KR20070082374A - Solar power plant tracking the sun's position by weather database and the control method - Google Patents

Abstract

A position tracking type solar power plant based on a weather database and a method for controlling the same are provided to reduce an error generated from a conventional sensor scheme by tracking the sun based on the weather information database. A position tracking type solar power plant based on a weather database includes a weather data collection server(10), a calculation unit(20), a plurality of solar collection plates(40), and a plurality of control units(30). The weather data collection server(10) collects weather data of sunrise time, an azimuth, and sunset time and weather information regarding a specific region. The calculation unit(20) calculates an altitude angle and an azimuth of the sun, which indicate a specific position of the sun in specific time and region based on virtual data. The plurality of solar collection plates(40) are installed to be dispersed on a plurality of regions to absorb the sunlight. The plurality of control units(30) are connected to the calculation unit(20), receive the weather information of the specific time and region calculated by the calculation unit(20), and control the solar collection plates(40) to be perpendicular to the sunlight.

Description

Solar power plant tracking the sun's position by weather database and the control method

1 is a view showing the overall configuration of a position tracking photovoltaic device according to the weather database according to the present invention.

2 is a view showing a detailed configuration of a server for processing weather information in the position tracking photovoltaic device according to the weather database according to the present invention.

Figure 3 is a view showing the flow of the control method of the position tracking photovoltaic device by the weather database according to the present invention.

The present invention relates to a position tracking photovoltaic device based on a weather database and a method of controlling the same. More specifically, the sunrise time and azimuth angle of a sun with respect to a specific area in which a solar light collecting plate is installed in order to increase power generation efficiency of the photovoltaic device. Based on a weather database that includes the time of sunset, and other climate information, the sun's direct sunlight can produce the maximum power generation efficiency by calculating the azimuth and altitude angles of the sun indicating the sun's position at a particular point in time. To control the position of the solar light collecting plate 40 to receive the position tracking type photovoltaic device by the weather database to maximize the power generation efficiency of the photovoltaic device and its control method.

Recently, due to the use of fossil energy, serious pollution of the environment has become a social problem, so the development of the so-called clean energy has been actively promoted systematically. One example is the development of solar energy. In order to utilize such solar energy, a process of collecting sunlight is required, but since the sun is always changing its position, there is a problem that the efficiency of the fixed structure is low. Therefore, in recent years, solar tracking devices have been proposed to enable solar energy to be efficiently delivered to solar energy utilizing devices by keeping the solar energy collecting device tracking the direction of the sun.

A solar tracker is a device that measures the altitude or orientation of the sun or allows the solar collector panel of the solar light collector or photovoltaic device to track the sun according to pre-programmed methods in time. Herein, the solar energy collecting panel includes a plate-like panel for absorbing sunlight, such as a solar heat collecting panel that obtains thermal energy from sunlight or a solar power generating panel that obtains electrical energy from sunlight.

These solar tracking devices are largely classified into a coordinate tracking method that tracks the sun by operating the drive motor according to the coordinates calculated by the program, and a light that tracks the sun by controlling the drive motor according to a signal output detected by an optical sensor. There are two types of sensors.

The above coordinate calculation method calculates the altitude and azimuth angle of the sun seen from the earth, and calculates the position of the sun used as the input signal of the tracking system using the earth's motion relations defined in astronomy. The position of the sun is defined using the sun's elevation angle and azimuth angle from the horizon, and the sun's elevation angle is a value expressed by the angle formed by the line segment with the earth's surface by connecting the point where the sun and the solar cell module are installed. In addition, the azimuth angle of the sun is defined as the angle formed by the straight line that points to the true north on the coordinates when the current position of the sun is projected on the earth's surface.

In the calculation of the sun position, a celestial coordinate system is generally used to set a reference coordinate for displaying the sun's trajectory. The celestial sphere is an imaginary imaginary sphere that regards the earth as the center of a sphere of infinite radius. The real earth revolves around an elliptical orbit around a fixed sun, and at the same time rotates about a rotation axis with an angle of inclination of 23.5 degrees. However, in order to derive a relation for calculating the position of the sun, the earth is regarded as a fixed standard, as in the definition of the celestial sphere, the sun rotates once a year along the celestial ecliptic relative to the earth, and the celestial sphere itself rotates once a day It is convenient to use the concept of a virtual celestial sphere.

The ecliptic, which represents the celestial sun trajectory, has an inclination angle of 23.5 degrees from the celestial equator plane and intersects the celestial equator at the vernal equinox and the autumn equinox. In addition, a line connecting the North Pole of the celestial sphere and the South Pole of the celestial sphere and passing through the vernal equinox is called the vernal equinox, which is used as a reference line indicating the position of the celestial sun. In order to calculate the position of the sun, we first need to define the time used in the calculation of the position of the sun. The time used in the calculation of the sun position is a value expressed using the time elapsed therefrom in units of days based on a specific time.

However, the relational equation for calculating the solar position used in the astronomy as described above is very complicated and huge, so that a small calculation error greatly affects the result value. While there is an advantage of being able to follow the sun regardless of the weather condition, cumbersome correction work is necessary due to the accumulation of errors, which is cumbersome to maintain and repair.

On the other hand, the optical sensor method has the advantage that the structure is relatively simple, but if the weather is cloudy, the tracking of the sun is impossible, and if the position of the sun changes considerably over time in this state, the sun is the There is a problem in that the traceable range is narrow since the tracking itself is impossible because the traceable range is out of range.

The present invention has been made to solve the above problems, by maximizing the amount of power generation by driving the solar light collecting plate 40 vertically to the sunlight by tracking the sun by making a database of weather information fully reflected local characteristics The present invention provides a location tracking photovoltaic device using a weather database.

Accordingly, an object of the present invention, in the photovoltaic device for tracking the position of the sun based on the weather database, based on the sunrise time, azimuth, sunset time and climate information of the sun with respect to the specific region in which the photovoltaic device is installed Weather data collection server 10 for collecting weather data as an element, arithmetic means 20 for calculating azimuth and elevation angles of the sun indicating a specific position of the sun at a specific time point and a specific region based on the virtual data. ), A plurality of solar light collecting plates 40 distributed in a plurality of areas to absorb sunlight, and a specific time point of a specific area calculated by the calculating means 20 by wired or wireless connection to the calculating means 20. In the weather database including a plurality of control means 30 for controlling the drive to receive the weather information from the solar light collecting plate 40 perpendicular to the sunlight To provide a tracking type solar power jangchieul for that purpose.

In addition, an object of the present invention is a position tracking photovoltaic device control method using a meteorological database, the weather based on the sunrise time, azimuth, sunset time and climate information of the sun with respect to a specific region in which the photovoltaic device is installed Collecting data; calculating azimuth and elevation angles of the sun indicating a specific position of the sun at a specific time point based on the weather data; azimuth and elevation of the sun calculated by the calculation means 20 It is an object of the present invention to provide a method for controlling a position tracking photovoltaic device using a meteorological database consisting of controlling driving of the solar light collecting plate 40 to be perpendicular to the solar ray according to the angle.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the embodiment of the present invention.

1 is a view showing the overall configuration of a position tracking photovoltaic device according to the weather database according to the present invention.

As shown in FIG. 1, the position tracking photovoltaic device based on the weather database according to the present invention includes a weather based on the sun sunrise time, azimuth angle, sunset time, and climate information of a specific region in which the photovoltaic device is installed. Weather data collection server 10 for collecting data, arithmetic means 20 for calculating azimuth and elevation angles of the sun indicating a specific position of the sun at a specific time point and a specific region based on the virtual data, solar light A plurality of solar light collecting plate 40 distributed in a plurality of areas in order to absorb the light, the weather information at a specific point of time in a specific area, which is wired or wirelessly connected to the calculating means 20 and calculated by the calculating means 20 Received by the solar light collecting plate 40 is composed of a plurality of control means 30 for controlling the drive to be perpendicular to the sunlight.

The meteorological data collection server 10 obtains information about the sun and weather data such as temperature, wind, air pressure, humidity, and clouds of a specific region in real time, and the calculation means 20 is based on the obtained meteorological data. We calculate the azimuth and altitude angles of the sun in a specific area and calculate the size of sunlight according to the weather information. After the calculation, the control means 30 receives the azimuth and elevation angle and weather information of the sun calculated by the calculation means 20 to drive the solar light collecting plate 40 to be perpendicular to the sunlight. At this time, the control means 30 receives the weather data calculated from the calculation means 20 in real time to drive the solar light collecting plate 40 or according to a preset time interval in accordance with the driving of the timer solar light collecting plate ( 40) can be driven. This is because the driving of the solar light collecting plate 40 in real time may be excessive in the driving apparatus.

FIG. 2 is a diagram illustrating a detailed configuration of a server for processing weather information in a location tracking photovoltaic device using a weather database according to the present invention.

As shown in FIG. 2, the meteorological database collection server 10 according to the present invention is a clustering computing system in which a main computer 50 and a plurality of sub computer terminals 60 are connected by a hub or the like to enable parallel processing of data. The main computer is connected to a weather observation system 70 such as a meteorological office, satellite or radar to obtain various kinds of raw weather information from them.

For example, the main computer 50 of the meteorological database collection server 10 transmits raw meteorological information to all regions of the Republic of Korea from meteorological agencies such as the Korea Meteorological Administration and the meteorological observation system 70 operating on satellites, radars, ground and high floors. For each one.

3 is a view showing the flow of the control method of the position tracking photovoltaic device by the weather database according to the present invention.

As shown in FIG. 3, the sunrise time, sunset time, and other weather information of the sun are calculated for each specific region by using the raw weather information acquired by the weather data collection server.

Referring to the operation of the position tracking photovoltaic device by the meteorological database according to the configuration of the present invention as follows.

The meteorological database collecting device collects sun information and weather information for each region, and the calculating means 20 calculates solar information for each region using the collected information and controls means scattered in each region ( 30) is controlled according to the solar information of the region to drive the solar light collecting plate perpendicular to the sunlight.

For example, when the sunrise time of the Mokpo and the azimuth and altitude angle of the sun, and the weather information of the region are calculated to be clear, the control means 30 drives the solar light collecting plate at an angle according to the calculation result so as to be perpendicular to the sunlight. When the sunrise time of Ulsan and the azimuth and elevation angle of the sun were calculated, but the weather information of the region is raining, it is not necessary to drive the solar light collecting plate.

In addition, in the case of Seoul, when the weather becomes cloudy, the time zone during which the sun is obscured by the cloud may be specified, so that the control means 30 calculates the weather information collected by the meteorological database collection device in real time and the solar heat in real time. The light collecting plate may be driven or the solar light collecting plate may be driven at a predetermined time so as to prevent unnecessary operation.

According to the position tracking photovoltaic device and the control method using the meteorological database of the present invention, it is possible to reduce the error caused by the existing sensor method by tracking the sun by the database of weather information, the tracking device used in the past Unlike the control program, it is possible to maximize the amount of power generation while reducing the number of tracking times by eliminating errors caused by the deviation of the broadband weather data by using the solar tracking control method by making weather information on a specific area into a database.

Claims (4)

A photovoltaic device that tracks the position of the sun based on a meteorological database, which collects weather data based on the sun's sunrise time, azimuth, sunset time, and climate information about a specific area where the solar power device is installed. Weather data collection server, Calculation means for calculating azimuth and elevation angles of the sun indicating a specific position of the sun at a specific viewpoint and a specific region based on the virtual data; Multiple solar light collectors distributed in multiple areas to absorb sunlight A meteorological database including a plurality of control means for controlling driving of the solar light collecting plate to be perpendicular to the sunlight by receiving weather information at a specific point of time in a specific area, which is connected to the computing means by wires or wirelessly and calculated by the computing means. Position tracking type photovoltaic device. The meteorological data collection server of claim 1, wherein the meteorological data collection server is in the form of a clustering computing system in which a main computer and a plurality of subcomputer terminals are connected by a hub or the like to enable parallel processing of data. Or connected to a weather observation system such as radar, location tracking type photovoltaic power generation device by the weather database, characterized in that to obtain various kinds of raw weather information from them. The method of claim 1, wherein the control means receives the weather data calculated from the calculation means in real time to drive the solar light collecting plate or, according to the drive of the timer to drive the solar light collecting plate at a predetermined time interval. Location tracking photovoltaic device by meteorological database. Collecting weather data based on the sun sunrise time, azimuth angle, sunset time, and climate information of a specific area in which the photovoltaic device is installed; Calculating azimuth and elevation angles of the sun indicating a specific position of the sun at a specific time point based on the weather data; Controlling driving of the solar light collecting plate to be perpendicular to the sunlight according to the azimuth and elevation angles of the sun calculated by the calculation means; Position tracking type photovoltaic device control method using a weather database consisting of.

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