KR20220037571A - Renewable energy trading system using a renewable energy supply platform and method for operating the system - Google Patents

Abstract

The present invention relates to a renewable energy trading system. The renewable energy trading system includes: a supply side renewable energy authentication smart meter authenticating whether energy supplied from an energy supply source is renewable energy, transmitting a supply response including available supply amount information, and measuring the supply amount of the supplied renewable energy to transmit a final supply amount; a demand side renewable energy authentication smart meter identifying an energy consumption device, transmitting a consumption request including a predicted consumption amount, and measuring a final consumption amount consumed by the energy consumption device to transmit a final consumption amount; and a trading platform trading the energy consumed by the energy consumption device after authenticating the energy by using the renewable energy authentication information, the supply response and the final supply amount provided by the supply side renewable energy authentication smart meter, and the energy consumption amount and the final consumption amount provided by the demand side renewable energy authentication smart meter. Therefore, the present invention is capable of enabling a user to conveniently use renewable energy.

Description

RENEWABLE ENERGY TRADING SYSTEM USING A RENEWABLE ENERGY SUPPLY PLATFORM AND METHOD FOR OPERATING THE SYSTEM

The present invention relates to a renewable energy trading system using a renewable energy supply platform and a method for operating the same. In particular, renewable energy trading using a renewable energy supply platform that can supply and authenticate only energy certified as renewable energy to individual consumers It relates to a system and a method of operating the same.

Renewable energy production is increasing worldwide. Currently, 26% of the world's electric energy is generated through renewable energy, and to respond to the climate crisis, countries and companies around the world are making efforts to improve the rate of renewable energy generation by organizing various initiatives. However, at present, even if the overall amount of renewable energy generation is promoted, the final consumer is not given a choice to consume renewable energy.

Currently, it is a structure in which renewable energy generation power, nuclear power generation power, and fossil fuel power generation power are collected, transmitted, and distributed on a huge power grid, and delivered to each consumer. As a result, it is difficult for power consumers to choose a meal according to the power source.

Currently, renewable energy-using company initiatives such as RE100 suggest a method of securing a renewable energy source in a contract or a method of securing renewable energy through certification of the country of origin of electricity production.

However, there is no way for natural consumers who do not sign a renewable energy power supply contract or directly operate a renewable energy power generation facility to select and receive electricity made from a renewable energy source. If consumers are given the right to selectively consume only renewable energy, various consumer-based renewable energy incentives can be given. will be further accelerated. Therefore, there is a need for a device and program that allows consumers to selectively use renewable energy.

As described above, using a renewable energy certification smart meter, a renewable energy trading system using a renewable energy supply platform that supplies electricity from renewable energy to electric devices by requesting electrical energy whose origin of renewable energy is certified from the demand side, and its operation method is provided.

The renewable energy trading system provided by the present invention authenticates whether the energy supplied from the energy source is renewable energy, sends a supply response including information on the available supply amount, and measures the supplied renewable energy supply and transmits the final supply. Renewable Energy Certified Smart Meter, Demand-Side Renewable-Certified Smart Meter and Supply-Side that identifies energy consuming devices, sends a consumption request including expected consumption, measures the final consumption consumed by the energy consuming device and transmits the final consumption Renewable energy authentication information and supply response and final supply provided by renewable energy certification smart meter Includes a trading platform to trade after.

In one embodiment, the authentication trading platform includes: source identification information for an energy source; and an identification information confirmation unit for confirming the consuming device identification information for the energy consuming device, using the expected consumption amount of the consumption request of the demand-side renewable energy authentication smart meter and the possible supply amount of the supply response of the supply-side renewable energy authentication smart meter, energy consumption the final consumption of the energy allocator and the demand-side renewable energy certified smart meter allocating the energy source corresponding to the device; and the final supply amount of the supply response of the supply-side renewable energy authentication smart meter; it may be characterized in that it includes an energy settlement unit that calculates and charges the amount of energy used by using it.

In an embodiment, the energy allocation may be characterized in that a corresponding supply is allocated when the possible supply amount is greater than or equal to the expected consumption amount.

In an embodiment, the consumption request may further include expected charging time information, and the possible supply amount may include an amount of energy that can be produced within the expected charging time.

In an embodiment, the amount of energy that can be produced may be calculated using a current external variable and a past production history.

In an embodiment, the authentication transaction platform may be characterized in that energy source information including power generation capacity, current generation amount, predicted generation amount, and source location for each energy source is stored.

In an embodiment, the possible supply amount may be determined based on the capacity stored in the energy storage device.

In one embodiment, the energy settlement unit may be characterized in that the billing is based on the final consumption of the demand-side renewable energy certified smart meter.

In an embodiment, the energy settlement unit may charge based on the initial expected consumption, and then re-charge based on the final consumption when energy consumption is completed.

In one embodiment, the demand-side renewable energy authentication smart meter may be characterized in that it is implemented as software that is activated by the operating software of the energy consuming device.

In one embodiment, the demand-side renewable energy authentication smart meter may be characterized in that, when the energy consuming device enters a physical chargeable state, it immediately identifies the energy consuming device and sends a consumption request including the expected consumption amount. there is.

The operation method of the renewable energy transaction system provided in the present invention includes a consumption request receiving step of receiving a consumption request including an expected consumption amount from a demand-side renewable energy certified smart meter, and an allocable energy source using information on the amount of supply available from the energy source. and an energy source allocation step of allocating an energy source by using the expected supply amount of the consumption request of the demand-side renewable energy authentication smart meter and the possible supply amount of the supply response of the supply-side renewable energy authentication smart meter.

In an embodiment, the method may further comprise an energy consuming device identification step of authenticating a user of the energy consuming device.

In one embodiment, the final consumption of demand-side renewable energy certified smart meters; and the final supply amount of the supply response of the supply-side renewable energy authentication smart meter; may further include a settlement step of calculating and charging energy use.

In one embodiment, in the settlement step, it may be characterized in that the billing is based on the final consumption of the demand-side renewable energy certified smart meter.

In one embodiment, based on the first smart contract stage and final final consumption, the first smart contract is concluded based on the initial expected consumption, and a distributed ledger for the first smart contract is issued to the subject of each contract It may further include a second smart contract step of signing the second smart contract and issuing a distributed ledger for the second smart contract to the subject of each contract.

In an embodiment, the demand-side renewable energy authentication smart meter may be characterized in that, when the energy consuming device enters a physical chargeable state, the energy consuming device identification step and the consumption request receiving step are performed immediately.

In an embodiment, the consumption request may further include expected charging time information, and the possible supply amount may include an amount of energy that can be produced within the expected charging time.

The renewable energy transaction system using the renewable energy supply platform according to the present invention and its operating method enable a device that wants to use renewable energy to connect to a renewable energy authentication smart meter through wireless communication through the platform. Therefore, even if renewable energy resources are remote, renewable energy can be directly supplied to various electric devices such as laptops, PCs, smartphones, smart pads, or portable electric devices and electric vehicles by using the power supplied from the renewable energy power source.

By using this, the user can directly use renewable energy after being authenticated, so that incentives according to the use of renewable energy can be utilized. Therefore, consumers can individually sign a renewable energy power supply contract by choice.

In addition, when the device used is linked with other billing services such as mobile phone service, the renewable energy usage fee can be settled as an additional service together with the monthly mobile phone bill, making it possible to use renewable energy very conveniently.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included as part of the detailed description to help the understanding of the present invention, provide an embodiment of the present invention and together with the detailed description, explain the technical spirit of the present invention.
1 is a block diagram of a renewable energy trading system using a renewable energy supply platform according to an embodiment of the present invention.
FIG. 2 is a block diagram of a renewable energy trading system using a renewable energy supply platform according to the embodiment of FIG. 1 .
3 is a flowchart illustrating a method of operating a renewable energy trading system according to the embodiment of FIG. 1 .
4 is a flowchart illustrating an operation method of the renewable energy trading system according to the embodiment of FIG. 1 for each subject.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. In this case, the same components in each drawing are denoted by the same reference numerals as much as possible. In addition, detailed descriptions of already known functions and/or configurations will be omitted. The content disclosed below will focus on parts necessary to understand operations according to various embodiments, and descriptions of elements that may obscure the gist of the description will be omitted. Also, some components in the drawings may be exaggerated, omitted, or schematically illustrated. The size of each component does not fully reflect the actual size, so the contents described herein are not limited by the relative size or spacing of the components drawn in each drawing.

In describing the embodiments of the present invention, if it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. And, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification. The terminology used in the detailed description is for the purpose of describing embodiments of the present invention only, and should not be limiting in any way. Unless explicitly used otherwise, expressions in the singular include the meaning of the plural. In this description, expressions such as “comprising” or “comprising” are intended to indicate certain features, numbers, steps, acts, elements, some or a combination thereof, one or more other than those described. It should not be construed to exclude the presence or possibility of other features, numbers, steps, acts, elements, or any part or combination thereof.

In addition, terms such as first, second, etc. may be used to describe various components, but the components are not limited by the terms, and the terms are for the purpose of distinguishing one component from other components. is used only as

Composition of Renewable Energy Trading Platform

1 is a block diagram of a renewable energy trading system using a renewable energy supply platform according to an embodiment of the present invention. FIG. 2 is a block diagram of a renewable energy trading system using a renewable energy supply platform according to the embodiment of FIG. 1 .

Referring to FIG. 1 , the renewable energy trading system according to this embodiment includes a supply-side renewable energy authentication smart meter (SSM1, SSM2, SSM3, hereinafter referred to as SSM), a demand-side renewable energy authentication smart meter (DSM), and a trading platform 100 ) is included.

The trading platform 100 conducts a transaction between renewable energy producers and renewable energy consumers through a renewable energy authentication smart meter. There are two types of renewable energy smart meters: supply-side renewable energy certified smart meters (SSM) and demand-side renewable energy certified smart meters (DSM). Each certified smart meter can be installed as a separate device. Here, the demand-side renewable energy certified smart meter (DSM) may be added as an operating software or application operated on each energy-using device or may be added as separate processor hardware.

The supply-side renewable energy authentication smart meter (SSM) authenticates whether the energy supplied from the energy sources 11, 12, 13 is renewable energy, sends a supply response including the available supply amount information, and measures the supplied renewable energy supply amount to transmit the final supply. Supply-side renewable energy certified smart meters can be installed for each power generation source.

The demand-side renewable energy authentication smart meter (DSM) identifies the energy consuming devices 51, 52, 53, sends a consumption request including the expected consumption, and measures the final consumption consumed by the energy consuming device to determine the final consumption to send A plurality of demand-side renewable energy certified smart meters (DSMs) may be installed in the consumer as many as necessary. The energy consuming devices 51 , 52 , and 53 may include various electric energy consuming devices that require power, such as mid-to-large sized devices requiring constant power in portable electronic devices such as mobile phones, and mobile electronic devices such as electric vehicles. In terms of power consumption, in addition to charging the battery, it is possible to consume power in various ways.

The trading platform 100 provides the renewable energy authentication information and the supply response and the final supply amount provided by the supply-side renewable energy authentication smart meter (SSM), the energy consumption provided by the demand-side renewable energy authentication smart meter (DSM), the Based on the final consumption amount, the energy consumed by the energy consumption devices 51 , 52 , 53 is authenticated as renewable energy and then traded.

The transaction platform 100 is registered with the information of the renewable energy power generation source. Information on power generation capacity, current generation amount, predicted generation amount and location for each renewable energy generation source is registered in the trading platform 100, and information on weather and time is continuously acquired separately.

Renewable energy trading platform 100 enables the DB of renewable energy sources to be recorded and built in real time, and the size of the renewable energy power generation source available at the required time and the information thereof can be inquired by an authorized entity. The authorized entity is the power generation source of the renewable energy trading platform, the registered users of the renewable energy trading platform, and the renewable energy certified smart meter and final administrator for each part.

Therefore, it receives the required amount of power to be supplied, searches for a power source capable of supplying it, and allocates it in real time.

To this end, the trading platform 100 includes an identification information confirmation unit 110 , an energy allocation unit 120 , and a used energy settlement unit 130 .

The identification information check unit 110 checks the source identification information for the energy sources 11 , 12 , and 13 and the consuming device identification information for the energy consuming devices 51 , 52 , 53 . Identifies the generated energy sources 11 , 12 , 13 and inquires related information to identify each of the sources 11 , 12 , 13 as an actual renewable energy production source. In addition, the consuming device that wants to consume renewable energy for charging or power supply is identified as a registered user, or receives necessary information and registers as a regular user.

When a supply-side renewable energy authentication smart meter (SSM) and a demand-side renewable energy authentication smart meter (DSM) coexist, the suitability of the terminal is verified to prevent double payment and the user is specified. In the future, it is possible to prevent double payment by proceeding with the settlement of usage for this specified user.

The energy allocator 120 uses the expected consumption amount of the consumption request of the demand-side renewable energy certified smart meter (SSM) and the possible supply amount of the supply response of the supply-side renewable energy certified smart meter (DSM) to the energy consuming device 51 . , 52 and 53 are allocated energy sources 11 , 12 , and 13 .

In the energy allocation of the energy allocator 120 , when the possible supply amount of the energy source is equal to or greater than the expected consumption amount of the requested energy consuming device, the corresponding energy source is allocated. The trading platform 100 includes information on a plurality of energy sources, and whether to allocate it or not, or, if necessary, inquire about the actual available amount to receive the available supply amount.

The possible supply amount of the energy sources 11 , 12 , and 13 may take into account the amount of energy stored in the energy storage device when the corresponding energy source includes a separate energy storage device.

In addition, as for general energy consumption, there are many tasks that require a certain amount of time rather than instantaneous energy consumption such as charging. Accordingly, the energy consumption request may further include information on the expected charging time and may be transmitted, and the possible supply amount may be defined as the amount of energy that can be produced within the expected charging time.

For example, if the charging time of the mobile phone terminal is expected to be 1 hour, even if the current stored power is 0, if the energy required for charging the mobile phone terminal can be produced within that time, it will be determined to be suitable for allocation. can

This process includes the process of numerically calculating the amount of energy that can be produced in the future based on the time of the current request, which can be calculated using the current external variable and past production history. Such information is already made into a database in the trading platform 100 so that it can be used.

The energy settlement unit 130 calculates the amount of energy used by using the final consumption amount of the demand-side renewable energy certified smart meter (DSM) and the final supply amount of the supply response of the supply-side renewable energy certified smart meter (SSM).

The energy settlement unit 130 may further include a charging unit for charging the energy used for the energy consuming device. The billing unit charges based on the final consumption amount of the demand-side renewable energy certified smart meter (DSM). The billing unit initially charges based on the expected consumption, and then charges again based on the final consumption when energy consumption is completed.

Demand-side Renewable Energy Certified Smart Meter (DSM) can immediately identify energy consuming devices 51, 52 and 53 when energy consuming devices enter a physically chargeable state, and send consumption requests including expected consumption. .

This means that when a demand-side renewable energy certified smart meter (DSM) is installed as software on a charging target device, such as a corresponding terminal, as soon as the plug for charging is inserted, a consumption request including identification of the corresponding device and expected consumption is automatically generated. can be sent In this case, the user simply sets the automatic progress option in the software, and the charging proceeds automatically using renewable energy without any additional selection.

In addition, since the form of energy consumption is not limited to the charging behavior, when various start actions for determining power consumption can be set, it can be used as a starting condition for sending a consumption request.

Application Examples of Renewable Energy Trading Platforms

Referring to FIG. 2 , this energy transfer process will be described.

Supply-side renewable energy certified smart meter (SSM) and demand-side renewable energy certified smart meter (DSM) are only measuring the supply and demand of renewable energy in reality, and actual power delivery requires external power transport devices 71 and 72 done through It can utilize the legacy power transport network with the existing infrastructure configured.

The supply-side renewable energy authentication smart meter (SSM) only recognizes that power is actually supplied to the external power transport devices 71 and 72 , and does not recognize the process of actually reaching the demand-side consumption device 51 . In addition, it is impossible to identify whether the power provided by the demand-side renewable energy authentication smart meter (DSM) of the demand-side consumption device 51 is produced by renewable energy. This is because once electric power is produced, it does not have the characteristics of electric power itself depending on what kind of power source it is.

Therefore, based on the fact that power is supplied by the supply-side renewable energy certified smart meter (SSM) in real time and the corresponding power is consumed by the demand-side renewable energy certified smart meter (DSM), virtual authentication is performed to verify that the consumption of renewable energy is made in real time. In this way, power from the supply side is considered to be delivered to the demand side.

How to operate the renewable energy trading platform

3 is a flowchart illustrating a method of operating a renewable energy trading system according to the embodiment of FIG. 1 . 4 is a flowchart illustrating a method of operating the renewable energy trading system according to the embodiment of FIG. 1 for each subject.

3 and 4, the operation method of the renewable energy trading system according to an embodiment of the present invention includes an energy consuming device identification step (S100), a consumption request reception step (S200), a source search step (S300), and energy It includes a source allocation step (S400) and an energy use settlement step (S500).

In the energy consuming device identification step ( S100 ), the energy consuming device 51 , such as a mobile phone terminal, initially requests charging ( 10 ). In this case, it includes requesting to identify and authenticate itself (S10). Accordingly, the demand-side renewable energy authentication smart meter (DSM) requests the transaction platform 100 to authenticate the device (S20). Of course, this corresponds to user authentication of the consuming device, as opposed to authenticating that the supplied energy is actually renewable energy. This includes the process of confirming the suitability of the consuming device, authenticating the user of the other consuming device, and taking measures to prevent the double payment structure (S100). The transaction platform 100 permits registration of the consumption device (S110)

In the consumption request receiving step (S200), the demand-side renewable energy authentication smart meter (DSM) sends a consumption request including the expected energy consumption. The energy consumption amount transmitted from the terminal side 51 is requested (S210), and through this, the expected energy consumption amount is transmitted from the demand-side renewable energy authentication smart meter (DSM) to the transaction platform 100 (S220).

Authenticating a terminal or the like on the trading platform 100 means that information can be obtained from various renewable energy power generation sources from the trading platform 100 in the future. Accordingly, the authority to obtain information about renewable energy sources such as weather, time, power generation, location, etc. may be given.

In the source search step (S300), a renewable energy source suitable for the expected energy consumption of the corresponding demand device 51 is searched. In this case, it is possible to search using the internal DB already built in the trading platform 100 . If necessary, it can request information on possible supply from the energy source. Using a supply-side renewable energy authentication smart meter (SSM), request and receive information on possible supply amount from an energy source (S320, S330)

The trading platform 100 searches for renewable energy power plants that can currently supply electricity by using the DB built therein, the available supply amount information collected from various power sources, and external variables such as weather. If necessary, a request is made to the supplier or supply-side renewable energy authentication smart meter (SSM) (S320). The available supply amount can be directly transmitted from the energy source, or a response can be received by measuring the available supply amount from the supply-side renewable energy certification smart meter (SSM).

In the energy source allocation step (S400), the energy source is allocated using the expected consumption amount of the consumption request of the demand-side renewable energy certified smart meter (DSM) and the possible supply amount of the supply response of the supply-side renewable energy certified smart meter (SSM). In this case, the allocated supply side may be a plurality of various supply sources rather than a single supply source.

It finds suitable targets, searches for and assigns suitable supply sides to the requested demand side. The trading platform 100 may request a supply with a supply-side renewable energy authentication smart meter (SSM), or directly transmit a supply command to the supply-side renewable energy side. The supply-side renewable energy authentication smart meter (SSM) requests to supply renewable energy to the power generation source 11 (S410). Accordingly, renewable energy is supplied as much as the allocated amount (S420). Accordingly, the demand side consumes the requested amount of renewable energy (S430). For example, it may be a charging operation of a mobile phone terminal.

When this supply-side allocation is determined ( S400 ), a first smart contract based on the allocation amount may be concluded between the renewable energy source 11 and the consuming device 51 or the user of the consuming device 51 . In this case, the distributed ledger related to the smart contract can be provided to each smart meter or the corresponding renewable energy source and consuming device.

In addition, at the same time, it is possible to recognize the origin of renewable energy, which is a power production place, on the terminal that is supplying power or charging, and display information on the origin. In this case, the information of the country of origin provided may be power generation time, power generation location, weather information of the relevant area, and the like.

In the settlement step (S500), energy use is settled and billed using the final consumption amount of the demand-side renewable energy certified smart meter (DSM) and the final supply amount of the supply-side renewable energy certified smart meter (SSM).

4, the supply of renewable energy (S420) and the consumption of renewable energy (S430) may not occur at the same time. For example, while the supply of renewable energy (S420) is instantaneous, the consumption of renewable energy (S430) such as a charging activity may proceed for a longer period of time. Even in this case, the supply amount on the supply side and the consumption amount on the demand side are separately collected, and the amount used is calculated and billed.

The supply-side renewable energy authentication smart meter (SSM) measures the amount of information supplied from the supply side (S510). It authenticates that power has been supplied by the appropriate amount due to an authorized authentication device without manipulation. Accordingly, the authenticated supply amount information is transmitted to the trading platform 100 (S520).

The demand-side renewable energy authentication smart meter (DSM) measures the consumption information consumed by the demand side (S530). This also authenticates the amount accurately measured without forgery or alteration of the consumption amount, and transmits it to the trading platform 100 (S540). Charges are calculated based on this.

In this settlement stage, billing is based on the final consumption of the demand-side renewable energy certified smart meter (DSM). This phenomenon may occur when the supply side supplies the expected demand first, but the consuming side does not consume enough due to time constraints or other circumstances. In this case, the billing is based on the amount of electricity demanded by the demand side.

When the amount of demand on the demand side is determined (S540), a second smart contract based on the amount of demand may be concluded between the renewable energy source 11 and the consuming device 51 or the user of the consuming device 51. . Even at this time, it is possible to provide a distributed ledger related to the smart contract to each smart meter or the corresponding renewable energy source and consuming device.

In this case, after the initial billing is based on the expected consumption amount, when the energy consumption is completed, the billing may be performed again based on the final consumption amount. The first smart contract and the second smart contract may be linked to each other.

In addition, in the case of borrowing this payment method as a payment method of a telecommunication company, the charge for using renewable energy can be settled as an additional service together with the monthly mobile phone charge.

Additional embodiments of operating methods

As mentioned above, when the demand-side consumption device 51 such as a mobile phone terminal is registered in the transaction platform 100, various information can be accessed in advance. Therefore, after acquiring the currently available renewable energy information, it is possible to select and charge it. An example of such a process is as follows.

For example, when the terminal 51, which is a consumption device, is connected to the charging cable, the server of the transaction platform 100 displays the currently selected energy source before starting charging, and when the user selects it, charging may start. In this case, the power energy source may be in the form of a group such as renewable energy, or in a specific form such as solar energy.

Alternatively, when the terminal 51, which is a consumption device, is connected, the server side of the transaction platform 100 shows various energy sources currently available in a menu format before starting charging, and when the user selects one of them, the energy source You can give the option to start charging with .

Alternatively, if I register my preferred energy source in the terminal 51 in advance and connect the terminal, one energy source is automatically selected according to priority among various currently available energy sources on the server side, and charging can be started. there is.

In this way, by selecting various power sources, it is possible to select in advance or in the field to receive energy.

In addition, in order to facilitate the explanation of receiving and selecting information, a mobile phone terminal has been described as an example, but as communication modules of various devices are recently mounted, the above information access in various consumption devices that can transmit and select information. It is possible to apply the embodiment of For example, in the case of an electric vehicle having a separate input type liquid crystal, renewable energy information may be transmitted and selection thereof may be made possible.

As described above, in the present invention, specific matters such as specific components, etc., and limited embodiments and drawings have been described, but these are only provided to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments. , various modifications and variations will be possible without departing from the essential characteristics of the present invention by those of ordinary skill in the art to which the present invention pertains. Therefore, the spirit of the present invention should not be limited to the described embodiments, and all technical ideas with equivalent or equivalent modifications to the claims as well as the claims to be described later are included in the scope of the present invention. should be interpreted as

11, 12, 13: energy source
SSM, SSM1, SSM2, SSM3 : Supply-side renewable energy certified smart meter
100: Renewable Energy Trading Platform
110: identification information confirmation unit
120: energy allocation unit
130: energy settlement unit
DSM: Smart meter certified for demand-side renewable energy
51, 52, 53, : Energy demand device

Claims (18)

A supply-side renewable energy authentication smart meter that authenticates whether the energy supplied from the energy source is renewable energy, sends a supply response including possible supply amount information, measures the supplied renewable energy supply amount and transmits the final supply amount;
a demand-side renewable energy authentication smart meter for identifying an energy consuming device, sending a consumption request including an expected consumption amount, measuring the final consumption amount consumed by the energy consuming device, and transmitting the final consumption amount; and
The renewable energy authentication information and the supply response and the final supply amount provided by the supply-side renewable energy authentication smart meter; Renewable energy trading system comprising a trading platform that trades the energy consumed by the energy consuming device after authenticating whether it is renewable energy by using the energy consumption amount and the final consumption amount provided by the demand-side renewable energy authentication smart meter.
According to claim 1,
The certified trading platform,
source identification information for the energy source; and an identification information checking unit for checking device identification information for the energy consuming device.
Energy to allocate the energy source corresponding to the energy consuming device by using the expected consumption amount of the consumption request of the demand-side renewable energy authentication smart meter and the possible supply amount of the supply response of the supply-side renewable energy authentication smart meter allotment; and
the final consumption of the demand-side renewable energy certified smart meter; and the final supply amount of the supply response of the supply-side renewable energy authentication smart meter; an energy settlement unit that calculates and charges the amount of energy used by using;
Renewable energy trading system, characterized in that it proceeds, including.
3. The method of claim 2,
The energy allocation is a renewable energy trading system, characterized in that allocating a corresponding supply source when the available supply amount is greater than or equal to the expected consumption amount.
3. The method of claim 2,
The consumption request further includes expected charging time information,
The possible supply amount is a renewable energy trading system, characterized in that it includes the amount of energy that can be produced within the expected charging time.
5. The method of claim 4,
The amount of energy that can be produced is a renewable energy trading system, characterized in that it is calculated using a current external variable and a past production history.
6. The method of claim 5,
The authentication trading platform is a renewable energy trading system, characterized in that the energy source information including the power generation capacity, current generation amount, predicted generation amount, and the location of the source for each energy source is stored.
3. The method of claim 2,
Renewable energy trading system, characterized in that the available supply amount is determined based on the capacity stored in the energy storage device.
3. The method of claim 2,
The energy settlement unit is a renewable energy transaction system, characterized in that the billing based on the final consumption amount of the demand-side renewable energy certified smart meter.
9. The method of claim 8,
After the energy settlement unit first charges based on the expected consumption,
Renewable energy trading system, characterized in that recharging based on the final consumption amount at the time when energy consumption is completed.
According to claim 1,
The demand-side renewable energy authentication smart meter is a renewable energy transaction system, characterized in that it is implemented as software activated by the operating software of the energy consuming device.
According to claim 1,
Renewable energy, characterized in that the demand-side renewable energy authentication smart meter immediately identifies the energy consuming device when the energy consuming device enters a physical chargeable state, and sends the consumption request including the expected consumption amount trading system.
a consumption request receiving step of receiving a consumption request including an expected consumption amount from the demand-side renewable energy authentication smart meter;
a source searching step of searching for the allocatable energy source by using the available supply amount information from the energy source; and
an energy source allocation step of allocating the energy source using the expected consumption amount of the consumption request of the demand-side renewable energy authentication smart meter and the possible supply amount of the supply response of the supply-side renewable energy authentication smart meter;
A method of operating a renewable energy trading system comprising a.
13. The method of claim 12,
energy consuming device identification step for authenticating the user of the energy consuming device
A method of operating a renewable energy trading system comprising a.
13. The method of claim 12,
the final consumption of the demand-side renewable energy certified smart meter; and the final supply amount of the supply response of the supply-side renewable energy authentication smart meter; the operation method of a renewable energy transaction system further comprising a settlement step of using the energy use to settle and bill.
15. The method of claim 14,
In the settlement step,
Operating method of a renewable energy trading system, characterized in that charging based on the final consumption amount of the demand-side renewable energy certified smart meter.
15. The method of claim 14,
A first smart contract step of first signing a first smart contract based on the expected consumption amount and issuing a distributed ledger for the first smart contract to the subject of each contract; And
The second smart contract step of signing a second smart contract based on the final consumption amount and issuing a distributed ledger for the second smart contract to the subject of each contract; Operation of a renewable energy transaction system further comprising method.
14. The method of claim 13,
The demand-side renewable energy authentication smart meter operates a renewable energy transaction system, characterized in that when the energy consuming device enters a physical charging state, the energy consuming device identification step and the consumption request receiving step are performed immediately method.
13. The method of claim 12,
The consumption request further includes expected charging time information,
The possible supply amount is a method of operating a renewable energy trading system, characterized in that it includes the amount of energy that can be produced within the expected charging time.

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