KR20190066135A - Failure diagnosing system of solar power generating system - Google Patents

Abstract

The present invention relates to a failure diagnosis system of a solar photovoltaic power generation system and a method for diagnosing failure of a solar photovoltaic power generation system using the same and, more specifically, to a failure diagnosis system of a solar photovoltaic power generation system which diagnoses a failure occurrence and a failure type for each corresponding unit string by allowing a plurality of solar cell modules to be installed in the solar photovoltaic power generation system having a plurality of unit strings connected in series to each other, and a method for diagnosing failure of a solar photovoltaic power generation system using the same. In addition, the failure diagnosis system of a solar photovoltaic power generation system comprises unit measurement sensor units, a unit measurement sensor controller, and a diagnosis evaluation unit.

Description

[0001] The present invention relates to a failure diagnosis system for a solar power generation system,

The present invention relates to a fault diagnosis system for a photovoltaic power generation system, and more particularly, to a fault diagnosis system for a photovoltaic power generation system in which a plurality of solar cell modules are installed in a solar power generation system having a plurality of unit strings connected in series, And more particularly, to a fault diagnosis system for a photovoltaic power generation system diagnosing a fault type.

As is known, a solar power generation system is constituted of a unit string in which a plurality of solar cell modules are connected in series to provide a desired power generation amount, and a plurality of unit strings are individually connected to a circuit connection unit of the inverter, To be supplied to the inverter.

However, in the solar module constituting the unit string, the power generation efficiency is lowered due to various obstacles, and in some cases, the damage is spread to the adjacent module or the entire system.

Typical failures include electrical or physical damage to the photovoltaic module, contamination from excreta such as algae, shadows due to shadows, and poor contact.

In addition, if a PV module located within a unit string is damaged by such a solar module damage or an external factor, it may adversely affect the adjacent module constituting the string through the series connection with the corresponding module, .

If the power of a specific unit string decreases in a circuit connecting module in which a plurality of unit strings are connected, a load is generated in a diode configured to prevent a reverse current flow in the circuit connection half due to a difference from a generation amount of a normal string. The radiation damage and the power generation efficiency are adversely affected.

On the other hand, in order to monitor abnormality of a unit string in such a photovoltaic power generation system, a structure for monitoring the power of a string in a circuit connection panel is added, or a voltage A monitoring unit for confirming information on power including currents and currents is formed, and a monitoring unit for collecting information collected from the monitoring devices in the string and transmitting the collected information to the management center is added to monitor abnormality.

In some cases, an active control method is also applied to protect the power generation equipment by blocking the connection of the abnormal occurrence string or module in the remote management center according to the monitoring result.

However, as the photovoltaic power generation environment becomes larger and more farmed, the number of photovoltaic modules installed in one place is surging, and a management center monitors the state of the photovoltaic devices in various regions, The number of modules managed by the center is in the range of thousands to tens of thousands.

In particular, in order to cope with the abnormal situation of each module, the management center integrally manages the set relation of modules and strings that can be changed according to the status and situation of each of these modules, information of each module and old information, It is difficult to cope with a problem caused by a network situation or an error in inputting information.

KR 10-0195686 B1 KR 10-0983236 B1 KR 10-1039050 B1

In order to solve the above problems, an object of the present invention is to provide a solar power generation system having a plurality of solar cell modules having a plurality of unit strings connected in series, The present invention provides a fault diagnosis system for a solar photovoltaic power generation system that diagnoses whether a fault occurs in each unit string constituting a photovoltaic power generation system and a fault type.

The above object is achieved by the following constitutions provided in the present invention.

The fault diagnosis system of the solar power generation system according to the present invention comprises:

The solar cell modules are disposed between a plurality of unit strings connected in series and a circuit connection half of the inverter so that the generated information values for the generated power applied to the circuit connection half of the inverter in each unit string are measured simultaneously Unit sensor units for outputting;

Wherein the control unit calculates cumulative generation information values for each unit string in which the power generation information values measured through the unit measurement sensor units are accumulated for a unit time, A unit measurement sensor controller for transmitting the generated information value; And

And a diagnostic evaluation unit for detecting a unit string in which a failure occurs among the unit strings constituting the solar power generation system, through the generation information value for each unit string provided by the unit sensor system controller and the accumulated generation information value for each unit string .

Preferably, the unit measurement sensor controller includes: a conversion module for digitally converting generation information values of generated power of each unit string simultaneously measured in an analog manner through each unit measurement sensor;

Wherein the generation module calculates the cumulative generation information value for each unit string by accumulating the generated information values for the generated power of the unit string digitally converted by the conversion module and calculates the cumulative generation information value for each unit string based on the generated information value for the generated power of the unit string, And a control module that transmits the accumulated development information value to the diagnostic evaluation unit through the communication module.

More preferably, the diagnostic evaluation unit comprises: a communication module for communicating with the unit measurement sensor controller; A failure determination module for determining whether or not a failure occurs in a unit string based on generation information values for each unit string provided by the unit measurement sensor controller through the communication module and cumulative generation information values for each unit string; And a failure type extracting module for extracting a failure type of the unit string determined as a failure by the failure verification module.

As described above, in the present invention, generation information values of a unit string constituting a solar power generation system are simultaneously measured in real time, and generation information values of a unit string simultaneously measured under the same power generation conditions including a sunshine amount and a temperature are collectively referred to as mutual It is possible to detect a unit string in which a failure has occurred among a plurality of unit strings constituting the photovoltaic power generation system and to determine the type of failure of the unit string in which the failure has occurred.

When simultaneous measurement is performed as described above, the generation information values developed in the same generation condition including the same amount of sunshine, temperature, and humidity are acquired, and the stationary occurrence occurrence and the failure type are read based on the acquired power generation information values Diagnosis of precise fault occurrence is possible.

In addition, the present invention generates a power generation pattern based on the power generation information value of a unit string in which a failure occurs, and compares it with a standard failure type pattern resulting from occurrence of shading, deterioration, contact failure,

Therefore, according to the present invention, it is possible to realize efficient solar power generation by quickly following a unit string in which an abnormality has occurred in each failure type by individually diagnosing and detecting abnormality of a unit string in each failure type.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing the overall configuration of a fault diagnosis system of a solar power generation system proposed as a preferred embodiment of the present invention,
2 is a schematic diagram showing a state in which a fault diagnosis system of a solar power generation system proposed in the preferred embodiment of the present invention is installed in a solar power generation system,
FIG. 3 is a flowchart sequentially illustrating a fault diagnosis process of a fault diagnosis system of a photovoltaic power generation system through a fault diagnosis system of a photovoltaic power generation system proposed as a preferred embodiment of the present invention.
FIG. 4 is a diagram showing a re-driving state of the unit measurement sensor controller in the fault diagnosis system of the solar power generation system through the fault diagnosis system of the solar power generation system proposed in the preferred embodiment of the present invention,
FIG. 5 is a block diagram of a fault diagnosis system of a photovoltaic power generation system through a fault diagnosis system of a solar power generation system proposed as a preferred embodiment of the present invention. In the fault diagnosis system of FIG. 5, Of the fault type.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a fault diagnosis system of a photovoltaic power generation system proposed as a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram showing an overall configuration of a fault diagnosis system of a solar power generation system proposed as a preferred embodiment of the present invention. FIG. 2 is a block diagram showing a fault diagnosis system of a solar power generation system FIG. 3 is a flowchart illustrating a fault diagnosis process of the fault diagnosis system of the photovoltaic power generation system through the fault diagnosis system of the photovoltaic power generation system proposed in the preferred embodiment of the present invention FIG. 4 is a flowchart illustrating a failure diagnosis system for a photovoltaic power generation system according to a preferred embodiment of the present invention. FIG. 5 is a graph showing the results of the experiment In the fault diagnosis system of a solar power system through the failure diagnosis system of the power system, to show the reading state of the failure type of a fault through the power generation control of the pattern and type of fixed pattern generation unit string.

The fault diagnosis system 1 of the photovoltaic generation system according to the present invention simultaneously measures the generation information values for the generated power output from each unit string 110 constituting the solar power generation system 100 in real time Processing and analyzing the generation information values for each unit string 110 simultaneously measured in real time and reading the failure occurrence type and the failure occurrence type for each unit string 110.

The fault diagnosis system 1 of the solar power generation system is arranged between a plurality of unit strings 110 in which solar cell modules 111 are connected in series and a circuit connection unit 121 of the inverter 120, Unit measurement sensor units 10 for simultaneously measuring the generation information value of the generated power applied from the string 110 to the circuit connection unit 121 of the inverter 120 at a set cycle for a unit time and outputting the generated information values; A cumulative generation information value for each unit string in which the power generation information values measured through the unit measurement sensor units 10 are accumulated for a unit time is calculated and the generated power generation information values measured through the unit measurement sensor units 10 A unit measurement sensor controller 20 for transmitting cumulative generation information values for each unit string; A failure occurs in the unit string 110 constituting the solar power generation system 100 through the generation information value for each unit string and the accumulated generation information value for each unit string provided in the unit measurement sensor controller 20 And a diagnostic evaluation unit 30 for detecting the unit string 110 that has been generated.

According to this embodiment, under the control of the unit measurement sensor controller 20, each of the unit measurement sensor units 10 simultaneously performs the measurement of 20 to 50 times per second with respect to the generated power output from the unit string 110 , The power generation information values of the generated power generated in each unit string 110 are obtained in real time.

The unit measurement sensor unit 10 disposed between each of the unit strings 110 and the circuit connecting part 121 of the interverter 120 is connected to the circuit connecting part 121 of the inverter 120 An analog type current value measuring sensor 11 for measuring the current information value of the generated power, which is the power generation information value of the generated power to be applied to the unit 121, and an analog type voltage value measuring unit for measuring the voltage information value of the generated power And a measurement sensor 12.

In addition, the unit measurement sensor controller 20 is provided with a multi-channel reception module 25 having multiple channels for receiving the respective power generation information values wirelessly transmitted from the unit measurement sensor units 10, The measurement sensor controller wirelessly receives information values transmitted from each unit measurement sensor unit 20.

Therefore, the unit measurement sensor units 10 disposed in each unit string 110 measure the power generation information values including the current information value and the voltage information value of the generated power generated in the unit string 110 in real time, Through the respective reception channels of the measurement sensor controller 20.

Thus, the unit strings 110 can measure the generated information values for the generated power under the same power generation condition, that is, in the state where the amount of sunshine, temperature, and humidity are the same.

The unit measurement sensor controller 20 includes a conversion module 21 for digitally converting generation information values of generated power of each unit string 110 simultaneously measured in an analog manner through each unit measurement sensor 10, and; And a power generation information calculation unit for calculating a power generation information value for each unit string by accumulating the power generation information values for the power generation power of the unit string (110) digitally converted by the conversion module (21) And a control module 23 for transmitting the calculated value and the calculated cumulative generation information value for each unit string to the diagnostic evaluation unit 30 through the communication module 22.

In this embodiment, the Zigbee communication modules 22 and 31 are provided between the unit measurement sensor controller 20 and the diagnostic evaluation unit 30, and the unit measurement sensor controller 20 controls each unit string To the diagnostic evaluation unit 30, the generated information value for the generated power of the unit string 110 and the calculated cumulative generation information value for each unit string.

Therefore, the control module 23 of the unit measurement sensor controller 20 can acquire the generation information values of each unit string 110 simultaneously measured in an analog form through the unit measurement sensors 10 through the conversion module 21 And the cumulative generation information value for each unit string in which the generation information value of the generated power converted into the digital signal is accumulated for a unit time is calculated.

Thereafter, the control module 23 transmits the generation information value for each unit string measured through the unit measurement sensor units 10 through the communication module 22 and the cumulative generation information value for each unit string to the diagnostic evaluation unit 30).

Therefore, the diagnostic evaluation unit 30 can calculate the generation information value of the generated power for each unit string converted into the digital signal and the generated information value by accumulating the generated information value for a unit time without an excessive calculation load on the unit measurement sensor controller 20 The cumulative generation information value for each unit string is obtained in real time.

Particularly, the present invention is configured to measure the generation information values of each unit string constituting the solar power generation system simultaneously through the unit measurement sensor controller 20, and the diagnosis evaluation unit is provided with the same amount of sunshine, The generation information value and cumulative generation information value of each unit string with respect to the generated power generated in the condition are obtained.

That is, in the present invention, the generation information values of the unit string 110 constituting the solar power generation system 100 are simultaneously measured in real time, and the generation information of the unit strings simultaneously measured in the same generating conditions including the amount of sunshine, The detection of the unit string 110 in which the failure has occurred and the failure of the unit string 110 in which the failure occurs are compared with each other by comprehensively correlating and analyzing the values of the unit strings 110 constituting the solar power generation system 100. [ It is possible to read out the type of failure.

In addition, in the present embodiment, the unit measurement sensor controller 20 is configured to be rebooted at a predetermined cycle in consideration of the fact that the unit measurement sensor controller 20 can be exposed to a high-temperature external environment. By continuously driving to the external environment such as high temperature, (Down phenomenon, rack phenomenon) are prevented from occurring abnormally, and the generation information value of each unit string 110 can be processed and externally transmitted at a required time.

That is, in the present embodiment, the unit measurement sensor controller 20 is provided with a timer module 24 for temporarily shutting off the start-up current for each set period and then re-supplying the timer module 24, The controller 24 is configured to reboot every set period.

Accordingly, a general problem due to the abnormal stop of the start due to the startup in the external environment for a long time is solved, and as a result, stability according to the diagnosis of the solar power generation system 100 can be ensured.

On the other hand, the diagnosis evaluation unit 30 includes a Zigbee type communication module 31 that wirelessly communicates with the unit measurement sensor controller 20; A failure verification module for determining whether or not a failure occurs in the unit string based on the generation information value for each unit string provided by the unit measurement sensor controller 20 through the communication module 31 and the cumulative generation information value for each unit string 32); And a failure type extraction module (33) for extracting a failure type of the unit string (110) determined as a failure by the failure verification module (32).

Therefore, the failure verification module 32 determines whether or not the power generation information value for each unit string measured through each unit measurement sensor unit 110 obtained from the unit measurement sensor controller 20 and the accumulated power generation information value for each unit string , Cumulative generation information values for each unit string are summed up, and then divided by the number of unit strings obtained by summing the sum values to calculate an average accumulated generation information value.

Thereafter, the calculated average accumulated generation information value is compared with the cumulative generation information value for each individual unit string to detect the individual unit string in which a deviation value greater than or equal to the standard deviation value is generated, and the determination is made as a failure of the individual unit string 110 .

For example, when the average cumulative generation information value is compared with the cumulative generation information value for each individual unit string and a cumulative generation information value for each unit string is deviated by an average deviation value (3%) or more in comparison with the average cumulative generation information value , It is determined that the unit string in which the deviation is generated has a failure.

If it is determined that an abnormality of the corresponding unit string has occurred, the fault type extraction module calculates the power generation pattern through the power generation information values of the unit string determined to be faulty, and outputs the power generation pattern of the unit string, The fault type is detected by comparing the previously stored fault patterns.

In the present embodiment, a failure pattern corresponding to the failure of the solar cell module, a failure pattern corresponding to deterioration of the solar cell module, a failure pattern corresponding to the shadow, a failure pattern due to the contamination of the solar cell module, And overlaps the generation pattern of the unit string determined by the failure with each of these failure patterns to detect the type of the fault with the closest pattern type.

Accordingly, the manager may first detect the unit string 110 in which the failure is expected to occur in the photovoltaic power generation system 100, and then detect only the generation information value of the unit string 110 in which the occurrence of the failure is detected Generates a power generation pattern, and collates the generated power generation pattern with the power failure patterns to detect the failure type.

On the other hand, the diagnosis evaluation unit 30 is connected to the GIS server 40 to obtain a standard power generation amount information value according to the insolation amount of the coordinate point where the solar power generation system 100 is disposed, and calculates the standard power generation amount information value And a performance evaluation module 34 for evaluating the performance of all the unit strings constituting the solar power generation system 100 by collating the actual generation amount information provided and accumulated through the unit measurement sensor controller.

The performance evaluation module 34 compares the total daily power generation amount according to the solar radiation amount of the photovoltaic power generation system developed through each unit string 110 and the daily maximum generation amount of the solar radiation power generated by the domestic 30- Obtain average daily power generation by insolation at the point in the resource map.

The overall performance of the unit strings of the photovoltaic power generation system is evaluated by comparing the daily average power generation amount by the irradiation amount of the corresponding point according to the daily total generation amount of solar power generation amount of the solar power generation system according to the solar radiation amount.

Thus, the manager can detect the occurrence of a failure of the unit string of the solar power generation system, and evaluate whether the overall performance degradation of the solar power generation system is deteriorated.

1. Fault diagnosis system of PV system
10. Unit measurement sensor unit 11. Current measurement sensor
12. Voltage measurement sensor
20. Unit measurement sensor controller 21. Conversion module
22. Communication module 23. Control module
24. Timer module
30. Diagnostic evaluation module 31. Communication module
32. Fault determination module 33. Fault type extraction module
34. Performance evaluation module
40. GIS Server
100. Solar power system 110. Unit string
120. Inverter 121. Circuit connection board

Claims (3)

The solar cell modules are disposed between a plurality of unit strings connected in series and a circuit connection half of the inverter so that the generated information values for the generated power to be applied to the circuit connection half of the inverter in each unit string are measured simultaneously Unit sensor units for outputting;
Wherein the control unit calculates cumulative generation information values for each unit string in which the power generation information values measured through the unit measurement sensor units are accumulated for a unit time, A unit measurement sensor controller for transmitting the generated information value; And
And a diagnostic evaluation unit for detecting a unit string in which a failure occurs among the unit strings constituting the solar power generation system, through the generation information value for each unit string provided by the unit sensor system controller and the accumulated generation information value for each unit string And a fault diagnosis system for the photovoltaic generation system. [2] The apparatus of claim 1, wherein the unit-type sensor controller comprises: a conversion module for digitally converting generation information values of generated power of each unit string simultaneously measured in an analog manner through each unit measurement sensor;
Wherein the generation module calculates the cumulative generation information value for each unit string by accumulating the generated information values for the generated power of the unit string digitally converted by the conversion module and calculates the cumulative generation information value for each unit string based on the generated information value for the generated power of the unit string, And a control module for transmitting the accumulated power generation information value to the diagnostic evaluation unit through the communication module. The apparatus of claim 1, wherein the diagnostic evaluation unit comprises: a communication module for communicating with the unit measurement sensor controller;
A failure determination module for determining whether or not a failure occurs in a unit string based on generation information values for each unit string provided by the unit measurement sensor controller through the communication module and cumulative generation information values for each unit string; And
And a failure type extracting module for extracting a failure type of the unit string determined as a failure by the failure verification module.

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