KR101942428B1 - Remote control system of solar power plant with efficiency improvement device - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a remote control system for monitoring power generation status and remotely controlling settings in a solar power generation system of multiple inverter type using Smart String Switching (SSS).
The present invention has the following effects.
That is, it is possible to monitor and integrally manage a plurality of sites to which the photovoltaic power generation system is applied in real time, remotely control the efficiency improvement device according to the power generation situation, and ultimately to effectively manage the power efficiency.

Description

Remote Control System of Solar Power Plant with Efficiency Enhancement Device {omitted}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a remote control system for monitoring power generation status and remotely controlling settings in a solar power generation system of multiple inverter type using Smart String Switching (SSS).

In general, solar cells convert sunlight energy into electrical energy, which uses two types of semiconductors, p-type and n-type, to generate electricity.

When the light is irradiated to the solar cell, electrons and holes are generated inside, and the generated charges move to the P and N poles, and a potential difference is generated between the P and N poles by this phenomenon.

At this time, when a load is connected to the anode of the solar cell, current flows.

These solar cells are connected in series and parallel as needed to be used in a structure that can withstand the natural environment and certain external impacts. Here, the solar cell is the minimum unit for generating electricity, and the solar cell module (PV module) As a minimum unit to produce solar cells, a plurality of solar cells are connected in series and in parallel.

Recently, due to the regulations, etc. related to the oil prices and the environment, despite the economy by excessive initial investment in the development of relying on fossil fuels so many restrictions on existing generator is relatively low, and domain for the conservation of the CO ₂ reduction Global efforts to expand and disseminate renewable energy such as solar and wind power are increasing.

The solar power generation system described above will be described in more detail. The solar power module converts and supplies DC power to usable AC power. In order to derive the maximum conversion efficiency according to the local environment characteristics, various strings This is possible.

The prior art related to such a photovoltaic power generation system is disclosed in Japanese Patent Registration No. 10-1445711. Specifically, the photovoltaic power generation system is provided with a monitoring The proposed system is able to convert the inverter into a string type, a parallel type or a sub array type to determine the optimal inverter efficiency for each situation.

Registration No. 10-1445711 (2014.09.23.)

Problems to be solved by the present invention are as follows.

In other words, we propose a system that monitors and integrates a large number of sites using solar power system in real time, and can remotely control the efficiency improvement device according to the power generation situation.

In order to solve the above problems,

A remote control system (10) for monitoring and remotely controlling power generation status of a solar power generation system (50), said solar power generation system (50) comprising a PV string A PV string portion 500 having a plurality of LEDs 510; An efficiency enhancing device 600 including a plurality of switching PCB modules 610 for transmitting generated power by connecting two PV strings and two inverters respectively or connecting two PV strings to one inverter to transmit generated power; And an inverter unit 700 having a plurality of inverters 710 for converting generated power provided from the efficiency improving apparatus 600 into AC power. The inverter 700 includes a plurality of switching PCB modules 610, The PCB module 610, two PV strings connected thereto and two inverters constitute one channel, and the remote control system 10 is provided with a function for managing a specific site in which the photovoltaic power generation system 50 is installed A management unit 100; An on-site registration information setting unit 200 for registering information on a new site provided with the photovoltaic power generation system 50 and for changing the information on the existing site; When a list of a plurality of sites in which the photovoltaic power generation system 50 is installed is displayed and a specific site is selected, a menu is connected to the site management unit 100 of the site and connected to the site registration information setting unit 200, 300, < / RTI >

The field management unit 100 includes a solar power generation information display unit 110 for displaying generation information including a current generation output value of the solar power generation system 50, a PV string 510 by a switching PCB module 610, 710) and for controlling whether the efficiency enhancing apparatus 600 is operated or not; a remote control unit 120 for checking whether the efficiency enhancing apparatus 600 is operated or not, An account setting unit 140 for registering and modifying a user account, and a field selection unit 150 for accessing a field management unit 100 of another site where the solar power generation system 50 is installed Or < / RTI >

The efficiency controller remote controller 120 controls the voltage and current values of the PV string 510 and the power value of the inverter 710 and the connection state of the PV string 510 and the inverter 710 by the switching PCB module 610 A main status information display unit 121 for displaying main status information including the main status information including the main status information including the main status information and the channel number for each switching PCB module 610, a test mode setting unit 122 for setting a driving mode or operation mode of the efficiency improvement apparatus 600, And an environment setting value changing unit 123 for changing an environment setting value including a power value and a maximum value and a minimum value of the efficiency improving apparatus 600,

The collected data report output unit 130 outputs development history data report for inquiring the generation history data including the time generation output for a specific period and the status information of the activated switching PCB module 610 and outputting the query result as a report An efficiency improving device history data output unit for inquiring the environment setting values including the power value, the maximum value and the minimum value for each channel of the efficiency improvement device 600 for a specific period by time, 132, an error history data report output unit 133 for inquiring the equipment of the photovoltaic power generation system 50 for a specific period or a communication error occurrence history of the remote control system 10 and outputting the report as a report This paper proposes a remote control system of solar power plant with efficiency enhancing device.

The present invention has the following effects.

That is, it is possible to monitor and integrally manage a plurality of sites to which the photovoltaic power generation system is applied in real time, remotely control the efficiency improvement device according to the power generation situation, and ultimately to effectively manage the power efficiency.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a configuration of a solar power generation system;
Fig. 2 is a diagram showing a state of a string mode (a) and a parallel mode (b) according to an efficiency enhancing device;
3 is a block diagram showing a configuration of a remote control system;
4 is a block diagram showing a configuration of a field management unit;
FIG. 5 is an exemplary screen for a site overall. FIG.
6 to 7 are exemplary screens for the solar power generation information display section.
8 is an exemplary screen for a remote controller of the efficiency enhancing device.
Figure 9 is an example screen for a collection data report output.
10 is an exemplary screen for an account setting unit;
11 is an exemplary screen for the field registration information setting unit;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the scope of the present invention should be understood from the description of the claims. Further, the description of known technology which obscures the gist of the present invention is omitted.

The present invention relates to a remote control system (10) for monitoring the power generation status of a solar power generation system (50) and remotely controlling settings.

The photovoltaic power generation system 50 includes a PV string unit 500, an efficiency enhancement unit 600, and an inverter unit 700 as shown in FIG.

The PV string part 500 is composed of a plurality of PV strings 510 and the PV string 510 is composed of a plurality of PV modules 511.

The efficiency enhancing device 600 is composed of a plurality of switching PCB modules 610. The switching PCB module 610 connects the two PV strings and the two inverters to each other to transmit the generated power or to connect the two PV strings to one It is connected to the inverter and transmits power generation power. 'Smart String Switching' is abbreviated as 'SSS' is also called.

More specifically, as shown in FIG. 2, when the generation amount is high due to a high solar radiation amount on a clear day, the PV string 510 and the inverter 710 are connected at a ratio of 1: 1 as shown in FIG. 2 (a) ) The power generation efficiency can be improved by the individual MPPT method of each PV string 510. In addition, the inverters 710 are composed of multiple units, which makes it possible to cope with dispersion when a fault occurs. On the other hand, when the solar radiation amount on the cloudy day is low and the power generation amount is low, the power from the two PV strings 510 is switched to 2: 1 in the switching PCB module 610 to transfer the power from the two PV strings 510 to one inverter 710 (Parallel mode). That is, when the power generation amount is low, the inverter can be operated halfway, which improves the efficiency of the inverter and increases the service life.

Each of the switching PCB modules 610 is assigned a unique channel number so that each switching PCB module 610 and two PV strings and two inverters connected thereto constitute one channel. Referring to FIG. 2, two PV strings 510 are connected to the front end of one switching PCB module 610, and two inverters 710 are connected to the rear end of the one PV module string.

The inverter unit 700 includes a plurality of inverters 710 and the inverter 710 converts generated power provided from the efficiency increasing apparatus 600 into AC power. The electric power from the inverter unit 700 is collected and transmitted to the electric power system 900 through the distribution board 800. [

3, the remote control system 10 includes a field management unit 100, a field registration information setting unit 200, and a field collecting unit 300.

The site registration information setting unit 200 provides the function of registering the information of the new site where the photovoltaic power generation system 50 is installed and changing the information of the existing site as shown in FIG. The number of PV modules connected in series, the number of PV modules connected in parallel, the pump capacity, the cooling tank capacity, the snow removal tank capacity, the field image, the site The date of registration of the site, and the like.

5, the site collecting unit 300 displays a list of a plurality of sites where the photovoltaic power generation system 50 is installed, selects a specific site, connects the site to the site management unit 100 of the site, ). ≪ / RTI > As shown in the figure, when the present generation output amount and the spot photograph are displayed together, it is possible to grasp the power generation output for each site at a glance. You can also provide additional search boxes to search and find the site name.

The site management unit 100 provides a function of managing a specific site installed with the solar power generation system 50 and includes a solar power generation information display unit 110, an efficiency enhancement device remote control unit 120, An output unit 130, an account setting unit 140, and a site selection unit 150. FIGS. 6 to 11 show examples of screens for each configuration, and a menu for entering the screen of each configuration on the left side as shown in FIG.

The solar power generation information display unit 110 displays the generation information including the current generation output value of the solar power generation system 50 and includes an integrated information display unit 111 for displaying the integrated generation information including the current generation output value and the current generation amount And a detailed information display unit 112 for displaying detailed development information including the DC power value for each channel of the switching PCB module 610.

6, the integrated information display unit 111 includes a current power output display unit 111a, a daily power generation amount display unit 111b, a main power generation amount information display unit 111c, an environment information display unit 111d and a power generation site information display unit 111e do.

The current generation output display unit 111a is a graphical representation of the current generation output value obtained by summing the current generation amounts of the inverters 710 in units of a predetermined time. The current generation output display unit 111a can be represented by a semi-circular bar type chart and a chart, At the center of the chart, the current power output number, unit (kW), minimum power generation (0) and maximum power generation capacity (field capacity) can be displayed. Therefore, the number of the central part of the chart changes within the range of the minimum power generation amount to the maximum power generation amount, and is updated at intervals of one minute.

The daily power generation amount display unit 111b displays a daily graph of the total daily power generation amount of the relevant site during a period from a few days to the previous day in a daily graph together with the maximum irradiation amount. , And the maximum solar radiation can be superimposed on the line graph. The total daily power generation is calculated as the sum of the accumulated power generation values of each inverter.

Key generation information display unit (111c) is a part that displays the numerical key generation information, including today's power generation, the current month power generation amount, the cumulative electric power generation quantity of the scene, specifically, today's power generation, the current month generation, previous month power generation amount, accumulated power generation, CO ₂ Reduction , And power plant operation efficiency.

The environmental information display unit 111d displays environmental information including the solar radiation amount, wind speed, and temperature at the relevant site in numerical form and displays the environmental information. Specifically, the environmental information display unit 111d displays environment information such as an oblique solar radiation amount, a horizontal solar radiation amount, a wind speed, a module temperature, The measured value can be displayed in real time.

The power generation site information display unit 111e displays the site configuration information including the maximum power generation value that can be generated at the site. As shown in the figure, the site site information and a link to the representative drawing of the site are provided together with the site equipment information You may.

7, the detailed information display unit 112 includes a current power generation output display unit 112a, a main power generation amount information display unit 112b, a channel-by-channel power generation status display unit 112c, and a current generation output display unit 112d.

The current generation output display unit 112a is a graphical representation of the current generation output values obtained by summing the current generation amounts of the inverters 710 in units of a predetermined time and can be configured in the same manner as the current generation output display unit 111a of the integrated information display unit have.

The main power generation information display part 112b is a part for digitizing and displaying the main power generation amount information including the daily power generation amount, current power generation amount and cumulative power generation amount of the site, and can be configured in the same manner as the daily power generation amount display part 111b of the integrated information display part.

The channel-by-channel power generation status display unit 112c is a part for numerically displaying the power generation status value for each channel including the DC power value for each channel in units of a predetermined time, and displays the DC voltage value, the DC current value, And the status of the corresponding channel (whether it is in operation) can be displayed as a green or red circular mark. It is desirable that the numerical value and the status are updated at intervals of one minute to enable real-time monitoring.

The present day output display section 112d is a part that graphically shows the present generation output value at a predetermined time in units of time from several hours before to immediately before. It is displayed by a line graph. It is also updated every minute and can be monitored in real time. The horizontal axis shows the power generation trend for a day at a glance when the time is displayed in the range of 24 hours, and the vertical axis shows the range from the minimum power generation amount (0) to the maximum power generation amount (applied field capacity).

The efficiency enhancing device remote controller 120 is for controlling the connection of the PV string 510 and the inverter 710 by the switching PCB module 610 and controlling whether the efficiency enhancing device 600 is operating. A test mode setting unit 122, and an environment setting value changing unit 123, as shown in FIG.

The main status information display unit 121 displays the voltage and current values of the PV string 510 and the power value of the inverter 710 and the connection status of the PV string 510 and the inverter 710 by the switching PCB module 610 The main status information is displayed for each switching PCB module 610 together with the channel number. As shown in the figure, when the connection state of the PV string and the inverter is indicated by a power flow diagram (yellow solid line), 1: 1 connection or 2: It can be grasped at a glance. Each channel is activated as much as the number of efficiency enhancing devices applied to the PV plant site.

The test mode setting unit 122 is a unit for setting the drive mode or the operation mode of the efficiency enhancement apparatus 600. The test mode setting unit 122 may be configured to select one of the automatic mode, the string mode, and the parallel mode, Thereby remotely controlling the enhancing device 600. The string mode is the switching state of FIG. 2 (a), the parallel mode is the switching state of FIG. 2 (b), and the automatic mode allows the environmental sensor to automatically select the string mode or the parallel mode.

The environment setting value changing unit 123 is a unit for changing the environment setting value including the power value and the maximum value and the minimum value of the efficiency enhancing apparatus 600. The environment setting value changing unit 123 can confirm the current setting value and change the numerical value by remote control.

The collected data report output unit 130 is a unit for inquiring data collected by the remote control system 10 and outputting the data as a report. The collected data report output unit 130 includes a power generation history data report output unit 131, Unit 132, and an error history data report output unit 133.

The generation history data report output unit 131 is a unit for inquiring the generation history data including the time generation output for a specific period and the status information of the activated switching PCB module 610 and outputting the inquiry result in a report, You can view the history in a table form, and select the desired elements to display them in a graph. It also provides the ability to generate, save, and print data reports over time for each element.

The efficiency enhancing device history data output unit 132 is a part for inquiring the environment setting values including the power value, the maximum value and the minimum value of each channel of the efficiency enhancing device 600 for a specific period by time and outputting the inquiry result as a report , You can also look up the history of the efficiency improvement device (SSS) in a table form, and select desired elements and check them in a graph. It also provides the ability to generate, save, and print data reports over time for each element.

The error history data report output unit 133 is a unit for inquiring the equipment of the solar power generation system 50 for a specific period or the communication error occurrence history of the remote control system 10 and outputting it as a report, In the form of a table, or a graph of a specific element, and to generate, store, or output a report related to the graph.

The account setting unit 140 is a part for registering and modifying a user account. As shown in FIG. 10, the account setting unit 140 may authorize a user account that can use the remote control system 10, or display a contact name, a contact name, . It is preferable that the user is connected to the remote control system 10 with the registered account, and is connected to the site generalization unit 300 immediately after logging in.

The site selection unit 150 is a part for connecting to the field management unit 100 of another site installed with the photovoltaic power generation system 50. The site selection unit 150 can be implemented as a menu on one side of the screen as shown in FIGS. When a specific site is selected from the list, the screen is switched to the field management unit 100 of the corresponding site.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be clear to those who have knowledge.

10: Remote control system
100: field manager
110: Solar power generation information display part
111: Integrated information display unit
111a: Current power output display part
111b: Daily power generation indicator
111c: Main power generation information display section
111d: environmental information display section
111e: Power generation site information display section
112: Details display section
112a: current generation output display section
112b: Main power generation information display section
112c: Power generation status display unit for each channel
112d: Today's power generation output display section
120: Efficiency enhancement device remote control unit
121: main status information display section
122: Test mode setting section
123: environment setting value changing section
130: Collected data report output unit
131: Generation history data report output section
132: Efficiency enhancement device history data output section
133: Error history data report output section
140: Account setting section
150: field selection unit
200: field registration information setting unit
300: Field General Department
50: Solar power system
500: PV string part
510: PV string
511: PV module
600: Efficiency enhancement device
610: Switching PCB module
700: Inverter section
710: Inverter
800: Distribution board
900: KEPCO system

Claims (4)

A remote control system (10) for monitoring the power generation status of a solar power generation system (50) and remotely controlling settings,

The solar power generation system (50)
A PV string part 500 composed of a plurality of PV strings 510 constituted by a plurality of PV modules 511;
An efficiency enhancing device 600 including a plurality of switching PCB modules 610 for transmitting generated power by connecting two PV strings and two inverters respectively or connecting two PV strings to one inverter to transmit generated power;
And an inverter unit (700) having a plurality of inverters (710) for converting generated power provided from the efficiency increasing apparatus (600) into AC power,
A unique channel number is assigned to each switching PCB module 610 so that each switching PCB module 610 and two PV strings and two inverters connected thereto constitute one channel,

The remote control system (10)
A field management unit 100 for providing a function of managing a specific site installed with the photovoltaic power generation system 50;
An on-site registration information setting unit 200 for registering information on a new site on which the photovoltaic power generation system 50 is installed and for changing the information on the existing site;
When a list of a plurality of sites in which the photovoltaic power generation system 50 is installed is displayed and a specific site is selected, a menu is connected to the site management unit 100 of the site and connected to the site registration information setting unit 200, 300, < / RTI >

The field manager (100)
A solar power generation information display unit 110 for displaying generation information including the current generation output value of the solar power generation system 50,
An efficiency enhancing device remote controller 120 for checking the connection state of the PV string 510 and the inverter 710 by the switching PCB module 610 and controlling whether the efficiency enhancing device 600 is operated,
A collected data report output unit 130 for inquiring data collected by the remote control system 10 and outputting the data as a report,
An account setting unit 140 for registering and modifying a user account,
And a field selection unit (150) for connecting to the field management unit (100) of another field installed with the photovoltaic power generation system (50)

The efficiency enhancement device remote control unit 120
The main status information including the voltage and current values of the PV string 510 and the power value of the inverter 710 and the connection status of the PV string 510 and the inverter 710 by the switching PCB module 610, 610, a main status information display unit 121,
A test mode setting unit 122 for setting a drive mode or an operation state of the efficiency improvement apparatus 600,
And an environment setting value changing unit 123 for changing an environment setting value including a power value and a maximum value and a minimum value of the efficiency improving apparatus 600
Remote control system of solar power plant with efficiency improvement device.
The method according to claim 1,
The collected data report output unit 130 outputs
A generation history data report output unit 131 for inquiring generation history data including a time generation output for a specific period and status information of the operated switching PCB module 610 and outputting a query result to a report,
An efficiency enhancing device history data output unit 132 for inquiring the environment setting values including the power value, the maximum value and the minimum value per channel of the efficiency enhancing device 600 for a specific period by time, and outputting a query result as a report,
And an error history data report output unit (133) for inquiring the equipment of the solar power generation system (50) or the communication error occurrence history of the remote control system (10) for a specific period and outputting it as a report
Remote control system of solar power plant with efficiency improvement device.

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