JP5178032B2 - Generator output amount determination system, method and program - Google Patents

Description

  The present invention relates to a system, a method, and a program for determining the power generation amount of each generator that minimizes the power generation cost of the entire power system, including wind power generation.

  In recent years, the development of power sources using natural energy such as wind power has been promoted in order to contribute to efforts to comply with the numerical targets for greenhouse gas emissions imposed on Japan under the Kyoto Protocol to the United Nations Framework Convention on Climate Change. Since the amount of power generated by wind power generation is small at present, wind power generation is not included in the supply and demand plan for operating the power system. It is necessary to include.

  By the way, although the amount of power generation varies depending on the wind conditions in wind power generation, accurate prediction of the amount of power generation is important in order to balance power supply and demand on the power system. Thus, for example, Patent Document 1 discloses a technology for predicting the power generation output of a wind power plant based on weather forecast data for a region where the wind power plant is installed and distributing it to an information terminal.

On the other hand, for electric utilities, power generation costs such as fuel costs for various types of generators in wind power plants, gas-fired power plants, oil-fired power plants, coal-fired power plants, nuclear power plants, hydroelectric power plants It is necessary to operate the generator so that it is cheap as a whole. In particular, as electric power companies are liberalizing electric power through the revision of the Electricity Business Law, it has become more important than ever before to increase price competitiveness by reducing power generation costs. Therefore, it is necessary to determine the output amount per unit time of each generator so that the power generation cost of the entire power system including wind power generation is minimized.
JP-A-2005-163602

  With respect to such problems, the present invention predicts the power generation amount of the wind power plant, and each generator is configured so that the power generation cost of all the generators on the power system including the predicted wind power generation is minimized as a whole. An object of the present invention is to provide a generator output amount determination system, method and program for determining the output amount per unit time.

The first invention predicts the amount of wind power generation belonging to a certain power system based on weather forecast data, and is a power generator belonging to that power system, and is an artificially generated power generator among the output variable generators. In the generator output amount determination system that determines the power generation output amount by each output increase / decrease operation type generator that operates by increasing / decreasing the amount,
A weather forecast data input unit that accepts the input of weather forecast data;
A wind power generator information storage unit for storing information relating to the wind power generator;
Based on the weather forecast data received by the weather forecast data input unit and the information on the wind power generator stored in the wind power generator information storage unit, the wind speed per unit time at the installation location of the wind power generator is calculated. A wind condition prediction unit for predicting wind conditions including,
The wind power generation prediction unit that predicts the output amount per unit time of the wind power generator based on the wind condition predicted by the wind condition prediction unit and the information related to the wind power generator stored in the wind power generator information storage unit When,
A power generation amount determination unit that determines a power generation output amount by each of the output increase / decrease operation type generators based on a prediction result by the wind power generation prediction unit and a necessary power generation amount per unit time in a predetermined period;
A generator output determination system comprising:

A second invention is a generator output amount determination system according to the first invention,
A required power generation amount storage unit for storing a required power generation amount per unit time in a predetermined period;
By subtracting the output amount per unit time predicted by the wind power generation prediction unit from the required power generation amount per unit time stored in the required power generation amount storage unit, it is necessary to generate power with the increase / decrease operation type generator. Increase / decrease operation type power generation amount calculation unit for calculating power generation amount per unit time,
An operation constraint storage unit that stores operation constraints of each generator of the increase / decrease operation type generator,
The power generation output amount determination unit
Within the range of operation constraints stored in the operation constraint storage unit, each generator of the output increase / decrease operation type generator that satisfies the required power generation amount per unit time calculated by the increase / decrease operation type power generation amount calculation unit. A generator output amount determination system characterized by determining each output amount per unit time.

3rd invention is the generator output amount determination system as described in 1st or 2nd invention, Comprising:
A power generation cost storage unit that stores a power generation cost of the plurality of output increase / decrease operation type generators in association with each output increase / decrease operation type generator,
The generator output amount determination unit is stored in the necessary power generation amount storage unit so that the total power generation cost is minimized based on the power generation cost of each output increase / decrease operation type generator stored in the power generation cost storage unit. It is a generator output amount determination system that determines an output amount per unit time of the output increase / decrease operation type generator that satisfies a necessary power generation amount per unit time.

A fourth invention is the generator output amount determination system according to any one of the first to third inventions,
A demand input unit that receives input of information related to prediction of power demand per unit time in a predetermined period;
A base power generation amount input unit that receives input of information relating to the power generation amount by a predetermined base generator;
Calculate the required power generation amount by subtracting the power generation amount per unit time accepted in the base power generation amount input unit from the demand amount per unit time accepted in the demand amount input unit, and the necessary power generation amount is required A required power generation amount calculation unit to be stored in the power generation amount storage unit;
A generator output amount determination system characterized by comprising:

According to a fifth aspect of the present invention, by predicting the amount of wind power generation belonging to a certain power system based on weather forecast data, a generator belonging to that power system and generating power artificially among each variable output power generator In the generator output amount determination system that determines the power generation output amount by each output increase / decrease operation type generator that operates by increasing / decreasing the amount,
A wind power generation output amount prediction unit and a power generation total output amount determination unit,
The wind power output prediction unit
Weather forecast data input means for receiving input of weather forecast data;
Wind power generator information storage means for storing information relating to the wind power generator;
Based on the weather forecast data received by the weather forecast data input means and the information on the wind power generator stored in the wind power generator information storage means, the wind condition including the wind speed at the installation location of the wind power generator is obtained. Wind forecasting means to predict;
Wind power generation prediction means for predicting the output amount per unit time of the wind power generator based on the wind condition predicted by the wind condition prediction means and the information related to the wind power generator stored in the wind power generator information storage means When,
Transmitting means for transmitting the result predicted by the wind power generation prediction means,
The total power generation amount determination unit
Receiving means for receiving a prediction result by the wind power generation output amount prediction unit;
A power generation output amount determination means for determining a power generation output amount by each of the output increase / decrease operation type generators based on the prediction result received by the reception means and the required power generation amount per unit time in a predetermined period. This is a featured generator output determination system.

  According to the present invention, the power generation amount of a wind power plant is predicted, and the power generation costs of all the generators on the power system including the predicted wind power generation are minimized as a whole. Ability can be determined.

  FIG. 1 is a diagram showing an overall configuration of an information processing system that determines an output amount of a generator that includes a generator output amount determination system 1 that is an embodiment of the present invention. The generator output amount determination system 1 is a computer such as a PC server, a workstation, or a mainframe.

  In the gas-fired power plant, generators 4 and 5 using liquefied natural gas (LNG) as fuel are installed. The generators 4 and 5 are, for example, generators in a gas combined thermal power generation system including a gas turbine and a steam turbine, but may be either gas turbine power generation (open cycle) or steam power generation. In gas-fired power generation using natural gas stored in the LNG storage tank, the amount of power generation can be adjusted within the range of the capacity of the generator. Corresponds to the "type generator".

  In thermal power plants such as oil-fired power plants and coal-fired power plants, generators 6 to 7 using oil or coal as fuel are installed, and these can adjust the power generation amount. Corresponds to “output increase / decrease operation type generator”. In addition, in coal-fired power plants, high-efficiency power plants with the latest equipment may be used as the base power source. The generator used as the base power source corresponds to the “base generator” in the present invention.

In the hydroelectric power station, generators 8 and 9 that generate electric power based on the potential energy of water are installed. The generators 8 and 9 may be, for example, a flow-in type hydroelectric power generation or a reservoir type (including a dam type) hydroelectric power generation. In general, the amount of power generated by flow-in hydropower generation depends on the amount of water intake, so that it is used as a base power source, and in the present invention, it corresponds to a “base generator”. On the other hand, the power generation amount of the reservoir-type hydroelectric power generation can be adjusted within the range of the capacity of the reservoir and the generator, and corresponds to the “output increase / decrease operation type generator” in the present invention.

  Generators 10 and 11 that generate electric power based on the potential energy of water are installed in the pumped hydropower plant. The generators 10 and 11 can adjust the power generation amount within the range of the capacity of the reservoir and the generator, as in the case of the reservoir type (including the dam type) hydroelectric power generation. It corresponds to “Increase / decrease operation type generator”.

  In the nuclear power plant, generators 12 and 13 that generate power using thermal energy of fission energy are installed. In nuclear power generation, although it is technically possible to adjust the output, the output is generally kept constant during power generation operation. Therefore, the generators 12 and 13 of the nuclear power plant are the “base generator” in the present invention. It corresponds to.

  FIG. 2 is a diagram illustrating a hardware configuration of the generator output amount determination system 1. The generator output amount determination system 1 includes a CPU 20, a memory 21, a storage device 22, a recording medium reading device 23, a communication interface 24, an input device 25, an output device 26, and the like.

  Programs stored in the storage device 22 are sequentially stored in the memory 21, and the CPU 20 executes the programs stored in the memory 21. Here, the storage device 22 is, for example, a hard disk drive. The recording medium reading device 23 can also read a program recorded on a recording medium 27 such as a CD-ROM and store it in the storage device 22.

  The communication interface 24 is an interface for transmitting / receiving data to / from another computer via a network. The other computer is, for example, a computer (not shown) for controlling the generators 2 to 13 installed in each power plant. The input device 25 is a keyboard, a mouse, or the like. The output device 26 is a display, a printer, or the like.

  FIG. 3 is a diagram illustrating a configuration of functions provided in the generator output amount determination system 1. The generator output amount determination system 1 includes a weather prediction data input unit 51, a wind condition prediction unit 52, a wind power generation prediction unit 53, a demand amount input unit 54, a base power generation amount input unit 55, a necessary power generation amount calculation unit 56, and an increase / decrease operation. A type power generation amount calculation unit 57, a power generation output amount determination unit 58, a wind power generator information storage unit 60, a necessary power generation amount storage unit 61, an operation constraint storage unit 62, a power generation cost storage unit 63, and the like.

  Each functional unit 51 to 58 is realized by the CPU 20 executing a program stored in the memory 21. The storage units 60 to 63 are realized using the memory 21 or the storage device 22.

  The wind power generator information storage unit 60 stores the installation location of the wind power generator and the power generation performance of the power generator obtained from the manufacturer or the like.

  The meteorological prediction data input unit 51 accepts input of meteorological prediction data created by the Japan Meteorological Agency or weather forecasting company or created by the company itself. The weather forecast data is data serving as a basis for calculation of wind speed and direction (hereinafter referred to as “wind conditions”) such as air pressure arrangement at the wind power generator installation location stored in the wind power generator information storage unit 60. The weather forecast data may be input manually by an operator or may be input by receiving data via a telecommunication line such as the Internet.

  The wind condition prediction unit 52 predicts the wind condition at the place where the wind power generator is installed based on the weather prediction data received by the weather prediction data input unit 51. For example, the weather conditions of the next day are predicted using the forecast values of RSM (Regional Spectral Model) used by the Japan Meteorological Agency for weather numerical prediction as initial values and boundary values.

  The wind power generation prediction unit 53 is based on the wind condition predicted by the wind condition prediction unit 52 and the wind power generator installation location and the power generation performance stored in the wind power generator information storage unit 60 (for example, the next day 1 The output amount per unit time (for example, every hour) of the wind power generator for a day) is predicted. The predicted power generation amount of wind power generation is, for example, as indicated by the wind power generation amount 83 in the graph of FIG.

  The demand amount input unit 54 receives input of information related to prediction of the power demand amount of the entire power system for each unit time in a predetermined period. The power demand is, for example, predicted based on the past power demand in the same period, for example, as shown in the power demand 81 in the graph of FIG.

  The base power generation amount input unit 55 receives input of information related to the power generation amount of the entire power system by a predetermined base generator. As described above, the base generator is a nuclear power generator or a flow-in hydroelectric generator, and is indicated by the base power generation amount 82 in the graph of FIG. 6, for example.

  The required power generation amount calculation unit 56 calculates the necessary power generation amount by subtracting the power generation amount per unit time accepted by the base power generation amount input unit 55 from the demand amount per unit time accepted by the demand amount input unit 54. To do. For example, in the graph of FIG. 7, the shaded portion surrounded by the power demand 81 and the base power generation 82 corresponds to the required power generation. Then, the calculated required power generation amount is stored in the required power generation amount storage unit 61.

  The increase / decrease operation type power generation amount calculation unit 57 increases or decreases by subtracting the output amount per unit time predicted by the wind power generation prediction unit 53 from the necessary power generation amount stored per unit time stored in the necessary power generation amount storage unit 61. Calculate the amount of power generated per unit time that needs to be generated by operational power generation. For example, in the graph of FIG. 8, the shaded portion surrounded by the power demand 81 and the wind power generation 83 corresponds to the necessary power generation. Here, the increase / decrease operation type generator is a thermal power generator, a reservoir hydroelectric generator, or a pumped hydropower generator as described above.

  The power generation output amount determination unit 58 is stored in the necessary power generation amount storage unit 61 so that the total power generation cost is minimized based on the power generation cost of each output increase / decrease operation type generator stored in the power generation cost storage unit 63. The output amount per unit time of the output increase / decrease operation type generator that satisfies the required power generation amount per unit time is determined. For this determination, a method such as economic load distribution control (EDC) may be used.

  The operation constraint storage unit 62 stores various constraints on the operation of each generator, such as the upper and lower limits of the output amount of each generator, tidal constraints, the operating status of the generator during operation stop, repair, and inspection. Yes. In the determination of the output amount of the power generation output amount determination unit 58, the output amount of the generator that is stopped, repaired, or inspected is set to zero.

  Further, the power generation cost stored in the power generation cost storage unit 63 is a power generation cost for a variable cost of the plurality of output increase / decrease operation type generators, for example, a fuel cost for thermal power generation, If it is a pumped-storage type power generation, it is the cost of pumping water to the upper adjustment pond, and if it is a reservoir-type hydroelectric generation (including a dam type), it is considered that there is no cost.

  With reference to FIG. 9, the processing flow for determining the output amount of each generator in the generator output amount determination system 1 will be described.

  First, the demand input unit 54 receives input of information related to the prediction of the total demand of the power system (S902). In addition, the base power generation amount input unit 55 receives input of information related to the power generation amount by the base generator in the entire power system (S904). Then, the required power generation amount is calculated by subtracting the power generation amount by the base generator in the entire power system input in S904 from the total demand amount of the power system input in S902 (S906).

  On the other hand, as prediction of the amount of power generated by wind power generation, first, input of weather prediction data obtained from the Japan Meteorological Agency or the like is accepted (S908). Next, based on the weather forecast data input in S908, the wind condition at the wind power plant is predicted (S910). Further, based on the wind conditions predicted in S910, the power generation amount at the wind power plant is predicted (S912).

  The total amount of power generation that needs to be generated by an increase / decrease operation type generator such as thermal power generation is calculated by subtracting the power generation amount by wind power generation predicted in S912 from the required power generation amount calculated in S906 (S914). Then, each power generation amount in each increase / decrease operation type generator is determined so as to satisfy the total amount that needs to be generated by the increase / decrease operation type generator (S916).

  As described above, according to the generator output amount determination system 1 of the present embodiment, the power generation amount of the wind power plant is predicted, and the power generation costs of all the generators on the power system including the predicted wind power generation are as a whole. The output amount per unit time of each generator can be determined so as to be minimized.

  FIG. 10 is a diagram illustrating a configuration of functions included in the generator output amount determination system 100 according to another embodiment. The generator output amount determination system 100 includes a wind power generation output amount prediction unit 101 and a total power generation output amount determination unit 102. The wind power generation output amount prediction unit 101 and the total power generation output amount determination unit 102 have the CPU 20, the memory 21, the storage device 22, the recording medium reading device 23, the communication interface 24, and the input device 25, respectively, similarly to the hardware configuration shown in FIG. , And the output device 26 and the like.

  The wind power generation output amount prediction unit 101 includes a weather prediction data input unit 151, a wind condition prediction unit 152, a wind power generation prediction unit 153, a wind power generator information storage unit 160, an output unit 171 and the like, and determines the total power generation output amount. The unit 102 includes a demand amount input unit 154, a base power generation amount input unit 155, a necessary power generation amount calculation unit 156, an increase / decrease operation type power generation amount calculation unit 157, a power generation output amount determination unit 158, a necessary power generation amount storage unit 161, and an operation constraint storage. Means 162, power generation cost storage means 163, input means 172, and the like.

  Each function means 151-158 has the same function as the function part corresponding to each function part 51-58 of the generator output amount determination system 1, respectively. Moreover, each memory | storage means 160-163 memorize | stores the data similar to the memory | storage part corresponding to each memory | storage part 60-63 of the generator output amount determination system 1, respectively.

  The output unit 171 outputs the wind power generation amount predicted by the generator output amount determination system 100, and the input unit 172 receives an input about the result output by the output unit 171. This input / output may be performed through a telecommunication line or may be performed manually.

  As described above, according to the generator output amount determination system 100, the wind power generation output amount prediction unit 101 and the total power generation output amount determination unit 102 use the two computers, like the generator output amount determination system 1, to The power generation amount is predicted, and the output amount per unit time of each generator can be determined so that the power generation cost of all the generators on the power system including the predicted wind power generation is minimized as a whole.

  In addition, the description of the above embodiment is for facilitating understanding of the present invention, and does not limit the present invention. It goes without saying that the present invention can be changed and improved without departing from the gist thereof, and that the present invention includes equivalents thereof.

1 is a diagram illustrating an overall configuration of an information processing system that determines an output amount of a generator that includes a generator output amount determination system 1 that is an embodiment of the present invention. FIG. It is a figure which shows the hardware constitutions of the generator output amount determination system. It is a figure which shows the structure of the function with which the generator output amount determination system 1 is provided. It is a figure which shows the electric power generation amount per unit time by wind power generation. It is a figure which shows the electric power demand amount per unit time in the said electric power grid | system. It is a figure which shows the electric power generation amount per unit time by a base generator. It is a figure which shows the electric power generation amount per unit time which needs to be generated with generators other than a base generator. It is a figure which shows the electric power generation amount per unit time which needs to be generated with the increase / decrease operation type generator. It is a figure which shows the processing flow which determines the output amount of each generator. It is a figure which shows the structure of the function with which the generator output amount determination system 100 which is another embodiment is provided.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Generator output amount determination system 2-13 Generator 20 CPU 21 Memory 22 Storage device 23 Storage medium reader 24 Communication interface 25 Input device 26 Output device 27 Recording medium 51 Weather forecast data input part 52 Wind condition prediction part 53 Wind power generation Prediction unit 54 Demand amount input unit 55 Base power generation amount input unit 56 Required power generation amount calculation unit 57 Increase / decrease operation type power generation amount calculation unit 58 Power generation output amount determination unit 60 Wind power generation information storage unit 61 Required power generation amount storage unit 62 Operation constraint storage unit 63 Power generation cost storage unit 81 Power demand 82 Power generation by base generator 83 Power generation by wind power generation

Claims (8)

By predicting the amount of wind power generation that belongs to a power system based on weather forecast data, it is a generator that belongs to that power system and is operated by artificially increasing or decreasing the power generation amount of each variable output generator In the generator output amount determination system that determines the power generation output amount by each output increase / decrease operation type generator,
A weather forecast data input unit that accepts the input of weather forecast data;
A wind power generator information storage unit for storing information relating to the wind power generator;
Based on the weather forecast data received by the weather forecast data input unit and the wind generator information stored in the wind generator information storage unit, the wind condition including the wind speed at the installation location of the wind generator is calculated. A wind forecast section to predict,
The wind power generation prediction unit that predicts the output amount per unit time of the wind power generator based on the wind condition predicted by the wind condition prediction unit and the information related to the wind power generator stored in the wind power generator information storage unit When,
A power generation amount determination unit that determines a power generation output amount by each of the output increase / decrease operation type generators based on a prediction result by the wind power generation prediction unit and a necessary power generation amount per unit time in a predetermined period;
A generator output determination system comprising: A generator output amount determination system according to the first claim,
A required power generation amount storage unit for storing a required power generation amount per unit time in a predetermined period;
By subtracting the output amount per unit time predicted by the wind power generation prediction unit from the required power generation amount per unit time stored in the required power generation amount storage unit, it is necessary to generate power with the increase / decrease operation type generator. Increase / decrease operation type power generation amount calculation unit for calculating power generation amount per unit time,
An operation constraint storage unit that stores operation constraints of each generator of the increase / decrease operation type generator,
The power generation output amount determination unit
Within the range of operation constraints stored in the operation constraint storage unit, each generator of the output increase / decrease operation type generator that satisfies the required power generation amount per unit time calculated by the increase / decrease operation type power generation amount calculation unit. A generator output amount determination system characterized by determining each output amount per unit time. A generator output amount determination system according to the first or second claim,
A power generation cost storage unit that stores information related to the power generation cost of the plurality of output increase / decrease operation type generators in association with each output increase / decrease operation type generator,
The generator output amount determination unit is stored in the necessary power generation amount storage unit so that the total power generation cost is minimized based on the power generation cost of each output increase / decrease operation type generator stored in the power generation cost storage unit. A generator output amount determination system characterized by determining an output amount per unit time of the output increase / decrease operation type generator that satisfies a required power generation amount per unit time. The generator output amount determination system according to any one of claims 1 to 3,
A demand input unit that receives input of information related to prediction of power demand per unit time in a predetermined period;
A base power generation amount input unit that receives input of information relating to the power generation amount by a predetermined base generator;
Calculate the required power generation amount by subtracting the power generation amount per unit time accepted in the base power generation amount input unit from the demand amount per unit time accepted in the demand amount input unit, and the necessary power generation amount is required A required power generation amount calculation unit to be stored in the power generation amount storage unit;
A generator output amount determination system comprising: By predicting the amount of wind power generation that belongs to a power system based on weather forecast data, it is a generator that belongs to that power system and is operated by artificially increasing or decreasing the power generation amount of each variable output generator In the generator output amount determination system that determines the power generation output amount by each output increase / decrease operation type generator,
A wind power generation output amount prediction unit and a power generation total output amount determination unit,
The wind power output prediction unit
Weather forecast data input means for receiving input of weather forecast data;
Wind power generator information storage means for storing information relating to the wind power generator;
Based on the weather forecast data received by the weather forecast data input means and the information on the wind power generator stored in the wind power generator information storage means, the wind condition including the wind speed at the installation location of the wind power generator is obtained. Wind forecasting means to predict;
Wind power generation prediction means for predicting the output amount per unit time of the wind power generator based on the wind condition predicted by the wind condition prediction means and the information related to the wind power generator stored in the wind power generator information storage means When,
Output means for outputting a result predicted by the wind power generation prediction means,
The total power generation amount determination unit
Input means for receiving an input of a prediction result by the wind power generation output amount prediction unit;
A power generation output amount determination means for determining a power generation output amount by each of the output increase / decrease operation type generators based on the prediction result received by the reception means and the required power generation amount per unit time in a predetermined period. Characteristic generator output determination system. By predicting the amount of wind power generation that belongs to a power system based on weather forecast data, it is a generator that belongs to that power system and is operated by artificially increasing or decreasing the power generation amount of each variable output generator In the generator output amount determination method for determining the output amount of power generation by each output increase / decrease operation type generator,
Computer
Receiving the input of weather forecast data;
Storing information relating to the wind power generator;
Predicting wind conditions including wind speed per unit time at an installation location of the wind power generator based on the weather forecast data that has received the input and the information related to the stored wind power generator;
Predicting the output amount per unit time of the wind power generator based on the predicted wind condition and information related to the wind power generator stored in the wind power generator information storage unit;
Determining a power generation output amount by each of the output increase / decrease operation type generators based on the prediction result and a required power generation amount per unit time in a predetermined period;
A generator output determination method comprising: By predicting the amount of wind power generation that belongs to a power system based on weather forecast data, it is a generator that belongs to that power system and is operated by artificially increasing or decreasing the power generation amount of each variable output generator In the generator output amount determination program that determines the output amount of power generation by each output increase / decrease operation type generator,
On the computer,
Receiving the input of weather forecast data;
Storing information relating to the wind power generator;
Predicting wind conditions including wind speed per unit time at an installation location of the wind power generator based on the weather forecast data that has received the input and the information related to the stored wind power generator;
Predicting the output amount per unit time of the wind power generator based on the predicted wind condition and information related to the wind power generator stored in the wind power generator information storage unit;
Determining a power generation output amount by each of the output increase / decrease operation type generators based on the prediction result and a required power generation amount per unit time in a predetermined period;
A generator output amount determination program characterized in that By predicting the amount of wind power generation that belongs to a power system based on weather forecast data, it is a generator that belongs to that power system and is operated by artificially increasing or decreasing the power generation amount of each variable output generator In the generator output amount determination method for determining the power output amount by each output increase / decrease operation type generator,
The first computer
Receiving the input of weather forecast data;
Storing information relating to the wind power generator;
Predicting wind conditions including wind speed at the installation location of the wind power generator based on the received weather forecast data and the stored information related to the wind power generator;
Predicting the output amount per unit time of the wind power generator based on the predicted wind condition and the stored information related to the wind power generator;
Outputting the predicted result, and
A second computer
Receiving an input of the output prediction result;
Determining a power generation output amount by each of the output increase / decrease operation type generators based on the received prediction result and a required power generation amount per unit time in a predetermined period. Method.

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