condition defined for the margin is, for example, that the margin amount has reached the threshold value.
In this case, the content is not suitable for changing the current value to be supplied to the HPS 21 as compared with the case where the information regarding the margin amount is output regardless of whether or not the margin amount calculated by the margin amount calculation unit 306 satisfies the condition. It is possible to suppress the output of information regarding the HPS 21 for which the margin amount has been calculated.

Further, in the present embodiment, the conditions defined for the margin are determined based on the life of the HPS 21.
In this case, the current value supplied to the HPS 21 for adjusting the apparent power in the electric wire can be changed based on the life of the HPS 21.

Further, in the present embodiment, the conditions defined for the margin are determined based on the use of HPS21 for adjusting the temperature and humidity.
In this case, the current value supplied to the HPS 21 for adjusting the apparent power in the electric wire can be changed based on the use for adjusting the temperature and humidity of the HPS 21.

In the present embodiment, the set value calculation unit 304 calculates the future set value of the HPS 21, the usage amount calculation unit 303 calculates the future usage amount of the HPS 21, and the possible amount calculation unit 305 calculates the future usage amount of the HPS 21. It has been explained that the adjustable amount is calculated, but the present invention is not limited to this.
The set value calculation unit 304 may calculate the set value of the HPS 21 at the present time. Further, the usage amount calculation unit 303 may calculate the usage amount of the HPS 21 at the present time. Further, the possible amount calculation unit 305 may calculate the current adjustable amount of the HPS 21. Here, the "index regarding the ability to adjust the apparent power in the electric wire when the HPS 21 adjusts the temperature and / or the humidity" includes not only the future adjustable amount but also the current adjustable amount.

Further, in the present embodiment, the instruction server 40 requests the calculation server 30 to adjust the apparent power in a state where the usage amount calculation unit 303 calculates the usage amount and the set value calculation unit 304 calculates the set value in advance. Then, the possible amount calculation process (see FIG. 8) is started, but the present invention is not limited to this.
The instruction server 40 may request the calculation server 30 to adjust the apparent power while the usage amount calculation unit 303 has not calculated the usage amount and the set value calculation unit 304 has not calculated the set value. In this case, when the calculation server 30 receives the adjustment request, the usage amount calculation unit 303 calculates the usage amount and the set value calculation unit 304 calculates the set value. Then, the possible amount calculation unit 305 calculates the adjustable amount based on the calculation results of the usage amount calculation unit 303 and the set value calculation unit 304.
Further, in a state where the instruction server 40 has not requested the calculation server 30 to adjust the apparent power, the usage amount calculation unit 303 calculates the usage amount, the set value calculation unit 304 calculates the set value, and the possible amount calculation unit 305. The adjustable amount may be calculated by. In this case, the transmission unit 307 may transmit information on the adjustable amount to the instruction server 40 in a state where the instruction server 40 has not requested the calculation server 30 to adjust the apparent power.

Further, in the present embodiment, the information regarding the adjustable amount satisfying the transmission condition is transmitted to the instruction server 40, but the information regarding the adjustable amount is instructed regardless of whether or not the adjustable amount satisfies the transmission condition. It may be transmitted to the server 40.
Further, in the present embodiment, the information regarding the margin amount that has reached the threshold value is transmitted to the instruction server 40, but the information regarding the margin amount is sent to the instruction server 40 regardless of whether or not the margin amount has reached the threshold value. May be sent.

In addition, each time the instruction of the current value to be supplied to the HPS 21 for adjusting the apparent power in the electric wire of the power system 10 is changed, the "prediction" in each "date and time" in the adjusting management table (see FIG. 10B). The "adjustment amount" may be updated. In this case, each time the "predictive adjustment amount" is updated, the margin amount calculation unit 306 calculates the margin amount and transmits information regarding the margin amount to the instruction server 40 based on the updated "prediction adjustment amount". It may be determined whether or not to do so.

Further, in the present embodiment, the possible amount calculation unit 305 calculates the adjustable amount of the power conversion device 211 to be smaller than the adjustable amount of the AF 212, but the present invention is not limited to this. The possible amount calculation unit 305 may calculate the adjustable amount of the power conversion device 211 larger than the adjustable amount of the AF 212.

Further, the "operation schedule" in the future information management table shown in FIG. 6B may be written by a method different from the above-mentioned method.
The calculation server 30 may estimate the future operation schedule of the HPS 21 based on the result of machine learning. More specifically, the calculation server 30 is a "day" in a specific "date and time" of the past information management table (see FIG. 6A), and the power consumption facility 20 in which the HPS 21 is provided at this "date and time". Using the information such as the presence / absence of use and the "operation history" in this "date / time" as teacher data, the relationship between the "day" and the presence / absence of the power consumption facility 20 and the presence / absence of the operation of the HPS 21 is learned. Based on the learning result, the calculation server 30 inputs the "day of the week" in a specific "date and time" in the future information management table and whether or not the power consumption facility 20 is scheduled to be used in this "date and time", and sets the operation schedule of the HPS 21. Generate a learning model to output. Then, based on the generated learning model, the operation schedule of the HPS 21 at this "date and time" is determined based on the "day of the week" at the specific "date and time" of the future information management table and whether or not the power consumption facility 20 is scheduled to be used at this "date and time". May be estimated. Further, the estimated operation schedule may be written in the "operation schedule" at this "date and time".

Further, the "predicted set value" in the future information management table shown in FIG. 6B may be written by a method different from the above-mentioned method.
The set value calculation unit 304 may estimate the set value of the future HPS 21 based on the result of machine learning. More specifically, the set value calculation unit 304 uses the "date and time", "day", "weather", "temperature (° C)", and "" associated in the past information management table (see FIG. 6A), respectively. "Humidity (%)", "operation history" and "set value" as teacher data, "date and time", "day", "weather", "temperature (℃)", "humidity (%)" and "operation history" And learn the relationship with the set value of HPS21. Based on the learning result, the set value calculation unit 304 has the "date and time", "day of the week", "predicted weather", "predicted temperature (° C)", and "predicted humidity (%)" associated with each other in the future information management table. , "Operation schedule" is input, and a learning model that outputs the set value of HPS21 is generated. Then, based on the generated learning model, from "day of the week", "predicted weather", "predicted temperature (° C)", "predicted humidity (%)", and "operation schedule" in a specific "date and time" of the future information management table. , The set value of HPS21 at this "date and time" may be estimated. Further, the estimated set value may be written in the "predicted set value" in this "date and time".

Further, the "predicted usage amount" in the future information management table shown in FIG. 7A may be written by a method different from the above-mentioned method.
The usage amount calculation unit 303 may estimate the future usage amount of HPS 21 based on the result of machine learning. More specifically, the usage calculation unit 303 uses the "date and time", "day of the week", "weather", "temperature (° C)", and "" associated in the past information management table (see FIG. 7B), respectively. "Humidity (%)", "operation history", "set value" and "usage" as teacher data, "date and time", "day of the week", "weather", "temperature (° C)", "humidity (%)" , "Operation history" and "set value", and learn the relationship between the usage amount of HPS21. Based on the learning result, the usage calculation unit 303 describes the "date and time", "day of the week", "predicted weather", "predicted temperature (° C)", and "predicted humidity (%)" associated with each other in the future information management table. , "Operation schedule", "Prediction set value" are input, and a learning model that outputs the usage amount of HPS21 is generated. Then, based on the generated learning model, "day of the week", "predicted weather", "predicted temperature (° C)", "predicted humidity (%)", "scheduled operation", in a specific "date and time" of the future information management table. The amount of HPS21 used in this "date and time" may be estimated from the "predicted set value". Further, the estimated usage amount may be written in the "predicted usage amount" at this "date and time".

Further, in the present embodiment, the calculation server 30 is configured to calculate the ability of the power system 10 to adjust the apparent power by the HPS 21, but the present invention is not limited to this.
For example, the HPS 21 may have the function of the calculation server 30. In other words, the HPS 21 may be provided with a CPU 31 (see FIG. 2), a ROM 32, a RAM 33, a communication device 34, and a storage device 35 for realizing various functions. The HPS 21 has functions such as an acquisition unit 301, a storage unit 302, a usage amount calculation unit 303, a set value calculation unit 304, a possible amount calculation unit 305, a margin amount calculation unit 306, and a transmission unit 307 of the calculation server 30. May be.

Further, in the present disclosure, an example in which parameters such as a usage amount, an adjustable amount, and a margin amount are current values has been described, but the present invention is not limited to this. Each parameter may be any of the above-mentioned parameters as a parameter relating to apparent power.

Here, each of the embodiments described above can be grasped as follows.
The possible amount calculation unit 305 of the present embodiment calculates the adjustable amount when the HPS 21 adjusts the temperature and / or the humidity based on the system information.
In this case, the instruction server 40 can determine the current value to be supplied to the HPS 21 in order to adjust the apparent power in the electric wire of the power system 10 based on the adjustable amount calculated by the possible amount calculation unit 305. Therefore, when the HPS 21 adjusts the temperature and humidity, it is possible to realize the adjustment of the apparent power in the electric wire of the power system 10 by the HPS 21.

Further, the margin amount calculation unit 306 calculates the margin amount when the HPS 21 adjusts the apparent power in the electric wire.
In this case, the instruction server 40 can change the current value to be supplied to the HPS 21 for adjusting the apparent power in the electric wire of the power system 10 based on the margin amount calculated by the margin amount calculation unit 306.

Further, the transmission unit 307 outputs information about the HPS 21 when the margin amount satisfies the condition defined for the margin.
In this case, the content is not suitable for changing the current value to be supplied to the HPS 21 as compared with the case where the information regarding the margin amount is output regardless of whether or not the margin amount calculated by the margin amount calculation unit 306 satisfies the condition. It is possible to suppress the output of information regarding the HPS 21 for which the margin amount has been calculated.

Further, the conditions are determined based on the life of the HPS 21.
In this case, the current value supplied to the HPS 21 for adjusting the apparent power in the electric wire can be changed based on the life of the HPS 21.

Conditions are also determined based on the use of HPS 21 for temperature and / or humidity control.
In this case, the current value supplied to the HPS 21 for adjusting the apparent power in the electric wire can be changed based on the use for adjusting the temperature and humidity of the HPS 21.

Further, the transmission unit 307 outputs the possible amount information regarding the adjustable amount that satisfies the transmission condition defined for the adjustment of the apparent power.
In this case, the information on the adjustable amount that is not suitable for adjusting the apparent power in the electric wire is output as compared with the case where the information on the adjustable amount is output regardless of whether or not the adjustable amount satisfies the transmission condition. It can be suppressed.

Further, the condition is that the adjustable amount is the adjustable amount calculated for the HPS21 to which the electric power is received through the electric wire which is the object of the adjustment of the apparent electric power.
In this case, compared to the case where the possible amount information is output regardless of whether the adjustable amount satisfies the condition, the possible amount information about the HPS21 for which power is not received via the electric wire to be adjusted is output. It can be suppressed.

In addition, the transmission conditions are defined for the ability to adjust the apparent power.
In this case, the possible amount information that is not suitable for the ability to adjust the apparent power in the electric wire is output as compared with the case where the possible amount information is output regardless of whether or not the adjustable amount satisfies the transmission condition. Can be suppressed.

Further, the transmission condition is determined based on the relationship between the capacity and the degree of adjustment necessary for the apparent power in the electric wire.
In this case, the possible amount information that is not suitable for the relationship between the adjustable amount and the degree of adjustment required is output as compared with the case where the possible amount information is output regardless of whether or not the adjustable amount satisfies the transmission condition. It can be suppressed.

Further, the possible amount calculation unit 305 calculates the adjustable amount by the power conversion device 211 and the adjustable amount by AF212.
In this case, the instruction server 40 supplies the current value supplied to the power conversion device 211 and the AF 212 to adjust the apparent power in the electric wire of the power system 10 based on the adjustable amount calculated by the possible amount calculation unit 305. The current value to be made can be determined. Therefore, when the HPS 21 adjusts the temperature and humidity, it is possible to realize the adjustment by the power conversion device 211 and the AF212 of the apparent power in the electric wire of the power system 10.

Further, the possible amount calculation unit 305 calculates the adjustable amount for the AF212 with respect to a predetermined capacity, and calculates the adjustable amount for the power conversion device 211 with respect to the capacity lower than that of the AF212.
In this case, it is possible to suppress the influence on the function of adjusting the temperature and humidity by the HPS 21 as compared with the case where the adjustable amount for the power conversion device 211 having a higher capacity than that of the AF212 is calculated.

The system information also includes subject information about the subject to which the temperature and / or humidity is adjusted by the HPS21.
In this case, the adjustable amount suitable for the target to which the temperature and humidity are adjusted by the HPS 21 can be calculated as compared with the case where the possible amount calculation unit 305 calculates the adjustable amount without using the target information. ..

From another point of view, the HPS 21 of the present embodiment calculates the adjustable amount when the HPS 21 adjusts the temperature and / or the humidity based on the system information.
In this case, the instruction server 40 can determine the current value to be supplied to the HPS 21 in order to adjust the apparent power in the electric wire of the power system 10 based on the adjustable amount calculated by the HPS 21. Therefore, when the HPS 21 adjusts the temperature and humidity, it is possible to realize the adjustment of the apparent power in the electric wire of the power system 10 by the HPS 21.

Further, each configuration described above is not limited to the above embodiment, and can be changed without departing from the spirit. In other words, it is understood that various changes in form and details are possible without departing from the spirit and scope of the claims.
The configuration is not limited to the configuration described above, and a part of each configuration described above may be omitted, or other functions may be added to each configuration described above.

1 ... Power control system, 10 ... Power system, 10S ... Wire sensor, 11 ... Power plant, 14 ... Supply side distribution line, 16 ... Receiving side substation, 17 ... Receiving side distribution line, 20 ... Power consumption facility, 21 … HPS, 30… calculation server, 40… instruction server, 211… power converter, 212… AF

Claims (13)

An acquisition method for acquiring system information about a heat pump system that is used to adjust apparent power in distribution system wires and can adjust temperature and / or humidity.
With the capacity calculation means for calculating an index regarding the ability to adjust the apparent power in the electric wire when the heat pump system adjusts the temperature and / or the humidity based on the system information.
Information processing system equipped with. The information processing system according to claim 1, further comprising a margin calculation means for calculating an index relating to a margin of the adjustment capacity when the heat pump system adjusts the apparent power in the electric wire. The information processing system according to claim 2, further comprising an output means for outputting information about the heat pump system when the index regarding the margin satisfies a condition defined for the margin. The information processing system according to claim 3, wherein the conditions are determined based on the life of the heat pump system. The information processing system according to claim 3, wherein the conditions are determined based on the use of the heat pump system for adjusting temperature and / or humidity. The information processing system according to claim 1, further comprising an output means for outputting information on the index that satisfies a predetermined condition for adjusting apparent power. The information processing system according to claim 6, wherein the condition is an index calculated for the heat pump system in which electric power is received via the electric wire which is an object of adjustment of apparent electric power. The information processing system according to claim 6, wherein the conditions are defined for the ability to adjust the apparent power. The information processing system according to claim 8, wherein the conditions are determined based on the relationship between the capability and the degree of adjustment required for the apparent power in the electric wire. The heat pump system includes a conversion unit that converts the received power and supplies the converted power to a load used for adjusting the temperature and / or humidity, and an adjustment unit that adjusts the apparent power in the power receiving path of the conversion unit. And are provided,
Both the conversion unit and the adjustment unit can adjust the apparent power of the electric wire.
The capacity calculation means is characterized in that it calculates an index regarding the ability of the conversion unit to adjust the apparent power of the electric wire and an index regarding the ability of the adjusting unit to adjust the apparent power of the electric wire. The information processing system described. The tenth aspect of the present invention, wherein the ability calculation means calculates a first index for a predetermined ability for the adjustment unit, and calculates a second index for the ability lower than the adjustment unit for the conversion unit. Information processing system. The information processing system according to claim 1, wherein the system information includes target information regarding an object whose temperature and / or humidity is adjusted by the heat pump system. A heat pump system that is used to adjust the apparent power of distribution system wires and can adjust the temperature and / or humidity.
An acquisition means for acquiring system information regarding the heat pump system, and
With a calculation means for calculating an index regarding the ability of the superficial power adjustment in the electric wire when the heat pump system adjusts the temperature and / or humidity based on the system information.
A heat pump system equipped with.

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