KR20170140881A - photovoltaic power generation equipment efficiency detection system based on multi variables - Google Patents

Abstract

The present invention relates to an abnormality self-detection method for detecting an abnormality at an early stage by comparison of monitoring of a photovoltaic power generation array. According to the abnormality self-detection method of the present invention, voltages and currents of solar cell module arrays connected to a connection box are measured by each array and recorded in a database of a web server, and data is called up in a web or an application to calculate power such that the power is displayed together with the voltages and the currents in real time. An average amount of power is obtained in a one-hour time unit by using a voltage value and a current value measured by array through a web program or an application program, the obtained average amount of power and a reference value are compared with each other to detect an abnormality by array at an early stage, and the detected abnormality is informed to a user to enable the user to appropriately handle the abnormality. Moreover, according to the present invention, an amount of power is checked by array, a web service or an application service is provided based on the same, and it is possible to inform the user whether the array is abnormal in real time. As such, abnormality self-detection is possible at an early stage through comparison of monitoring by array, and thus the user can quickly handle the abnormality. Finally, damages caused by heat generation or the like of the solar cell module of each array are prevented, and deterioration of durability of the solar cell module is prevented.

Description

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

The present invention relates to a photovoltaic power generation system, and more particularly, to a photovoltaic power generation system in which voltages and currents of solar cell module arrays connected to a connection box are measured for each array and recorded in a database (D / B) The average power is obtained in 1 hour unit by using the voltage and current values measured for each array, and compared with the reference value, the average value of each array And more particularly, to a method for early detection of self-abnormality through comparison of monitoring of photovoltaic power generation arrays enabling early discovery and countermeasure.

Generally, a photovoltaic power generation system is used to convert solar energy into direct current to produce electric power, and a large number of solar cells are connected to a power generation facility that generates electricity on a large scale by using a solar cell array arrayed by string wiring to be.

The photovoltaic power generation system includes a photovoltaic module array for generating direct current by receiving solar light, a connection panel for collecting the direct current generated in the photovoltaic module array by a unit string, An inverter for converting electricity into alternating-current electricity, and a distribution panel for sending alternating-current electricity converted through the inverter to the electric power system.

At this time, each array connects a plurality of solar cell modules in series, and each array is connected in parallel in the connection module.

Here, when a plurality of solar cell modules starts to generate electricity in each array connected in series, a current flows through each unit string. At the same time, in the connection module, current is collected and transmitted for each unit string, And monitors current, voltage, and power for each array through the panel.

However, when any one of the solar cell modules constituting the serial array is damaged or deteriorated in the solar cell power generation, the remaining solar cell modules are also downed with the lowest current value among the series arrays to perform power generation.

As a result, the power generation efficiency of the solar power generation system is affected, and the surplus current as much as the lowered current has a bad influence on the solar cell module, This results in a reduction in the lifetime of the solar cell module.

For example, as shown in Fig. 1 (a), assuming that 18 solar cell modules having a normal serial array are provided, and each solar cell module produces 250 watts of power, it produces 4.5 kW of power do.

However, as shown in FIG. 1 (b), when there is at least one solar cell module abnormally developed due to breakage or shading, the entire solar cell module may have the lowest value of the solar cell module of the serial array At this time, if the amount of power generated by one abnormal solar cell module is 100w, only the power of 1.8kw is produced.

That is, the operation efficiency of the photovoltaic power generation facilities such as the power generation efficiency is deteriorated as a whole.

As a result, there is a need in the industry for a tool to detect anomalies in photovoltaic power generation facilities early on, and to take measures in response to abnormal conditions of power generation facilities.

Korean Patent Publication No. 10-1544410

Disclosure of Invention Technical Problem [8] The present invention has been made to solve the above-described problems of the related art, and it is possible to measure voltage and current of solar cell module arrays connected to a connection box by each array and record it in a database (D / B) It calculates the average power in 1 hour by using the voltage and current values measured by each of the arrays through a web program or an app program. The present invention has been made to provide a method for early detection of self-abnormality through comparison of monitoring of photovoltaic power generation arrays, which can detect abnormalities of each array early and compare them with reference values,

The present invention enables to check the amount of electric power for each array and to provide a service on the web or an app. By monitoring comparison of each array, it is possible to detect its own abnormality at an early stage, The present invention aims to provide a method for early detection of abnormalities by comparison of monitoring of photovoltaic power generation arrays that can enhance the efficiency of power generation of photovoltaic power generation facilities.

In order to accomplish the above object, a self-abnormality early detection method according to the present invention for monitoring a solar PV array according to the present invention includes: an array 10 in which solar modules starting solar power generation are connected in series; A solar power generation system comprising a connection panel (20) for collecting developed electricity, an inverter (30) for converting electricity collected in the connection panel (20), and the like,

(A) An array monitoring unit (50) is installed in each part where the array (10) and the connection board (20) are connected to monitor the array (10) Measuring current and voltage flowing through each array; (B) providing data to be transmitted to the web server 60 side having the database (D / B) in the array monitoring unit 50 and transmitting the measured current and voltage for each array in real time and storing the data in the database ; (C) In the web server 60, the current and voltage data stored in the database are read in real time through a web program to calculate the power amount for each array, and the current, voltage, and power amount for each array are displayed on the web; (D) The web server 60 calculates an average power amount in units of one hour with respect to the calculated power amount for each array through a web program; (E) determining whether there is an array indicating an average power amount less than a predetermined range based on the highest average power amount among the average power amounts calculated for each array through the web program in the web server 60; (F) In the case where there is an array indicating an average amount of electric power in a predetermined range or less, the web server 60 determines that the array is abnormal and transmits a multi-media message service (MMS) message to the manager through automatic connection service by a web program Transmitting a Social Network Service (SNS) or Short Message Service (SMS); And a control unit.

According to another aspect of the present invention, there is provided a method for early detection of a self-abnormality by comparing solar PV array monitoring according to the present invention, including: an array (10) in which solar cell modules starting solar power generation are connected in series; And a converter (20) for converging the generated electricity and an inverter (30) for converting and processing electricity collected in the connection panel (20), the solar power generation system comprising:

(A) An array monitoring unit (50) is installed in each part where the array (10) and the connection board (20) are connected to monitor the array (10) Measuring current and voltage flowing through each array; (B) The array monitoring unit 50 is provided so as to be able to transmit data to the web server 60 having the database (D / B) so that the measured current and voltage for each array are transmitted in real time and recorded in the database step; (C) The current and voltage data recorded in the database are interlocked with each other through the mobile device (70) mounted with the apps program linked to the web server (60) to calculate the amount of power for each array, Displaying an electric current, a voltage and an electric power amount for each array through an application program; (D) calculating an average power amount in units of one hour with respect to the calculated power amount for each array through an app program installed in the mobile device 70; (E) determining whether there is an array indicating an average power amount less than a predetermined range based on the highest average power amount among the average power amounts calculated for each array through the application program installed in the mobile device 70; (F) If there is an array showing an average amount of power less than a preset range through an app program installed in the mobile device 70, it is determined that the array is abnormal, and an abnormality of the array is displayed on the app, 70); And a control unit.

According to the present invention, it is possible to determine the abnormality and detect the abnormality through real-time monitoring and comparison for each array using the web program or the app program, and to immediately notify the user or the manager of the abnormally determined array It can provide useful effects that enable quick action and response to the array.

The present invention provides monitoring and comparison services for each array, as well as web-based or app-based data processing and linkage services. Thus, it is possible to detect self-abnormality of each array early, thereby preventing damages And can provide a useful effect of preventing the lifetime of the solar cell module from deteriorating.

FIG. 1 is a view showing an example of a solar cell module array for explaining a problem of a conventional solar power generation system, in which (a) shows a normal serial array, (b) Lt; RTI ID = 0.0 > serial < / RTI >
2 is a block diagram of a photovoltaic power generation system for explaining a self-abnormality early detection method based on comparison of monitoring of a photovoltaic array according to an embodiment of the present invention.
FIG. 3 is a schematic diagram showing a system configuration for installing a self-abnormality early detection method through comparison of monitoring the photovoltaic power generation array according to the embodiment of the present invention.
FIG. 4 is a flowchart illustrating a self-abnormality early detection method based on a solar PV array monitoring comparison according to an embodiment of the present invention.
FIG. 5 is a flowchart illustrating a self-abnormality early detection method based on a solar PV array monitoring comparison according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The present invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.

A basic system configuration is required for the self-abnormality detection method based on the comparison of the monitoring of the photovoltaic array according to the embodiment of the present invention. As shown in FIGS. 2 and 3, An inverter (30) for converting and collecting electricity collected in the connection panel (20), and an inverter (30) for converting the electric power collected in the connection panel (20) An array monitoring unit 50 installed in each part of the array monitoring unit 50 so as to be able to monitor the array 10 in each part to which the connection unit 20 is connected, B and stores it in a D / B form.

The array monitoring unit 50 may include a current measuring sensor and a voltage measuring sensor for easily measuring the current and voltage flowing through the array 10 when the solar cells are connected in series to each other. do.

That is, the self-abnormality early detection method using the solar PV array monitoring comparison according to the embodiment of the present invention using such a system will be described with reference to FIG.

First, an array monitoring unit 50 is installed in each part where the array 10 and the connection board 20 are connected to monitor the array 10, and a current measuring sensor of the array monitoring unit 50 The current and voltage flowing through each array 10 when the solar power is generated through the voltage measuring sensor are measured (S1).

The array monitoring unit 50 transmits the current and voltage data measured for each array 10 to the web server 60 having the database D / B in real time, and the web server 60 performs the real- The transmitted current and voltage measurement data is stored in the database (D / B) (S2).

The web server 60 calculates current and voltage measurement data stored in the database D / B in real time on the basis of the loaded web program, calculates the amount of electric power for each array 10, Voltage and power amount (S3).

Here, the web server 60 displays the current, voltage, and amount of power for each array on the web, and the administrator or the user can check it on his / her PC screen connected to the web server 60 through the Internet environment .

In the web server 60, the average power amount is calculated in units of one hour with respect to the calculated power amount for each array through the web program (S4).

In this manner, the web server 60 calculates the average power amount per hour for each calculated amount of power for each array, and then calculates the average power amount for each array based on the highest average power amount among the average power amount calculated for each array It is judged by the manager or the like whether or not there is an array indicating an average power amount equal to or less than a predetermined range (S5).

If there is an array indicating an average power amount less than a predetermined range according to the determination based on the comparison of the average power amount, the web server 60 determines that the array is abnormal, (MMS), a social network service (SNS), or a short message service (SMS) to inform the user that there is an abnormality in the power generation system (S6).

Meanwhile, the self-abnormality early detection method based on the comparison of the monitoring of the photovoltaic power generation array according to the present invention can enable the app-based processing rather than the web-based processing as described above. Here, an app program linked to the web server 60 And a mobile device 70 mounted thereon.

At this time, the mobile device 70 may be a mobile smart device such as a smart phone, and may be an administrator or a user for the solar power generation system.

That is, the self-abnormality early detection method using the solar PV array monitoring comparison according to the embodiment of the present invention using such a system will be described with reference to FIG.

First, an array monitoring unit 50 is installed in each part where the array 10 and the connection board 20 are connected to monitor the array 10, and a current measuring sensor of the array monitoring unit 50 The current and voltage flowing through each array 10 during the solar power generation through the voltage measurement sensor are measured (S11).

The array monitoring unit 50 transmits the current and voltage data measured for each array 10 to the web server 60 having the database D / B in real time, and the web server 60 performs the real- The transmitted current and voltage measurement data is stored in the database D / B (S12).

The current and voltage data recorded in the database (D / B) of the web server 60 is called in real time by interlocking the app program through the mobile device 70 equipped with the app program linked to the web server 60 Calculates the power amount for each array, and displays the current, voltage, and power amount for each array through the application program (S13).

Here, the mobile device 70 displays the current, voltage, and power amount of each array on the app through an app program so that an administrator or a user can check it.

An average power amount is calculated in units of one hour with respect to the calculated power amount for each array through an app program installed in the mobile device 70 (S14).

In this way, the mobile device 70 calculates the average power amount per hour for each calculated amount of power for each array, and then calculates the average power amount for each array based on the highest average power amount among the average power amount calculated for each array It is judged by the manager or the like whether or not there is an array indicating an average power amount equal to or less than a predetermined range (S15).

If there is an array showing an average amount of power less than a preset range through an app program installed in the mobile device 70, it is determined that the array is abnormal, and an abnormality of the array is displayed on the app, (S16).

Accordingly, according to the present invention, it is possible to quickly determine the abnormality and to detect the abnormality quickly by comparing real-time monitoring and measurement data for each array using a web program or an app program, So that it can provide quick action and response to the array, thereby providing advantages such as bypassing the development or stopping the development of the array.

In addition, it is possible to quickly detect self-abnormality of each array and to prompt the user or manager to perform the quick and easy response by monitoring or monitoring each array, It is possible to prevent damage due to generation of heat on the battery module side and to prevent the life of the solar cell module from being deteriorated.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. Modifications or substitutions may be made.

10: array 20: connection board
30: Inverter 40: Distribution board
50: Array monitoring unit 60: Web server
70: Mobile devices

Claims (2)

(10) for connecting solar cells to start photovoltaic power generation, a connection panel (20) for collecting electric power in parallel connection and development of the arrays, In the solar power generation system including the inverter 30 and the like,
(A) An array monitoring unit (50) is installed in each part where the array (10) and the connection board (20) are connected to monitor the array (10) Measuring current and voltage flowing through each array;
(B) providing data to be transmitted to the web server 60 side having the database (D / B) in the array monitoring unit 50 and transmitting the measured current and voltage for each array in real time and storing the data in the database ;
(C) In the web server 60, the current and voltage data stored in the database are read in real time through a web program to calculate the power amount for each array, and the current, voltage, and power amount for each array are displayed on the web;
(D) The web server 60 calculates an average power amount in units of one hour with respect to the calculated power amount for each array through a web program;
(E) determining whether there is an array indicating an average power amount less than a predetermined range based on the highest average power amount among the average power amounts calculated for each array through the web program in the web server 60;
(F) In the case where there is an array indicating an average amount of electric power in a predetermined range or less, the web server 60 determines that the array is abnormal and transmits a multi-media message service (MMS) message to the manager through automatic connection service by a web program Transmitting a Social Network Service (SNS) or Short Message Service (SMS); And comparing the monitoring results of the photovoltaic power generation array with the monitoring results.
(10) for connecting solar cells to start photovoltaic power generation, a connection panel (20) for collecting electric power in parallel connection and development of the arrays, In the solar power generation system including the inverter 30 and the like,
(A) An array monitoring unit (50) is installed in each part where the array (10) and the connection board (20) are connected to monitor the array (10) Measuring current and voltage flowing through each array;
(B) The array monitoring unit 50 is provided so as to be able to transmit data to the web server 60 having the database (D / B) so that the measured current and voltage for each array are transmitted in real time and recorded in the database step;
(C) The current and voltage data recorded in the database are interlocked with each other through the mobile device (70) mounted with the apps program linked to the web server (60) to calculate the amount of power for each array, Displaying an electric current, a voltage and an electric power amount for each array through an application program;
(D) calculating an average power amount in units of one hour with respect to the calculated power amount for each array through an app program installed in the mobile device 70;
(E) determining whether there is an array indicating an average power amount less than a predetermined range based on the highest average power amount among the average power amounts calculated for each array through the application program installed in the mobile device 70;
F) If there is an array indicating an average amount of power less than a predetermined range through an app program mounted on the mobile device 70, it is determined that the array is abnormal, and an abnormality of the array is displayed on the app, ); And comparing the monitoring results of the photovoltaic power generation array with the monitoring results.

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