KR101485052B1 - Analysis apparatus of photovoltaic power generation system - Google Patents

Abstract

The present invention relates to a power generation analysis apparatus for a solar power generation system that is easy to maintain by analyzing power generation time and power generation rate of a photovoltaic power generation through setting of a user's period (day, month, year) And a solar cell module installed in each of the solar power generation units to measure the atmospheric temperature and the solar cell module temperature, the horizontal solar radiation dose, the slope solar radiation power, the generation time and the power generation amount A photovoltaic power generation analysis unit for analyzing the generation time and the power generation rate of the photovoltaic generation unit on the basis of the various information measured by the photovoltaic power generation unit, And various information diagnosed by the photovoltaic power generation analysis unit is received through the network to receive the power generation status, monitoring, diagnosis, analysis, and report It is characterized in that comprises a monitoring unit configured to monitor PV liver.

Description

TECHNICAL FIELD [0001] The present invention relates to a power generation analysis apparatus for a photovoltaic power generation system,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power generation analysis apparatus for a photovoltaic power generation system, and more particularly, to a power generation analysis apparatus for a photovoltaic power generation system that is easy to maintain and maintain by analyzing power generation time and power generation rate .

In order to meet the challenges of depletion of fossil fuels and environmental protection, interest in renewable energy is increasing. In particular, a PV system that converts pollution-free and indefinite solar energy directly into electric energy in renewable energy, Since the control unit is composed of semiconductor devices and electronic components, it is not only mechanical vibration and noise, but also minimizes the cost of operation and maintenance.

The solar photovoltaic power generation system is a grid-connected photovoltaic power generation system in which solar energy is converted into electric energy and supplied to a load to be used, and DC power generated in the solar cell is supplied to a commercial power line through an inverter in real time And a stand-alone photovoltaic power generation system in which the DC power generated in a solar cell is stored in a battery through a charger and supplied to an individual load in the form of a direct current or an alternating current so that it can be used even at night when power is not generated.

However, solar cells are the smallest units that generate electricity using solar light, and solar cells can not obtain adequate voltage and current.

Therefore, in order to obtain appropriate voltage and current and to use the solar cell in a solar power generation system, a plurality of solar cells are connected in series and in parallel, and then a solar cell module is manufactured in a module form by compressing it together with filler and glass A solar cell array in which a plurality of solar cell modules are connected in series or in parallel for high power generation is used.

The solar cell module constituting the solar cell array may be damaged due to contamination, deterioration or wiring failure. However, it is difficult to find a failed solar cell module in a large complex. The operation of the solar cell array composed of a plurality of solar cell modules has to be stopped.

In addition, if one of the solar cell modules constituting the solar cell array fails, it is difficult to find the cause in real time, and the inefficiency of checking the entire solar cell array increases the post-processing cost and the power generation Profitability has deteriorated.

In addition, the PV system is not installed in one area but installed in many areas.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a power generation analysis apparatus of a photovoltaic power generation system capable of easily managing maintenance time and generation rate of photovoltaic power generation The purpose is to provide.

According to an aspect of the present invention, there is provided an apparatus for analyzing the power generation of a solar power generation system including a plurality of solar power generation units including a solar cell module for converting solar energy into electrical energy and outputting the same, A photovoltaic generation measurement unit installed in the power generation unit for measuring the atmospheric temperature and the solar cell module temperature, the horizontal solar radiation amount, the slope solar radiation amount, the generation time and the power generation amount; A photovoltaic power generation analysis unit for analyzing the generation time and the power generation rate of the power generation unit on a site-by-site or comprehensive basis by the photovoltaic power generation unit; And a photovoltaic power generation monitoring unit for monitoring the diagnosis, analysis and report in real time. .

According to another aspect of the present invention, there is provided a method of analyzing power generation of a solar power generation system, comprising: collecting slope irradiation amount data on a place where a solar power generation unit is installed; Setting a reference power generation amount and power generation time of the solar power generation unit based on the collected solar radiation amount data; Comparing the reference power generation amount and power generation time with an actual power generation amount and power generation time generated from the solar power generation part; And transmitting the comparative analysis result to the manager.

The power generation analysis apparatus of the solar power generation system according to the present invention has the following effects.

That is, it is possible to facilitate the maintenance by analyzing the generation time and the power generation rate of the photovoltaic power generation through setting the period (day, month, year) of the user. For example, the power generation efficiency and the power generation efficiency are improved by analyzing the generation time and the power generation rate according to the administrator's time setting that the generation time and the power generation rate are lowered due to the contamination of the module and the failure of the inverter or the connection module, Management can be facilitated.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a power generation analysis apparatus for a solar power generation system according to the present invention; FIG.
FIG. 2 is a schematic view showing the solar photovoltaic generation unit of FIG. 1
Fig. 3 is a schematic view showing the solar power generation analysis unit of Fig. 1
FIGS. 4A and 4B are views illustrating a screen for displaying the power generation time and power generation amount of the solar power generation analysis unit shown in FIG.
FIG. 5 is a schematic view showing the solar power generation monitoring unit of FIG. 1
FIG. 6 is a view showing the development status of the solar power generation system according to the present invention
7A to 7C are diagrams illustrating a monitoring screen in the solar power generation system according to the present invention.
FIGS. 8A and 8B are diagrams for explaining a diagnosis screen
9 is a flowchart showing a power generation analysis method of the solar power generation system according to the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus and method for analyzing power generation of a photovoltaic power generation system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

In addition, the same or corresponding components are denoted by the same reference numerals regardless of the reference numerals, and redundant description thereof will be omitted. For convenience of explanation, the size and shape of each constituent member shown may be exaggerated or reduced have.

FIG. 1 is a schematic view of a power generation analysis apparatus of a solar power generation system according to the present invention, FIG. 2 is a schematic view of the solar power generation measurement unit of FIG. 1, FIG. 4A and FIG. 4B are views for displaying the power generation time and the power generation amount of the solar power generation analysis unit shown in FIG. 3, respectively.

As shown in FIG. 1, a power generation analyzing apparatus for a solar power generation system according to the present invention includes a plurality of solar power generation units 110 including a solar cell module 111 for converting solar energy into electrical energy and outputting the same, A photovoltaic generation measurement unit 120 installed in each of the photovoltaic power generation units 110 for measuring an atmospheric temperature and a solar cell module temperature, a horizontal plane insolation amount and an inclined plane insolation amount, a generation time and a generation amount, (120) for analyzing the generation time and the power generation rate of the photovoltaic generation unit (110) based on various information measured by the photovoltaic power generation unit (110) And a photovoltaic power generation monitoring unit 140 that receives various information analyzed by the photovoltaic power generation analysis unit 130 through a network and monitors the status of power generation, monitoring, diagnosis, analysis, and reports in real time. It is configured to.

Here, the photovoltaic power generation unit 110 may be installed in the same area, but the photovoltaic power generation unit 110 may be installed in another area to generate electric energy.

The photovoltaic power generation unit 110 may be any one of a fixed type, a tracking type, and a BIPV, or may be constructed to produce electrical energy.

The horizontal plane solar radiation amount is an amount of solar radiation incident on the installation place where the solar power generation unit 110 is installed, that is, a solar radiation amount in a horizontal state with respect to the ground, and the solar radiation amount of the slope is incident on any one solar cell module 111 That is, the solar cell module 111 is installed so as to incline at a certain angle, and the solar radiation amount at this time is measured.

Herein, this horizontal plane irradiation dose means a general irradiation dose, and this horizontal plane irradiation dose can be measured by installing the horizontal radiation dose sensor at the installation position. In this horizontal surface irradiation sensor, the angle of the light incidence surface is always maintained regardless of the position of the sun with respect to time. This horizontal-surface irradiation-dose sensor may be positioned between the solar cell modules 111. At this time, the horizontal radiation irradiation amount sensor may be located at the center of the solar power generation unit 110.

On the other hand, the inclined solar radiation amount can be measured by attaching an inclined irradiation amount sensor to the light incoming surface of the solar cell module 111. The inclined-surface irradiation dose sensor may be attached to only one solar cell module 111, or may be attached to all the solar cell modules 111 one by one. At this time, since each of the solar cell modules 111 is automatically adjusted in time with respect to their polar angles and azimuths so that their light incidence surfaces always follow the direction of the sun, the inclined solar radiation sensors 111 attached to these solar cell modules 111 The incoming surface of the sun is always facing the sun.

The solar power generation analysis unit 130 generates a reference power generation amount in accordance with the horizontal solar radiation amount, the inclined solar radiation amount, the external temperature, and the module temperature. At this time, the power generation time and the power generation rate of the solar power generation unit 110 are based on the reference power generation amount .

The photovoltaic power generation analysis unit 130 can improve the power generation efficiency by analyzing the state of the solar cell module 111 constituting the photovoltaic power generation unit 110, by string, inverter, and connection state.

The solar power generation monitoring unit 140 displays a list of status, monitoring, diagnosis, analysis, report, and setting, and the manager clicks each list as needed to display the status of power generation of the solar power generation unit 110 in real time .

2, the solar power generation unit 120 includes a temperature measurement unit 121 for measuring the atmospheric temperature and the module temperature, and a temperature measurement unit 121 installed at the solar power generation unit 110 to measure a horizontal solar radiation amount and an inclined solar radiation amount A power generation amount measurement unit 123 for measuring a power generation time and a power generation amount of the solar power generation unit 110 and a power generation amount measurement unit 123 for measuring the power generation time and the power generation amount of the solar power generation unit 110 stacked on the solar cell module 111 of the solar power generation unit 110 And a camera unit 124 for monitoring the surroundings together with eyes or leaves.

Here, the temperature measuring unit 121 measures the temperature by attaching to the solar cell module 111 constituting the solar cell generator 110, and measures the temperature around the solar cell module 111, that is, .

The solar radiation amount measuring unit 122 simultaneously measures the solar radiation amount on the slope and the horizontal solar radiation amount on the ground according to the angle of the solar cell module 111, and transmits the same.

The power generation amount measuring unit 123 measures and transmits the power generation amount and the power generation time generated from each of the solar power generation units 110 in real time.

The camera unit 124 is installed above the solar cell module 111 so as to monitor the whole area in the area where the solar power generator 110 is installed and monitors the current state, .

3 and 4A and 4B, the solar power generation analysis unit 130 includes a field monitoring unit 131, a period setting unit 132, a power generation time and power generation rate display unit 133, A comparative analysis unit 134, an integrated power generation display unit 135, and an on-site listing unit 136.

The site monitoring unit 131 has the same function and configuration as the camera unit 124 of FIG. 2, and is installed for each site where the solar power generating unit 110 is installed, and functions to detect the whole area.

At this time, the field monitoring unit 131 displays the module capacity (KW), the inverter capacity (kW), and the generation time / day (h / D) in which the solar power generation unit 110 is installed.

Meanwhile, the field monitoring unit 131 includes a zoom function by an administrator's operation from the outside. In order to know the current state of the solar cell module 111 more accurately, .

The period setting unit 132 is configured to allow the user to arbitrarily set the analysis period in order to analyze the power generation time and power generation rate of the solar power generation unit 110 according to the period.

The period setting unit 132 includes a data display unit 132a, an analysis period display unit 132b, a period arbitrary setting unit 132c, and a selecting unit 132d.

The data display unit 132a is a unit for setting the generation time and the power generation rate of the solar power generation unit 110 in a unit of day, month, and year.

The analysis period display section 132b is a section for setting a period for analyzing the power generation time and the power generation rate of the solar power generation section 110, and can set the period according to the setting of the manager.

The period arbitrary setting unit 132c sets the period for analyzing the power generation time and the power generation rate of the solar power generation unit 110 in more detail, that is, 1 week, 2 weeks, 1 month, 2 months, 3 months, , Which is a part to be set to be analyzed in detail as in this month. At this time, the manager may arbitrarily set a period as shown in FIG. 4 to analyze the power generation time and the power generation rate of the solar power generation unit 110 in real time.

When the period setting is completed through the period arbitrator 132c, the selecting unit 132d applies the set period by clicking the selection completion button.

The power generation time and power generation amount display unit 133 displays the power generation time and the power generation rate of the solar power generation unit 110 when the period setting is completed through the period setting unit 132. [ In FIG. 4A and FIG. 4B, the curved portion shows the inclined plane solar radiation, the gray portion shows the reference power generation amount and the power generation time, and the light blue portion shows the power generation amount of the solar power generation portion 110 and the power generation Respectively.

Meanwhile, the power generation amount and the power generation time of the solar power generation unit 110 can be arbitrarily set by the administrator through the period setting unit 132 and analyzed.

For example, when there is a day when the solar radiation amount on the slope is poor and when there is a lack of sunlight, the solar power generation and the generation time are increased or decreased in proportion to the day. In spite of no reason, It may fall. This is because leaves or snow accumulate on the solar cell module 111 of the photovoltaic power generation unit 110 and normal power generation can not be performed.

Therefore, when the solar power generation analysis unit 130 analyzes that the normal power generation has not been performed, the power generation efficiency can be further improved by informing the manager through the solar power generation monitoring unit 140 to cope with the situation.

The facility-specific comparison and analysis unit 134 can analyze power generation time and power generation by inverter, connection unit, and string.

For example, in FIG. 4A and FIG. 4B, it is possible to analyze the generation time horizontally and the power generation amount for each inverter longitudinally based on the reference power generation amount in the inverter part of the comparison analysis of each facility. In this case, when the generation amount or the generation time is significantly lowered among the plurality of inverters, it is analyzed that there is an abnormality in the corresponding inverter, and the inverter is notified to the manager to prevent the power generation rate and the power generation time from being lowered.

In addition, it is possible to analyze the power generation time and the power generation rate for each string of the solar cell module 111 in the connection module by analyzing the connection panel power generation time and power generation rate in the same manner as the analysis of the inverter.

The total display unit 135 displays the average power generation time, the maximum power generation time, the average power amount, the maximum power amount, and the power amount sum of the solar power generation unit 110 as numerals so that the administrator can confirm the sum.

The on-site listing section 136 confirms the generation rate and generation time of each site along with the site where the solar power generation section 110 is installed, and checks the ranking of each site according to the power generation time and generation amount.

On the other hand, the screen of the field listing unit 136 is scrolled up and down downward to confirm that the solar power generation unit 110 is developing. If there is no movement of the scale, it means that the power generation is not normally performed.

FIG. 5 is a schematic diagram showing the solar power generation monitoring unit of FIG. 1; FIG.

As shown in FIG. 5, the solar power generation monitoring unit 140 includes a power generation status unit 141 for displaying the generation power for the whole day, the current generation power, the horizontal and oblique radiation dose, the standby and module temperature, A power generation efficiency display unit 142 for displaying the power generation efficiency of the power generation unit 110, the current power generation efficiency and the power generation efficiency trend, and a current status unit for displaying the power generation efficiencies of the respective sites installed with the solar power generation unit 110 A power generation unit 144 for displaying facility capacity, power generation amount, and power generation amount of each of the solar power generation units 110; And a power generation time transition unit 146 for displaying a power generation time, a maximum power generation time, a daily average power amount, and a total power amount of each of the solar power generation units 110 .

The power generation unit 141 receives various information measured by the photovoltaic power generation unit 120 and the photovoltaic power generation unit 130 through a communication network and receives the power generation amount and the current power generation amount Respectively. Therefore, when there is no particular difference in the weather condition, the manager may make a mistake in the connection unit including the solar cell module 111 constituting the solar power generation unit 110, And analyze it.

In addition, the power generation efficiency display unit 142 displays the state of the power generation amount in a graph form every hour, and displays the power generation amount with a numerical scale so that the manager can visually recognize the power generation amount.

The on-site status unit 143 displays the amount of power generated by the site in the area where each of the photovoltaic power generation units 110 is installed. In addition to the power generation rate (%) of the photovoltaic power generation unit 110 installed for each site, (h).

The power generation unit 144 displays the facility capacity (KWh) of the solar power generation unit 110 installed at each site, and displays the generated amount and the generated amount in day, month, and year, The cumulative power generation amount and the power generation amount can be viewed.

That is, the power generation aggregation unit 144 can display the daily generated amount, the monthly generated amount, the current generated amount, the current generated amount, the current generated amount in the current month, and the generated amount this year, respectively, so that the manager can more easily confirm the generated amount together with the total generated amount.

The ranking display unit 145 calculates the power generation time, the number of emergency alarms, and the alarm maintenance time at intervals of one week, and assigns rankings such as gold, silver, and bronze to each site, thereby prompting the field manager to promptly respond. According to the ranking according to the site, the number included in the ranking by quarter or year can be grasped and the excellent award can be performed, thereby enhancing the morale of the field manager.

The power generation time transition unit 146 can check the power generation time of each photovoltaic power generation unit 110 by clicking the data classification part so that the power generation time of each photovoltaic power generation unit 110 can be distinguished by day, week, month, and year.

FIG. 6 shows an example of the integrated state of the solar power generation system according to the present invention.

That is, FIG. 6 is a view showing the development status of the solar power generation system according to the present invention.

As shown in FIG. 6, the field manager or the general manager can monitor the electricity generation amount, ranking, and power generation time trend on a real-time basis, including the power generation status by site.

7A to 7C are monitoring screens in the solar power generation system according to the present invention.

As shown in FIG. 7A, when the map portion is clicked on the surveillance screen, the place where the solar power generator 110 is installed can be confirmed from a map or a satellite at a glance, and the field status can be confirmed through the camera portion.

In addition, it is possible to confirm the solar cell module capacity, inverter capacity, generation time / day number of the solar power generation unit 110 installed in each site by the number, and the ranking can be confirmed in the site list for each site.

When the solar power generation unit 110 is operating normally, a green warning light or a red warning is blinked when there is a communication network or a power generation abnormality. In addition, the map displays the place where the solar power generation unit 110 is installed, That's it.

Further, if the green, orange, and red portions are clicked on the map, the current operating state, generated power, oblique irradiation dose, and module temperature can be confirmed.

As shown in FIG. 7B, when the equipment part is clicked, it is possible to check whether there are abnormalities in the inverter, the switchboard, the main and the sub-bank in all the sites where the solar power generating part 110 is installed. The person can directly check the color through the manager.

As shown in FIG. 7C, when the network portion is clicked, the communication state of the current network including the operation status of the various devices of the solar power generation unit 110 and the presence or absence of the connection unit can be checked. The administrator can directly check the color of the part.

Therefore, in the solar power generation system according to the present invention, the monitoring part can monitor the GIS-based information, the measurement information of each facility, and the network status in real time, so if an abnormality occurs, It can be further improved.

8A and 8B are diagnostic screens in the solar power generation system according to the present invention.

As shown in FIG. 8A, when the diagnosis part is clicked, the place where the solar power generation part 110 is installed can be checked at a glance from a map or satellite, and the field status can be confirmed through the camera part.

In addition, it is possible to confirm the solar cell module capacity, inverter capacity, generation time / day number of the solar power generation unit 110 installed in each site by the number, and the ranking can be confirmed in the site list for each site.

In addition, it is possible to confirm the daily power generation amount addition, the oblique solar radiation amount, the generated power, the module temperature, the generated power, the conversion efficiency, the daily power generation amount, the daily power generation amount, the one power generation time,

In addition, the status of power generation can be confirmed by each string constituting the solar power generation unit, and the status of each inverter and the status of the connection power generation can be confirmed.

As shown in FIG. 8B, the inverter power generation status can confirm the type of inverter, facility capacity, operation status, AC / DC power, and measurement date and time.

In addition, the connection semi-generation status can check the type of connection panel, the capacity of equipment, current power, load rate, HS temperature, internal temperature, and measurement date and time.

In addition, the current status of each string can be confirmed by the capacity of each string, the current power, the load ratio, and the measurement date and time.

Therefore, in the solar power generation system according to the present invention, the power generation status of each site can be analyzed on the analysis screen, and the status of power generation by the inverter, connection board and string can be confirmed. And the power generation efficiency can be improved through the processing.

9 is a flowchart schematically showing a method of diagnosing power generation of a solar power generation system according to the present invention.

As shown in FIG. 9, the method for diagnosing the power generation of the solar power generation system according to the present invention collects the slope irradiation amount information about the place where the solar power generation unit is installed (S110).

Although collecting the slope irradiation amount information is described above, it is also possible to collect information including the horizontal irradiation amount, the module temperature, and the ambient temperature information.

Next, a reference power generation amount and a power generation time of the installed solar power generation unit are set based on the collected slope irradiance data (S120).

Here, the reference power generation amount and the power generation time are generated based on the predicted data on the slope insolation amount and the plurality of module temperatures, and the reference power generation amount and the power generation time are set based on the generated predicted data.

Next, the reference power generation amount and power generation time are compared with the actual power generation time and the power generation time generated from the solar power generation part (S130).

Then, based on the result of the comparison and analysis, the power generation rate and the power generation time of the solar cell module, the inverter, the connection panel, and the strings constituting the solar power generation unit are transmitted (S140).

Therefore, an apparatus and method for diagnosing power generation of a solar power generation system according to the present invention can be applied to a solar power generation unit, an inverter, and a connection unit at least when a solar power generation amount and a temperature have optimal data values for solar power generation, It is possible to further improve the power generation efficiency by analyzing that there is more than one place and processing it more quickly.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Will be apparent to those of ordinary skill in the art.

110: solar power generation unit 120: solar power generation measurement unit
130: Solar power generation analysis unit 140: Solar power generation monitoring unit

Claims (7)

A plurality of solar power generation units including a solar cell module for converting solar energy into electric energy and outputting the solar energy,
A photovoltaic power generation measuring unit installed in each of the photovoltaic power generation units for measuring an atmospheric temperature and a solar cell module temperature, a horizontal surface solar irradiance, a slope solar irradiance, a power generation time,
A photovoltaic power generation analysis unit for analyzing the power generation time and the power generation rate of the photovoltaic generation unit according to sites installed on the photovoltaic power generation unit based on various information measured by the photovoltaic power generation unit;
And a photovoltaic power generation monitoring unit that receives various kinds of information diagnosed by the photovoltaic power generation analysis unit through a network and monitors the status of power generation, monitoring, diagnosis, analysis, and reports in real time,
The photovoltaic power generation analysis unit includes a field monitoring unit installed on a site installed with the photovoltaic power generation unit to detect the entire area, and a period setting unit for setting an analysis period arbitrarily by a user to analyze the power generation time and the power generation rate of the photovoltaic power generation unit And a power generation time and power generation amount display unit for displaying the power generation time and the power generation rate of the solar power generation unit when the period setting is completed through the period setting unit, A total display section for displaying the average power generation time, the maximum power generation time, the average power amount, the maximum power amount and the total power amount of the photovoltaic power generation unit by numerals; And the generation time of each site according to the generation time and generation amount. The cut-off is made up of an on-
The solar power generation monitoring unit includes a power generation status part for displaying the generation power of the day, the current generation power, the horizontal and the oblique irradiation amount, the atmospheric temperature, and the module temperature of the solar power generation unit, A power generation efficiency display unit for displaying a power generation efficiency of each of the photovoltaic generators, a power generation efficiency display unit for displaying the power generation efficiency of the photovoltaic generators, A ranking display section for displaying a ranking based on a power generation amount and a maintenance state of each of the solar power generation sections; and a display section for displaying a power generation time, a maximum power generation time, a daily average power amount, And a time-varying unit. Seating unit. The apparatus according to claim 1, wherein the solar power generation measuring unit
A temperature measuring unit for measuring the atmospheric temperature and the module temperature,
A solar radiation amount measuring unit installed in the solar power generating unit for measuring a horizontal solar radiation amount and an oblique solar radiation amount,
A power generation amount measuring unit for measuring a power generation amount of the solar power generation unit;
And a camera unit for monitoring the surroundings together with snow or dead leaves accumulated on the solar cell module of the solar power generation unit. delete The apparatus of claim 1, wherein the period setting unit
A data display unit unit configured to analyze power generation time and power generation rate of the solar power generation unit in units of day, month,
An analysis period display section for setting a period for diagnosing the generation time and the generation rate of the solar power generation section;
An arbitrary setting section for arbitrarily setting a period for diagnosing the generation time and the generation rate of the solar power generation section by a manager,
And a selection unit for applying a predetermined period when the period setting is completed through the arbitrary setting unit of the period. delete delete delete

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