KR102331039B1 - Blockchain-based zero-carbon credits transaction method and system - Google Patents

Abstract

Disclosed are a method and system for a blockchain-based zero-carbon performance transaction. The method performed on a computer system may comprise: a step of registering a zero-carbon business by at least one processor included in the computer system; a step of issuing, by the at least one processor, credits based on an activity of a reductor participating in the zero-carbon business; and a step of distributing, by the at least one processor, the credits to an offsetter who has invested in the zero-carbon business. Therefore, the present invention is capable of participating in activities for reducing greenhouse gas.

Description

BLOCKCHAIN-BASED ZERO-CARBON CREDITS TRANSACTION METHOD AND SYSTEM

The description below relates to the technology for trading credits according to the amount of greenhouse gas reduction and renewable energy generation/production.

Among the gases that make up the atmosphere, the gases that cause the greenhouse effect are called greenhouse gases. Greenhouse gases include carbon dioxide, methane, nitrous oxide, freon, and ozone. Of course, water vapor plays the biggest role in causing the natural greenhouse effect, but carbon dioxide is the most representative greenhouse gas that causes global warming.

Global warming has been rapidly progressing since the late 20th century, and abnormal climate phenomena such as torrential rains, droughts, and typhoons are rapidly increasing. If the current level of pollution continues, global greenhouse gas emissions are expected to become a serious threat to mankind and ecosystems in the not-too-distant future.

Therefore, in order to respond to global warming caused by greenhouse gases, it is in the state of entering into international cooperation to reduce the emission of greenhouse gases. Various efforts are being made to reduce greenhouse gas emissions in the form of general-purpose activities in daily life such as using public transportation or turning off lights, as well as international industries in various fields such as transportation.

As an example of quantitative monitoring technology for greenhouse gas reduction, Korean Patent Publication No. 10-1111554 (registration date January 26, 2012) discloses a technology capable of measuring greenhouse gas reduction.

It provides a method and system for participating in greenhouse gas reduction activities and renewable energy production activities using zero-carbon business and zero-carbon programs.

It provides a method and system to trade the performance of greenhouse gas reduction activities and renewable energy generation for offsetters participating in the carbon neutrality and RE100 declaration.

A method performed in a computer system, comprising: registering, by at least one processor included in the computer system, a carbon zero business; issuing, by the at least one processor, credits based on the activity of a reducer participating in the zero carbon project; and distributing, by the at least one processor, the performance to offsetters who have invested in the zero-carbon business.

According to one aspect, the method may support participation and investment in the zero carbon project by signing a smart contract for the zero carbon project based on a block chain network.

According to another aspect, the registering step includes registering a Mandatory Project (MP) project approved by the United Nations Framework Convention on Climate Change (UNFCCC) or a national institution for greenhouse gas reduction or reducing greenhouse gas registered in the computer system. You can register a VP (Voluntary Project) project using the methodology.

According to another aspect, in the registering step, a renewable energy power generation business may be registered as one of the carbon zero projects for renewable energy production.

According to another aspect, in the issuing step, at least one of Carbon Emission Reductions (CER), Voluntary Emission Reductions (VER), Small Voluntary Emission Reductions (sVER), or International Renewable Energy Certificates (iREC) may be issued as the performance. can

According to another aspect, in the issuing step, the performance may be issued using at least one greenhouse gas reduction program among CDM (Clean Development Mechanism), P-CDM (Programmatic CDM), and SDM (Sustainable Development Mechanism). have.

According to another aspect, in the issuing step, the performance may be issued through a credit valuation engine capable of monitoring the amount of greenhouse gas reduction, or the performance may be issued through the result of monitoring the amount of renewable energy generation.

According to another aspect, the issuing may include converting the performance into virtual currency related to the computer system, and paying a reward according to the amount of greenhouse gas reduction of the reducer in the virtual currency.

According to another aspect, the distributing may include trading the performance using the virtual currency associated with the computer system as a hedging strategy for the offsetter's carbon neutrality and RE100 declaration.

A computer system comprising: at least one processor configured to execute computer readable instructions contained in a memory, the at least one processor comprising: registering a carbon zero project; registering a greenhouse gas reduction project; The process of issuing credits based on the activities of the reducers participating in the zero carbon project; And it provides a computer system that handles the process of distributing the performance to offsetters who have invested in the zero carbon.

According to embodiments of the present invention, it is possible to participate in greenhouse gas reduction activities using a zero-carbon business and a zero-carbon program.

According to embodiments of the present invention, it is possible to trade the performance according to the greenhouse gas reduction activity and the performance according to the amount of renewable energy generation for the offsets participating in the carbon neutrality and RE100 declaration, such as companies, public institutions, and organizations.

1 is a diagram for explaining a zero carbon mining (ZCM) business model according to an embodiment of the present invention.
2 is a diagram for explaining the ZCM coin management server and interested parties in an embodiment of the present invention.
3 is a diagram for explaining a ZCM campaign creation and participation procedure in an embodiment of the present invention.
4 is a view for explaining the ZCM performance generation and purchase procedure in an embodiment of the present invention.
5 is a block diagram illustrating an example of a computer system for implementing a ZCM coin management server in an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Embodiments of the present invention relate to a technology for trading credits according to greenhouse gas reduction activities and renewable energy generation/production.

Embodiments including those specifically disclosed herein can participate in various greenhouse gas reduction activities using a zero-carbon business and a zero-carbon program, and at this time, based on the blockchain network, greenhouse gas reduction activities and renewable energy generation amount It can support performance creation or performance trading according to

1 is a diagram illustrating a flowchart of a zero carbon mining (ZCM) business model according to an embodiment of the present invention.

In this embodiment, the zero carbon project may mean a project for reducing greenhouse gas, a project for renewable energy generation, and the like.

Referring to FIG. 1 , the ZCM system 100 is a performance according to greenhouse gas reduction activities and renewable energy generation, and CER (Carbon Emission Reductions) 111 and VER (Voluntary Emission Reductions) by the zero-carbon business 110 (Voluntary Emission Reductions) 112 , international Renewable Energy Certificates (iREC) 113 , and small Voluntary Emission Reductions (sVER) 121 by the zero-carbon program 120 may be issued.

Zero-carbon business 110 is a business conducted by international organizations or national government-affiliated certification agencies, etc. At this time, CER (111) is issued through greenhouse gas reduction programs such as CDM, P-CDM, SDM, and Offset, and VER ( 112) and sVER (121) are issued through a credit valuation engine capable of monitoring greenhouse gas reduction, and iREC (113) can be issued through the monitoring result of renewable energy generation.

The zero-carbon program 120 is a greenhouse gas reduction activity not included in the zero-carbon business 110, and all greenhouses that are universally performed in daily life, such as using public transportation, turning off lights, recycling waste, reducing plastic, etc. It can be defined to encompass gas reduction activities. sVER (121), like VER (112), may be issued through a performance evaluation engine capable of monitoring the amount of greenhouse gas reduction.

In the case of the performance evaluation engine, VER(112) and sVER(121) may be issued after the effectiveness evaluation for greenhouse gas reduction activities through a validator.

The zero-carbon business 110 and the zero-carbon program 120 include a conductor 101 who is an admin of the ZCM system 100 or a reducer 102 participating in greenhouse gas reduction activities. may be registered or defined by

The executor 101 registers a zero-carbon business 110 such as a zero-carbon tour, a green hotel, etc. on the platform, and the reducer 102 uses the business 110 to generate performance.

ZCM system 100 uses zero-carbon business 110 and zero-carbon program 120 issued through CER(111), VER(112), iREC(113), sVER(121) as a dedicated virtual currency (hereinafter referred to as sVER(121)). , 'ZC coin') can be converted into coins (conversion or exchange). At this time, CER(111) is different from VER(112) or sVER(121) in that it can be used internationally, so the values of CER(111), VER(112), and sVER(121) are different, and iREC(113) is reproduced. The value of CER(111), VER(112), and sVER(121) is different in terms of the amount of energy generated, and accordingly, the exchange rate for ZC coin is also applied differently.

The reducer 102 may correspond to an individual, a group, or a company. For example, the reducer 102 can participate in the zero-carbon program 120 by purchasing ZC coins through the ZCM account after signing a smart contract corresponding to the zero-carbon program 120. .

The zero-carbon activity, which is the activity of the reducer 102, may mean a greenhouse gas reduction activity that the reducer 102 can perform in daily life, and generates performance by selecting and performing the activity through an app. can do it

For example, the reducer 102 may purchase a travel product carried out as one of the greenhouse gas reduction projects in the ZCM system 100 and use the services in the corresponding travel product, thereby participating in the greenhouse gas reduction project.

The ZCM system 100 can monitor the greenhouse gas reduction amount of the reducer 102 while the reducer 102 participates in the zero-carbon program 120 and the greenhouse gas reduction amount for the reducer 102 . Rewards can be provided as ZC coins.

In addition, the ZCM system 100 is a hedging strategy of offsetters 103 participating in carbon neutrality and RE100 declaration such as corporations, national public institutions, organizations, etc. CER (111), VER with zero-carbon performance (112), iREC (113), and sVER (121) can be traded.

As an example, the offsetter 103 may purchase a zero-carbon performance by using a virtual wallet to directly transfer ZC coins to the ZCM system 100 .

As another example, the zero-carbon performance can be purchased by the offsetter 103 by remitting ZC coins through the smart contract after signing a smart contract for the ZCM campaign registered on the platform related to the ZCM system 100. . In other words, the ZCM system 100 induces the investment of the offsetter 103 through the ZCM campaign, and when the target investment is collected, the business corresponding to the ZCM campaign is zero-carbon business 110 or zero-carbon program 120 ), in which case zero-carbon performance generated through actual operation can be distributed to all offsetters 103 invested in the corresponding ZCM campaign.

The executor 101 can generate results by performing greenhouse gas reduction and renewable energy production projects such as the renewable energy generation project as a ZCM campaign, and the offsetter 103 can voluntarily reduce greenhouse gases such as carbon neutrality declaration and RE100 declaration As a company or organization wishing to undertake the

2 is a diagram for explaining the ZCM coin management server and interested parties in an embodiment of the present invention.

FIG. 2 shows the ZC coin management server 200 which is a component included in the ZCM system 100 described with reference to FIG. 1 .

ZC coin management server 200 can generate and trade zero-carbon performance based on the blockchain network.

The offsetter 103 may inquire from the ZC coin management server 200 the ZC coin details and zero-carbon performance purchases and greenhouse gas reduction business investment details.

The reducer 102 can inquire the ZC coin details, greenhouse gas reduction activity details, zero-carbon performance generation details, etc. from the ZC coin management server 200, and furthermore, the greenhouse gas reduction project (zero-carbon business (110) ) or a zero-carbon program 120) can be created and registered in the ZC coin management server 200.

The executor 101 may inquire the participant information for the greenhouse gas reduction project from the ZC coin management server 200 .

ZC coin management server 200 can create a greenhouse gas reduction project in conjunction with the executor 101 and the reducer 102, and support the offsetter 103 to participate in the greenhouse gas reduction project.

The ZC coin management server 200 generates zero-carbon performance according to greenhouse gas reduction activities for the reducers 102 participating in the previously created greenhouse gas reduction project, and pays ZC coins corresponding to the zero-carbon performance can do.

ZC coin management server 200 interlocks with financial institution server 20, ZCM virtual wallet 210 that is ZCM account of ZCM system 100, reducer virtual wallet 220 that is ZCM account of reducer 102, The offsetter virtual wallet 230, which is the ZCM account of the offsetter 103, may be issued.

When the ZC coin management server 200 confirms the deposit for the participation cost of the greenhouse gas reduction project from the reducer 102 and the offsetter 103, the deposit amount to the reducer virtual wallet 220 and the offsetter virtual wallet 230 You can charge the corresponding ZC coin.

The ZC coin management server 200 may pay the participation cost of the greenhouse gas reduction project from the reducer virtual wallet 220 and the offsetter virtual wallet 230 .

The ZC coin management server 200 records the contents of the greenhouse gas reduction project, the project participation details, the business execution details, the transaction details of the ZCM virtual wallet 210 and the reducer virtual wallet 220 and the offset virtual wallet 230, etc. can be saved

3 is a diagram for explaining a ZCM campaign creation and participation procedure in an embodiment of the present invention.

The operation on the side of the reducer 102 is as follows.

The reducer 102 proceeds with membership registration for using the service of the ZCM system 100 and creates the reducer virtual wallet 220 .

The reducer 102 applies for campaign registration for the greenhouse gas reduction project. The greenhouse gas reduction project is a project approved by the United Nations Framework Convention on Climate Change (UNFCCC) or government agencies such as the Korean Ministry of Environment (MP: Mandatory Project) and a project that can use the greenhouse gas reduction methodology registered in ZCM (VP: Voluntary Project). divided

In the MP project, the evaluator checks whether the project is registered with the relevant institution and examines the stakeholder contract relationship, and in the VP project, the PDD (Project Design Document) registered by the reducer reviews whether the methodology conforms.

When the evaluation is completed, the reducer 102 pays the registration fee for the greenhouse gas reduction project and registers the greenhouse gas reduction project. At this time, the investment target amount and the minimum bid amount for the greenhouse gas reduction project are set.

The operation on the side of the offset 103 is as follows.

The offsetter 103 registers as a member to use the service of the ZCM system 100 and creates the offsetter virtual wallet 230 .

The reducer 102 selects a project to participate in by inquiring about the registered greenhouse gas reduction project, and participates in an auction method or the like.

When the reducer 102 exceeds the registered investment target amount, the smart contract is concluded in the order of the highest bidder.

The offsetter 103 pays the ZC coin to the reducer 102, and the reducer 102 can convert the ZC coin into a virtual account issued by a financial institution and use it as a business expense.

As the reducer 102 performs the greenhouse gas reduction project, at least one of CER (111), VER (112), and sVER (121) may be generated as a zero-carbon performance. CER(111) is issued through GHG reduction programs such as P-CDM, SDM, and Offset, VER(112) and sVER(121) are issued through the performance evaluation engine capable of monitoring GHG reduction, and iREC(113) ) can be issued through the monitoring result of renewable energy generation.

The zero-carbon performance generated for the reducer 102 is transferred to the offsetter 103 participating in the corresponding greenhouse gas reduction project.

ZC coin management server 200 is the zero-carbon performance of the reducer 102 - when the transfer to the offsetter 103 is completed, the zero-carbon performance is liquidated.

4 is a view for explaining the ZCM performance generation and purchase procedure in an embodiment of the present invention.

The operation on the side of the offset 103 is as follows.

The offsetter 103 registers as a member to use the service of the ZCM system 100 and creates the offsetter virtual wallet 230 .

Search the zero-carbon performance (CERs, VERs, iREC, sVERs) registered in the ZC coin management server 200, select the zero-carbon performance you want to purchase, and conclude a smart contract.

In the ZC coin management server 200, the zero-carbon performance that the offsetter 103 intends to trade is transferred to the offsetter 103, and when the transfer is completed, the zero-carbon performance is liquidated.

The operation on the side of the reducer 102 is as follows.

The reducer 102 proceeds with membership registration for using the service of the ZCM system 100 and creates the reducer virtual wallet 220 .

The reducer 102 inquires the zero-carbon business 110 registered by the executor 101, concludes a smart contract, and then participates in the zero-carbon business 110 to obtain zero-carbon performance (CERs, VERs, iREC). create

The reducer 102 generates zero-carbon performance (sVERs) by participating in the zero-carbon program 120 by inquiring the zero-carbon program 120 registered by the executor 101 .

The zero-carbon performance (CERs, VERs, sVERs, iREC) generated for the reducer 102 is automatically compensated with ZC coins and deposited in the reducer virtual wallet 220 .

The operation on the side of the executor 101 is as follows.

The executor 101 creates a renewable energy power generation project such as P-CDM, SDM, and Offset, a greenhouse gas reduction program and/or a performance evaluation engine, and is evaluated through an evaluator to create a zero-carbon business 110 (eg, zero carbon) tourism, carbon-zero car sharing, sales of carbon-reducing products, etc.).

The zero-carbon program 120 is automatically generated when the executor 101 generates the performance evaluation engine and evaluates it through the evaluator. The performance evaluation engine is a program that can input baseline and activity data values for the zero-carbon program 120, and external services related to greenhouse gas reduction (eg, public transportation services, home network services, waste recycling service, etc.).

5 is a block diagram illustrating an example of a computer system according to an embodiment of the present invention. The ZCM coin management server 200 described with reference to FIG. 2 may be implemented by the computer system 500 configured as shown in FIG. 5 .

5 is a block diagram illustrating an example of a computer system according to an embodiment of the present invention. The ZCM coin management server 200 described with reference to FIG. 2 may be implemented by the computer system 500 configured as shown in FIG. 5 .

As shown in FIG. 5 , the computer system 500 is a component for executing the speaker separation method according to embodiments of the present invention, and includes a memory 510 , a processor 520 , a communication interface 530 , and an input/output interface. 540 may be included.

The memory 510 is a computer-readable recording medium and may include a random access memory (RAM), a read only memory (ROM), and a permanent mass storage device such as a disk drive. Here, a non-volatile mass storage device such as a ROM and a disk drive may be included in the computer system 500 as a separate permanent storage device distinct from the memory 510 . Also, an operating system and at least one program code may be stored in the memory 510 . These software components may be loaded into the memory 510 from a computer-readable recording medium separate from the memory 510 . The separate computer-readable recording medium may include a computer-readable recording medium such as a floppy drive, a disk, a tape, a DVD/CD-ROM drive, and a memory card. In another embodiment, the software components may be loaded into the memory 510 through the communication interface 530 instead of a computer-readable recording medium. For example, software components may be loaded into memory 510 of computer system 500 based on computer programs installed by files received over network 560 .

The processor 520 may be configured to process instructions of a computer program by performing basic arithmetic, logic, and input/output operations. Instructions may be provided to processor 520 by memory 510 or communication interface 530 . For example, the processor 520 may be configured to execute a received instruction according to a program code stored in a recording device such as the memory 510 .

The communication interface 530 may provide a function for the computer system 500 to communicate with other devices via the network 560 . For example, a request, command, data, file, etc. generated by the processor 520 of the computer system 500 according to a program code stored in a recording device such as the memory 510 is transmitted to the network ( 560) to other devices. Conversely, signals, commands, data, files, etc. from other devices may be received into the computer system 500 via the communication interface 530 of the computer system 500 via the network 560 . A signal, command, or data received through the communication interface 530 may be transferred to the processor 520 or the memory 510 , and the file may be a storage medium (described above) that the computer system 500 may further include. persistent storage).

The communication method is not limited, and a communication method using a communication network (eg, a mobile communication network, a wired Internet, a wireless Internet, a broadcasting network) that the network 560 may include may also include short-distance wired/wireless communication between devices. have. For example, the network 560 may include a personal area network (PAN), a local area network (LAN), a campus area network (CAN), a metropolitan area network (MAN), a wide area network (WAN), and a broadband network (BBN). , the Internet, and the like. Further, the network 560 may include any one or more of a network topology including a bus network, a star network, a ring network, a mesh network, a star-bus network, a tree or a hierarchical network, etc. not limited

The input/output interface 540 may be a means for an interface with the input/output device 550 . For example, the input device may include a device such as a microphone, keyboard, camera, or mouse, and the output device may include a device such as a display or speaker. As another example, the input/output interface 540 may be a means for an interface with a device in which functions for input and output are integrated into one, such as a touch screen. The input/output device 550 may be configured as one device with the computer system 500 .

Also, in other embodiments, computer system 500 may include fewer or more components than those of FIG. 5 . However, there is no need to clearly show most of the prior art components. For example, the computer system 500 may be implemented to include at least a portion of the above-described input/output device 550 or may further include other components such as a transceiver and various databases.

As such, according to the embodiments of the present invention, it is possible to participate in various greenhouse gas reduction activities using a zero-carbon business and a zero-carbon program, and targets offsetters participating in carbon neutrality such as corporations, public institutions, and organizations. You can trade the performance according to the reduction activities.

The device described above may be implemented as a hardware component, a software component, and/or a combination of the hardware component and the software component. For example, the devices and components described in the embodiments may include a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable gate array (FPGA), and a programmable logic unit (PLU). It may be implemented using one or more general purpose or special purpose computers, such as a logic unit, microprocessor, or any other device capable of executing and responding to instructions. The processing device may execute an operating system (OS) and one or more software applications running on the operating system. The processing device may also access, store, manipulate, process, and generate data in response to execution of the software. For convenience of understanding, although one processing device is sometimes described as being used, one of ordinary skill in the art will recognize that the processing device includes a plurality of processing elements and/or a plurality of types of processing elements. It can be seen that can include For example, the processing device may include a plurality of processors or one processor and one controller. Other processing configurations are also possible, such as parallel processors.

The software may comprise a computer program, code, instructions, or a combination of one or more thereof, which configures a processing device to operate as desired or is independently or collectively processed You can command the device. The software and/or data may be embodied in any type of machine, component, physical device, computer storage medium or device for interpretation by or providing instructions or data to the processing device. have. The software may be distributed over networked computer systems, and stored or executed in a distributed manner. Software and data may be stored in one or more computer-readable recording media.

The method according to the embodiment may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. In this case, the medium may be to continuously store the program executable by the computer, or to temporarily store the program for execution or download. In addition, the medium may be a variety of recording means or storage means in the form of a single or several hardware combined, it is not limited to a medium directly connected to any computer system, and may exist distributed on a network. Examples of the medium include a hard disk, a magnetic medium such as a floppy disk and a magnetic tape, an optical recording medium such as CD-ROM and DVD, a magneto-optical medium such as a floppy disk, and those configured to store program instructions, including ROM, RAM, flash memory, and the like. In addition, examples of other media may include recording media or storage media managed by an app store for distributing applications, sites for supplying or distributing other various software, and servers.

As described above, although the embodiments have been described with reference to the limited embodiments and drawings, various modifications and variations are possible from the above description by those skilled in the art. For example, the described techniques are performed in a different order than the described method, and/or the described components of the system, structure, apparatus, circuit, etc. are combined or combined in a different form than the described method, or other components Or substituted or substituted by equivalents may achieve an appropriate result.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (10)

A method performed on a computer system, comprising:
registering a carbon zero business by at least one processor included in the computer system;
issuing, by the at least one processor, credits based on activities of a reducer participating in the zero carbon project; and
distributing, by the at least one processor, the performance to offsetters who have invested in the zero-carbon business;
including,
The registration step is
Registering the MP (Mandatory Project) project approved by the United Nations Framework Convention on Climate Change (UNFCCC) or a national institution as an activity for greenhouse gas reduction and renewable energy production; and
Registering a VP (Voluntary Project) project using the greenhouse gas reduction methodology registered in the computer system as a greenhouse gas reduction activity not included in the MP project
including,
The issuing step is
Issuing Carbon Emission Reductions (CER) as the performance through at least one greenhouse gas reduction program of Clean Development Mechanism (CDM), programmatic CDM (P-CDM), and Sustainable Development Mechanism (SDM);
issuing VER (Voluntary Emission Reductions) and sVER (small Voluntary Emission Reductions) as the performance through a credit valuation engine capable of monitoring greenhouse gas reduction; and
Issuing iREC (international Renewable Energy Certificates) as the performance through the monitoring result of renewable energy generation
including,
The CER, the VER, and the iREC are issued as the performance of the MP business,
The sVER is issued as the performance of the VP business,
The method is
Register the zero-carbon project through the evaluation of a validator for the greenhouse gas reduction program and the performance evaluation engine, but sign a smart contract for the zero-carbon project based on a block chain network. Support participation and investment in zero business;
The issuing step is
converting the performance into virtual currency associated with the computer system;
further comprising,
The exchange rate for the virtual currency is applied differently according to the different values of the CER, the VER, the sVER, and the iREC
How to characterize. delete delete delete delete delete delete According to claim 1,
The issuing step is
Paying a reward according to the greenhouse gas reduction amount of the reducer in the virtual currency
How to include more. According to claim 1,
The distributing step is
Trading the performance using the virtual currency associated with the computer system as a hedging strategy for the offsetter's carbon neutrality and RE100 declaration
How to include. In a computer system,
at least one processor configured to execute computer readable instructions contained in memory
including,
The at least one processor,
the process of registering a zero-carbon business;
The process of issuing credits based on the activities of the reducers participating in the zero carbon project; and
The process of distributing the performance to offsetters who have invested in the zero-carbon business
process the
The registration process is
The process of registering the MP (Mandatory Project) project approved by the United Nations Framework Convention on Climate Change (UNFCCC) or national organizations as activities for greenhouse gas reduction and renewable energy production; and
The process of registering a VP (Voluntary Project) project using the greenhouse gas reduction methodology registered in the computer system as a greenhouse gas reduction activity not included in the MP project
including,
The issuance process is
The process of issuing Carbon Emission Reductions (CER) as the performance through at least one greenhouse gas reduction program of Clean Development Mechanism (CDM), programmatic CDM (P-CDM), and Sustainable Development Mechanism (SDM);
issuing VER (Voluntary Emission Reductions) and sVER (small Voluntary Emission Reductions) as the performance through a credit valuation engine capable of monitoring greenhouse gas reduction; and
The process of issuing iREC (international Renewable Energy Certificates) as the above performance through the monitoring result of renewable energy generation
including,
The CER, the VER, and the iREC are issued as the performance of the MP business,
The sVER is issued as a result of the VP business,
The at least one processor,
Register the zero-carbon project through the evaluation of a validator for the greenhouse gas reduction program and the performance evaluation engine, but sign a smart contract for the zero-carbon project based on a block chain network. Support participation and investment in zero business;
The issuance process is
converting said performance into virtual currency associated with said computer system;
further comprising,
The exchange rate for the virtual currency is applied differently according to the different values of the CER, the VER, the sVER, and the iREC
A computer system characterized by a.

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