JP2017175831A - Control system, control method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make it possible to experimentally execute operation for suppressing output.SOLUTION: A control system 1a comprises an information acquisition unit 111, a command generation unit 112, and a command transmission unit 121. The information acquisition unit 111 acquires information on output suppression of a power generation system 3. When the information acquisition unit 111 acquires test information as the information on the output suppression, an operation mode of the command generation unit 112 shifts to a test mode. In the test mode, the command generation unit 112 generates a suppression command to suppress the amount of power generation according to the test information, and the command transmission unit 121 transmits the suppression command generated by the command generation unit 112 to the power generation system 3.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a control system, a control method, and a program, and more particularly, to a control system, a control method, and a program for controlling the output of a power generation system.

  Conventionally, as a power generation system, a solar power generation system capable of adjusting output to an electric power system in accordance with output suppression information (suppression information) from a command center installed by an electric power company or the like is known (for example, patent document) 1). The solar power generation system includes a solar cell module and a power conditioner. The power conditioner converts DC power generated in the solar cell module into AC power. The output suppression information is information that instructs output suppression of the photovoltaic power generation system. When receiving the output suppression information from the command center, the solar power generation system limits the output of the power conditioner and suppresses the output to the power system.

JP2015-106937A

  Since the photovoltaic power generation system does not perform the operation (output suppression operation) for limiting the output of the power conditioner when the output suppression information is not acquired from the command center, whether or not the output suppression operation is normally performed. There was a request to confirm in advance.

  An object of the present invention is to provide a control system, a control method, and a program that can experimentally execute an operation for suppressing output.

  A control system according to an aspect of the present invention is a control system that controls an output of a power generation system, and includes an information acquisition unit, a command creation unit, and a command transmission unit. The information acquisition unit acquires information related to output suppression of the power generation system. The command creating unit creates a suppression command for instructing the power generation system to suppress power generation based on the information related to the output suppression. The command transmission unit transmits the suppression command to the power generation system. When the information acquisition unit acquires test information as information related to the output suppression, the operation mode of the command generation unit becomes the test mode. In the test mode, the command creation unit creates a suppression command for instructing suppression of the power generation amount according to the test information, and the command transmission unit outputs the suppression command created by the command creation unit to the power generation system. Send to.

  The control method according to one aspect of the present invention is a control method for acquiring information related to output suppression of the power generation system and controlling the power generation output of the power generation system. In this control method, when test information is acquired as information related to the output suppression, the test mode is operated. In the test mode, a suppression command that instructs suppression of power generation is generated according to the test information, A suppression command is transmitted to the power generation system.

  A program according to an aspect of the present invention is a program for acquiring information related to output suppression of a power generation system and causing a computer that controls the power generation output of the power generation system to function as a command creation unit. The command creation unit operates in a test mode when test information is acquired as information related to the output suppression. In the test mode, the command creating unit creates a control command for instructing suppression of the power generation amount according to the test information.

  According to the present invention, the operation of suppressing output can be executed on a trial basis.

FIG. 1 is a system configuration diagram of a power generation system including a control system according to Embodiment 1 of the present invention. FIG. 2 is a system configuration diagram of the power generation system including the control system according to the first modification of the first embodiment of the present invention. FIG. 3 is a system configuration diagram of a power generation system including a control system according to Modification 2 of Embodiment 1 of the present invention. FIG. 4 is a system configuration diagram of a power generation system including a control system according to Modification 3 of Embodiment 1 of the present invention. FIG. 5 is a system configuration diagram of a power generation system including a control system according to Embodiment 3 of the present invention.

  Embodiments and modifications described below are merely examples of the present invention, and the present invention is not limited to the embodiments and modifications. The present invention is not limited to these embodiments and modifications. Various modifications can be made according to the design or the like as long as they do not depart from the technical idea.

(Embodiment 1)
(1) Overview FIG. 1 is a system configuration diagram of an output suppression system including a control system 1a and a power generation system 3 according to the present embodiment.

  The control system 1a of this embodiment is a control system that controls the output of the power generation system 3. The control system 1a includes an information acquisition unit 111, a command creation unit 112, and a command transmission unit 121. The information acquisition unit 111 acquires information related to output suppression of the power generation system 3. The command creation unit 112 creates a suppression command for instructing the power generation system 3 to suppress the power generation amount based on the information regarding the output suppression acquired by the information acquisition unit 111. The command transmission unit 121 transmits the suppression command created by the command creation unit 112 to the power generation system 3. When the information acquisition unit 111 acquires test information as information related to output suppression, the operation mode of the command generation unit 112 becomes the test mode. In the test mode, the command creation unit 112 creates a suppression command that instructs suppression of the power generation amount according to the test information, and the command transmission unit 121 transmits the suppression command created by the command creation unit 112 to the power generation system 3. .

  Thereby, even when the information acquisition unit 111 has not acquired the suppression information from the electric power company, when the test information is acquired, the command generation unit 112 operates in the test mode. In the test mode, the command creation unit 112 creates a suppression command according to the test information, and the command transmission unit 121 transmits the suppression command created by the command creation unit 112 to the power generation system 3. Therefore, the control system 1a can perform the operation of suppressing the output of the power generation system 3 even when the suppression information from the power company is not received, and the operation of suppressing the output of the power generation system 3 is normally performed. Whether or not can be confirmed in advance.

(1.2) Details (1.2.1) Configuration Hereinafter, the configuration of the output suppression system including the control system 1a will be described, and then the control system 1a will be described in more detail.

  The output suppression system of this embodiment includes a power generation system 3, a power measurement unit 4 that constitutes a control system 1a, an energy monitor 5, and a router 6.

  The power generation system 3 includes, for example, at least one power generation facility 30 provided in a customer facility 10. The “customer facility” means a facility of a power consumer, a facility that can receive power supply from a power company such as an electric power company, and the power generation system 3 of the facility. It is a facility that can receive the supply of. In the present embodiment, a detached house will be described as an example of the customer facility 10. The power generation system 3 is not limited to the power generation system provided in the customer facility 10. The power generation system 3 may be a power generation system that is provided in a facility of a power generation company and sells the entire amount of power generation to the power system.

  The power generation facility 30 includes a power generation device 31 and a power generation control device 32.

  The power generator 31 is, for example, a solar cell array provided in the customer facility 10. The solar cell array includes a plurality of solar cell modules. The solar cell array is provided on a roof of a detached house or the like, and generates power by receiving sunlight.

  The power generation control device 32 is a power conditioner (PCS) provided in the customer facility 10. A power conditioner is a power conditioner for photovoltaic power generation provided in a detached house. The power generation control device 32 has a function of converting DC power generated by the power generation device 31 into desired AC power and a function of controlling the output of the power generation device 31. The AC power output from the power generation control device 32 is reversely flowed to the power system or consumed at the customer facility 10. The power generation control device 32 includes, for example, a maximum power point tracking (MPPT) function for maintaining the power obtained from the power generation device 31 at the maximum value as a function for controlling the output of the power generation device 31. Yes.

  In a detached house, a system power supply and the power generation system 3 can be used as a power supply for supplying electric power to an electric load in the detached house. The system power supply is a commercial AC power supply (for example, AC 100 / 200V, 50/60 Hz AC power supply). The electric load is, for example, a lighting fixture, an air conditioner, an electromagnetic cooker, a refrigerator, or the like.

  The power measurement unit 4 includes a measurement function that measures power consumption or power consumption consumed at the customer facility 10 and a measurement function that measures power generation or power generation generated by the power generation system 3. In addition, the power measurement unit 4 has a measurement function for measuring the reverse power flow or the reverse power flow amount when the power generated by the power generation system 3 is reversely flowed to the power system and sold to the power company. Yes. If a grid interconnection contract is made between the power company and the contractor at the customer facility 10, the surplus of the AC power generated by the power generation system 3 or the total power is caused to flow backward to the power system to generate power. Power can be sold to businesses. The surplus of AC power is the power that is not consumed in the customer facility 10 among the AC power generated in the power generation system 3.

  The energy monitor 5 is provided in the customer facility 10. The energy monitor 5 includes a display unit and an input unit. The energy monitor 5 includes a touch panel display, for example, and the touch panel display functions as a display unit and an input unit. The input unit has a function of accepting user operations. The input unit can change the display content by various touch operations on icons on the screen displayed on the display unit. On the display unit, for example, the generated power in the customer facility 10, the total used power (power consumption), the sold power, and the like are displayed as appropriate, and the load on the customer facility 10 is loaded by touching the icon of the used power. It is also possible to display the power used for each room where the circuit load is installed. The input unit is not limited to a touch panel display, and may be a pointing device, a mechanical switch, or the like, for example.

  The energy monitor 5 has a first communication interface that communicates with the power measurement unit 4. The first communication interface for communicating with the power measurement unit 4 is, for example, a low-power wireless communication interface that does not require a radio station license. For this type of low power radio, specifications such as the frequency band to be used and the antenna power are defined in each country depending on the application. For example, in Japan, low-power radio (specific low-power radio) that uses radio waves in the 400 MHz band is defined, and can be used without obtaining a license under the Japanese Radio Law.

  The energy monitor 5 also includes a second communication interface for communicating with the first server device 101 and the second server device 102 via the router 6 and the network 7. The second communication interface is a communication interface compliant with the Ethernet (registered trademark) standard. The energy monitor 5 can acquire information related to output suppression from the first server device 101 and the second server device 102 via the router 6 and the network 7. The energy monitor 5 transmits information related to output suppression acquired from the first server device 101 and the second server device 102 to the power measurement unit 4 by wireless communication. Thereby, the electric power measurement unit 4 can acquire the information regarding output suppression.

  The first server device 101 is, for example, a server device provided in an electric power company or the like, but may be a power aggregator server device or a server device in cloud computing. Suppression information related to output suppression is uploaded to the first server device 101. Here, when the grid cooperation contract is surplus purchase, the power generation control device 32 generates a self-consumption amount in addition to the control for limiting the power generation output to the upper limit value (the upper limit value set as a percentage of the rated output) or less. In such a case, control is performed so that the reverse power flow is zero. That is, if the power consumption is zero, the power generation control device 32 limits the generated power below the suppression value, and limits the power generation below the power consumption when the power consumption exceeds the suppression value. Note that, if power consumption occurs, the generated power may be limited to a value equal to or less than a value obtained by adding power consumption to the suppression value. Moreover, when the grid cooperation contract is purchase of the entire amount, the power generation control device 32 limits the power generation output to the upper limit value or less.

  An ID (Identification) used to download the suppression information from the first server device 101 is given to an electric power consumer who has installed the power generation system 3 from an electric power company or the like. When the energy monitor 5 accesses the first server device 101 and authentication of ID is established, the energy monitor 5 can download the suppression information from the first server device 101, and uses the suppression information downloaded from the first server device 101 as a power measurement unit. 4 is output.

  The second server apparatus 102 holds test information as information related to output suppression. When the energy monitor 5 accesses the second server device 102 and downloads test information from the second server device 102, the test information downloaded from the second server device 102 is output to the power measurement unit 4.

  Next, the control system 1a of this embodiment will be described. In the present embodiment, since the control system 1a includes the power measurement unit 4, the control system 1a has a power measurement function. The control system 1a (power measurement unit 4) has a measurement function for measuring power consumption or power consumption consumed at the customer facility 10, and a measurement function for measuring power generation or power generation generated by the power generation system 3. With. The control system 1a (power measurement unit 4) measures the reverse power flow or the reverse power flow amount when the power generated by the power generation system 3 is reversely flowed to the power system and sold to the power company. Has a measurement function.

  The control system 1a includes a processing unit 11, a first communication unit 12, a second communication unit 13, a storage unit 14, a power consumption measurement unit 15, a generated power measurement unit 16, and a reverse power flow measurement unit 17. It has.

  The first communication unit 12 is a communication interface having a function of communicating with the power generation control device 32 of the power generation system 3. The 1st communication part 12 is a communication interface based on communication standards, such as RS-485, for example. The first communication unit 12 has a function of a command transmission unit 121 that transmits a suppression command.

  The second communication unit 13 is a communication interface having a function of communicating with the energy monitor 5 provided in the customer facility 10. The second communication unit 13 is, for example, a low-power wireless communication interface that does not require a radio station license. For this type of low power radio, specifications such as the frequency band to be used and the antenna power are defined in each country depending on the application. For example, in Japan, low-power radio (specific low-power radio) that uses radio waves in the 400 MHz band is defined, and can be used without obtaining a license under the Japanese Radio Law.

  The storage unit 14 includes a device selected from a ROM (Read Only Memory), a RAM (Random Access Memory), an EEPROM (Electrically Erasable Programmable Read Only Memory), or the like. The storage unit 14 stores information related to output suppression of the power generation system 3. The information related to output suppression of the power generation system 3 includes suppression information distributed from an electric power company and test information for causing the power generation system 3 to perform a suppression operation for suppressing output (power generation output) on a trial basis.

  The suppression information distributed from the electric power company is schedule information that defines a control value (upper limit value) of the output power every predetermined unit time (for example, 30 minutes) in a period for suppressing the output power (power generation output). The control value of the output power is set as a percentage (%) with respect to the rated capacity [kW] of the power generation system 3. The rated capacity of the power generation system 3 is the maximum capacity [kW] contracted with an electric power company such as a power company that sells power. The maximum output of the power generation system 3 is determined by the maximum output of the solar cell array, the power conversion efficiency of the power conditioner, and the like. Therefore, the rated output of the power generation system 3 is the rated output of the power conditioner.

  The test information is schedule information that defines a suppression value of the output of the power generation system 3 in a predetermined test period. The test information may be the same information as the suppression information downloaded from an electric power company or the like.

  The power consumption measuring unit 15 measures at least one of the power consumption and the power consumption amount for each of the main circuit and the plurality of branch circuits in the customer facility 10. The “main circuit” is a circuit connected to the main circuit breaker of the distribution board in the customer facility 10. The “branch circuit” is a circuit branched from the main circuit in the customer facility 10 by the branch breaker of the distribution board. The “branch circuit” includes a wiring connected to the secondary side of the branch breaker and an electric load.

  The power consumption measuring unit 15 includes a first current sensor provided on the primary side of the main breaker and a plurality of second current sensors provided in a one-to-one correspondence with the plurality of branch breakers. The power consumption measuring unit 15 measures the current flowing through the main circuit using the first current sensor. The power consumption measuring unit 15 obtains power consumption or power consumption of the main circuit based on the measured value of the current flowing in the main circuit and the power supply voltage. The power consumption measuring unit 15 measures the current flowing through each of the plurality of branch circuits using the second current sensor. The power consumption measuring unit 15 obtains the power consumption or the power consumption amount of each of the plurality of branch circuits based on the measured value of the current flowing through each of the plurality of branch circuits and the power supply voltage. Here, the first current sensor and the second current sensor included in the power consumption measuring unit 15 are, for example, through-type current transformers. The first current sensor and the second current sensor are not limited to the through-type current transformer, and may be a Hall element, a GMR (Giant Magnetic Resistance) element, a shunt resistance, or the like.

  The generated power measurement unit 16 acquires the generated power or the generated power amount generated by the power generation system 3. The generated power measurement unit 16 includes, for example, a third current sensor that measures a current flowing through an electric wire connecting the power generation system 3 and the power system. The generated power measurement unit 16 measures the generated power or the amount of generated power generated by the power generation system 3 based on the measurement value of the third current sensor and the output voltage of the power generation system 3. The generated power measurement unit 16 communicates with the power generation control device 32 of each power generation facility 30 to generate power generation system 3 based on the generated power or the amount of generated power received from the power generation control device 32 of each power generation facility 30. The total generated power or the amount of generated power may be acquired.

  The reverse power flow power measurement unit 17 includes a fourth current sensor that measures a current that flows backward from the power generation system 3 to the power system. The reverse flow power measurement unit 17 measures the reverse flow power or the reverse flow power amount that flows backward through the power system based on the measurement value of the fourth current sensor and the power supply voltage.

  The processing unit 11 has, for example, a microcomputer. By executing a program recorded in the memory of the microcomputer by a CPU (Central Processing Unit), an information acquisition unit 111, a command generation unit 112, a period management unit 113, a power generation amount estimation unit 114, an output unit 115, an end instruction reception Functions of the unit 116 and the like are realized. The program executed by the CPU may be recorded in advance in a memory of a microcomputer, provided by being recorded on a recording medium such as a memory card, or provided through an electric communication line.

  The information acquisition unit 111 acquires information related to output suppression of the power generation system 3. The information acquisition unit 111 according to the present embodiment includes the suppression information received by the second communication unit 13 from the first server device 101 of the power company or the second communication unit 13 from the second server device 102 as information regarding output suppression. Get the received test information.

  The command creation unit 112 creates a suppression command for instructing the power generation system 3 to suppress the power generation amount based on the information regarding the output suppression acquired by the information acquisition unit 111.

  The period management unit 113 manages the test period in which the command creation unit 112 operates in the test mode. The period management unit 113 ends the test mode when the test period ends.

  The power generation amount estimation unit 114 estimates the power generation amount of the power generation system 3. For example, the power generation amount estimation unit 114 estimates the power generation amount in the subsequent predetermined period based on the current power generation amount measured by the generated power measurement unit 16. The power generation amount estimation unit 114 may acquire a measured value of the outside air temperature from a temperature sensor that measures the outside air temperature. Since the amount of sunshine is estimated to be proportional to the outside air temperature, the power generation amount estimation unit 114 is based on the current power generation amount measured by the generated power measurement unit 16 and the measured value of the outside air temperature measured by the temperature sensor. In addition, the power generation amount of the power generation system 3 in the test mode may be estimated.

  The output unit 115 creates display information to be displayed on the energy monitor 5 that is a display unit, and outputs the display information to the energy monitor 5.

  The end instruction receiving unit 116 receives a test mode end instruction from the energy monitor 5, for example. When the end instruction receiving unit 116 receives the end instruction, the period management unit 113 determines that the test period has ended.

  The information acquisition unit 111 acquires suppression information from an electric power company or the like from the first server device 101, but the acquisition source of the suppression information is not limited to the first server device 101. For example, the information acquisition unit 111 may acquire the suppression information by reading the suppression information recorded on the recording medium with a reader device. The recording medium is, for example, a memory card, a USB memory, a CD-ROM, or the like. The information acquisition unit 111 may acquire the suppression information from another computer (for example, a personal computer) that can communicate via the router 6.

  Similarly, the information acquisition unit 111 acquires test information from the second server device 102, but the acquisition destination of the test information is not limited to the second server device 102. For example, the information acquisition unit 111 may acquire the test information by reading the test information recorded on the recording medium with a reader device. The recording medium is, for example, a memory card, a USB memory, a CD-ROM, or the like. Further, the information acquisition unit 111 may acquire the test information from another computer (for example, a personal computer) that can communicate via the router 6.

(1.2.2) Description of operation The operation of the control system 1a of the present embodiment will be described.

  Generally, from the time when the output suppression system including the control system 1a is constructed, until the ID used to download the suppression information from the first server device 101 is given to the control system 1a, 1-2. It is expected to take about a month. Therefore, there is a possibility that the control system 1a cannot download the suppression information from the first server device 101 during the construction of the output suppression system.

  Therefore, the control system 1a of the present embodiment downloads test information from the second server apparatus 102, and can suppress the output power of the power generation system 3 using the test information.

  When confirming the operation of suppressing the output of the power generation system 3 during construction of the output suppression system, the installer performs an operation of starting the operation of output suppression using, for example, the input unit of the energy monitor 5.

  The energy monitor 5 transmits to the control system 1 a a start command for starting an output suppression operation in response to an operation of the input unit, and this start command is received by the second communication unit 13. When receiving the start command, the second communication unit 13 outputs the received start command to the processing unit 11. When the start command is input from the second communication unit 13, the processing unit 11 causes the second communication unit 13 to communicate with the second server device 102 and downloads test information from the second server device 102.

  Thereby, the information acquisition part 111 can acquire test information from the 2nd server apparatus 102, and the operation mode of the instruction | command preparation part 112 turns into test mode. Then, the command creation unit 112 creates a suppression command that instructs suppression of the power generation amount according to the test information acquired by the information acquisition unit 111. For example, based on the time information of the internal clock, the command creation unit 112 creates schedule information that defines a control value (upper limit value) of the output power in a predetermined test period (for example, 1 hour) from the current time. The upper limit value is set as a percentage (%) with respect to the rated output of the power generation system 3. The suppression command created by the command creation unit 112 is transmitted to the power generation control device 32 of the power generation system 3 by the command transmission unit 121 of the first communication unit 12.

  When receiving the suppression command from the control system 1a, the power generation control device 32 of the power generation system 3 controls the output power according to the suppression command. The suppression command is schedule information that defines a control value (upper limit value) of output power in a predetermined test period from the current time. The power generation control device 32 suppresses the output power below the limit value in accordance with the suppression command.

  In the control system 1a, the total power consumption in the customer facility 10 is measured by the power consumption measuring unit 15, the generated power of the power generation system 3 is measured by the generated power measuring unit 16, and the reverse flow power measuring unit 17 measures the reverse power flow power. Has been measured.

  Usually, the processing unit 11 transmits the measured values of the power consumption measuring unit 15, the generated power measuring unit 16, and the reverse power flow measuring unit 17 from the second communication unit 13 to the energy monitor 5, and sends the measured values to the energy monitor 5. The measured power value is displayed.

  On the other hand, in the test mode, the output unit 115 of the processing unit 11 sends the suppression value of the generated power output in the test mode and the measured value of the generated power measured by the generated power measuring unit 16 from the second communication unit 13 to the energy monitor. 5 is transmitted. For example, the output unit 115 displays the suppression value set based on the test information, the power generation amount before starting the test mode, and the power generation amount after starting the test mode as numerical values. And the display information is transmitted from the second communication unit 13 to the energy monitor 5. The energy monitor 5 displays the display information received from the second communication unit 13 on the screen. Based on the display content of the energy monitor 5, the installer can confirm that the power generation output of the power generation system 3 is reduced compared to before the start of the test mode and is suppressed lower than the suppression value. Therefore, the installer can confirm that the operation of suppressing the power generation output by the power generation system 3 is normally performed.

  In addition, when the grid cooperation contract is surplus purchase, the power generation control device 32 limits the generated power below the suppression value if the power consumption is zero in the test mode, and consumes when the power consumption exceeds the suppression value. Limit the generated power to below the power level. Note that, if power consumption occurs, the generated power may be limited to a value equal to or less than a value obtained by adding power consumption to the suppression value. Therefore, the output unit 115 includes a suppression value of the power generation output in the test mode, a measurement value of the generated power measured by the generated power measurement unit 16, and a measurement value of the reverse power flow measured by the reverse power flow measurement unit 17. The display information may be created based on. For example, the output unit 115 sets the suppression value set based on the test information when the reverse flow power is zero based on the suppression value set based on the test information and the measured value of the reverse flow power. Is the upper limit value, and when reverse flow power exists, the value obtained by adding the reverse flow power to the suppression value is set as the upper limit value. Then, the output unit 115 creates display information for displaying the upper limit value of the generated power, the measured value of the generated power, and the measured value of the reverse power flow, and sends the created display information from the second communication unit 13 to the energy monitor. 5 is transmitted. The energy monitor 5 displays the display information received from the second communication unit 13 on the screen. The installer can confirm that the power generation output of the power generation system 3 is suppressed to the upper limit value or less based on the display content of the energy monitor 5. In addition, when power consumption occurs, it can be confirmed that the upper limit value of the generated power is increased by the amount of power consumption. Therefore, the installer can confirm that the operation of suppressing the power generation output by the power generation system 3 is normally performed.

  Note that the output unit 115 may create display information indicating whether or not the operation of suppressing the power generation output of the power generation system 3 is normally performed in the test mode and display the display information on the energy monitor 5. For example, the output unit 115 may create display information such as “the power generation suppression operation is being performed normally” and output the display information from the second communication unit 13 to the energy monitor 5. The energy monitor 5 displays the display information received from the second communication unit 13 on the screen. Therefore, the installer can confirm whether or not the operation of suppressing the power generation output by the power generation system 3 is normally performed based on the display content of the energy monitor 5.

  By the way, the period management unit 113 of the control system 1a manages a test period in which the operation mode of the command generation unit 112 is set to the test mode. The period management unit 113 determines that the suppression schedule created from the test information based on the time information of the internal clock has ended, and determines that the test period has ended when it determines that there is no next suppression schedule.

  If the period management unit 113 determines that the test period has ended, it ends the test mode. When terminating the test mode, the period management unit 113 causes the command transmission unit 121 to transmit a release command for canceling the suppression of the power generation amount to the power generation system 3.

  When the power generation control device 32 of the power generation system 3 receives the release command transmitted from the control system 1a, the power generation control device 32 releases the operation of suppressing the output power. Thereby, the electric power generation system 3 complete | finishes the operation | movement which suppresses an electric power generation output.

  In the control system 1a of the present embodiment, the period management unit 113 may determine that the test period has ended when a predetermined effective period has elapsed since the test mode started.

  A predetermined effective period (for example, a period of several minutes to several hours) is set in the period management unit 113. The period management unit 113 counts the elapsed time from the time when the test mode is started by the internal clock of the processing unit 11, and may determine that the test mode has ended when the elapsed time reaches the valid period. When the period management unit 113 determines that the test period has ended, the period management unit 113 transmits a release command for canceling the suppression of the power generation amount from the command transmission unit 121 to the power generation system 3 and ends the test mode. Since the output power of the power generation system 3 is suppressed from when the test mode starts until the predetermined effective period elapses, the installer performs an operation of suppressing the output power during the effective period. It can be confirmed whether or not it is normally performed. Further, when a predetermined effective period has elapsed from the time when the test mode is started, the control system 1a has ended the test mode, so that the period of operation in the test mode can be set as the effective period.

  In addition, if the installer can confirm the operation of suppressing the output power while the control system 1a is operating in the test mode, the test mode can be terminated halfway.

  When the installer performs an operation for instructing the end of the test mode using, for example, the energy monitor 5, an instruction to end the test mode is transmitted from the energy monitor 5 to the control system 1a. When the second communication unit 13 receives the end instruction transmitted from the energy monitor 5, the end instruction receiving unit 116 receives the test mode end instruction, and the period management unit 113 determines that the test mode has ended. When it is determined that the test mode has ended, the period management unit 113 causes the command transmission unit 121 to transmit a cancel command for canceling the suppression of the power generation amount to the power generation control device 32. When the power generation control device 32 receives the release command, the operation of suppressing the power generation amount is released even when the schedule of the suppression command is not ended, and the power generation system 3 can end the operation in the test mode. In addition, when the control system 1a creates the suppression command according to the suppression information from the power company and suppresses the output power of the power generation system 3 (output suppression mode), the operation of suppressing the output power of the power generation system 3 The control system 1a is configured so that it cannot be released.

  Thereafter, when the ID assigned by the power company is set in the control system 1a, the control system 1a can access the first server device 101 using the ID and download the suppression information from the first server device 101. .

  The processing unit 11 of the control system 1 a causes the second communication unit 13 to communicate with the first server device 101 and downloads the suppression information from the first server device 101.

  Thereby, the information acquisition part 111 can acquire suppression information from the 1st server apparatus 101, and the operation mode of the instruction | command preparation part 112 turns into an output suppression mode. The command creation unit 112 creates a suppression command that instructs suppression of the power generation amount according to the suppression information acquired by the information acquisition unit 111. For example, the command creation unit 112 extracts the schedule information for several days from the current day from the schedule information for a certain period (for example, 400 days) acquired from the first server device 101 and sets it as the suppression command. The suppression command created by the command creation unit 112 is transmitted to the power generation control device 32 of the power generation system 3 by the command transmission unit 121 of the first communication unit 12.

  When receiving the suppression command from the control system 1a, the power generation control device 32 of the power generation system 3 controls the output power according to the suppression command. The suppression command is schedule information in which a control value (upper limit value) of output power is defined for each predetermined unit time in a predetermined period. The power generation control device 32 suppresses the output power below the limit value in accordance with the suppression command.

(1.3) Effect As described above, the control system 1a of the present embodiment includes the information acquisition unit 111, the command creation unit 112, and the command transmission unit 121. The information acquisition unit 111 acquires information related to output suppression of the power generation system 3. The command creation unit 112 creates a suppression command that instructs the power generation system 3 to suppress the amount of power generation based on the information related to output suppression. The command transmission unit 121 transmits a suppression command to the power generation system 3. When the information acquisition unit 111 acquires test information as information related to output suppression, the operation mode of the command generation unit 112 becomes the test mode. In the test mode, the command creation unit 112 creates a suppression command that instructs suppression of the power generation amount according to the test information, and the command transmission unit 121 transmits the suppression command created by the command creation unit 112 to the power generation system 3. .

  As described above, when the information acquisition unit 111 acquires the test information, the command creation unit 112 creates a suppression command that instructs suppression of the power generation amount according to the test information. And since the instruction | command transmission part 121 is transmitting the suppression instruction | command created by the instruction | command preparation part 112 to the electric power generation system 3, the electric power generation output of the electric power generation system 3 can be suppressed. Therefore, since the control system 1a can perform the operation of suppressing the power generation output of the power generation system 3 even when the suppression information cannot be obtained from an electric power company or the like, it is confirmed whether the operation of suppressing the power generation output is normally performed. be able to.

  Further, the control method of the present embodiment is a control method for controlling the power generation output of the power generation system 3 by acquiring information related to output suppression of the power generation system 3. When test information is acquired as information related to output suppression, the test system operates in the test mode. In the test mode, the power generation system 3 is instructed to suppress the power generation amount to the suppression value based on the test information.

  Thereby, even when suppression information cannot be acquired from an electric power company etc., since the operation | movement which suppresses the electric power generation output of the electric power generation system 3 can be performed, it can be confirmed whether the operation | movement which suppresses an electric power generation output is performed normally.

  In addition, the program according to the present embodiment is a program for causing a computer to function as the command creation unit 112. The command creation unit 112 operates in the test mode when the test information is acquired as information related to the output suppression of the power generation system 3, and creates a control command that instructs suppression of the power generation amount according to the test information in the test mode. This program may be recorded in advance in a memory provided in the computer, may be provided by being recorded on a recording medium such as a memory card, or may be provided through an electric communication line.

  Thereby, even when suppression information cannot be acquired from an electric power company etc., since the operation | movement which suppresses the electric power generation output of the electric power generation system 3 can be performed, it can be confirmed whether the operation | movement which suppresses an electric power generation output is performed normally.

  In the control system 1a of the present embodiment, it is preferable that the operation mode of the command creation unit 112 includes an output suppression mode and a test mode. When the information acquisition unit 111 acquires suppression information from the electric power company as information regarding output suppression, the operation mode of the command creation unit 112 becomes the output suppression mode. When the information acquisition unit 111 acquires test information as information related to output suppression, the operation mode of the command generation unit 112 is the test mode. In the output suppression mode, the command creation unit 112 creates a suppression command according to the suppression information, and the command transmission unit 121 transmits the suppression command created by the command creation unit 112 to the power generation system 3.

  As a result, the operation mode becomes either the output suppression mode or the test mode depending on whether the information acquisition unit 111 acquires the suppression information from the power company or the test information as the information regarding the output suppression. Therefore, the information acquisition part 111 can make the electric power generation system 3 perform the operation | movement which suppresses an output by acquiring test information instead of the suppression information from an electric power company.

  The control system 1a of the present embodiment may further include a period management unit 113 that manages a test period in which the operation mode of the command creation unit 112 is set to the test mode. The period management unit 113 ends the test mode when the test period ends.

  Since the period management unit 113 ends the test mode when the test period ends, the period management unit 113 can cause the control system 1a to perform a normal operation.

  In the control system 1a of the present embodiment, when the period management unit 113 ends the test mode, the command transmission unit 121 may transmit a cancellation command for canceling the suppression of the power generation amount to the power generation system 3.

  Thereby, when the test period ends, the power transmission system 3 can reliably end the operation of suppressing the power generation amount by transmitting the release command from the command transmission unit 121 to the power generation system 3.

  In the control system 1a of the present embodiment, the test information may be schedule information in which a power generation amount suppression value is set within a predetermined period. In this case, when the period set by the schedule information ends, the period management unit 113 may determine that the test period ends.

  When the period set by the schedule information ends, the period management unit 113 determines that the test period has ended, so there is no need to instruct the control system 1a to end the test period.

  In the control system 1a of the present embodiment, when a predetermined valid period has elapsed since the start of the test mode, the period management unit 113 may determine that the test period has ended.

  As a result, the control system 1a can end the test mode when the valid period has elapsed since the start of the test mode.

  The control system 1a of the present embodiment may further include an end instruction receiving unit 116 that receives a test mode end instruction. When the end instruction receiving unit 116 receives the end instruction, the period management unit 113 may determine that the test period has ended.

  Thereby, when the end instruction receiving unit 116 receives the end instruction, the period management unit 113 can end the operation in the test mode.

  In the control system 1a of the present embodiment, the information acquisition unit 111 may acquire test information from other devices by communicating with other devices (for example, the second server apparatus 102, other computers, etc.). . Further, the information acquisition unit 111 may read test information from an external recording medium.

  The information acquisition unit 111 acquires test information from another device or an external recording medium, so that the control system 1a can suppress the power generation output of the power generation system 3.

  The control system 1a of this embodiment may further include an output unit 115 that outputs display information to be displayed on the display unit (energy monitor 5) to the display unit. The output unit 115 creates display information indicating whether or not the power generation system 3 suppresses the power generation output according to the test information, and outputs the display information to the display unit.

  Thereby, the user can confirm whether the operation | movement which a power generation system suppresses a power generation output is normally performed in test mode based on the content displayed on the display part.

  The control system 1a of the present embodiment may further include a power generation amount acquisition unit (generated power measurement unit 15), a reverse power flow power acquisition unit (reverse power flow measurement unit 17), and an output unit 115. The power generation amount acquisition unit acquires information on the power generation amount from the power generation system 3. The reverse flow power acquisition unit acquires information on reverse flow power that is reversely flowed from the power generation system 3 to the power system. The output unit 115 outputs display information to be displayed on the display unit to the display unit. The output unit 115 displays the display information created based on the test information, the information on the power generation amount acquired by the power generation amount acquisition unit, and the information on the reverse power flow power acquired by the reverse power flow acquisition unit. Output to.

  Thereby, the user can confirm whether the electric power generation system 3 is performing normally the operation | movement which suppresses an electric power generation output in test mode based on the content displayed on the display part.

  The control system 1a of this embodiment may further include a power generation amount acquisition unit (generated power measurement unit 15) and an output unit 115. The power generation amount acquisition unit acquires information on the power generation amount from the power generation system 3. The output unit 115 outputs display information to be displayed on the display unit to the display unit. The output unit 115 outputs the created display information to the display unit based on the test information, the power generation amount before starting the test mode, and the power generation amount after starting the test mode.

  Thereby, the user can confirm whether the electric power generation system 3 is performing normally the operation | movement which suppresses an electric power generation output in test mode based on the content displayed on the display part.

(1.4) Modifications Below, control systems according to modifications of the above embodiment are listed. In addition, each structure of the modified example demonstrated below is applicable in combination with each structure demonstrated in the said embodiment suitably. In the following description of the modified example, the same reference numerals are given to the components common to the above-described embodiment, and the description thereof is omitted.

(1.4.1) Modification 1
FIG. 2 is a system configuration diagram of an output control system including the control system 1b according to the first modification. In this output control system, each of the power measurement unit 4 and the energy monitor 5 has a function of performing wireless communication with the router 6.

  The control system 1b of the first modification is configured with an energy monitor 5. The control system 1b has the same configuration as that of the control system 1a, and the same components as those of the control system 1a are denoted by the same reference numerals and description thereof is omitted.

  The control system 1b according to the first modification may include a communication unit that performs wireless communication with the router 6. The communication unit of the control system 1 b can communicate with the first server device 101 and the second server device 102 via the router 6 and the network 7. The communication unit of the control system 1 b can communicate with the power measurement unit 4 via the router 6.

  The information acquisition unit 111 of the control system 1b of Modification 1 can acquire information (suppression information, test information) related to output suppression from the first server device 101 and the second server device 102. Further, the control system 1b communicates with the power measurement unit 4 via the router 6, and the control system 1b can acquire measured values such as power consumption, generated power, and reverse power flow from the power measurement unit 4. .

  When the information acquisition unit 111 acquires test information, the command creation unit 112 creates a suppression command that instructs suppression of the power generation amount according to the test information acquired by the information acquisition unit 111. Then, the command transmission unit 121 that is a communication unit of the control system 1 b transmits the suppression command created by the command creation unit 112 to the power measurement unit 4 via the router 6. When receiving the suppression command from the control system 1b, the power measurement unit 4 transmits this suppression command to the power generation control device 32. Thereby, the electric power generation control apparatus 32 can suppress the output electric power of the electric power generation system 3 according to test information.

  The communication method between the power measurement unit 4 and the router 6 is not limited to the wireless communication method, and may be a wired communication method. Similarly, the communication method between the energy monitor 5 and the router 6 is not limited to the wireless communication method, and may be a wired communication method.

(1.4.2) Modification 2
FIG. 3 is a system configuration diagram of an output control system including a control system 1c according to the second modification. This output control system includes a power generation system 3, a power measurement unit 4, a controller 8, and a communication adapter 9. In this output control system, the controller 8 constitutes a control system 1c.

  The communication adapter 9 includes a communication interface that communicates with the controller 8 via the router 6 and a communication interface that communicates with the power generation control device 32. A communication interface used for communication with the controller 8 is, for example, a communication interface compliant with the Ethernet (registered trademark) standard. Moreover, the communication interface which communicates with the electric power generation control apparatus 32 is a communication interface based on communication standards, such as RS-485, for example. Thus, since the communication protocol adopted for communication between the communication adapter 9 and the controller 8 and the communication protocol adopted for communication between the communication adapter 9 and the power generation control device 32 are different, The communication adapter 9 has a function of converting a communication protocol.

  The controller 8 is a HEMS (Home Energy Management System) controller. The controller 8 can receive the measurement value transmitted from the power measurement unit 4 and display it on the monitor, or control the HEMS-compatible device based on the measurement value. Examples of HEMS compatible devices include air conditioners, water heaters, and electromagnetic cookers.

  In the second modification, the controller 8 constitutes a control system 1c. The controller 8 constituting the control system 1 c only needs to include a communication unit that communicates with the router 6 and a communication unit that communicates with the power measurement unit 4.

  The controller 8 constituting the control system 1 c can communicate with the communication adapter 9 via the router 6. The controller 8 constituting the control system 1 c can communicate with the first server device 101 and the second server device 102 via the router 6 and the network 7. Further, the controller 8 constituting the control system 1 c can perform wireless communication with the power measurement unit 4.

  The control system 1 c can communicate with the first server device 101 and the second server device 102 via the router 6 and the network 7. Further, the control system 1 c can communicate with the power generation control device 32 via the router 6 and the communication adapter 9.

  The information acquisition unit 111 of the control system 1c according to the second modification can acquire information (suppression information, test information) related to output suppression from the first server device 101 and the second server device 102. In addition, the control system 1 c can acquire measured values such as power consumption, generated power, and reverse power flow from the power measurement unit 4.

  When the information acquisition unit 111 acquires test information, the command creation unit 112 creates a suppression command that instructs suppression of the power generation amount according to the test information acquired by the information acquisition unit 111. Then, the command transmission unit 121 of the control system 1 c transmits the suppression command created by the command creation unit 112 to the power generation control device 32 via the router 6 and the communication adapter 9. Thereby, the electric power generation control apparatus 32 can suppress the output electric power of the electric power generation system 3 according to test information.

(1.4.3) Modification 3
FIG. 4 is a system configuration diagram of an output control system including a control system 1d according to the third modification. The output control system of Modification 3 has the same system configuration as the output control system of Modification 2. In the second modification, the control system 1c is configured by the controller 8, but in the third modification, the control system 1d is configured by the communication adapter 9.

  The control system 1 d can communicate with the first server device 101 and the second server device 102 via the router 6 and the network 7. The control system 1 d can communicate with the controller 8 via the router 6.

  The information acquisition unit 111 of the control system 1d of Modification 3 can acquire information (suppression information, test information) related to output suppression from the first server device 101 and the second server device 102. In addition, the control system 1 c can acquire measured values such as power consumption, generated power, and reverse power flow measured by the power measurement unit 4 from the controller 8.

  When the information acquisition unit 111 acquires test information, the command creation unit 112 creates a suppression command that instructs suppression of the power generation amount according to the test information acquired by the information acquisition unit 111. Then, the command transmission unit 121 of the control system 1 c transmits the suppression command created by the command creation unit 112 to the power generation control device 32. Thereby, the electric power generation control apparatus 32 can suppress the output electric power of the electric power generation system 3 according to test information.

(1.4.4) Other Modifications In the control system 1a of the first embodiment, the command creation unit 112 creates a suppression command according to the test information. The suppression command is schedule information that defines an upper limit value of the power generation output for each predetermined unit time in a predetermined test period. Here, the command transmission unit 121 may read the upper limit value at the present time from the schedule information based on the time information of the internal clock, and transmit the upper limit value to the power generation control device 32.

  Note that the processing unit 11 may correct the time information of the internal clock using the time information acquired from the first server device 101 or the second server device 102. Further, the processing unit 11 may correct the time information of the internal clock by an input from an input unit provided in the control system 1a.

(Embodiment 2)
An output suppression system including the control system 1a according to the second embodiment will be described. In addition, since the structure of the output suppression system provided with the control system 1a of Embodiment 2 is the same as that of Embodiment 1, the same code | symbol is attached | subjected to the same component and the description is abbreviate | omitted.

  The information acquisition unit 111 of the control system 1a according to the first embodiment acquires test information from the second server apparatus 102 via the router 6 and the network 7, but in the control system 1a according to the present embodiment, the storage unit 14 In addition, test information is stored in advance.

  In the control system 1a of the present embodiment, when a start command is transmitted from the energy monitor 5 to the control system 1a, the information acquisition unit 111 reads test information from the storage unit 14. When the information acquisition unit 111 acquires test information from the storage unit 14, the command generation unit 112 generates a suppression command according to the test information acquired by the information acquisition unit 111. The command transmission unit 121 transmits the suppression command created by the command creation unit 112 to the power generation control device 32. The power generation control device 32 performs an operation of suppressing the output power in accordance with the suppression command transmitted from the command transmission unit 121.

  As described above, the control system 1a of the present embodiment further includes the storage unit 14 in addition to the configuration described in the first embodiment. The storage unit 14 stores test information, and the information acquisition unit 111 acquires test information from the storage unit 14.

  Since the information acquisition unit 111 acquires the test information from the storage unit 14, the control system 1a can perform an operation of suppressing the output power even if the test information cannot be acquired from the outside.

  Note that the configuration described in Embodiment 2 is applicable in combination with the configuration described in Embodiment 1 (including modifications) as appropriate.

(Embodiment 3)
The output suppression system provided with the control system 1a of Embodiment 3 is demonstrated with reference to FIG. In addition, since the output suppression system provided with the control system 1a of the third embodiment is the same as that of the first embodiment except that the processing unit 11 includes the test information creation unit 117, the same components are the same. A reference numeral is attached and the description thereof is omitted.

  As illustrated in FIG. 5, the processing unit 11 of the control system 1 a according to the present embodiment includes a test information creation unit 117 that creates test information. The information acquisition unit 111 acquires test information from the test information creation unit 117.

  The test information creation unit 117 creates test information in which a power generation amount suppression value (upper limit) is set based on the power generation amount measured by the generated power measurement unit 16. For example, the test information creation unit 117 sets a value lower than the power generation amount measured by the generated power measurement unit 16 by a predetermined reduction amount (for example, 20% of the rated capacity) as the suppression value (upper limit value).

  In the control system 1a of the present embodiment, when a start command is transmitted from the energy monitor 5 to the control system 1a, the information acquisition unit 111 acquires test information from the test information creation unit 117. The command creation unit 112 creates a suppression command according to the test information acquired by the information acquisition unit 111. The command transmission unit 121 transmits the suppression command created by the command creation unit 112 to the power generation control device 32, and the power generation control device 32 suppresses the power generation output according to the suppression command.

  Here, the test information creation unit 117 sets a value lower than the power generation amount measured by the generated power measurement unit 16 as the suppression value (upper limit value). For example, the test information creation unit 117 sets a value that is lower than the power generation amount measured by the generated power measurement unit 16 by a predetermined decrease as the suppression value. Thereby, when the power generation control device 32 starts the operation of suppressing the power generation output, the power generation output decreases by a predetermined decrease compared to before the suppression, and therefore the power generation system 3 performs the operation of suppressing the power generation output. This makes it easier for the installer to confirm.

  Note that the test information creation unit 117 may create test information in which a power generation amount suppression value is set based on the information on the power generation amount acquired by the generated power measurement unit 16.

  The power generation amount estimation unit 114 estimates the power generation amount of the power generation system 3 during the test period in which the command creation unit 112 operates in the test mode, based on the power generation amount measured by the generated power measurement unit 16. For example, the power generation amount estimation unit 114 estimates the power generation amount of the power generation system 3 in the test period based on the power generation amount measured by the generated power measurement unit 16 and the information on the outside air temperature measured by the temperature sensor. .

  The test information creation unit 117 sets a value lower than the power generation amount estimated by the power generation amount estimation unit 114 as the suppression value (upper limit value). For example, the test information creation unit 117 sets a value that is lower than the power generation amount estimated by the power generation amount estimation unit 114 by a predetermined decrease as the suppression value. Thereby, when the power generation control device 32 starts an operation of suppressing the power generation output, the power generation is suppressed to a value lower than the estimated value of the power generation during the test period by a predetermined decrease. Therefore, it becomes easy for the installer to confirm that the power generation system 3 is performing an operation of suppressing the power generation output.

  The control system 1a of this embodiment further includes a test information creation unit 117 that creates test information in addition to the configuration described in the first embodiment. The information acquisition unit 111 acquires test information from the test information creation unit 117.

  Since the test information creation unit 117 creates the test information, the control system 1a can perform an operation of suppressing the output power even if the test information cannot be acquired from the outside.

  The control system 1a of the present embodiment may further include a power generation amount acquisition unit (generated power measurement unit 16) that acquires information on the power generation amount from the power generation system 3. The test information creation unit 117 creates test information in which the suppression value is set to a value lower than the power generation amount acquired by the power generation amount acquisition unit.

  Since the test information creation unit 117 sets the power generation amount suppression value to a value lower than the power generation amount acquired by the power generation amount acquisition unit, the power generation amount decreases when the test period starts, so the power generation amount is suppressed. It will be easier to confirm that it is. The power generation amount acquisition unit may be the generated power measurement unit 16 that measures the power generation amount of the power generation system 3 or may acquire a measurement value of the generated power from the generated power measurement unit provided outside the control system 1a. Good.

  The control system 1a of the present embodiment may further include a power generation amount estimation unit 114 that estimates the power generation amount of the power generation system 3 during the test mode period. The test information creation unit 117 creates test information in which the suppression value is set to a value lower than the estimated value estimated by the power generation amount estimation unit 114.

  Since the test information creation unit 117 sets the power generation amount suppression value to a value lower than the power generation amount acquired by the power generation amount estimation unit 114, the power generation amount decreases when the test period starts. It becomes easy to confirm that it is suppressed.

  Note that the configuration described in the third embodiment is applied in appropriate combination with the configuration (including modifications) described in the first and second embodiments.

  In Embodiments 1 to 3 (including modifications), a single-family house is described as an example of the customer facility 10 in which the power generation system 3 is provided. It may be a non-residential place such as a place, factory, amusement facility or store. Further, the power generation system 3 is not limited to the power generation system provided in the customer facility 10. The power generation system 3 may be a power generation system that is provided in a facility of a power generation company and sells the entire amount of power generation to the power system.

1a to 1d Control system 3 Power generation system 5 Energy monitor (display unit)
14 Storage Unit 16 Generated Power Measurement Unit (Generated Power Acquisition Unit)
17 Reverse flow power measurement unit (Reverse flow power acquisition unit)
DESCRIPTION OF SYMBOLS 111 Information acquisition part 112 Command preparation part 113 Period management part 114 Power generation amount estimation part 115 Output part 116 Termination instruction reception part 117 Test information creation part 121 Command transmission part

Claims (17)

An information acquisition unit for acquiring information on output suppression of the power generation system;
A command creation unit that creates a suppression command that instructs the power generation system to suppress power generation based on the information related to the output suppression;
A command transmission unit that transmits the suppression command to the power generation system,
When the information acquisition unit acquires test information as information related to the output suppression, the operation mode of the command creation unit is a test mode,
In the test mode, the command creation unit creates a suppression command for instructing suppression of the power generation amount according to the test information, and the command transmission unit outputs the suppression command created by the command creation unit to the power generation system. Send to
A control system characterized by that. The operation mode of the command creating unit includes an output suppression mode and the test mode,
When the information acquisition unit acquires suppression information from an electric power company as information regarding the output suppression, the operation mode becomes the output suppression mode,
When the information acquisition unit acquires the test information as information on the output suppression, the operation mode is the test mode,
In the output suppression mode, the command creation unit creates the suppression command according to the suppression information, and the command transmission unit transmits the suppression command created by the command creation unit to the power generation system,
The control system according to claim 1. A period management unit that manages a test period in which the operation mode of the command creation unit is the test mode;
The period management unit ends the test mode when the test period ends.
The control system according to claim 1 or 2, wherein When the period management unit ends the test mode, a release command for canceling the suppression of the power generation amount is transmitted from the command transmission unit to the power generation system.
The control system according to claim 3. The test information is schedule information in which a suppression value of the power generation amount is set within a predetermined period,
When the period set in the schedule information ends, the period management unit determines that the test period ends.
The control system according to claim 3 or 4, characterized by the above. When a predetermined valid period elapses from the start time of the test mode, the period management unit determines that the test period ends.
The control system according to claim 3 or 4, characterized by the above. An end instruction receiving unit for receiving the test mode end instruction;
When the end instruction receiving unit receives the end instruction, the period management unit determines that the test period ends.
The control system according to claim 3 or 4, characterized by the above. A storage unit for storing the test information;
The information acquisition unit acquires the test information from the storage unit.
The control system according to claim 1, wherein: The information acquisition unit acquires the test information from the other device by communicating with the other device, or reads the test information from an external recording medium.
The control system according to claim 1, wherein: A test information creating unit for creating the test information;
The information acquisition unit acquires the test information from the test information creation unit;
The control system according to any one of claims 1 to 9, wherein: A power generation amount acquisition unit for acquiring information of the power generation amount from the power generation system;
The test information creation unit creates the test information in which a suppression value is set to a value lower than the power generation amount acquired by the power generation amount acquisition unit.
The control system according to claim 10. A power generation amount estimation unit for estimating the power generation amount of the power generation system in the test mode period;
The test information creating unit creates the test information in which a suppression value is set to a value lower than the estimated value estimated by the power generation amount estimating unit.
The control system according to claim 10. An output unit that outputs display information to be displayed on the display unit to the display unit;
The output unit creates the display information indicating whether the power generation system suppresses the power generation output according to the test information, and outputs the display information to the display unit.
The control system according to any one of claims 1 to 12. A power generation amount acquisition unit for acquiring information of the power generation amount from the power generation system;
A reverse flow power acquisition unit that acquires information of reverse flow power that is reverse flow from the power generation system to the power system;
An output unit that outputs display information to be displayed on the display unit to the display unit;
The output unit is created based on the test information, the information on the power generation amount acquired by the power generation amount acquisition unit, and the information on the reverse power flow power acquired by the reverse power flow acquisition unit. Outputting display information to the display unit;
The control system according to any one of claims 1 to 12. A power generation amount acquisition unit for acquiring information of the power generation amount from the power generation system;
An output unit that outputs display information to be displayed on the display unit to the display unit;
The output unit outputs the created display information to the display unit based on the test information, the power generation amount before starting the test mode, and the power generation amount after starting the test mode.
The control system according to any one of claims 1 to 12. A control method for obtaining information related to output suppression of a power generation system and controlling the power generation output of the power generation system,
When test information is acquired as information related to the output suppression, it operates in a test mode,
In the test mode, a suppression command that instructs suppression of the power generation amount according to the test information is created, and the created suppression command is transmitted to the power generation system.
A control method characterized by that. Computer
A command creation unit that operates in a test mode when acquiring test information as information on output suppression of the power generation system, and creates a control command that instructs suppression of power generation in accordance with the test information in the test mode;
Program to function as.

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