JP2010049660A - Low carbon power authentication device and authentication method by low carbon power generation - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To facilitate countermeasures even to the increase in low carbon power supply request quantity by recognizing the environmental additive value of a nuclear power generation, and to promote low carbon power generation by making the best of such a function as the low carbon power generation of the nuclear power generation. <P>SOLUTION: This low carbon power authentication device is configured to generate low carbon power authentication sum equivalent to natural energy power generation power supply quantity or nuclear power generation power supply quantity on the basis of natural energy power generation power supply quantity data or nuclear power generation power supply quantity data, and to issue an electronic low carbon power authentication to authenticate that the requested low carbon power supply request quantity is supplied with the low carbon power authentication sum to a client terminal by referring to the low carbon power authentication sum, and to, when the requested low carbon power supply request quantity is not supplied with the low carbon power authentication sum equivalent to the natural energy power generation power supply quantity, supply the low carbon power supply request quantity with the low carbon power authentication sum equivalent to the nuclear power generation supply quantity by referring to the low carbon power authentication sum. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

The present invention relates to a low carbon power certification apparatus and certification method using low carbon power generation.

The environmental added value of electricity generated by natural energy is traded in the form of a green power certificate, improving the environment equivalent to the amount of generated power and contributing to the spread of natural energy. . The system transaction, oil using the natural energy power generation source, a CO ₂ and characterized by not particularly have a power generation equipment for discharging, renewable energy certificate to further separate the environmental added value and electrically itself as coal By doing so, it has a feature that enables efficient use of natural energy regardless of the area of the power company. In this system, the amount of power described in the green power certificate is converted into a CO ₂ reduction amount using a conversion coefficient. As a merit for the power generation company, in addition to the sales revenue of electricity itself, income from provision of environmental added value can be obtained, and the facility can be operated and enhanced by these.

  Patent Document 1 discloses a green power certificate market device including a request processing unit and a data storage unit connected to the request processing unit. The data storage unit includes information on a green power certificate, green power certificate, The request processing unit can receive application information for holding the green power certificate, provide the green power certificate according to the application information, and store the information regarding the value points according to the certificate. A green power certificate marketing device is described in which a value point corresponding to a power certificate is calculated and recorded in a data storage unit.

  Patent Document 2 certifies multiple types of environmental value in the environmental value creation business carried out by companies, etc., makes the environmental value obvious by creating a fair and equitable market for trading, and enables environmental value to be traded online Providing an environmental value transaction support system, an environmental value authentication system, an environmental value transaction method, and computer software.

  Patent Document 3 describes a power supply system that can select power generated by green energy on the customer side.

JP 2003-108655 A JP 2003-178167 A JP 2001-184406 A

  As mentioned above, it has been proposed to evaluate the environmental value added for the amount of power generated by power generation using natural energy such as solar, wind, geothermal, hydropower or biomass, and to buy and sell the environmental value added. Through such transactions, it has been proposed to further enhance natural energy facilities and promote low-carbon power generation using natural energy, that is, clean power generation. However, it cannot be said that these new energy generation amounts are large.

By the way, the amount of electric power generated by nuclear power generation is increasing all over the world. In Japan, the amount of electric power generated by nuclear power generation exceeds 30% of the total electric power generation amount. Moreover, nuclear power generation is low-carbon power generation, and the amount of power generated by nuclear power generation is regarded as low-carbon power generation, and the environment is improved by involving this enormous amount of power generation. It is required to increase.
The present invention is enormous Naru power energy nuclear power in view of the above recognizes the environmental added value as generated power by the low CO ₂ emission, corresponding low carbon power demand is even larger It is possible to make use of the function of nuclear power as low-carbon power generation to promote low-carbon power generation and to promote natural energy power generation. And in addition, it seeks to activate property transactions for this environmental added value.

The present invention includes an input means for inputting a natural energy generated power supply amount generated at a natural energy power plant, a nuclear power generation power supply amount generated at a nuclear power plant, and a low carbon power supply requirement amount;
A storage for storing the input amount of renewable energy power generation, the amount of nuclear power generation power supply, and the amount of low carbon power supply demand as natural energy power generation power supply amount data, nuclear power generation power supply amount data, and low carbon power supply requirement amount data, respectively. Means,
Low carbon power certification amount generating means for generating a low carbon power certification amount corresponding to a natural energy generation power supply amount or a nuclear power generation power supply amount based on the natural energy power generation power supply data or nuclear power generation power supply data, respectively. When,
Low carbon power supply request processing means for statistically calculating a low carbon power supply request amount for each terminal of a consumer,
An electronic low-carbon power certificate is issued to the customer's terminal, referring to the low-carbon power certification amount for the requested low-carbon power supply requirement and certifying that the low-carbon power certification amount has been met A low-carbon power certificate issuing means,
When the low carbon power supply request processing means refers to the low carbon power certified amount and is not covered by the low carbon power certified amount corresponding to the natural energy generated power supply amount, the low carbon power supply request that has not been satisfied The amount is covered by a low carbon power certificate equivalent to the nuclear power supply,
The low-carbon power certificate issuing means issues a low-carbon power certificate;
A low-carbon power proof device using low-carbon power generation is provided.

According to the present invention, a plurality of different types of renewable energy power supply amount data are generated and stored in the storage means, and the low-carbon power supply request processing means corresponds to a single renewable energy power supply amount. The low-carbon power supply amount that is not met when the low-carbon power supply requirement is not met with reference to the certified low-carbon power supply amount. Process what will be covered by the amount of proof,
The low-carbon power certificate issuing means issues a low-carbon power certificate;
A low-carbon power proof device using low-carbon power generation is provided.

In the present invention, the low carbon power proof device is provided for each electric power company including a nuclear power plant, and the low carbon power proof device is distributed among the low carbon power proof devices.
A low-carbon power proof system is provided.

In the present invention, the consumer's terminal is notified of the requested low carbon power supply request amount from the low carbon power supply request processing device of the low carbon power certification device,
A terminal connected to a low-carbon power proof device characterized by the above.

The present invention inputs, by means of input means, a natural energy power generation supply amount generated at a natural energy power plant, a nuclear power generation power supply amount generated at a nuclear power plant, and a low carbon power supply requirement amount,
Renewable energy power supply amount data, nuclear power generation power supply amount data, or nuclear power generation power supply amount data or low carbon power supply request amount data respectively stored in the storage means are input to the natural energy generation power supply amount, nuclear power generation power supply amount, and low carbon power supply request amount. Remember as
Generate low carbon power certification amount equivalent to natural energy generation power supply amount or nuclear power generation power supply amount by means of low carbon power certification amount generation means based on natural energy generation power supply amount data or nuclear power generation power supply amount data, respectively And
The low-carbon power supply request processing means statistically calculates the low-carbon power supply request amount for each consumer terminal,
Electronic means to prove to the customer's terminal by referring to the low carbon power certification amount for the requested low carbon power supply request amount by means of issuing the low carbon power certificate, Issued a low-carbon power certificate,
When the low carbon power supply request processing means refers to the low carbon power certified amount and the low carbon power certified amount corresponding to the natural energy generated power supply amount is not covered, the low carbon power supply request is not satisfied. Processing the amount to be covered by a low carbon power certification amount equivalent to the amount of nuclear power supply, and issuing a low carbon power certificate by the low carbon power certificate issuing means;
A low carbon power proof method for low carbon power is provided.

In the present invention, the plurality of different types of renewable energy generation power supply amount data are generated and stored in the storage unit, and the low carbon power supply request processing unit converts the data into a single renewable energy generation power supply amount. When the corresponding low-carbon power certification amount is referred to and the low-carbon power supply requirement is not met, the low-carbon power supply requirement that has not been met is equivalent to other natural energy generation power supply amounts. Processing of what will be covered by the amount of certified power,
Issuing a low carbon power certificate by the low carbon power certificate issuing means,
A low carbon power proof method for low carbon power is provided.

The present invention also provides the low carbon power certification device for each electric power company including a nuclear power plant, and distributes the low carbon power certification amount between the low carbon power certification devices,
A low carbon power proof method is provided.

The present invention is also notified by the consumer's terminal of the low carbon power supply request processing device from the low carbon power supply request processing device of the low carbon power certification device,
A low-carbon power amount notification method to a terminal connected to a low-carbon power certification apparatus characterized by the above.

Here, the expression “low carbon” means “low CO ₂ emissions” and is equivalent to the expressions “carbon offset” and “low carbon”.

As described above, the present invention recognizes the environmental added value by recognizing the environmental added value of the enormous amount of electric power generated by nuclear power generation as the amount of electric power generated by power generation by low CO ₂ emission. It is possible to provide a low-carbon power certifying device and proof method using low-carbon power generation that is advantageous not only for consumers but also for electric utilities by activating transactions.

  Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram showing a schematic arrangement configuration of a low carbon power certification apparatus 100 arranged in a low carbon power supply support center 101 according to an embodiment of the present invention.
In FIG. 1, a normal power generation facility 1 and a customer facility 2 are connected by a transmission / distribution power system 3.

  As is well known, the power generation facility 1 includes a nuclear power plant 4, a power plant other than a nuclear power plant such as a thermal power plant (1) 5, and a nuclear power plant other than a nuclear power plant such as a power plant using natural energy. There is a power plant (2) 6. For example, the customer facility 2 includes a customer facility (A) 7, a customer facility (B) 8, and a customer facility (C) 9. The power transmission equipment of each power plant is connected to the transmission / distribution power system 3, and the power receiving equipment is connected to each customer by the transmission / distribution power system 3, and the measuring devices (A) 13 and measuring devices ( B) 14 is arranged to measure the generated power supply room (transmitted power amount) and the received power amount, and the measured value is input to the power amount measuring device 15.

The power amount measuring device 15 acquires nuclear power generation data, other generated power data, and measurement data about the amount of power supplied to the customer facility, and stores it in the storage medium. The electric energy measuring device 15 is formed by various devices, but is shown here as one block.
The power generation facility 1, the customer's facility 2, the transmission / distribution power system 3, and the power amount measuring device 15 as described above are well-known configurations and arrangements and do not require further explanation.

  A terminal (A) 21 is disposed at the consumer facility (A) 7, a terminal (B) 22 is disposed at the consumer facility (B) 8, and a terminal (C) 23 is disposed at the consumer facility (C) 9.

  A computer system of the low carbon power supply support center 101 is connected to the power amount measuring device 15. As will be described later, this computer system exchanges information with the terminal (A) 21, the terminal (B) 22 and the terminal (C) 23, and has a low carbon power certification amount and certificate issuing function 103.

FIG. 2 is a block diagram showing the configuration of the low-carbon power certification apparatus 100 of the present invention arranged in the low-carbon power supply support center 101.
In FIG. 2, the low-carbon power proof device 100 is composed of a normal personal computer, and includes an input means 31, an arithmetic processing means 32, a storage medium 33, an output means 34, and a screen display means 35, and consumer terminals 21 and 22. , 23 via a communication line 51 (see FIG. 1).

  Returning to FIG. 2, the input means 31 includes a natural energy generated power supply amount 41 transmitted from the power plant (2) 6 other than the nuclear power plant, a nuclear generated power supply amount 42 transmitted from the nuclear power plant 4, and The requested low carbon power supply amount 43 from the customer terminals 21, 22, 23 is input.

Here, the natural energy generated power generated at the natural energy power plant refers to, for example, power generated by natural energy with a small amount of CO ₂ emission. Here, natural energy power generation includes solar power generation, wind power generation, geothermal power generation, hydroelectric power generation, biomass power generation, tidal power generation, and other natural energy power generation that are involved in environmental added value.

  As shown in FIG. 4, the power supply amount and the power supply requirement amount are those for total low-carbon power generation 51, for total natural energy power generation 52, and for solar power generation constituting individual natural energy power generation 53. , 54 for wind power generation, 55 for geothermal power generation, 56 for hydroelectric power generation, 57 for biomass power generation, 58 for tidal power generation, and 59 for other natural energy power generation, and Consists of 60 for nuclear power generation.

  53 for individual solar power generation, 54 for wind power generation, 55 for geothermal power generation, 56 for hydroelectric power generation, 57 for biomass power generation, 58 for tidal power generation, and other natural The total of energy generation is the total natural energy generation 52.

  In this figure, the power supply amount and the requested supply amount are indicated by numerals 51-60, the power supply amount is indicated by 51A-60A, and the power supply request amount is indicated by 51B-60B. If it is related to the proof amount, 51C-60C shall be indicated.

  The total low-carbon power supply amount and supply request amount 51 are obtained by adding the total natural energy power generation supply amount and supply request amount 52 to the nuclear power generation power supply amount and supply request amount 60, respectively.

  The low-carbon power supply request amount 43 output from the consumer's terminals 21, 22, 23 is any one of the power supply amount and the supply request amount 61 shown in FIG. 4, or a combination thereof.

  Referring back to FIG. 2, the arithmetic processing means 32 includes a function (means) 44 for generating a low carbon power certified amount corresponding to a natural energy generated power supply amount, which is a low carbon power certified amount generating means, and other A function (means) 45 for generating a low carbon power certification amount corresponding to a nuclear power generation supply amount, which is a low carbon power certification amount generation means.

  For these calculation processes, the natural energy power generation supply amount 41, the nuclear power generation power supply amount 42, and the low carbon power supply requirement amount 43 are respectively used as natural energy power generation power supply amount data and nuclear power generation power supply amount data. , And the low carbon power supply requirement data is stored and recorded in the storage means, that is, in the storage medium 33. These data stored in the storage medium are summarized as data every moment, data for a certain period, and statistical data. The arithmetic processing means 32 uses the data stored in the storage medium 33 to generate the above-mentioned low carbon power certification amount.

  FIG. 5 shows a situation where the arithmetic processing means 32 generates a corresponding low carbon power certification amount from the natural energy generated power supply amount or the nuclear power generation power supply amount.

  As shown in FIG. 5, the low-carbon power supply amount 62 and the low-carbon power certification amount 63 are in a corresponding relationship. Under such a correspondence, a low carbon power certification amount corresponding to each power supply amount is generated.

  That is, a total low carbon power certification amount is generated for the total low carbon power supply amount, and a low carbon power certification amount corresponding to the total natural energy generation power supply amount for the total natural energy generation power supply amount. Is generated for each renewable energy power supply, and a low-carbon certified amount corresponding to the individual renewable power supply is generated, and a nuclear power supply is supplied for the nuclear power supply. A low carbon power certification amount corresponding to the amount is generated. These generated proof amounts are set to 100% in each corresponding relationship.

  The arithmetic processing means 32 includes a function (means) 46 for performing processing for the low carbon power supply request amount for each terminal, which is a low carbon power supply request processing means.

  Here, “processing for” is to allocate a low carbon power certification amount 63 to the low carbon power supply amount 65 as shown in FIG.

FIG. 6 shows the first step of this allocation situation 64.
In FIG. 6, the low carbon power certification amount statistically corresponding to the required amount is allocated to the low carbon power supply required amount for each terminal.

  In the first step, a total low carbon power certification amount 51C is allocated to the total low carbon power supply requirement 51B, and a total natural energy generation power certification for the total natural energy generation power supply requirement 52B. An amount 52C is allocated, an individual natural energy generation power supply requirement 53B-59B is allocated an individual natural energy generation power certification amount 53C-59C, and an amount of nuclear power generation supply request 60B is A nuclear power generation certificate 60C is allocated.

  In these allocations, if the individual power supply demands are within the range of the certified power amount corresponding to them, these allocations are determined and fixed.

  The nuclear power generation certification 60B is a huge amount, and the total low carbon power certification 51B is also a huge amount, so these two allocations are immediately accepted, determined and fixed. It is thought that it will be. These two items have a sufficient margin even after the allocation is fixed.

  Next, a description will be given of a case where the individual natural energy power generation proof amount is insufficient in each correspondence relationship and the allocation is not sufficiently performed for the individual natural energy power generation power supply request amounts 53B to 59B. 7 and 8 show the corresponding method.

FIG. 7 shows the second step.
In FIG. 7, among the individual natural energy generation power supply request amounts 53B-59B, the solar power generation power supply amount is smaller than the solar power generation power supply request amount 53B. Assume that the allocation is insufficient due to the small amount. That is, when the certified amount of solar power generation 53C1 of an electric power company is insufficient with respect to the required amount of solar power generated by one electric power company 53B, the solar power generation certification of another electric power company The forehead 53C2 is satisfied for this shortage. If there is still a shortage, it will be satisfied with the solar power generation certifications 53C3-53C7 of other electric utilities one after another. If it is still insufficient, the wind power generation certification amount 54C is similarly satisfied. Instead of these methods, the total natural energy generated power certification amount 52C may be used. In addition, it may be possible to respond with the individual natural energy generated power certified amount distributed from the other low carbon power supply support center 101A or the total natural energy generated power certified amount. If it is satisfied, it is assumed that it has been covered here.

FIG. 8 shows the third step.
In this step, an undersatisfaction method in which attention is paid to a nuclear power generation certification 60C with a margin is shown. As shown in FIG. 6, when it is not possible to allocate the solar power generation power supply request amount 53 </ b> B with the solar power generation power certification amount 53 </ b> C, it is directly compensated with the nuclear power generation power certification amount 60 </ b> C.

  As described above, the nuclear power generation certification 60C is an enormous amount, and the margin amount is also enormous, so it can be dealt with immediately after the shortage replenishment command is corrected. In this case, the electric power company that performs solar power generation and the electric power company that performs nuclear power generation may be the same, but in many cases, they are different, so the distribution method is determined in advance, and the program in the arithmetic processing means 32 This can be handled by processing.

  If the nuclear power generation demand 60B cannot be allocated and dealt with only by the electric power company's certified nuclear power generation 60C, the other low-carbon power supply support center 101A is sought through the distribution system. To make up for the shortfall.

  Returning to FIG. 2 again, the arithmetic processing means 32 has a function (means) 47 for issuing a low carbon power certificate for each terminal, which is a low carbon power certificate issuing means.

  As described above, it is determined to allocate 100% of the low carbon power certification amount to the low carbon power supply request amount 51B-60B for each terminal. In this case, the arithmetic processing means 32 issues a certificate for the low carbon power certification amount allocated. This issuance is made in the form of an electronic certificate.

  The arithmetic processing means 32 has a function (means) 48 that is an output instructing means for giving an output instruction to each terminal and an output instruction to the screen display means 35. Record as data.

  The arithmetic processing means 32 includes an output means 34 and outputs the result of the arithmetic processing to the consumer terminals 21, 22, and 23. The input means 49 of the consumer's terminals 21, 22 and 23 inputs the low carbon power certification amount and the certificate described above. This certificate is accompanied by a low carbon power certificate. The issuer of this certificate can publicly publicize that his / her business is made by low-carbon power.

  Further, the output means 50 of the consumer's terminals 21, 22, 23 outputs the low carbon power supply request and the supply request amount to the input means 31 of the low carbon power certification apparatus 100 as described above.

In the above configuration, the medium to be handled is not the amount of generated power but the amount of low-carbon power derived from this, so there is environmental added value in terms of environmental improvement, and trading value can be stored as environmental added value information. It can be considered as a target. In such a case, a billing function (means) is added to the arithmetic processing means 32, and the output data from the output means 50 of the consumer's terminals 21, 22, 23, that is, the low-carbon power supply input to the input means 31 A billing amount is calculated corresponding to the requested amount 43 and billed to each consumer through the respective terminals 21, 22, and 23. In this case, the billing method is stored in advance in the storage medium 33, and the billing for the nuclear power generation power supply request amount 60B is an enormous charge unit price for the individual natural energy power generation power supply request amount 53B-59B. It may be cheaper to reflect the amount. By adopting such a method, it is possible to obtain a fine charging method due to the difference in low CO ₂ emission sources. And by adopting such a fine billing system, it becomes possible to support business development corresponding to each individual energy power generation and further to nuclear power generation.

As described above, according to the present embodiment, the arithmetic processing means 32 is
Low carbon power certification amount generating means for generating a low carbon power certification amount corresponding to a natural energy generation power supply amount or a nuclear power generation power supply amount based on the natural energy power generation power supply data or nuclear power generation power supply data, respectively. 44, 45,
Low-carbon power supply request processing means 46 for statistically calculating a low-carbon power supply request amount for each of the terminals 21, 22, and 23 of the consumer;
An electronic low-carbon power certificate is issued to the customer's terminal, referring to the low-carbon power certification amount for the requested low-carbon power supply requirement and certifying that the low-carbon power certification amount has been met Low-carbon power certificate issuing means 47.

Then, the low carbon power supply request processing means 46 refers to the low carbon power certified amount, and when the low carbon power certified amount corresponding to the natural energy generated power supply amount is not covered, the low carbon power that has not been covered Processing that supply demand is covered by the low carbon power certification amount equivalent to nuclear power generation supply,
Based on this, the low carbon power certificate issuing means 47 issues a low carbon power certificate.

And according to the low carbon power proof device provided with this arithmetic processing means 32,
Natural energy generated power supply amount 41 generated at the power plant (2) 6 other than the nuclear power plant by the input means 31, and the nuclear power generation power supply amount 42 generated at the nuclear power plant 4 and the low carbon power supply requirement amount Enter 43,
The storage medium 33 stores the input low carbon power supply amounts 51A-60A as natural energy power generation amount supply data or nuclear power generation power supply amount data, respectively.
Based on the natural energy power generation amount supply data or the nuclear power generation power supply amount data, the low carbon power certification amount generation means 46 makes a low carbon power certification amount 51C corresponding to the natural energy generation power supply amount or the nuclear power generation power supply amount, respectively. -60C is generated,
The low carbon power supply request processing means 46 statistically calculates the low carbon power supply request amount 51B-60B for each terminal of the consumer,
The low carbon power certificate issuing means 47 refers to the low carbon power certification amount 51C-60C for the requested low carbon power supply request amount 51B-60B to the terminals 21, 22 and 23 of the consumer. Issue an electronic low-carbon power certificate that proves that it has been covered by the certified amount 51C-60C,
The low-carbon power supply request processing means 46 refers to the low-carbon power certified amount, and when the low-carbon power certified amount corresponding to the natural energy generated power supply amount is not covered, the natural energy generated power supply that has not been covered The low-carbon power certificate is issued by the low-carbon power certificate issuing means 47 after processing that the low-carbon power certification amount corresponding to the amount is covered by the low-carbon power certification amount 60C corresponding to the nuclear power generation supply demand amount. Issuing
A low-carbon power proof method using low-carbon power generation is configured.

The requested low carbon power supply request amount is notified from the low carbon power supply request processing means 46 of the low carbon power certification apparatus 100 by the terminal 21, 22, 23 of the consumer,
A low carbon power amount notification method to a terminal connected to the low carbon power certification apparatus 100 is configured.

The figure which shows the condition where the low-carbon electric power supply support center was arrange | positioned in the power transmission / distribution electronic system linked with each power plant. The block diagram which shows the structure of the low carbon electric power certification | authentication apparatus which is an Example of this invention. The figure which shows the example of the natural energy electric power generation in a present Example. The figure which shows the structure of electric power supply amount and a supply requirement amount. The figure which shows the relationship between the amount of low-carbon electric power supplies, and the amount of low-carbon electric power certification. The figure which shows the relationship between the amount of low carbon electric power supply request | requirement and the low carbon electric power certification | authentication amount, and shows the 1st step of a process. The figure which shows the relationship between the amount of low carbon electric power supply request | requirement and the low carbon electric power certification | authentication amount, and shows the 2nd step of a process. The figure which shows the relationship between a low carbon power supply requirement amount and the low carbon power certification | authentication amount, and shows the 3rd step of a process.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Power generation facility, 2 ... Consumer facility, 3 ... Transmission and distribution power system, 4 ... Nuclear power plant, 5 ... Power plant other than nuclear power plant (1), 6 ... Power plant other than nuclear power plant (2) , 15 ... power measuring device, 21, 22, 23 ... terminal, 31 ... input means, 32 ... arithmetic processing means, 33 ... storage medium, 34 ... output means, 35 ... screen display means, 41 ... natural energy generation power supply amount 42 ... Nuclear power generation supply amount, 43 ... Low carbon power supply request amount, 44, 45 ... Low carbon power certification amount generating means, 46 ... Low carbon power supply request processing means, 47 ... Low carbon power certificate issuing means, 48 ... output instruction means, 49 ... input means, 50 ... output means, 100 ... low carbon power certification apparatus, 101 ... low carbon power supply support center.

Claims (8)

An input means for inputting a natural energy generated power supply amount generated at a natural energy power plant, a nuclear power generation power supply amount generated at a nuclear power plant, and a low carbon power supply requirement amount;
A storage for storing the input amount of renewable energy power generation, the amount of nuclear power generation power supply, and the amount of low carbon power supply demand as natural energy power generation power supply amount data, nuclear power generation power supply amount data, and low carbon power supply requirement amount data, respectively. Means,
Low carbon power certification amount generating means for generating a low carbon power certification amount corresponding to a natural energy generation power supply amount or a nuclear power generation power supply amount based on the natural energy power generation power supply data or nuclear power generation power supply data, respectively. When,
Low carbon power supply request processing means for statistically calculating a low carbon power supply request amount for each terminal of a consumer,
An electronic low-carbon power certificate is issued to the customer's terminal, referring to the low-carbon power certification amount for the requested low-carbon power supply requirement and certifying that the low-carbon power certification amount has been met A low-carbon power certificate issuing means,
When the low carbon power supply request processing means refers to the low carbon power certified amount and is not covered by the low carbon power certified amount corresponding to the natural energy generated power supply amount, the low carbon power supply request that has not been satisfied The amount is covered by a low carbon power certificate equivalent to the nuclear power supply,
The low-carbon power certificate issuing means issues a low-carbon power certificate;
A low-carbon power proof device using low-carbon power generation. In Claim 1, a plurality of different types of renewable energy power supply amount data are generated and stored in the storage means, and the low-carbon power supply request processing means corresponds to one natural energy generated power supply amount. Referring to the low-carbon power certification amount, when the low-carbon power supply requirement is not met, the low-carbon power certification where the low-carbon power supply requirement not met is equivalent to other natural energy generation power supply amount Process what is covered by the amount of money,
The low-carbon power certificate issuing means issues a low-carbon power certificate;
A low-carbon power proof device using low-carbon power generation. The low-carbon power certification device according to claim 1 is provided for each electric power company including a nuclear power plant, and the low-carbon power certification amount is distributed between the low-carbon power certification devices.
Low carbon power proof system characterized by The terminal of the consumer is notified of the low carbon power supply request amount provided from the low carbon power supply request processing device of the low carbon power certification device according to claim 1,
A terminal connected to a low-carbon power proof device characterized by Input the amount of natural energy generated power generated at the natural energy power plant, the amount of nuclear power generated at the nuclear power plant, and the low carbon power supply requirement by the input means,
Renewable energy power supply amount data, nuclear power generation power supply amount data, or nuclear power generation power supply amount data or low carbon power supply request amount data respectively stored in the storage means are input to the natural energy generation power supply amount, nuclear power generation power supply amount, and low carbon power supply request amount. Remember as
Generate low carbon power certification amount equivalent to natural energy generation power supply amount or nuclear power generation power supply amount by means of low carbon power certification amount generation means based on natural energy generation power supply amount data or nuclear power generation power supply amount data, respectively And
The low-carbon power supply request processing means statistically calculates the low-carbon power supply request amount for each consumer terminal,
Electronic means to prove to the customer's terminal by referring to the low carbon power certification amount for the requested low carbon power supply request amount by means of issuing the low carbon power certificate, Issued a low-carbon power certificate,
When the low carbon power supply request processing means refers to the low carbon power certified amount and the low carbon power certified amount corresponding to the natural energy generated power supply amount is not covered, the low carbon power supply request is not satisfied. Processing the amount to be covered by a low carbon power certification amount equivalent to the amount of nuclear power supply, and issuing a low carbon power certificate by the low carbon power certificate issuing means;
A low-carbon power proof method for low-carbon power. 6. A plurality of different types of renewable energy power supply amount data are generated and stored in the storage means, respectively, and correspond to one natural energy generated power supply amount by the low-carbon power supply request processing means. When the low carbon power certification amount is referenced and the low carbon power supply requirement is not met, the low carbon power certification where the low carbon power supply requirement not met is equivalent to the other natural energy generation power supply amount Processing of what is covered by the amount of money,
Issuing a low carbon power certificate by the low carbon power certificate issuing means,
A low-carbon power proof method for low-carbon power. The low-carbon power certification device according to claim 1 is provided for each electric power company including a nuclear power plant, and the low-carbon power certification amount is distributed between the low-carbon power certification devices,
A low carbon power proof method characterized by: The low carbon power supply request amount provided from the low carbon power supply request processing device of the low carbon power certification device according to claim 1 is notified by the terminal of the consumer,
A low carbon power amount notification method to a terminal connected to a low carbon power proof device characterized by the above.

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