KR102462089B1 - System for distributing profits of renewable energy to residents - Google Patents

Abstract

According to an embodiment of the present invention, performed by a server, a method of distributing renewable energy revenue to residents includes the steps of: (a) monitoring a first profit based on electricity production for each renewable energy producing object; (b) monitoring a second revenue generated by providing a certificate based on a renewable energy certification request to a consumer object; (c) monitoring the third proceeds based on the carbon credit transaction between the renewable energy producer and the renewable energy consumer; and (d) distributing the final proceeds to each resident's account based on a preset ratio, and providing dividend information to each resident's terminal, wherein the final proceeds are the sum of the first to third proceeds. is the value after deducting operating costs.

Description

SYSTEM FOR DISTRIBUTING PROFITS OF RENEWABLE ENERGY TO RESIDENTS

The present invention relates to a resident distribution system of renewable energy revenue for distributing revenue from renewable energy production and sales to residents in the form of local currency or cryptocurrency.

Renewable energy is pollution-free energy that can replace existing fossil fuels and nuclear power, and is generally understood as a component of alternative energy. For example, it refers to energy obtained through solar heat, photovoltaic power generation, biomass, wind power, geothermal and marine energy, and the like.

In addition, whenever electricity is produced through fossil fuels and nuclear power, natural destruction is increasing, and the risk of depletion of fossil fuels and nuclear resources is emerging.

As interest in renewable energy increases in modern times, a campaign is taking place to use electricity generated through eco-friendly renewable energy sources such as RE100 for 100% of the electricity used by companies.

However, in the process of creating a renewable energy power generation complex, even if the establishment is granted permission, it is difficult to lead to normal implementation due to protests and complaints from nearby residents. In addition, there is a low level of cooperation because a system that provides direct financial benefits to local governments and residents is not well established.

Meanwhile, in the United States, the Healthy Climate and Family Security Act of 2018 (H.R.4889 - Healthy Climate and Family Security Act of 2018) requires that the proceeds (Health Climate Trust Fund) related to greenhouse gas emissions such as carbon credits be distributed legally within the region (country) every quarter. It aims to build and maintain a website that distributes information on the use of proceeds to the public by distributing them to individuals with social security numbers by electronic means (electronic money, local currency, etc.). In other words, there is a movement to enact legislation to further strengthen the promotion of eco-friendly policies by distributing the proceeds generated from the promotion of eco-friendly policies, such as the proceeds from the sale of carbon credits, to local residents.

In addition, as Europe adopts detailed operating plans in the second quarter of 2021 for the enforcement of carbon border tax and plans to implement carbon border adjustment from January 2023, local residents, like the United States, However, there is a possibility that the issue of distribution to citizens will arise soon. Possibility of introducing a similar policy in the United States is being raised, and Joe Biden recently announced that he would invest $2 trillion (about 2338 trillion won) by 2035 to eliminate carbon gas emissions from all electricity generation.

On the other hand, in the case of Korea, there is no active policy promotion as in the United States or Europe, but in the long-term, in relation to the basic income financing plan in the political circles, the profits from the public sector such as robot tax, carbon tax, data tax, and land ownership tax It is suggested that financial resources should be raised through taxation in the form of an objective tax. In order to promote eco-friendly policies in accordance with the movements of Europe and the United States, it is necessary to build an eco-friendly energy (renewable energy) power generation complex in each region, and for this, it is necessary to persuade the residents. is expected to be

If de-carbon policies, including carbon border tax, are implemented in Europe and the United States and spread to Korea, domestic companies may also experience a double burden along with the carbon trading system, and eco-friendly energy (renewable energy) ) and the construction of the complex is necessary. Therefore, for an amicable solution with local residents, it is necessary for companies to persuade and cooperate with local residents through distribution of profits from eco-friendly energy generation operation.

In order to solve the above problems, the present invention provides a portion of the revenue generated from the renewable energy power generation complex as an incentive of the residents' association when a resident association is composed of local residents of the renewable energy power generation complex, thereby constructing and operating a renewable energy power generation complex. The purpose of this is to accelerate the process and facilitate the cooperation of local residents in this regard.

In accordance with an embodiment of the present invention for achieving the above technical task, the method for allocating renewable energy revenue, performed by the server, is (a) monitoring the first revenue based on electricity production for each renewable energy production object to do; (b) monitoring a second revenue generated by providing a certificate based on a request for certification of renewable energy use of each renewable energy consuming object to a consuming object; (c) monitoring the third proceeds based on the carbon credit transaction between the renewable energy producer and the renewable energy consumer; and (d) distributing the final proceeds to each resident's account based on a preset ratio, and providing dividend information to each resident's terminal, wherein the final proceeds are the sum of the first to third proceeds. is the value after deducting operating costs.

Step (a) comprises the steps of receiving a unique identifier, power production and power consumption of each device from the power production detection device and the power consumption detection device; Calculating statistics of power produced or consumed by each renewable energy producing object and renewable energy consuming object for each date within a predetermined period, based on a unique identifier for each device, power production and power consumption; and calculating the first profit based on statistics, electricity price and eco-friendly added value; Including, the power production detection device is provided for each renewable energy production object, and measures the amount of electricity produced by the renewable energy production object Measuring, the power consumption detection device is provided in each renewable energy consuming object, and measures the amount of power consumed by the renewable energy consuming object.

The power consumption detection device divides and calculates the power consumption generated by different renewable energy producing objects during a specific period.

Statistics generated based on unique identifiers, power production and power consumption are stored in a database based on blockchain.

(b) receiving a sale request for a renewable energy production certificate from a renewable energy production object terminal, and receiving a purchase request for a renewable energy production certificate from a renewable energy consuming object terminal; Change the ownership of the renewable energy production certificate provided to the renewable energy production object terminal to the renewable energy consuming object terminal, and pay the price paid by the renewable energy consuming object to the renewable energy production object terminal, but part of the price as a fee receiving; And, based on the number of purchases of the renewable energy certificate, calculating a second profit; including, the renewable energy production object terminal is a terminal belonging to the renewable energy production object.

(c) receiving a carbon credit sales request based on the amount of electricity produced by the renewable energy production object for a specific period from the renewable energy production object terminal; retrieving the amount of electricity produced by the renewable energy production object in the pre-stored block chain, and setting the carbon emission corresponding to the amount of electricity; Upon receiving a purchase request for carbon credits corresponding to carbon emissions from the renewable energy consuming object terminal, the carbon credit transaction is approved, and the amount paid by the renewable energy consuming object for purchase is paid to the renewable energy producing object terminal, but the price receiving a portion of the fee; And, based on the number of transactions of carbon credits and the price excluding the fee, calculating a third profit; Including, the renewable energy consuming object terminal is a terminal belonging to each of the renewable energy consuming objects.

In step (d), dividends are calculated based on individual basic income, residence period, and equity ratio, and the dividend is provided to each resident terminal in the form of cryptocurrency.

Resident distribution device of renewable energy revenue includes a memory in which a program for allocating renewable energy revenue and a processor providing a method of allocating renewable energy revenue by executing the program stored in the memory, the processor is Monitoring the first revenue based on production, monitoring the second revenue generated by providing a certificate based on the request for certification of renewable energy use of each renewable energy consuming object to the consuming object, The third profit is monitored and the final profit is distributed to each resident terminal based on a preset ratio, but the final profit is a value obtained by subtracting the operating cost from adding the first to third profits.

The processor receives the unique identifier, power production and power consumption of each device from the power production detection device and the power consumption detection device, and based on the unique identifier for each device, power production and power consumption, by date within a predetermined period, each Calculate the statistics of the electricity produced or consumed by the renewable energy producing object and the renewable energy consuming object of It is provided for each object to measure the amount of power produced by the renewable energy producing object, and the power consumption detection device is provided for each renewable energy consuming object to measure the amount of power consumed by the renewable energy consuming object.

The computer readable storage medium records a program for performing a method of allocating renewable energy revenue.

According to an embodiment of the present invention, by allocating a portion of the revenue generated from the renewable energy power generation complex to local residents, it is possible to minimize the resistance and civil complaints of residents that may occur in the process of promoting the construction of the renewable energy power generation complex, and the contribution is reflected to encourage local participation.

By recording and managing the amount of electricity produced in the block chain, it is possible to check the amount of production and profit in real time in the form of a dashboard, and since the block chain is used, the contents can be verified reliably.

Currently, local currency is issued by each local government independently, and it is possible to issue without a special issuance basis. Therefore, if the revenue from renewable energy generation is taken as the basis, a healthier financial market can be created.

By issuing resident dividends in the form of local currency, the effect of revitalizing the local economy can also be expected.

Due to the nature of the renewable energy power generation complex, short-distance distribution is more important than long-distance transmission. In other words, since both the generation and consumption of electricity are carried out together with the local residents, it is important to distribute the profits to the local residents in the form of resident dividends. The present invention proposes a method in which local residents and power generation operators coexist.

By operating an exchange for local currency, it provides cash to residents and the operator can obtain transaction fees.

1 is a diagram showing the configuration of a resident distribution system of renewable energy revenue, according to an embodiment of the present invention.
2 is a diagram illustrating the configuration of a server according to an embodiment of the present invention.
3 is a configuration diagram illustrating a relationship between a server and each device for each renewable energy producing object and renewable energy consuming object, according to an embodiment of the present invention.
4 is an operation flowchart illustrating a method of allocating renewable energy revenue, according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, 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. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a part is "connected" with another part, this includes not only the case of being "directly connected" but also the case of being "electrically connected" with another element interposed therebetween. . Also, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components, unless otherwise stated, and one or more other features However, it is to be understood that the existence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded in advance.

The following examples are detailed descriptions to help the understanding of the present invention, and do not limit the scope of the present invention. Accordingly, an invention of the same scope performing the same function as the present invention will also fall within the scope of the present invention.

Throughout the specification, the server 100 may mean a device that distributes renewable energy revenue.

Hereinafter, 'resident' means a resident residing in the same administrative district as the administrative district to which the complex including at least one of a renewable energy producing object and a renewable energy consuming object belongs. In addition, it may be a resident living within a distance that has an interest in electricity generation and consumption of the complex.

1 is a diagram showing the configuration of a resident distribution system of renewable energy revenue, according to an embodiment of the present invention.

Referring to FIG. 1 , according to an embodiment of the present invention, a system may include a server 100 , a resident terminal 200 , a production object terminal 30n , and a consumer object terminal 40n . The server 100 , the resident terminal 200 , the production object terminal 30n , and the consumer object terminal 40n may be interconnected by wire or wirelessly through a block chain network. The renewable energy producing object 300 and the renewable energy consuming object 400 may have a production object terminal 30n and a consumer object terminal 40n belonging to each object.

In terms of the power system, the power produced by the production object 300 may be transmitted to the consumer object 400 . In this process, the power production detection device 310 and the power consumption detection device 410 located at the production object end and the consumption object end may detect the amount of power, respectively, and distribute and store it in the block chain network.

In this case, the production object 300 may correspond to each of the objects 301 and 302 that produce power (energy). For example, it is a large-scale production object 300 such as a hydroelectric power plant, a thermal power plant, a new renewable energy production power plant (eg, a solar power plant, a geothermal power plant, a wind power plant, etc.), or a small unit such as a photovoltaic module The production object 300 corresponds to this. Accordingly, the production object 300 may include a renewable energy production object that produces eco-friendly energy and an external energy supply object that supplies energy produced outside the environment, rather than as an eco-friendly energy production means. That is, the type of the production object 300 is not limited to the range described in this specification, and may include a variety of other objects that produce energy as well as a renewable energy production object.

Also, the consuming object 400 may correspond to each of the objects 401 and 402 consuming power (energy). For example, factories, businesses, and general households may correspond to the renewable energy consumption object 400 .

Meanwhile, in the information system, the production object terminal 30n, the consumer object terminal 40n, the resident terminal 200, and the server 100 can interact with each other through the block chain network. At this time, the production object terminal 30n can sell carbon emission sources and renewable energy certificates, and the consumer object terminal 40n can purchase carbon emission sources and renewable energy certificates, and the server 100 is such a carbon emission source. , renewable energy certificate transactions, and operation revenue generated from the power system can be combined to calculate the profit, calculate dividends, and distribute these dividends to resident terminals. The server 100 may monitor information on profits and calculate dividends through a blockchain network. In this process, the interaction actions (communication actions) performed by each of the objects 100, 200, 30n, 40n, 410, 310 included in the information system can all be distributed and stored in the block chain network. In addition, if the proceeds distributed to residents are cryptocurrency, even transaction details after dividends are distributed to one resident can be recorded in the blockchain network. In addition, the server 100 may be a single physical object, but may also be a smart contract existing in a block chain network.

The resident terminal 200, the production object terminal 30n, and the consumer object terminal 40n refer to communication terminals capable of using terminal applications in a wired/wireless communication environment. In more detail, the resident terminal 200, the production object terminal 30n, and the consumer object terminal 40n are a handheld computing device (eg, a PDA, an email client, etc.), any type of mobile phone, or other It may include any type of computing or communication platform of any kind, but the invention is not limited thereto.

Meanwhile, the communication network serves to connect the server 100 and the resident terminal 200 or the server 100 and the renewable energy producing object 300 and the renewable energy consuming object 400 . That is, the communication network refers to a communication network that provides a connection path so that the resident terminal 200 and a power production and power consumption detection device to be described later connect to the server 100 and then transmit and receive data. The communication network is, for example, wired networks such as LANs (Local Area Networks), WANs (Wide Area Networks), MANs (Metropolitan Area Networks), ISDNs (Integrated Service Digital Networks), etc., or wireless networks such as wireless LANs, CDMA, Bluetooth, and satellite communication. However, the scope of the present invention is not limited thereto.

2 is a diagram illustrating the configuration of a server according to an embodiment of the present invention.

3 is a configuration diagram illustrating a relationship between a server and each device for each renewable energy producing object and renewable energy consuming object, according to an embodiment of the present invention.

Referring to FIG. 2 , the server 100 according to an embodiment of the present invention includes a communication module 110 , a memory 120 , a processor 130 , and a database 140 .

Referring to FIGS. 2 and 3 , the communication module 110 transmits/receives signals between the server 100 , the resident terminal 200 , the power production detection device 310 , and the power consumption detection device 410 by interworking with the communication network. Provides the communication interface required to provide data in the form of data. Furthermore, the communication module 110 may serve to receive a data request from the resident terminal 200 , the power production detection device 310 , and the power consumption detection device 410 , and transmit data in response thereto. .

Here, the communication module 110 may be a device including hardware and software necessary for transmitting and receiving signals such as control signals or data signals through wired/wireless connection with other network devices.

In the memory 120, a program for analyzing the power consumption for each renewable energy production object 300 is recorded. In addition, the processor 130 performs a function of temporarily or permanently storing the processed data. Here, the memory 120 may include magnetic storage media or flash storage media, but the scope of the present invention is not limited thereto.

The processor 130 is a kind of central processing unit and controls the entire process of allocating renewable energy revenue for each resident terminal 200 . Each step performed by the processor 130 will be described later with reference to FIG. 4 .

Here, the processor 130 may include all kinds of devices capable of processing data, such as a processor. Here, the 'processor' may refer to a data processing device embedded in hardware, for example, having a physically structured circuit to perform a function expressed as a code or an instruction included in a program. As an example of the data processing device embedded in the hardware as described above, a microprocessor, a central processing unit (CPU), a processor core, a multiprocessor, an application-specific integrated (ASIC) circuit) and a processing device such as a field programmable gate array (FPGA), but the scope of the present invention is not limited thereto.

The database 140 stores the unique identifiers, power production and power consumption of each of the devices 310 and 410, received from the power production detecting device 310 and the power consumption detecting device 410 .

At this time, as shown in Figure 1, each data may be stored through a block chain technique. As an optional embodiment, at least one of the server 100 , the resident terminal 200 , the power production detection device 310 and the power consumption detection device 410 , the production object terminal 30n , and the consumer object terminal 40n Each data is stored in a blockchain network including do. Therefore, the type of blockchain network used by the present invention does not limit the scope of the present invention.

Although not shown in Figure 2, some of the data on the unique identifier, power production and power consumption of each device (310, 410) to be stored in a database (not shown) physically or conceptually separated from the database 140 can

According to an embodiment of the present invention, the server 100 monitors the first revenue based on power production for each renewable energy producing object 300 , and a certificate based on the renewable energy certification request of each renewable energy consuming object 400 . Monitors the second revenue generated by providing as a consumer object, monitors the third revenue based on the carbon credit transaction between the renewable energy producing object 300 and the renewable energy consuming object 400, and sets the final profit to a preset ratio Dividend may be distributed to each resident's account based on , and dividend information may be provided to each resident terminal 200 . Here, the final profit may be a value obtained by subtracting the operating cost (including various incidental costs such as wages, rent, and various taxes required for operating a renewable energy production object) to a value obtained by adding the first to third profits. .

That is, according to an embodiment of the present invention, a part of the various proceeds (preferably, electricity rate + renewable energy production certificate sale price + carbon credit transaction price - operating cost) generated from the renewable energy power generation complex can be distributed to local residents. have. Accordingly, it is possible to minimize protests and civil complaints from residents that may occur in the process of promoting renewable energy power generation complexes. In addition, because of the nature of the renewable energy power generation complex, short-distance distribution is made, so in the case of electricity generation and consumption, both are carried out together with local residents. Accordingly, by distributing the profits to the local residents in the form of resident dividends, the local residents and the power generation operator can coexist.

Hereinafter, first, a method of monitoring the first profit will be described, and a method of monitoring the second and third profits and a method of distributing the final profit to the residents will be described with reference to FIG. 4 .

Specifically, the renewable energy production object 300 is provided with a power production detection device 310 to measure the amount of power in real time, and the renewable energy consumption object 400 is equipped with a power consumption detection device 410 in real time. Power consumption can be measured.

In addition, the server 100 receives the unique identifier, power production and power consumption of each device (310, 410) from the power production detection device 310 and the power consumption detection device 410, each device (310, 410) Based on the unique identifier of each star, power production and power consumption, each renewable energy producing object 300 and renewable energy consuming object 400 within a predetermined period calculates statistics of electricity produced or consumed, and statistical power prices and The first profit of the renewable energy production object 300 may be calculated based on the eco-friendly added value.

In addition, the power production detection device 310 is provided for each renewable energy production object 300, measures the amount of power produced by the renewable energy production object 300, and transmits it to the server 100, or a block chain network It can be transmitted to objects in the network so that they can be distributed and stored.

In addition, the power consumption detection device 410 is provided in each renewable energy consuming object 400, measures the amount of power consumed by the renewable energy consuming object 400, and transmits it to the server 100, or a block chain network It can be transmitted to objects in the network so that they can be distributed and stored.

In addition, the power consumption detection device 410 may calculate by dividing the power consumption produced by different renewable energy production objects 300 during a specific period.

In this case, the power production detection device 310 or the power consumption detection device 410 may be installed in a switchboard provided in the renewable energy production object 300 or the renewable energy consumption object 400 . However, it may be provided separately from the switchboard according to the location of the installed switchboard or measurement efficiency.

In addition, as an additional embodiment, the power consumption detecting device 410 and the power production detecting device 310 may be mounted for each one object, or may be mounted and sensed in units of one group including several objects. For example, one power consumption detection device 410 is interlocked with a plurality of renewable energy consumption objects 400 in a preset area to measure the power consumption for each building.

At this time, the server 100 stores the statistics generated based on the unique identifier received from the power production detection device 310 and the power consumption detection device 410 , the power production amount and the power consumption amount based on the block chain. In addition to the server 100, the information generated by the renewable energy producing object 300 and the renewable energy consuming object 400 participating in the block chain network is also distributed and stored in each object in the block chain network, so that each generated information It can increase the level of security and verification.

Hereinafter, the configuration described above with reference to FIGS. 1 to 3 will be omitted.

4 is an operation flowchart illustrating a method of allocating renewable energy revenue, according to an embodiment of the present invention. The subject performing the following steps may be the server 100 or another object serving as one node in the block chain network.

Referring to FIG. 4 , the method for allocating renewable energy revenues to residents according to an embodiment of the present invention is a step of monitoring the first revenue based on electricity production for each renewable energy production object 300 ( S110 ), each renewable energy consumption Monitoring the second revenue generated by providing a certificate based on the request for certification of renewable energy use of the object 400 to the consumer object (S120), carbon between the renewable energy production object 300 and the renewable energy consumption object 400 It may include a step of monitoring a third profit based on the emission permit trading (S130), and a step of distributing the final profit to each resident terminal 200 based on a preset ratio (S140). Here, the final profit may be a value obtained by deducting an operating cost to a value obtained by adding the first to third profits.

Step S110 is a step of receiving the unique identifier, power production and power consumption of each device (310, 410) from the power production detection device 310 and the power consumption detection device 410, each device (310, 410) a unique identifier , on the basis of the power production and power consumption, by date within a predetermined period, each of the renewable energy producing object 300 and the renewable energy consuming object 400 calculating the statistics of the power produced or consumed, and statistics, power Based on the price and eco-friendly added value, including the step of calculating the first profit, the power production detection device 310 is provided for each renewable energy production object 300, the renewable energy production object 300 is produced Measuring the amount of power, the power consumption detection device 410 is provided in each renewable energy consuming object 400, it is possible to measure the amount of power consumed by the renewable energy consuming object (400).

In addition, as shown in Figures 1 and 3, step S120 receives a sale request for a renewable energy production certificate from the renewable energy production object terminal 30n, and from the renewable energy consumption object terminal 40n to the renewable energy production certificate Receiving a purchase request for, changing the ownership of the renewable energy production certificate provided to the renewable energy production object terminal 30n to the renewable energy consuming object terminal 40n, and the renewable energy consuming object 400 paid for purchase Paying the price to the renewable energy production object terminal 30n, paying after limiting the operating fee of the platform operated by the exchange or server, and calculating the second profit based on the number of purchases of the renewable energy production certificate can do.

Here, in relation to the renewable energy certificate, when a specific condition is met, the server 100 generates a certificate for the power production stored in the block chain through a smart contract, and then sells the certificate from the production object terminal 30n Upon receiving the information, it is registered and set to be exposed to the consumer object terminal 40n. In this case, the certificate generated through the smart contract may be the server 100 or the power generation object 300 itself. That is, depending on which object has the authority to execute the smart contract, there is a slight difference in the certificate generation process.

At this time, the certificate can be transferred as a certificate for energy production or use. The certificate includes the type of generated power (renewable energy or external energy recognition, etc.), identification information on power generation objects, information on power production amount, and information on power generation time. For example, when object A produces a certificate for renewable energy production in a physically separated power grid, object B that consumes the renewable energy transfers the ownership of the certificate and requires subsequent certification by a management agency can be utilized

Thereafter, when the purchase information for the certificate is received from the consumer object terminal 40n, the server 100 may change the ownership of the certificate through the ownership change contract.

When the certificate ownership is changed through this, the proceeds generated through the certificate sale are paid to the production object terminal 30n, but the fee may be excluded. In this case, the second profit may be calculated based on the number of purchases of the certificate.

Step S130 is a step of receiving a carbon credit sale request based on the amount of electricity produced by the renewable energy production object 300 for a specific period from the production object terminal 30n, and the renewable energy production object 300 in the pre-stored block chain Searching for the amount of electricity produced, setting carbon emissions corresponding to the amount of electricity produced, and receiving a purchase request for carbon credits corresponding to carbon emissions from the consuming object terminal 40n, approve the carbon credit transaction and reproduce The price paid by the energy consuming object 400 for purchase is paid to the production object terminal 30n, but a portion of the price is received as a fee of the server 100 operating entity, and the amount excluding the number of transactions and fees for carbon credits Based on the, it may include the step of calculating a third profit. For example, as shown in FIG. 3 , the first and second consuming object terminals 40n may be terminals belonging to the first and second renewable energy consuming objects 401 and 402 , respectively.

In step S140, a dividend may be calculated based on individual basic income, residence period, and share ratio, and the dividend may be provided to each resident terminal 200 in the form of cryptocurrency.

Each resident terminal 200 means a resident subject to distribution belonging to a resident's association and a local government. For example, the dividend may be provided to each resident terminal 200 in the form of local currency including a block chain token or the like.

Illustratively, the server 100 transmits a dividend calculated based on a preset ratio for each resident to the final revenue corresponding to a value obtained by subtracting the operating cost from the value of adding the first to third profits to each resident terminal 200 can be remitted to

For example, the final revenue refers to the final revenue generated from the renewable energy power generation complex, and the first to third revenues are renewable excluding fees, such as electricity rates, the platform that is the operating entity of the server 100, and the authorized exchange, respectively. It means the purchase price of energy certificate and the transaction price of carbon credits.

In addition, dividends may be distributed according to the residence of the target resident (region belonging to the relevant resident association or local government), and the resident dividend may be distributed in proportion to the residence period of each resident. For example, each resident's dividend can be determined according to the formula of dividend amount per individual resident = pro-rata calculation for residence period*share*renewable energy profit (final profit) for the period.

For example, the dividend may be paid to each resident terminal 200 in the form of a block chain token every predetermined period (quarterly, monthly, etc.).

Furthermore, a portion of the revenue generated from the renewable energy power generation complex can be paid to the local government as an incentive. The rate of incentives may change depending on the degree of participation of local governments in power generation complex investment, etc. Local governments can use a portion of the incentives they receive as local government revenue. Meanwhile, local governments can use some of the remaining incentives as basic income sources or public finances. In addition, basic income can be paid in local currency to revitalize local commercial areas.

When dividends are issued to local residents as blockchain tokens (cryptocurrency), they can be automatically issued by smart contracts. At this time, the subject that issues the block chain token may be a block chain network.

Local currency created with blockchain tokens can be traded on local currency exchanges.

Illustratively, the renewable energy production object 300 may obtain profits by adding various eco-friendly added values to the electricity price when producing renewable energy.

In this case, eco-friendly added value may include RECs, carbon credits, and government subsidies.

Therefore, according to the present invention, it is possible to transparently process the resident dividend (or basic income) by flexibly responding to changes in revenue in the renewable energy power generation complex.

In addition, by issuing a resident dividend (or basic income) corresponding to each resident as a blockchain token, it is possible to define the basis for the resident dividend and the use of the resident dividend money. When issued as a blockchain token and used for transaction of goods or services, each resident’s transaction details are distributed and stored in the blockchain network, and through the blockchain network, it is possible to track where each resident’s money is used. Therefore, by issuing incentives according to the usage of the resident dividend, the basis for accrual of payback/mileage (for example, increasing incentives (or dividends) when used at local supermarkets, reducing incentives when using at large shopping malls, etc.) can be usefully used for

The foregoing description of the present invention is for illustration, and those of ordinary skill in the art to which the present invention pertains can understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and likewise components described as distributed may also be implemented in a combined form.

The scope of the present invention is indicated by the following claims rather than the above detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts should be interpreted as being included in the scope of the present invention. do.

30n: production object terminal 40n: consumer object terminal
100: server 110: communication module
120: memory 130: processor
140: database 200: resident terminal
300: renewable energy production object 310: power production detection device
400: renewable energy consumption object 410: power consumption detection device

Claims (10)

In the resident distribution method of renewable energy profits in the renewable energy power generation complex, performed by the server,
(a) monitoring the first profit based on the power generation for each renewable energy production object;
(b) monitoring a second revenue generated by providing a certificate based on a request for certification of renewable energy use of each renewable energy consuming object to a consuming object;
(c) monitoring a third profit based on the carbon credit transaction between the renewable energy producing object and the renewable energy consuming object; and
(d) distributing a dividend to each resident's account based on a predetermined ratio of the final proceeds of the renewable energy generation complex, and providing dividend information to each resident terminal, wherein the final proceeds are the first proceeds to the value of adding the third profit to the value of deducting the operating cost,
The first to third profits are electricity prices, renewable energy certificate trading prices and carbon emission rights trading prices excluding fees of the platform and authorized exchange, which are the operating subjects of the server, respectively,
Step (a) is
Receiving a unique identifier, power production and power consumption of each device from the power production detection device and the power consumption detection device in the renewable energy generation complex;
Calculating statistics of power produced or consumed by each renewable energy producing object and renewable energy consuming object by date within a predetermined period, based on the unique identifier, power production and power consumption for each device; and
Calculating the first profit on the basis of the statistics, electricity price and eco-friendly added value;
The power production detection device is provided for each renewable energy production object to measure the amount of power produced by the renewable energy production object, and the power consumption detection device is provided for each renewable energy consumption object, the renewable energy It measures the amount of power consumed by a consumer object,
Step (d) is
The resident dividend method of renewable energy income, which calculates the dividend based on individual basic income, residence period, and share rate, and provides the dividend to each resident terminal in the form of cryptocurrency.
delete According to claim 1,
The power consumption detection device is a method of dividing and calculating the power consumption produced by the different renewable energy production objects during a specific period, the resident distribution method of renewable energy revenue.
According to claim 1,
The statistic generated based on the unique identifier, power production and power consumption will be stored in a database based on a block chain, the resident distribution method of renewable energy revenue.
5. The method of claim 4,
Step (b) is
Receiving a sale request for a renewable energy production certificate from a renewable energy production object terminal, and receiving a purchase request for the renewable energy production certificate from a renewable energy consuming object terminal;
The ownership of the renewable energy production certificate provided to the renewable energy production object terminal is changed to the renewable energy consumption object terminal, a part of the price paid by the renewable energy consumer object for purchase is deducted as a fee, and the remaining amount is paid Paying to the renewable energy production object terminal; and
Calculating the second profit based on the number of sales of the renewable energy production certificate;
The renewable energy production object terminal is a terminal belonging to the renewable energy production object, the residents distribution method of renewable energy revenue.
6. The method of claim 5,
Step (c) is
receiving a carbon credit sales request based on the amount of electricity produced by the renewable energy production object for a specific period from the renewable energy production object terminal;
retrieving the power output produced by the renewable energy production object in the previously stored block chain, and setting carbon emissions corresponding to the power production;
Upon receiving a purchase request for the carbon credits corresponding to the carbon emission from the renewable energy consuming object terminal, the carbon credit transaction is approved, and the amount paid by the renewable energy consuming object for purchase is transferred to the renewable energy production object Paying to the terminal, receiving a portion of the fee as a fee; and
Calculating the third profit based on the number of transactions of the carbon credits;
The renewable energy consuming object terminal is a terminal belonging to each of the renewable energy consuming objects, the resident distribution method of renewable energy revenue.
delete In the resident distribution device of renewable energy revenue in the renewable energy power generation complex,
A memory in which the program for allocating the renewable energy revenue is stored, and
A processor that provides a method for allocating the renewable energy revenue by executing the program stored in the memory,
The processor monitors the first profit based on power generation for each renewable energy production object,
Monitoring the second revenue generated by providing a certificate based on the request for certification of renewable energy use of each renewable energy consuming object to the consuming object,
monitoring the third proceeds based on the carbon credit transaction between the renewable energy producing object and the renewable energy consuming object;
The final proceeds of the renewable energy power generation complex are distributed to each resident terminal based on a preset ratio,
The final profit is a value obtained by subtracting the operating cost from the value of adding the first profit to the third profit,
the processor
Receive a unique identifier, power production and power consumption of each device from the power production detection device and the power consumption detection device in the renewable energy generation complex,
Based on the unique identifier for each device, power production and power consumption, for each date within a predetermined period, calculate statistics of power produced or consumed by each renewable energy producing object and renewable energy consuming object,
Calculating the first profit based on the statistics, electricity price and eco-friendly added value,
The power production detection device is provided for each renewable energy production object to measure the amount of power produced by the renewable energy production object, and the power consumption detection device is provided for each renewable energy consumption object, the renewable energy Measure the amount of power consumed by the consumer,
A resident distribution device of renewable energy income, which calculates a dividend based on individual basic income, residence period and share rate, and provides the dividend to each resident terminal in the form of cryptocurrency.
delete A computer-readable storage medium recording a program for performing the method of allocating renewable energy revenue, which is performed by the server according to claim 1 .

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