KR20190053499A - A power supply system connected with solar power generation - Google Patents

Abstract

The present invention provides a power supply system in association with photovoltaic power generation, making a power seller convert solar ray energy into electric power and transmit the electric power to a power purchaser who wants to purchase the electric power, which comprises: a photovoltaic power generation unit arranging one or more solar ray panels converting solar ray energy into direct current power; an inverter converting the direct current power into alternating current power and supplying the alternating power to the power seller; and a maximum power point tracking device connected to the solar ray panel provided to increase power conversion rate when the solar ray energy is converted into the direct current power; a converter connected to the maximum power point tracking device and converting voltage of the direct current power; a control device controlling a power transferring path from the maximum power point tracking device to the inverter or the converter; one or more power transaction servers providing power transaction information, including power sale prices and power transaction specifications to the maximum power point tracking device, the power seller and the power purchaser; and a terminal interconnected with the power transaction servers and a photovoltaic power generation assistance unit.

Description

[0001] The present invention relates to a solar power supply system,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply system using a photovoltaic power generation apparatus, and more particularly, to a technique for enabling a plurality of photovoltaic power generation modules and a communication network to be fused with each other to enable solar power power trading among individuals.

As is generally known, the surge in electric power demand leads to a rapid increase in consumption of energy resources for electric power production, which causes environmental problems as well as economic problems.

Therefore, in order to reduce the environmental burden, wind power generation and solar power generation are attracting attention as new and renewable energy, and these new and renewable energy projects are rapidly emerging as high-tech industries with an annual average growth rate of about 20 to 30%.

In particular, there are wind power generation and geothermal power generation facilities among renewable energy generation facilities. However, since both of the power generation methods are more difficult than solar power generation, the solar power generation system is the most realistic and the speed of spread is also fastest.

In addition, the types of such photovoltaic power generation systems are classified according to the system configuration and the type of the load, and are largely classified into a linkage type and a stand-alone type, and the linkage type uses the electricity obtained from the photovoltaic power generation and the electricity supplied from the power company together If electricity can not be supplied to solar power as late night or bad weather, electricity can be supplied from existing electric power system. On the contrary, if electricity generated by solar power generation is left, electric power can be supplied to electric power company As a system, it is possible to use a system that purchases from electric utilities.

In the case of stand-alone type, it can be defined as a solar power generation system that does not link with a power company and reserves electric power by connecting a battery to prepare for the case where the generation of the solar power generation system can not be expected at night or in case of rain have.

In addition, there is a growing interest in solar power generation systems, and further attention has been focused on the establishment of a system linkage system for PV modules that can increase the efficiency of the power system.

In recent years, various attempts have been made to use renewable energy resources more efficiently, and technologies such as micro grid have been implemented in order to differentiate energy prices according to the production or consumption of energy.

However, in the case of an operating method for determining modeling and operation scheduling of a renewable energy resource stored in a conventional energy storage device, there is no separate operation method for real-time pricing (RTP) and resale of electric power, There was no profit generation effect using renewable energy resources stored in storage devices.

In order to solve such a problem, a method of operating the energy storage device of the application No. 10-2012-0118574 filed in the Korean Intellectual Property Office is filed, so that the power resale of renewable energy resources can be performed at an optimal time, .

However, it is possible to sell electric power only to electric power suppliers such as KEPCO, which has a limited problem in forming the electric power market.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for introducing a block chain technology so that electric power obtained through photovoltaic generation can be exchanged between individuals, And to provide a solar power-linked power supply system capable of forming a free power trading market.

The solar power generation power supply system according to the present invention is a solar power generation power supply system that converts solar energy into electric power at a power sale destination and supplies the electric power to a power purchase destination for purchase, An inverter for converting the DC power into AC power and supplying the AC power to a power sales shop;

A maximum power point tracking device connected to the solar panel, the maximum power point tracking device being provided for raising a power conversion rate when converting solar energy to DC power; A control device connected to the maximum power point tracking device and the converter for controlling a power transfer path from the maximum power point tracking device to the inverter or the converter; And an inverter connector connected to the inverter for allowing the DC power to flow out to the inverter, and a control unit connected to the control unit, the inverter, and the converter of the solar power auxiliary unit, , At least one or more batteries for discharging the stored direct current power to the converter and the inverter A grid connection unit connected to the converter, the grid connection unit being capable of grid connection with a power purchaser; a power supplier and a power purchaser, which are interlocked with the control unit of the solar power auxiliary unit and supply the DC power, At least one power trading server connected to the power sales server and the power purchaser, the power trading server providing power trading information including the power trading price and the power trading details to the power seller and the power purchaser, and a terminal interlocked with the power trading server and the solar power auxiliary unit .

In addition, the grid connection unit is formed to be connected to the converter, and a grid connection inverter is provided to supply DC power stored in the battery pack to a power purchaser, thereby forming a power grid for supplying power.

The control unit includes a micro control unit (MCU) that is interlocked with the terminal and is capable of measuring an amount of power stored in the battery pack, and controls a power path from the maximum power point tracking device to the inverter or the converter .

The terminal may further include a monitoring unit interlocked with the photovoltaic power generation auxiliary unit through the control unit and displaying power amount data including a charging / discharging state of the battery pack.

Finally, the terminal displays the power transaction information received from the power trading server in association with the power trading server transmitting power trading information to the terminal.

The solar power generation power supply system of the present invention can generate revenue by selling residual power to an individual or an organization that requires power rather than performing a limited power sale to the power supplier as described above, It can be monitored in real time, and the electric power obtained through photovoltaic generation can be sold at any time at any time.

1 is a block diagram showing a configuration of a solar power generation power supply system of the present invention.
2 is a plan view showing a solar battery and a battery pack according to the present invention.

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

The accompanying drawings are merely illustrative examples of the present invention in order to more particularly describe the technical concept of the present invention, and therefore the technical idea of the present invention is not limited to the accompanying drawings.

1, which is a block diagram showing a solar power generation power supply system of the present invention, the solar power generation power supply system includes a solar power generation unit 100, a solar power generation auxiliary unit 200, an inverter 300, A battery pack 400, a grid connection unit 500, a power trading server 600, and a terminal 700. [

First, the solar power generation unit 100 includes at least one solar panel. The solar power generation unit 100 converts solar energy into DC power at a power sales shop 800 including a home or a company that sells electric power, And supplies the power including the DC power to a power purchaser 900 including a home or company to purchase.

Particularly, at least one solar panel 110 is provided in the solar power generator 100, and the solar panel 110 is provided with a plurality of solar panels 110 to increase or decrease the amount of power produced by the solar power generator 100 It can be freely detachably attached.

Next, the solar power auxiliary unit 200 includes a maximum power point tracking device 210, an inverter connector 220, a converter 230, and a control device 240. In the solar power generation unit 100, And is provided for transforming the form of power from direct current to alternating current or boosting the voltage of the direct current before the generated power is transmitted from the power selling place 700 to the power purchaser 800.

First, the maximum power point tracking device 210 is provided in the solar power generation auxiliary unit 200 to track the maximum output point of the power generated by the solar power generation unit 100, and more specifically, (MPPT) circuit which can predict the maximum power point based on the voltage value and the current value, thereby enhancing the conversion efficiency when converting solar energy to DC power, So that the power charging efficiency of the battery pack 400 can be increased.

Next, the inverter connector 220 is connected to the maximum power point tracking device 210 and is provided to discharge DC power to an inverter 300, which will be described later.

The converter 230 is connected to the maximum power point tracking device 210 and supplies the DC power to the grid interconnection unit 500 to be described later. It is possible to use a DC-DC converter which converts DC power having different voltages.

The control unit 240 includes a micro control unit (MCU) and is connected to the maximum power point tracking device 210, the inverter connector 220, and the converter 230, To the solar power generator auxiliary part 200 so as to selectively control the maximum power point tracking device 210 to the inverter connector 220 or the converter 230 side.

The operation state of the converter 230 and an inverter 300, which will be described later, can be controlled based on the amount of electric power generated by the solar power generation unit 100 through the microcontrol unit (MCU) And receive power amount data for issuing a renewable energy supply certificate (REC).

The inverter 300 is connected to the inverter connector 220 of the solar power auxiliary unit 200 and converts the DC power into AC power so as to use the AC power independently do.

Next, the battery pack 400 is provided to store surplus electric power, which is the DC power that is not used by the power selling place 800, through the solar power generating auxiliary unit 200, and includes at least a chemical battery One or more.

In particular, when the battery pack 400 stores the DC power converted through the converter 230 and the power generation by the solar power generator 100 is not possible, the DC power stored in the battery pack 400 The battery pack 400 is connected to an inverter 300 that converts DC power into AC power to use the AC power in the power sales shop 800. The battery pack 400 400 may be used in the form of alternating current power at the power sales shop 800. [

In addition, it is needless to say that the number of the battery packs 400 may be increased in order to increase the storage capacity of the DC power.

The DC power stored in the battery pack 400 may be supplied to the converter 230 so as to be transmitted to the grid connection unit 500 to be described later.

The grid connection unit 500 includes a grid connection inverter 510 and is connected to the converter 230 and is provided for transmission to the power purchaser 900. The grid connection unit 500 is connected to the grid connection unit 500, The DC power stored in the battery pack of the power seller 700 may be supplied to the power purchase place 800 and the DC power may be stored in the battery pack 400 by the converter 230, The DC power can be directly transmitted from the converter 230 to the grid interconnection unit 500 without being interrupted.

 The power trading server 600 is interlocked with the control device 240 of the solar power auxiliary unit 200 and is provided for forming a communication network between the power selling place 800 and the power purchasing place 900.

Particularly, the power trading server 600 provides power trading information including power trading price and power trading details to the power selling place 800 and the power purchasing place 900, When the communication network is formed, the surplus power can be traded.

In addition, the formation of the communication network with the power trading server 600 may be structured so that the surplus power can be exchanged through formation of a communication network between an individual, a group, a group, and an organization as well as a communication network between the individuals.

In particular, in order to introduce a block chain transaction technology when forming a communication network through the power trading server 600, at least one power trading server 600 is provided, and a power having a common purpose of trading the surplus power The selling place 800 and the power purchase place 900 can share the power trading information while operating the power trading server 600 so that power trading between the power selling place 800 and the power purchasing place 900 can be performed do.

In addition, the electric power transaction in which the block chain transaction technology is introduced proceeds as follows.

First, when a transaction request is generated from the server of the power purchase place 800 to the server of the power sale destination 900, a transaction data block which is information on the transaction request is generated, and then the validity of the transaction data block is verified The data block is transmitted to a server of another power seller 800 connected to the communication network and a server of the power purchaser 900. [

Then, the validated data block is coupled to the data chain, which is the entire transaction history information between the power seller 800 and the power purchaser 900, and finally the data chain is transmitted to the server of the power seller 800 And stores it in a server of the power purchaser 900 to enable power trading between the power seller 800 and the power purchaser 900.

The terminal 700 is interlocked with the power trading server 600 and the photovoltaic power generation auxiliary unit 200. More specifically, the terminal 700 is transmitted from the control unit 240 of the photovoltaic power generation auxiliary unit 200 And a monitoring unit 710 that receives and transmits power amount data.

In particular, the monitoring unit 710 is connected to the power trading server that transmits power trading information including power trading price and power trading details to the terminal 700, and receives power trading information received from the power trading server, .

Next, a photovoltaic power auxiliary part and a battery pack will be described in more detail with reference to FIG. 2 showing a photovoltaic power auxiliary part and a battery pack of the present invention.

First, the solar power auxiliary unit 200 includes a maximum power point tracking device 210, an inverter connector 220, a converter 230, and a control device 240.

As described above, the maximum power point tracking device 210 is provided in the solar power generation auxiliary unit 200 so as to track the maximum output point of the power generated by the solar power generation unit 100.

In particular, a plurality of maximum power point tracking devices 210 are provided to increase the power charging efficiency of the battery pack 400, which are connected to the at least one battery pack 400.

Next, the inverter connector 220 is connected to the maximum power point tracking device 210 and can be connected to the controller 240 and the inverter 300, which will be described later.

In addition, an inverter terminal 221 may be provided to independently use the power generated by the solar power generation at a power sale destination, and various mechanisms that require electric power may be connected to the inverter terminal 221 when electric power is used .

The converter 230 is connected to the maximum power point tracking device 210 and supplies the DC power to the grid interconnection unit 500 to be described later. It is possible to use a DC-DC converter which converts DC power having different voltages.

In addition, the converter 230 is provided with a converter terminal 231 so as to be able to be connected to the grid interconnection unit.

The control unit 240 includes a micro control unit (MCU) and is connected to the maximum power point tracking device 210, the inverter 220, and the converter 230, To the solar power generator auxiliary part 200 so as to selectively control the maximum power point tracking device 210 to the inverter connector 220 or the converter 230 side.

The inverter 300 is connected to the inverter connector 220 and is provided to convert direct current power through the maximum power point estimating device 210 into alternating current power. The generated DC power is converted into AC power so that it can be used independently.

Next, the battery pack 400 is provided for use as an auxiliary power source when the photovoltaic power generation auxiliary unit 200 is stationary and solar photovoltaic generation due to worsening of the weather is impossible.

Particularly, it is possible to store the electric power generated through solar power generation through the battery pack 400 and use the electric power stored in the battery pack 400 when necessary.

In addition, as described above, it is needless to say that the number of the battery packs 400 may be added in order to expand the storage capacity of the DC power.

As described above, according to the present invention, it is possible to generate revenue by selling residual electric power to an individual or an organization requiring electric power, and to monitor it in real time, so that it is possible to sell electric power obtained through solar power generation at any time And the actual embodiments of the present invention should be determined by the claims of the present invention, as the embodiments described above are only one embodiment with reference to the drawings. do.

100: Solar power generation part
200: Solar power assistant
210: Maximum power point tracking device
220: Inverter connector
221: Inverter terminal
230: Converter
231: Converter terminal
240: Control device
300: Inverter
400: Battery pack
500: grid connection part
510: Grid-connected inverter
600: power trading server
700: terminal
710: Monitoring section
800: Power distributor
900: Where to buy electricity

Claims (5)

1. A photovoltaic power supply system for converting solar energy into electric power at a power sale destination and supplying the electric power to a power purchase destination for purchase,
A solar power generator having at least one solar panel for converting solar energy into DC power;
An inverter for converting the DC power into AC power and supplying the converted AC power to a power sale place;
A maximum power point tracking device connected to the solar panel, the maximum power point tracking device being provided for raising a power conversion rate when converting solar energy to DC power; and a controller connected to the maximum power point tracking device, A control device connected to the maximum power point tracking device and the converter for controlling a power path from the maximum power point tracking device to the inverter or the converter and a controller for controlling the maximum power point tracking device, And an inverter connector connected to the inverter for discharging the DC power to the inverter;
At least one battery pack connected to the control device of the photovoltaic power generation auxiliary unit, the inverter and the converter, for storing DC power inputted from the converter and for discharging the stored DC power to the converter and the inverter;
A grid connection unit connected to the converter, the grid connection unit being capable of grid connection with a power purchaser;
A power selling point for supplying the DC power and a power purchasing destination are connected to each other through a communication network and are connected to the control device of the solar power auxiliary unit, At least one power trading server providing the power trading server; And
And a terminal interlocked with the power trading server and the solar power auxiliary unit. The method according to claim 1,
The grid-
And a grid-connected inverter formed to be connected to the converter, for supplying DC power stored in the battery pack to a power purchaser, and configured to form a power network for supplying electric power. The method according to claim 1,
The control device includes:
And a micro control unit (MCU) capable of measuring an amount of power stored in the battery pack, the micro control unit being interlocked with the terminal, and controlling a power transfer path from the maximum power point tracking device to the inverter or the converter. Photovoltaic power supply system. The method according to claim 1,
The terminal comprises:
And a monitoring unit interlocked with the photovoltaic power generation auxiliary unit through the control unit and displaying a power amount data including a charging / discharging state of the battery pack. The method according to claim 1,
The terminal comprises:
And displays the power trading information received from the power trading server in association with the power trading server transmitting power trading information to the terminal.

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