KR101371687B1 - National power system using new renewable energy and information infrastructure - Google Patents

Abstract

The present invention relates to a national power generation system using renewable energy and communication infrastructure. To this end, the present invention relates to a national power generation system using renewable energy and communication infrastructure for distributing renewable energy units to business participants. Renewable energy generator having a plurality of energy units, an inverter electrically connected to the renewable energy generator, monitors the power status of the renewable energy generator output from the inverter and the power data through a network And a data center for receiving the power data from the data transmission module through the network and the data transmission module for transmitting to the outside, wherein the business participant accesses or visits the data center by wire or wirelessly. You can check in real time It discloses the national power system using renewable energy and telecommunications infrastructure as Jing.

Description

National power system using new renewable energy and information infrastructure

The present invention relates to a national power generation system using renewable energy and communication infrastructure.

In general, the national development system refers to a system in which the public directly participates in the project and participates in the renewable energy fund created by the financial institution designated by the operator to participate in the construction of renewable energy power plants.

Electric power produced by these national power plants is purchased by KEPCO or Korea Electric Power Exchange and RPS mandatory companies and returned to business participants, including the principal, through the financial institutions that participated in the proceeds from the sale price.

However, in the conventional national power generation system, since the communication infrastructure between the project participant and the power plant is not established, the project participant has a problem in that it is impossible to check the power generation amount and power plant information of the renewable energy generation apparatus invested by him / her in real time.

The present invention distributes the operating costs of renewable energy power plants by distributing renewable energy units to business participants by a certain quantity, and is capable of real-time checking power data and related information of renewable energy units distributed through a communication infrastructure. Provide national development system using renewable energy and communication infrastructure.

The national power generation system using renewable energy and communication infrastructure according to the present invention is a national power generation system using renewable energy and communication infrastructure for distributing new and renewable energy units to business participants, and includes a plurality of renewable energy units. Renewable energy generator; An inverter electrically connected to the renewable energy generator; A data transmission module for monitoring a power situation of the renewable energy generation device output from the inverter and transmitting power data to the outside through a network; And a data center for receiving the power data from the data transmission module through the network, wherein the business participant can check the power data in real time by accessing or visiting the data center by wire / wireless. It is done.

The renewable energy generation device may be a solar power generation device, a wind power generation device, tidal power generation device. The renewable energy unit may include an RFID chip attached to one surface. It may further include an environmental sensor for detecting environmental data around the renewable energy generation device. The environmental data may include temperature data, solar radiation data, and wind speed data. The data center includes a database for recording the power data of the renewable energy generation device and personal information of the business participant, a web server for providing a communication service accessible to a personal portable terminal or a personal PC of the business participant. It may include a display device for outputting the current state of the power data. The data center may further include a reader for recognizing the personal portable terminal and matching the new portable energy unit with the RFID chip on which the personal information of the business participant is recorded and the personal portable terminal. The display device includes a main status plate displaying power data and temperature data of the entire renewable energy generation device; It may include a personal status board displaying the power data of the renewable energy unit matched with the business participant. The reader may be installed below the personal dashboard. The communication service may include the current generation amount of renewable energy generation device, daily generation amount, individual generation amount, carbon dioxide reduction amount and pine planting quantity.

According to the national power generation system using the renewable energy and communication infrastructure of the present invention, it is possible to distribute the project cost of the solar power plant by distributing renewable energy units to project participants by a certain quantity, and the project participants are sold using the communication infrastructure. Power data and related information of the received renewable energy unit can be checked in real time.

1 is a block diagram showing a national power generation system using renewable energy and communication infrastructure according to the present invention.
2 is a configuration diagram schematically showing a photovoltaic device according to the present invention.
3 is a plan view schematically showing a display device according to the present invention.
4A is a flowchart illustrating a connection process of a communication service according to the present invention.
4B and 4C are plan views illustrating personal portable terminals of business participants according to the present invention.
5 is a block diagram showing the operation of the national power generation system using renewable energy and communication infrastructure according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can easily carry out the present invention.

1 is a block diagram showing a national power generation system using renewable energy and communication infrastructure according to the present invention, Figure 2 is a schematic diagram showing a photovoltaic device according to the present invention, Figure 3 is the present invention 4A is a flowchart illustrating a connection process of a communication service according to the present invention, and FIGS. 4B and 4C are plan views illustrating a personal portable terminal of a business participant according to the present invention. 5 is a block diagram showing the operation of the national power generation system using renewable energy and communication infrastructure according to the present invention.

1 to 2, the national power generation system 1000 using the renewable energy and communication infrastructure according to the present invention is a renewable energy generation device (not shown), environmental sensor 150, inverter 200, data Transmission module 300 and data center 400.

Referring to FIG. 1, the renewable energy generator (not shown) of the present invention may be composed of a solar power generator 100, a wind power generator, and an tidal power generator. However, the present invention provides the renewable energy generator. It is not limited. In addition, it may be composed of a renewable energy generation device using hydropower, geothermal, bioenergy, waste energy, hydrogen energy.

Hereinafter, the present invention will be described using the photovoltaic device 100 as an embodiment.

As shown in FIG. 2, the photovoltaic device 100 includes a photovoltaic module 110, a structure 120, and an RFID chip 130.

Here, the photovoltaic device 100 may be installed in the water, may be installed on land and buildings.

The photovoltaic module 110 is a commonly used technology configuration, and the photovoltaic module 110, which may be referred to as a core configuration, includes a plurality of solar cells 111 that generate electricity by a semiconductor material that receives sunlight. The module is connected and modularized, and is supported by the support 112 so that light of the sun can be incident almost vertically through an inclined structure formed at a predetermined angle.

According to an embodiment of the present invention, the photovoltaic module 110 is distributed to each business participant 10, the business participant 10 is a power transaction price generated according to the electricity produced by the photovoltaic device 100 Revenues are distributed and paid. For example, in the wind turbine generator and tidal generator, the wind turbines and tidal generators may be distributed to the business participants 10 in a predetermined quantity.

The solar module 110 is placed on an upper surface of the structure 120. Alternatively, the solar cell module 110 may be directly fixed to the structure 120 without the support 112.

The RFID chip 130 is attached to one surface of the solar module 110.

The RFID chip 130 records personal information of the business participant 10 who received the solar module 110A. This information is stored in the database 410 which will be described later.

The environmental sensor 150 detects the amount of insolation and temperature around the photovoltaic device 100 in real time. Information acquired by the environmental sensor 150 is input to the data transmission module 300. Since the electricity generated by the photovoltaic device 100 depends on the amount of insolation and the ambient temperature, the surrounding environment information should be continuously detected.

In addition, the electricity generated by the photovoltaic module 110 is converted into usable power, the electricity is converted to the AC power generally used through a separate inverter 200 to the supply source that requires electrical energy Supply will be made.

The inverter 200 serves to convert DC power into AC since the electricity generated through the photovoltaic device 100 is a DC whose voltage and current are not constant.

At this time, the frequency conversion converter (DC / DC converter, not shown) using the inverter 200 after converting the voltage output through the photovoltaic device 100 to convert the direct current to alternating current to AC do.

In addition, the inverter 200 outputs power data regarding current, voltage, and power produced by the photovoltaic device 100 to the data transmission module 300.

The data transmission module 300 is composed of a remote terminal unit (RTU).

The conventional power exchange has a main task of stable operation of the power system and fair power market operation, and for this purpose, various power data such as power generation, voltage, current, and breaker status information are acquired from power plants and substations nationwide. We operate the energy management system to perform the power generation control as well as the power data acquisition. The remote substation (RTU) is connected to the power facilities in the power plant and substation to acquire system data and transmit it to the energy management system. Operates.

That is, the data transmission module 300 receives power data related to current, voltage, and power produced by the photovoltaic device 100 from the inverter 200 and transmits the data to the data center 400 using a network. . It is also sent to the Korea Energy Management Corporation, Korea Electric Power Corporation and the Korea Electric Power Exchange.

The data center 400 includes a database 410, a web server 420, a display device 430, and a reader 440.

The database 410 is a device for continuously storing power data on current, voltage, and power produced by the solar cell apparatus 100. In addition, it stores the personal information of the business participant 10 recorded in the RFID chip 130, and performs a role of matching the business participant 10 and the photovoltaic module 110A.

The database 410 is composed of a storage device having a very large storage capacity which is used when collectively referring to a randomly accessible mass storage device such as a magnetic drum device and a magnetic disk device. The web server 420 and the display device 430 and the reader 440.

The web server 420 provides a communication service accessible to the personal portable terminal 11 or the personal PC 12 of the business participant 10. The communication service is composed of a web page and a mobile application that can check the current generation amount, daily generation amount, individual generation amount, carbon dioxide reduction amount and pine planting quantity of the photovoltaic device.

Here, in order for the business participant 10 to access the communication service, an access program must be installed in the personal portable terminal 11 or the personal PC 12, and the ID and password registered in the web server 420 Should be

The display device 430 is a display device capable of confirming in real time the status of power data relating to current, voltage, and power produced by the solar cell apparatus 100.

The display apparatus 430 is a personal data board 430A displaying power data of the photovoltaic module 110A matched with the business participant 10 and power data and temperature data of the entire photovoltaic device 100. It includes a main status board 430B.

Referring to FIG. 3, when the business participant 10 directly visits the power plant, the personal participant board 430A includes a personal portable terminal 11 in a reader 440 which will be described later. When recognizing, power data and related information of the distributed solar module 110A are displayed for a predetermined time (30 seconds to 1 minute).

The reader 440 is a device for recognizing the personal portable terminal 11 and is installed below the personal status plate 430A of the display device 430.

Hereinafter, a communication service provided to the personal portable terminal 11 by the web server 420 according to the present invention will be described with reference to FIGS. 4A to 4C.

The business participant 10 accesses the web server 420 through the personal portable terminal 11, downloads and installs an access program, and registers an ID and a password. Here, ID and password registration may be registered as a group when joining the National Development Fund, which will be described later, or may be directly accessed by an individual by accessing the web page.

Thereafter, the connection program is executed (S1). When the access program is executed, the business participant 10 must enter the registered ID and password in the input window (S2). Here, if the connection ID and password are the same as the registration ID and password, the access program is activated, but if it is not the same, the connection is impossible, and if the password is wrong three or more times, the PW search page is automatically moved.

When the access program is activated, the business participant 10 must first select a power plant to which the solar module 110A to which it is distributed (S3).

After that, the phrase "The power plant has been selected" is shown, and the business participant 10 selects the photovoltaic device 100 to which the solar module 110A to which they are sold is sold (S4).

When the photovoltaic device 100 is selected, as shown in FIG. 3B, the entire photovoltaic module 110 of the photovoltaic device 100 appears on the personal portable terminal 11, among which the business participant is selected. The photovoltaic module 110A to which the 10 has been distributed is shown to be distinguishable. Here, when the displayed solar module 110A is selected, a screen as shown in FIG. 3C is displayed on the personal portable terminal 11. Through this, the current generation amount of the photovoltaic device 100, the daily generation amount of the photovoltaic device 100, the individual generation amount of the photovoltaic module 110A received by the business participant 10, the amount of carbon dioxide reduction through the individual generation amount, and Pine planting quantity corresponding to the carbon dioxide reduction amount can be confirmed. In the present invention, the photovoltaic device 100 of the personal portable terminal 11 is schematically illustrated, but may be configured as a screen in which the actual photovoltaic device 100 is reduced, such as a CCTV screen or a satellite screen.

Hereinafter, referring to FIG. 5, a power transaction system according to the present invention will be described.

Electric power trading system according to the present invention is composed of a business participant (10), a business operator (20), a public institution (30), a communication company (40), a power generation company (50) and a financial institution (60).

The operator 20 is a company that constructs, maintains, and manages the national power generation system 1000 using renewable energy and communication infrastructure according to the present invention. Here, the operator 20 may sell the application used in the personal portable terminal 11 to the business participant 10.

In addition, since the operator 20 uses renewable energy, it is possible to obtain profits from carbon credits. Here, the carbon emission right is a system that allows trading of emission rights between businesses that are required to reduce greenhouse gas emissions. This means that if each workplace emits less than the quota allotted, it can sell its surplus to other workplaces, and conversely, if greenhouse gas emissions exceed the quota, other workplaces can buy the credits. .

The operator 20 may pay the profits from the carbon credits to the business participant 10. Here, the payment method may be through cash, gift certificates, electronic money (cyber money) used for electronic commerce, etc., and the present invention is not limited to the payment method of the carbon credit.

The public institution 30 recruits fund participants of the national power generation system 1000 using renewable energy and communication infrastructure, and rents water, buildings, and land used in the solar power plant to the operator 20.

The telecommunication company 40 promotes a joint project with the operator 20, and recruits the fund business participants 10 of the national power generation system 1000 using renewable energy and communication infrastructure. In addition, while providing a communication service to the business participant 10, the information usage fee can be paid.

The subsidiary company 50 is a company that purchases electricity from the operator 20 and generates profits using the electricity.

The financial institution 60 receives the power transaction fee from the generator subsidiary 50 and distributes it to the business participants 10 participating in the fund.

Although the above has been shown and described with respect to the preferred embodiments of the present invention, the present invention is not limited to the above-described embodiment, in the technical field to which the present invention pertains without departing from the spirit of the invention as claimed in the claims. Anyone of ordinary skill in the art can make various modifications, as well as such modifications fall within the scope of the claims.

10: Business participants
100: photovoltaic device 110: photovoltaic module
200: inverter 300: data transmission module
400: data center
1000: National Development System Using Renewable Energy and Communication Infrastructure

Claims (10)

As a national power generation system using renewable energy and communication infrastructure that distributes renewable energy units to business participants,
A renewable energy generator having a plurality of renewable energy units;
An inverter electrically connected to the renewable energy generator;
A data transmission module for monitoring a power situation of the renewable energy generation device output from the inverter and transmitting power data to the outside through a network; And
A data center for receiving the power data from the data transmission module through the network;
The business participant can access or visit the data center by wire or wirelessly to check the power data in real time,
One side of the renewable energy unit is attached to the RFID chip recorded the personal information of the business participants,
The data center includes a database for recording the power data of the renewable energy generation device and personal information of the business participant, a web server for providing a communication service accessible to a personal portable terminal or a personal PC of the business participant. It includes a display device for outputting the status of the power data,
The data center may further include a reader disposed in a power generation site when the business participant visits to recognize a personal portable terminal and matching the new and renewable energy unit with the RFID chip to the personal portable terminal. National development system using renewable energy and communication infrastructure. The method of claim 1,
The renewable energy generation device is a solar power generation device, a wind power generation device, tidal power generation device, characterized in that the national power generation system using renewable energy and communication infrastructure. delete The method of claim 1,
The national power generation system using a renewable energy and communication infrastructure, characterized in that it further comprises an environmental sensor for detecting environmental data around the renewable energy generation device. 5. The method of claim 4,
The environmental data is a national power generation system using renewable energy and communication infrastructure, characterized in that the temperature data, solar radiation data, wind speed data. delete delete The method of claim 1,
The display device
A main status board displaying power data and temperature data of the entire renewable energy generation device;
And a personal status board displaying power data of the renewable energy unit matched with the project participant. The method of claim 8,
The reader is a national power generation system using a renewable energy and communication infrastructure, characterized in that installed under the personal status board. The method of claim 1,
The communication service
National power generation system using renewable energy and communication infrastructure, including the current generation of renewable energy generation, daily generation, individual generation, carbon dioxide reduction and pine planting quantity.

Images