KR20190064761A - Management system for solar photovoltaic apparatus and management method therefor - Google Patents

Abstract

According to the present invention, an operation system of a photovoltaic device comprises: a plurality of photovoltaic devices; a provider server for managing the plurality of photovoltaic devices; a card issuer server for providing points using card payment information related to a user of the photovoltaic devices; and a financial corporation server for updating credit amount information by deducting the points provided from the card issuer server from the credit amount information of provider associated with the provider server, and providing the updated credit amount information to the provider server.

Description

TECHNICAL FIELD [0001] The present invention relates to a photovoltaic apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002]

In recent years, stability and economic viability of nuclear power plants have attracted a great deal of social attention. Accordingly, it has become a national task to increase the amount of electric power generated by power generation devices using renewable energy such as solar power generation and wind power generation.

However, in order to install power generation devices using renewable energy such as photovoltaic power generation and wind power generation, even if the subsidy of the state is supported, the user must feel the economic burden.

Accordingly, there is a demand for an operating system that can maximize the profit of a business even if a power generation device using renewable energy is installed for a user free of charge.

Korean Patent Laid-Open Publication No. 10-2013-0082925: Method and system for saving energy using differential carbon emission rights according to generation sources (disclosed on July 22, 2013).

An object of the present invention is to provide an operation system for a photovoltaic power generation apparatus and a method for operating the same, which can maximize profits of a business operator while eliminating cost burden on the side of a user It has its purpose.

It is another object of the present invention to provide an operating system and a method for operating the solar power generation device that can easily determine whether or not the solar power generation device is abnormal.

The operation system of the photovoltaic device according to the preferred embodiment of the present invention includes a plurality of photovoltaic devices; A provider server managing the plurality of solar power generation devices; A card issuer server for providing points using card settlement information concerning the user of the photovoltaic device; And a financial server for updating the loan amount information by deducting the points provided by the credit card company server from the loan amount information of the business entity associated with the business entity server and transmitting the information to the business entity server.

Specifically, the business server generates carbon trading information using power generation amount information of the plurality of photovoltaic devices.

The operation system of the photovoltaic device according to the present invention further includes an exchange server for receiving the carbon transaction information from the provider server and transferring money corresponding to the carbon transaction information to the account of the provider associated with the provider server .

In addition, the vendor server may receive power generation amount information from the plurality of photovoltaic power generation devices, and may use the power generation amount information to determine whether the photovoltaic power generation device is abnormal. Specifically, the provider server calculates a corrected generation amount by correcting the generation amount information of each solar photovoltaic device using weather information, calculates an average value of corrected generation amounts of a plurality of grouped photovoltaic devices, And comparing the average value with the corrected generation amount information of the photovoltaic generator to determine whether the photovoltaic generator is abnormal. In addition, the provider server may receive weather information from a weather server providing weather information and a location of a weather observation station equipped with an AWS (Automated Weather Station) It is preferable to calculate the corrected generation amount using the weather information of the observation point.

Further, the weather information includes temperature and humidity information, and the provider server calculates a corrected generation amount by applying a weight to the temperature and humidity information.

A method of operating a photovoltaic device according to one preferred embodiment of the present invention includes the steps of: (a) receiving a generation amount information from a photovoltaic device; (b) the card issuer server receives the card settlement information related to the user of the photovoltaic device, and generates point information using the card settlement information; And (c) a financial institution server receiving point information from the credit card company server and deducting points provided by the credit card company server from loan amount information of a business entity associated with the business server, thereby calculating loan amount information And transmitting the information to the business server.

According to another aspect of the present invention, there is provided a method of operating a photovoltaic power generation system, the method comprising: generating carbon trade information using the power generation amount information received in the step (a); And (e) transferring money corresponding to the carbon transaction information to the account of the provider connected to the provider server using the carbon transaction information received in the step (d) by the exchange server .

Further, the method of operating the photovoltaic device of the present invention may further include: (f) determining whether the photovoltaic device is abnormal using the power generation amount information received in the step (a) .

Specifically, the step (f) includes the steps of: (f-1) calculating, by the business server, a corrected generation amount obtained by correcting the generation amount information of each of the photovoltaic power generation devices using weather information; (f-2) calculating an average value of corrected generation amounts of a plurality of pre-grouped photovoltaic devices; And (f-3) comparing the calculated average value with corrected generation amount information of the photovoltaic device to determine whether the photovoltaic device is abnormal.

In addition, the provider server may receive weather information from a weather server providing weather information and a location of a weather observation station equipped with an AWS (Automated Weather Station) It is preferable to calculate the corrected generation amount using the weather information of the observation point.

Further, the weather information includes temperature and humidity information, and the provider server calculates a corrected generation amount by applying a weight to the temperature and humidity information.

According to the operating system and operation method of the photovoltaic device of the present invention, it is possible to maximize the profit of the operator while eliminating the cost burden on the side of the user, and to easily judge whether or not the photovoltaic power generator is abnormal.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram of an operation system of a preferred photovoltaic device according to the present invention. FIG.
2 is a flowchart of a method of operating a solar power generation apparatus according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an operation system and a method of operating the solar power generation apparatus according to embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the following embodiments of the present invention are only for embodying the present invention and do not limit or limit the scope of the present invention. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims.

A preferred solar power generation system operating system 100 of the present invention provides a user of the solar power generation apparatus 110, which is a consumer, with a solar power generation apparatus 110 free of charge from a vendor side, do. In return, the user needs to subscribe to a designated card and commit to using a certain amount of the card. In addition, it is possible for the vendor to receive the card reduction according to the use of the card of the user and the carbon reduction effect on the power generation amount, which is the power generated by the solar power generation device 110.

That is, even if the installation cost of the solar power generation apparatus 110 is not directly received by the user, the operator can benefit from the carbon reduction benefit and the card point.

First, FIG. 1 shows a configuration diagram of an operation system 100 of a preferred photovoltaic apparatus 110 according to the present invention.

1, a preferred solar power generation system operating system 100 of the present invention includes a plurality of solar power generation devices 110, a provider server 120, a credit card company server 130, a financial company server 140 and an exchange server 150.

Each of the photovoltaic power generation devices 110 generates electric energy using sunlight. Each of the photovoltaic power generation devices 110 preferably has a power generation amount measurement function for measuring power generation amount in real time and a communication function for transmitting the information to the vendor server 120 and receiving information from the vendor server 120.

The provider server 120 can manage a plurality of photovoltaic devices 110 using a communication network. In addition, the provider server 120 generates carbon trade information using the power generation amount information of the plurality of photovoltaic devices 110.

The card issuer server 130 serves to provide points by using the card settlement information concerning the user of the solar power generation apparatus 110. [

The financial company server 140 updates the loan amount information by deducting the points provided by the credit card company server 130 from the loan amount information of the business entity associated with the business entity server 120 and transmits the information to the business entity server 120. [ Lt; / RTI > That is, after deducting the amount corresponding to the point of the loan amount including the interest of the operator, the financial company server 140 requests the loan to the provider server 120.

The exchange server 150 receives the carbon transaction information from the provider server 120 and transfers the money corresponding to the carbon transaction information to the account of the provider connected to the provider server 120. [ In some cases, the exchange server 150 receives the carbon transaction information from the provider server 120, and transfers the money corresponding to the carbon transaction information to the financial company server 140. In this case, after subtracting the amount corresponding to the money corresponding to the point and the carbon transaction information among the loan amount including the interest of the business operator, the financial company server 140 requests the business server 120 to repay the loan.

The provider server 120 of the present invention can manage a plurality of photovoltaic devices 110 using a communication network from a remote place.

For example, the provider server 120 receives power generation amount information from a plurality of photovoltaic power generation devices 110, and determines whether the photovoltaic power generation device 110 is abnormal based on the power generation amount information. In addition, the provider server 120 transmits an abnormal signal to the terminal of the user of the photovoltaic apparatus 110 determined to be abnormal, so that the problem occurring in the photovoltaic apparatus 110 can be solved.

Hereinafter, a method for determining whether or not the photovoltaic apparatus 110 is abnormal by the vendor server 120 will be described in detail.

The provider server 120 calculates the corrected generation amount by correcting the generation amount information of each of the photovoltaic apparatuses 110 using the weather information. Next, the provider server 120 calculates an average value of corrected generation amounts of a plurality of photovoltaic devices 110 grouped in advance, compares the calculated average value with corrected generation amount information of the photovoltaic generator, It is determined whether or not the power generation device 110 is abnormal.

The reason why the provider server 120 calculates the corrected power generation amount is that the amount of power generated by the photovoltaic power generator 110 increases or decreases not due to an abnormality of the photovoltaic power generator 110 itself but due to a meteorological factor Because it is a possibility, it is to exclude meteorological factor.

In addition, in order to facilitate the determination of the abnormality by grouping the solar power generation apparatuses 110 having similar environmental factors in advance, the power generation amount between the solar power generation apparatuses 110 placed in a similar environment is compared.

For example, when the corrected power generation amount of the solar power generation apparatus 110 for one week deviates from the average value of the corrected power generation amount of a plurality of grouped photovoltaic power generation apparatuses 110 by a predetermined ratio or more, It can be determined that an abnormality has occurred in the solar cell generator 110.

In addition, the provider server 120 needs to receive the weather information from the weather server providing weather information and the location of the weather observation point where AWS (Automated Weather Station) is installed. By receiving the weather information from the weather server, the service provider server 120 can acquire the current weather information in real time and update the current weather information at predetermined time intervals. Accordingly, the vendor server 120 can calculate the corrected generation amount using the updated weather information at predetermined time intervals.

For reference, AWS can acquire weather information in real time from a weather server providing weather information and the location of the weather observation point where it is installed. There are about 600 AWS installed in Korea, and the average distance between each observation point is about 10km. In addition, the weather server provides latitude, longitude, wind direction, wind speed, temperature, humidity, and precipitation information of each observation point.

In addition, the provider server 120 of the present invention uses the location information of the photovoltaic power generation apparatus 110 and the distance information of each observation point to determine whether the received weather information is the closest to the photovoltaic power generation apparatus 110 It is preferable to calculate the corrected generation amount using the weather information of the observation point at which it is located.

In addition, the weather information includes temperature and humidity information. The provider server (120) is characterized in that the generation amount information received from a plurality of photovoltaic devices (110) is corrected by applying a weight to temperature and humidity information. That is, generally, when the temperature is high, the solar heat is strong and the power generation amount is high, and when the humidity is high, the solar heat is weak and the power generation amount is low. Experimentally, the correlation with the generation amount of temperature and humidity is applied to the temperature and humidity information The weight can be calculated.

2 is a flowchart of a method of operating the solar power generation apparatus 110 according to a preferred embodiment of the present invention.

 Since the method of operating the solar power generation apparatus 110 according to the preferred embodiment of the present invention uses the operating system 100 of the solar power generation apparatus according to the preferred embodiment of the present invention described above, It is to be understood that the present invention includes all the features of the operating system 100 of the photovoltaic device according to the preferred embodiment of the present invention.

2, the method for operating the solar power generation apparatus 110 according to the preferred embodiment of the present invention includes the steps of (1) receiving the generation amount information from the solar power generation apparatus 110 (S20) of receiving card payment information about the user of the photovoltaic power generation apparatus 110 and generating point information using the card payment information, and the financial company server 140, Receives the point information from the card issuer server 130, updates the loan amount information by subtracting the point provided by the card issuer server 130 from the loan amount information of the provider associated with the provider server 120, To the provider server 120 (S30).

The method for operating the photovoltaic power generation apparatus 110 of the present invention includes generating carbon trade information using the power generation amount information received by the business server 120 in step S10 and transmitting the generated carbon trade information to the exchange server 150 S40) and the step S50 of transferring the money corresponding to the carbon transaction information to the account of the provider connected to the provider server 120 using the carbon transaction information received in step S40 .

The method of operating the solar power generation apparatus 110 of the present invention may further include a step S60 of determining whether the solar power generation apparatus 110 is abnormal based on the power generation amount information received by the business server 120 in operation S10, .

Specifically, in step S60, the business server 120 calculates a corrected power generation amount by correcting the power generation amount information of each of the photovoltaic power generation units 110 using the weather information (S61) (S62) of calculating an average value of the corrected power generation amount of the apparatus 110, and comparing the calculated average value with the corrected power generation amount information of the solar power generation apparatus 110 to determine whether or not the solar power generation apparatus 110 is abnormal (Step S63).

The provider server 120 receives the weather information from the weather server providing the weather information and the location of the weather observation point where the AWS is installed, And the corrected generation amount is calculated using the weather information of the observation point located at a nearby location. In addition, the weather information includes temperature and humidity information, and the provider server 120 applies a weight to the temperature and humidity information to calculate a corrected generation amount obtained by correcting the generation amount information received from the plurality of photovoltaic devices 110 .

As described above, according to the operating system 100 of the photovoltaic device of the present invention and the operating method thereof, it is possible to maximize the profit of the operator while eliminating the cost burden on the side of the user, It can be easily judged whether or not an abnormality has occurred.

100: Operating system of photovoltaic device
110: Photovoltaic device
120: provider server
130: Card issuer server
140: Financial company server
150: Exchange server

Claims (12)

In an operation system of a photovoltaic device,
A plurality of photovoltaic devices;
A provider server managing the plurality of solar power generation devices;
A card issuer server for providing points using card settlement information concerning the user of the photovoltaic device; And
And a financial server for updating the loan amount information by deducting the points provided by the credit card company server from the loan amount information of the provider associated with the provider server and transmitting the information to the provider server Photovoltaic device operation system. The method according to claim 1,
The provider server,
Generating carbon trade information using power generation amount information of the plurality of solar power generation devices,
The operation system of the photovoltaic power generation apparatus,
And an exchange server for receiving the carbon transaction information from the provider server and transferring money corresponding to the carbon transaction information to the account of the provider associated with the provider server. The method according to claim 1,
The provider server,
Wherein the power generation unit receives power generation amount information from the plurality of photovoltaic power generation units and determines whether the photovoltaic power generation unit is abnormal based on the power generation amount information. The method of claim 3,
The provider server,
Calculating a corrected power generation amount by correcting the power generation amount information of each of the photovoltaic power generation devices by using the weather information, calculating an average value of corrected power generation amounts of a plurality of grouped photovoltaic power generation devices, And the power generation amount information is compared with each other to determine whether or not the photovoltaic power generation apparatus is abnormal. 5. The method of claim 4,
The provider server,
The weather information is received from the weather server providing weather information and the location of the weather observation station installed with AWS (Automated Weather Station), and the weather information of the observation point located closest to the corresponding solar power generation apparatus among the received weather information is used To calculate a corrected power generation amount. The method according to claim 4 or 5,
The meteorological information includes temperature and humidity information,
Wherein the provider server applies a weight to the temperature and humidity information to calculate a corrected power generation amount. In a method of operating a photovoltaic device,
(a) a business server receiving power generation amount information from a photovoltaic generation device;
(b) the card issuer server receives the card settlement information related to the user of the photovoltaic device, and generates point information using the card settlement information; And
(c) The financial company server receives the point information from the credit card company server, updates the loan amount information by deducting the point provided by the credit card company server from the loan amount information of the provider associated with the provider server, To a server of a business operator. 8. The method of claim 7,
The method for operating the photovoltaic power generation apparatus includes:
(d) generating carbon trade information using the electricity generation amount information received in the step (a) and transmitting the carbon trade information to an exchange server; And
(e) transferring money corresponding to the carbon transaction information to the account of the provider connected to the provider server using the carbon transaction information received in the step (d) by the exchange server Wherein said method comprises the steps of: 8. The method of claim 7,
The method for operating the photovoltaic power generation apparatus includes:
(f) determining whether the photovoltaic apparatus is abnormal based on the power generation amount information received in the step (a) by the server server. 10. The method of claim 9,
The step (f)
(f-1) calculating, by the provider server, a corrected generation amount obtained by correcting the generation amount information of each of the photovoltaic power generation devices using the weather information;
(f-2) calculating an average value of corrected generation amounts of a plurality of pre-grouped photovoltaic devices; And
(f-3) comparing the calculated average value with corrected generation amount information of the photovoltaic generator to determine whether the photovoltaic generator is abnormal or not. 11. The method of claim 10,
The provider server,
The weather information is received from the weather server providing weather information and the location of the weather observation station installed with AWS (Automated Weather Station), and the weather information of the observation point located closest to the corresponding solar power generation apparatus among the received weather information is used Thereby calculating a corrected power generation amount. The method according to claim 10 or 11,
The meteorological information includes temperature and humidity information,
Wherein the provider server applies a weight to the temperature and humidity information to calculate a corrected power generation amount.

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