JP2016226120A - Power conditioner operation controller, operation control method, operation control program, and photovoltaic system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To achieve output suppression as the whole photovoltaic system, without a power conditioner performing output suppression operation.SOLUTION: An operation controller 10 for performing operation control on a plurality of power conditioners 1 to 5 comprises: a demand information acquisition unit 11 for acquiring demand information on demand power; a PCS determination unit 12 for determining, on the basis of the demand information, the number of power conditioners, of the plurality of power conditioners 1 to 5, that perform rated output operation so that the total value of rated output power of the power conditioners is equal to or lower than the demand power; and an operation instruction unit 13 for outputting a rated output operation instruction to power conditioners, the number of which has been determined.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a power conditioner operation control device, an operation control method, an operation control program, and a photovoltaic power generation system.

  In recent years, electric power generated by a photovoltaic power generation system (photovoltaic (PV) system) is sold to an electric power company. When a large number of photovoltaic power generation systems are connected to an electric power system (hereinafter simply referred to as “system”), there is a possibility that the electric power supplied to the system exceeds the connectable amount of the electric utility when the amount of power generation is large. is there. In order to avoid such a situation, it is necessary to suppress the output of the photovoltaic power generation system when the power demand is low. Each power conditioner of the solar power generation system performs an operation that suppresses the output (output suppression operation), thereby suppressing power supplied from the solar power generation system to the system.

  Patent Document 1 describes a solar power generation system that individually suppresses output of each power conditioner. Patent Document 2 describes a power generation output schedule control method for a wind power generation system. In this method, the wind turbine generators in the wind power generation system are grouped, the server device sets the power generation output schedule for each wind turbine generator group, and the master control terminal of each group shares the power generation output of each group. Control. As a result, the desired power output is ensured when the wind turbine generator is dropped.

JP 2013-207862 A JP 2012-39802 A

  As described above, in the solar power generation system of Patent Document 1, the output suppression of the solar power generation system is performed by the power conditioners performing the output suppression operation. However, there is a problem that it cannot be executed if the inverter does not have an output suppression function. Further, in Patent Document 2, although an expected power generation output is ensured when the wind turbine generator is dropped, this problem cannot be solved.

  Then, an object of this invention is to achieve output suppression as the whole photovoltaic power generation system, without a power conditioner performing output suppression operation.

The operation control device according to the present invention is:
An operation control device that performs operation control of a plurality of inverters,
A demand information acquisition unit for acquiring demand information about power demand;
Based on the demand information, a PCS determination unit that determines the number of power conditioners that perform rated output operation among the plurality of power conditioners so that a total value of rated output powers of the power conditioners is equal to or less than the demand power. When,
An operation command unit that outputs a rated output operation command to the determined number of power conditioners;
It is characterized by providing.

In the operation control device,
The rated output power of the plurality of power conditioners is substantially equal, and the demand information includes an output suppression ratio as demand power,
The PCS determination unit may use an integer n satisfying Equation (1) as the number of the power conditioners.
n ≦ x · N (1)
Here, x is an output suppression ratio included in the demand information, and N is the number of the plurality of power conditioners.

In the operation control device,
The operation command unit outputs an operation stop command to at least one of the power conditioners performing the rated output operation periodically or when a predetermined event occurs, and the operation power is stopped. You may make it perform PCS switching operation | movement which outputs a rated output driving command with respect to at least 1 unit among conditioners.

In the operation control device,
The operation command unit may perform the PCS switching operation so as to rotate a power conditioner that performs rated output operation.

In the operation control device,
The demand information acquisition unit periodically acquires demand information about fluctuating demand power,
The PCS determination unit may increase or decrease the number of power conditioners that perform rated output operation based on the demand power and the actual generated power that is the total output power of the power conditioner that is currently operating. Good.

In the operation control device,
When the value obtained by subtracting the actual generated power from the demand power is equal to or higher than the rated output per one power conditioner, the PCS determination unit increases the number of power conditioners that perform rated output operation by at least one. It may be.

In the operation control device,
The PCS determination unit reduces the number of power conditioners that perform rated output operation by at least one so that the actual generated power is equal to or less than the required power when the actual generated power is larger than the demand power. It may be.

In the operation control device,
The operation command unit may not output a rated output operation command to the power conditioner in failure.

The operation control device according to the present invention is:
An operation control device that performs operation control of a plurality of inverters,
A demand information acquisition unit for acquiring demand information about power demand;
Based on the demand information and the rated output of each power conditioner, the rated output operation is performed from among the plurality of power conditioners so that the total value of the rated output power of the power conditioner is equal to or less than the demand power. A PCS determination unit for determining an inverter to be performed;
An operation command unit that outputs a rated output operation command to the determined power conditioner;
It is characterized by providing.

The photovoltaic power generation system according to the present invention is
A plurality of solar cells;
A plurality of power conditioners that convert the DC power output by the solar cell into AC power; and
An operation control device of the inverter,
It is characterized by providing.

The operation control method according to the present invention includes:
An operation control method for a plurality of inverters,
Obtaining demand information about power demand;
Based on the demand information, determining the number of power conditioners that perform rated output operation among the plurality of power conditioners so that a total value of rated output power of the power conditioners is equal to or less than the demand power; and
Outputting a rated output operation command to the determined number of inverters;
It is characterized by providing.

The operation control method according to the present invention includes:
An operation control method for a plurality of inverters,
Obtaining demand information about power demand;
Based on the demand information and the rated output of each power conditioner, the rated output operation is performed from among the plurality of power conditioners so that the total value of the rated output power of the power conditioner is equal to or less than the demand power. Determining which inverter to perform;
Outputting a rated output operation command to the determined power conditioner;
It is characterized by providing.

The operation control program according to the present invention is:
An operation control program for performing operation control of a plurality of inverters,
Computer
Demand information acquisition means for acquiring demand information related to power demand,
PCS determining means for determining the number of power conditioners that perform rated output operation among the plurality of power conditioners so that a total value of rated output power of the power conditioners is equal to or less than the demand power based on the demand information. And functioning as an operation command means for outputting a rated output operation command to the determined number of power conditioners.

The operation control program according to the present invention is:
An operation control program for performing operation control of a plurality of inverters,
Computer
Demand information acquisition means for acquiring demand information related to power demand,
Based on the demand information and the rated output of each power conditioner, the rated output operation is performed from among the plurality of power conditioners so that the total value of the rated output power of the power conditioner is equal to or less than the demand power. PCS determining means for determining a power conditioner to be performed, and operation command means for outputting a rated output operation command to the determined power conditioner.

  According to the present invention, the power conditioner can achieve output suppression as a whole photovoltaic power generation system without performing the output suppression operation.

It is a figure showing a schematic structure of photovoltaic power generation system 1 concerning an embodiment of the present invention. It is a figure showing a schematic structure of operation control device 10 concerning a 1st embodiment of the present invention. It is a figure for demonstrating the rotation driving | operation of a power conditioner. It is a flowchart for demonstrating the driving | running control method at the time of the power conditioner driving | operation start which concerns on 1st Embodiment. It is a flowchart for demonstrating the driving | running control method in the power conditioner driving | operation which concerns on 1st Embodiment. It is a figure which shows schematic structure of 10 A of operation control apparatuses which concern on the 2nd Embodiment of this invention. It is a flowchart for demonstrating the driving | running control method at the time of the power conditioner driving | operation start which concerns on 2nd Embodiment.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

<Solar power generation system 1>
First, with reference to FIG. 1, the solar power generation system 1 which concerns on embodiment of this invention is demonstrated.

  The photovoltaic power generation system 1 includes a plurality of solar cells 30 that receive sunlight and output DC power, power conditioners (PCS) 1 to 5 that convert DC power output from the solar cells 30 into AC power, and power conditioners. The operation control apparatus 10 which performs operation control of the na 1-5, and the server 50 connected to the operation control apparatus 10 via a communication network so that communication is possible are provided.

  The power conditioners 1 to 5 are connected in parallel to a power company system (not shown), and output AC power obtained by converting DC power of the solar battery 30 to the system. The power conditioners 1 to 5 have substantially the same rated output power. The power conditioners 1 to 5 do not need to have an output suppression function. The number of inverters is not limited to the number shown in FIG. 1 and may be an arbitrary number.

  In the present embodiment, the power conditioners 1 to 5 and the operation control device 10 are connected by daisy chain connection as shown in FIG. However, it may be connected by other connection forms (such as bus connection). The power conditioners 1 to 5 and the operation control device 10 are configured to be able to communicate with each other using a unique communication protocol.

  Although the detailed operation will be described later, the operation control device 10 controls the power conditioners 1 to 5 so as to perform the rated output operation (100% output operation) or the operation stop (0% output operation).

  The server 50 transmits the demand information related to the demand power to the operation control apparatus 10 periodically (for example, every 30 minutes). The server 50 is, for example, a server (electric power company server) owned by an electric power company.

  The demand information transmitted by the server 50 is, for example, an output suppression ratio (50%, 60%, etc.). This output suppression ratio indicates what percentage of the power applied at the time of system connection application of the photovoltaic power generation system 1 may be supplied. The demand information is not limited to the output suppression ratio, and may be, for example, the value of demand power itself (such as 1000 kW).

  Note that the solar power generation system 1 may include an operation control device 10A according to the second embodiment instead of the operation control device 10 according to the first embodiment.

<Operation control device 10>
Next, the operation control apparatus 10 according to the first embodiment will be described with reference to FIGS. As illustrated in FIG. 2, the operation control device 10 includes a control unit 16, a communication unit 17, and a storage unit 18.

  The communication unit 17 transmits and receives information to and from external devices (power conditioners 1 to 5 and the server 50). The communication unit 17 includes a first communication unit (not shown) that communicates with the power conditioners 1 to 5 and a second communication unit (not shown) that communicates with the server 50. Have. One communication unit (communication module) may communicate with both the power conditioners 1 to 5 and the server 50.

  The storage unit 18 stores monitor information acquired from the power conditioners 1 to 5, demand information acquired from the server 50, and the like. The storage unit 18 may store a program for operating the operation control apparatus 10. The storage unit 18 is configured by a hard disk, a semiconductor memory, or the like.

  The control unit 16 includes a demand information acquisition unit 11, a PCS determination unit 12, an operation command unit 13, and a monitor information acquisition unit 14. The control unit 16 may be configured by hardware, or may be configured by software (power conditioner operation control program).

  The demand information acquisition unit 11 acquires demand information regarding power demand from the server 50 via the communication unit 17. The demand information acquisition part 11 acquires the demand information regarding the fluctuating demand power regularly (for example, every 30 minutes).

  The PCS determination unit 12 determines the number of power conditioners that perform the rated output operation among the plurality of power conditioners 1 to 5 based on the demand information acquired by the demand information acquisition unit 11. This PCS determination part 12 determines the said number of units so that the total value of the rated output electric power of the power conditioner which performs a rated output driving | operation will be below demand electric power.

For example, when the demand information includes an output suppression ratio as demand power, the PCS determination unit 12 sets the integer n satisfying the expression (1) as the number of power conditioners that perform rated output operation.
n ≦ x · N (1)
Here, x is an output suppression ratio included in the demand information, and N is the number of power conditioners. In the case of the system example shown in FIG. 1, N = 5. Preferably, the PCS determination unit 12 sets the maximum integer n satisfying Equation (1) as the number of power conditioners that perform rated output operation.

  The demand information (power demand) can vary depending on the power demand of the power company. For this reason, the demand information acquisition part 11 acquires the demand information regarding the fluctuating demand power regularly. In this case, the PCS determination unit 12 is based on the demand power (D) acquired by the demand information acquisition unit 11 and the actual generated power (P) that is the sum of the output power of the power conditioner currently in operation. The number of power conditioners that perform rated output operation may be increased or decreased. For example, the PCS determination unit 12 compares the difference (DP) between the demand power and the actual generated power with the rated output (p) per unit of the power conditioners 1 to 5 to increase or decrease the power condition. Decide the number of na.

  The operation command unit 13 outputs a rated output operation command to the number of power conditioners determined by the PCS determination unit 12 via the communication unit 17. The inverter that has received the rated output operation command performs the rated output operation.

  Note that the operation command unit 13 does not output a rated output operation command to the power conditioner under failure based on the alarms of the power conditioners 1 to 5 acquired by the monitor information acquisition unit 14 (described later). Also good. In other words, the operation command unit 13 determines the output destination of the rated output operation command after excluding the faulty power conditioner.

  The operation command unit 13 may perform the PCS switching operation periodically or when a predetermined event occurs. Here, the PCS switching operation means that an operation stop command is output to at least one of the power conditioners performing the rated output operation, and at least one of the power conditioners in the operation stop state. An operation that outputs a rated output operation command. When periodically performing the PCS switching operation, the operation command unit 13 performs the PCS switching operation when, for example, a predetermined time or a predetermined time zone (nighttime or the like) is reached. When the PCS switching operation is performed when a predetermined event occurs, the operation command unit 13 performs the PCS switching operation, for example, when the power generation amount of the power conditioner is reduced or when a failure of the power conditioner occurs. .

  A specific example of the PCS switching operation is rotation operation. As shown in FIG. 3, the operation command unit 13 performs a PCS switching operation so as to rotate the power conditioner that performs the rated output operation. In FIG. 3, PCS 1 to 5 indicate the power conditioners 1 to 5, respectively.

  As described above, the operation load can be distributed by preventing the power conditioner that performs the rated output operation from being fixed by the PCS switching operation. As a result, the device life of the power conditioner can be extended.

  The monitor information acquisition unit 14 acquires monitor information (power generation amount, alarm, etc.) from the power conditioners 1 to 5 via the communication unit 17. The monitor information acquisition unit 14 stores the acquired monitor information in the storage unit 18. The monitor information acquisition unit 14 may periodically acquire monitor information, or may receive an instruction (monitor information acquisition instruction) from an external management device (such as a personal computer connected to the operation control device 10). If received, the monitor information may be acquired.

  As described above, in the first embodiment, the number of power conditioners that perform the rated output operation is determined based on the demand information related to the demand power so that the total value of the rated output power is equal to or less than the demand power, The rated output operation command is output to the determined number of inverters. Thereby, output suppression can be achieved as the whole photovoltaic power generation system 1, without a power conditioner performing output suppression driving | operation. That is, even if the power conditioners 1 to 5 do not perform the output suppression operation, the solar power generation system 1 can perform the output suppression according to the demand power.

  Next, the operation control method according to the first embodiment will be described with reference to FIGS. 4 and 5. FIG. 4 is a flowchart showing the operation control method at the start of operation, and FIG. 5 is a flowchart showing the operation control method during operation.

  First, the demand information acquisition part 11 acquires the demand information regarding demand power from the server 50 of an electric power company (step S11).

  Next, the PCS determination unit 12 performs the rated output operation among the plurality of power conditioners 1 to 5 so that the total value of the rated output power is equal to or less than the demand power based on the demand information acquired in Step S11. The number of inverters is determined (step S12).

  Next, the operation command unit 13 outputs a rated output operation command to the number of power conditioners determined in step S12 (step S13).

  Thereafter, during operation of the power conditioner, the following operation control is performed as shown in FIG.

  The control unit 16 determines whether the actual generated power (P) is equal to or less than the demand power (D) (step S14). More specifically, the control unit 16 sums the power generation amounts of the power conditioners 1 to 5 acquired by the monitor information acquisition unit 14 to calculate the actual generated power, and compares the actual generated power with the demand power. If the actual generated power is less than or equal to the demand power (step S14: Yes), the process proceeds to step S15. Otherwise, the process proceeds to step S17.

  When the actual generated power is less than or equal to the demand power (that is, P ≦ D), the control unit 16 (PCS determination unit 12) subtracts the actual generated power (P) from the demand power (D) (supply shortage power: D It is determined whether -P) is equal to or greater than the rated output (p) per power conditioner (step S15). And when supply shortage electric power is more than the rated output (p) per power conditioner (step S15: Yes), the PCS determination part 12 increases the number of the power conditioners which perform a rated output operation at least 1 ( Step S16). For example, when DP> 3p, the number of power conditioners that perform rated output operation is increased by at least three.

  On the other hand, when the actual generated power is larger than the demand power (that is, P> D), the control unit 16 (PCS determination unit 12) determines the rated output so that the actual generated power (P) is equal to or less than the demand power (D). The number of power conditioners to be operated is reduced by at least one (step S17). For example, when PD> 3p, the number of power conditioners that perform rated output operation is reduced by at least three.

  By increasing or decreasing the number of power conditioners that perform rated output operation as described above, the photovoltaic power generation system 1 supplies the system with appropriate power corresponding to the demand power and the actual generated power that change from moment to moment. Can do.

<Operation control device 10A>
Next, an operation control apparatus 10A according to the second embodiment will be described with reference to FIGS. One of the differences between the second embodiment and the first embodiment is that the power conditioner that performs the rated output operation is determined based on the rated outputs of the power conditioners 1 to 5. is there. Hereinafter, a description will be given focusing on differences from the first embodiment.

  As illustrated in FIG. 6, the operation control apparatus 10 </ b> A according to the present embodiment includes a control unit 16 </ b> A, a communication unit 17, and a storage unit 18. Since the communication unit 17 is the same as that of the first embodiment, the description thereof is omitted. The storage unit 18 stores the rated output values of the power conditioners 1 to 5.

  The control unit 16A includes a demand information acquisition unit 11, a PCS determination unit 12A, an operation command unit 13A, and a monitor information acquisition unit 14. The control unit 16A may be configured by hardware, or may be configured by software (power conditioner operation control program). Note that the demand information acquisition unit 11 and the monitor information acquisition unit 14 are the same as those in the first embodiment, and a description thereof will be omitted.

  The PCS determination unit 12A includes a plurality of power conditioners 1 to 4 based on the demand information (demand power) acquired by the demand information acquisition unit 11 and the rated outputs (p1 to p5) of the power conditioners 1 to 5. The power conditioner that performs rated output operation is determined from among the five. The PCS determination unit 12A reads the value of the rated output (p1 to p5) of each power conditioner 1 to 5 from the storage unit 18.

  The PCS determination unit 12A determines the power conditioner that performs the rated output operation so that the total value of the rated output power of the power conditioners 1 to 5 is equal to or less than the demand power. For example, it is assumed that the rated outputs of the power conditioners 1 to 5 are 10 kW, 15 kW, 15 kW, 100 kW, and 50 kW, respectively. When the demand power is 130 kW, the PCS determination unit 12A determines the power conditioners 2, 3, and 4 as power conditioners that perform rated output operation. Moreover, when demand power is 70 kW, the power conditioners 2 and 5 or the power conditioners 3 and 5 are determined as a power conditioner which performs a rated output driving | operation.

  The operation command unit 13A outputs a rated output operation command to the power conditioner determined by the PCS determination unit 12A via the communication unit 17. The inverter that has received the rated output operation command performs the rated output operation.

  As described above, in the second embodiment, the rated output operation is performed so that the total value of the rated output power is equal to or less than the demand power based on the demand information regarding the demand power and the rated output of each power conditioner. The power conditioner to be performed is determined, and a rated output operation command is output to the determined number of power conditioners. Thereby, output suppression can be achieved as the whole photovoltaic power generation system 1, without a power conditioner performing output suppression driving | operation. That is, even if the power conditioners 1 to 5 do not perform the output suppression operation, the solar power generation system 1 can perform the output suppression according to the demand power.

  Furthermore, in 2nd Embodiment, even if it is a case where the rated output value of each power conditioner differs, the output suppression according to demand electric power can be performed.

  Next, an operation control method at the start of operation according to the second embodiment will be described with reference to FIG.

  First, the demand information acquisition part 11 acquires the demand information regarding demand power from the server 50 of an electric power company (step S21).

  Next, based on the demand information acquired in step S21 and the rated output of each power conditioner 1-5, the PCS determination unit 12A has a plurality of values so that the total value of the rated output power is less than or equal to the demand power. The power conditioner which performs a rated output driving | operation among the power conditioners 1-5 is determined (step S22).

  Next, the operation command unit 13A outputs a rated output operation command to the power conditioner determined in step S22 (step S23).

  The operation control during the operation of the power conditioner can be performed in the same manner as in the first embodiment. However, in steps S16 and S17 in FIG. 5, when increasing or decreasing the power conditioner for performing the rated output operation, the control unit 16A (PCS determination unit 12A) is added in consideration of the rated output of the stopped power conditioner ( Or determine the inverter to be deleted.

  At least a part of the operation control devices 10 and 10A described in the above-described embodiments may be configured by hardware or software. When configured by software, a program that realizes at least a part of the functions of the operation control devices 10 and 10A is stored in a recording medium such as a flexible disk or a CD-ROM, and is read by a computer (operation control device) and executed. You may let them. The recording medium is not limited to a removable medium such as a magnetic disk or an optical disk, but may be a fixed recording medium such as a hard disk device or a memory.

  Moreover, you may distribute the program which implement | achieves at least one part function of the operation control apparatuses 10 and 10A via communication lines (including wireless communication), such as the internet. Further, the program may be distributed in a state where the program is encrypted, modulated or compressed, and stored in a recording medium via a wired line such as the Internet or a wireless line.

  Based on the above description, those skilled in the art may be able to conceive additional effects and various modifications of the present invention, but the aspects of the present invention are not limited to the individual embodiments described above. . You may combine suitably the component covering different embodiment. Various additions, modifications, and partial deletions can be made without departing from the concept and spirit of the present invention derived from the contents defined in the claims and equivalents thereof.

DESCRIPTION OF SYMBOLS 1 Solar power generation system 10, 10A Operation control apparatus 11 Demand information acquisition part 12, 12A PCS determination part 13, 13A Operation command part 14 Monitor information acquisition part 16, 16A Control part 17 Communication part 18 Storage part 30 Solar cell 50 Server PCS1 ~ PCS5 power conditioner

Claims (14)

An operation control device that performs operation control of a plurality of inverters,
A demand information acquisition unit for acquiring demand information about power demand;
Based on the demand information, a PCS determination unit that determines the number of power conditioners that perform rated output operation among the plurality of power conditioners so that a total value of rated output power of the power conditioners is equal to or less than the demand power. When,
An operation command unit that outputs a rated output operation command to the determined number of power conditioners;
An operation control device comprising: The rated output power of the plurality of power conditioners is substantially equal, and the demand information includes an output suppression ratio as demand power,
The operation control device according to claim 1, wherein the PCS determination unit sets an integer n satisfying the formula (1) as the number of the power conditioners.
n ≦ x · N (1)
Here, x is an output suppression ratio included in the demand information, and N is the number of the plurality of power conditioners.   The operation command unit outputs an operation stop command to at least one of the power conditioners performing the rated output operation periodically or when a predetermined event occurs, and the operation power is stopped. The operation control device according to claim 1 or 2, wherein a PCS switching operation for outputting a rated output operation command to at least one of the conditioners is performed.   The operation control device according to claim 3, wherein the operation command unit performs the PCS switching operation so as to rotate a power conditioner that performs a rated output operation. The demand information acquisition unit periodically acquires demand information about fluctuating demand power,
The PCS determination unit is configured to increase or decrease the number of power conditioners that perform rated output operation based on the demand power and the actual generated power that is the total output power of the currently operating power conditioner. The operation control apparatus according to any one of claims 1 to 4.   The PCS determination unit increases the number of power conditioners that perform rated output operation by at least one when the value obtained by subtracting the actual generated power from the demand power is equal to or higher than the rated output per one power conditioner. The operation control apparatus according to claim 5.   The PCS determination unit reduces the number of power conditioners that perform rated output operation by at least one so that the actual generated power is equal to or less than the required power when the actual generated power is larger than the demand power. The operation control device according to claim 5 or 6.   The operation control device according to any one of claims 1 to 7, wherein the operation command unit does not output a rated output operation command to the power conditioner in failure. An operation control device that performs operation control of a plurality of inverters,
A demand information acquisition unit for acquiring demand information about power demand;
Based on the demand information and the rated output of each power conditioner, the rated output operation is performed from among the plurality of power conditioners so that the total value of the rated output power of the power conditioner is equal to or less than the demand power. A PCS determination unit for determining an inverter to be performed;
An operation command unit that outputs a rated output operation command to the determined power conditioner;
An operation control device comprising: A plurality of solar cells;
A plurality of power conditioners that convert the DC power output by the solar cell into AC power; and
An operation control device for a power conditioner according to any one of claims 1 to 9,
A photovoltaic power generation system comprising: An operation control method for a plurality of inverters,
Obtaining demand information about power demand;
Based on the demand information, determining the number of power conditioners that perform rated output operation among the plurality of power conditioners so that a total value of rated output power of the power conditioners is equal to or less than the demand power; and
Outputting a rated output operation command to the determined number of inverters;
An operation control method comprising: An operation control method for a plurality of inverters,
Obtaining demand information about power demand;
Based on the demand information and the rated output of each power conditioner, the rated output operation is performed from among the plurality of power conditioners so that the total value of the rated output power of the power conditioner is equal to or less than the demand power. Determining which inverter to perform;
Outputting a rated output operation command to the determined power conditioner;
An operation control method comprising: An operation control program for performing operation control of a plurality of inverters,
Computer
Demand information acquisition means for acquiring demand information related to power demand,
PCS determining means for determining the number of power conditioners that perform rated output operation among the plurality of power conditioners so that a total value of rated output power of the power conditioners is equal to or less than the demand power based on the demand information. And an operation control program for functioning as an operation command means for outputting a rated output operation command to the determined number of power conditioners. An operation control program for performing operation control of a plurality of inverters,
Computer
Demand information acquisition means for acquiring demand information related to power demand,
Based on the demand information and the rated output of each power conditioner, the rated output operation is performed from among the plurality of power conditioners so that the total value of the rated output power of the power conditioner is equal to or less than the demand power. An operation control program for functioning as a PCS determination means for determining a power conditioner to be performed, and an operation command means for outputting a rated output operation command to the determined power conditioner.

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