JP2015069633A - Emission trading frame system by evaluation calculation method of comprehensive unified management using solar power panel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a comprehensive indexing calculation technique for calculating the O2 gas yield based on photosynthesis operation using solar panels, and provide a system capable of simply calculating a frame of the carbon dioxide emission.SOLUTION: When receiving sales application from land owners, equipment owners, and various institutions, at least two or more kinds from among evaluation items (total area of solar panels, performance and type, weather of an installation location, an installation angle and direction, a temperature of a panel plate, an aging degree of degradation, conversion equipment performance and capability, a situation of a cubicle and a current collection box, latitude, longitude and altitude of the installation location, presence or absence of disconnection, a cooperation access in an emergency, and a management situation/a management system, etc.) are used as input, and O2 gas production by the panels in an installation location to be evaluated is calculated. The CO2 gas is assumed as a power generation frame amount, and converted and stored. Alternatively, a necessary CO2 gas absorption amount of an emission credit frame purchase applicant is matched with the factor production of the comprehensive total of evaluation items A-N, and the frame trading is established when determined that seller and buyer conditions are met.

Description

  It is an object of the present invention to provide an emission credit trading frame system based on an evaluation calculation method for comprehensive unified management using a photovoltaic power generation panel.

  In response to the growing global awareness of environmental issues, the 3rd Conference of the Framework Convention on Climate Change held in Kyoto in 1997 determined goals for reducing carbon dioxide emissions by country. . In addition, at this meeting, trading of emission rights was introduced to reduce carbon dioxide emissions in line with national circumstances and to improve the efficiency of emission reductions.

  Trading carbon dioxide emissions is a way to prevent global warming, and on the premise of reducing carbon dioxide emissions in the long term, the goal of reduction can be achieved in the short term. No country or company will try to rationally reduce emissions by purchasing emission credits.

  Specifically, businesses that have a surplus in the amount of CO2 emissions (hereinafter referred to as “emissions”) are established for corporations and individuals (hereinafter referred to as “operators”) that operate the country, industry and commerce, etc. The surplus of the company's emissions is used as the carbon dioxide emission right, and the carbon dioxide emission right is bought and sold so as to offset the excess of the operator that exceeds other regulatory limits. Also, certain sanctions will be imposed if the reduction target cannot be achieved.

In this situation, many proposals have been made regarding the trading of carbon dioxide emission rights, so-called trading, but there is a need for sustainable, comprehensive and centralized management of solar panels that load a part of renewable energy. Market exchanges and centers based on the evaluation calculation method have not yet been proposed (securitization / Internet). For example, in the forest field, Patent Document 1 discloses a greenhouse gas emission conversion system and a greenhouse gas emission conversion method. In order to conduct reliable trading of greenhouse gas emissions credits, the greenhouse effect that converts the calculation up to the amount for the transaction in real time by more accurate and fair measurement and numerical calculation of greenhouse gas It is suggested to provide a gas emission conversion system and a greenhouse gas emission conversion method.
However, as I will say again, the current situation is that a trading system and method using solar panels has not yet been established.

  Patent Document 2 discloses aerial data, basic chlorophyll quantity data, sunshine time data of the sunshine time of the CDM business site within a predetermined period, and light intensity of the CDM business site measured at the same time as the aerial data. The basic data acquisition means for acquiring the light intensity, etc., has been proposed. However, if a new utilization system is proposed separately, based on the basic data, the various factors by the solar panel ( CO2 based on solar panels to calculate more accurate carbon dioxide emission allowances by reflecting the calculation method of the total CDM business area covered by the code explanations A to N) and the condition coefficient by the solar panel A photovoltaic power generation panel configured to transact emission credits converted by the emission allowance rights and the carbon dioxide emission rights conversion method by providing a center or the like via the Internet. The trading system of carbon dioxide emission allowances rights by the evaluation method of calculating a comprehensive centralized management by those proposed new.

By the way, the above-mentioned problem is that it is difficult to accurately grasp what the CO2 gas absorption amount related to the solar panel is.
Even if the CO2 gas absorption amount is assumed as the O2 gas generation amount based on the photosynthesis of the solar panel, it is difficult. In addition, in the above-mentioned Patent Document 2, data such as aerial data, basic absorption data, light intensity data, etc. must be accurately collected. The method of utilizing the comprehensive centralized management evaluation method by optical panels, standards, rules, etc. have not been established yet, and the same is true for comprehensive trading centers. The amount of time and effort is enormous.
JP 2003-077647 A JP 2007-178833 A

The present invention has been made in view of the above-mentioned problems, and is to provide a comprehensive index calculation method for calculating an O2 gas generation amount based on a photosynthetic action by a solar panel based on simple data.
In addition, regarding the data required to calculate the amount of O2 gas generated, the existing carbon dioxide emissions (including aerial photography) from related organizations such as remote sizing can be used to limit the amount of carbon dioxide emitted by solar panels. It is to provide a system capable of "calculating simply."

  In order to solve the above-mentioned problems, the configuration of the carbon dioxide emission trading frame system based on the evaluation calculation method of comprehensive centralized management by the solar panel according to the present invention is sold from the landowner, the owner of the facility, various institutions, etc. Upon application, total area of solar panel (array), performance and type by manufacturer (including conversion efficiency), weather at panel installation location (sunshine duration and solar radiation), panel installation angle and direction, panel plate temperature , Deterioration level of panel board (including service life), power conditioner (inverter) conversion equipment performance and capacity, cubicle (collection equipment) and current collector box, installation latitude / longitude, management status (maintenance)・ Inspection, lightning, snowfall, frost, dirt on panel surface, mowing condition of site, stability of mount, etc., presence or absence of disconnection, cooperative access in emergency, elevation of panel installation location Calculate at least two types of panel evaluation items in the risk management system (maintenance, inspection, repair system, insurance, etc.), calculate the amount of O2 gas produced by the panel at the panel installation location to be evaluated, and calculate the relevant O2 While the generated amount is memorized as the CO2 gas absorption amount, the comprehensive total coefficient generation amount of the O2 gas calculation symbol 14 is matched with the required CO2 gas absorption amount base of the applicant who wants to purchase the emission credit, and both (seller, buyer) The solution means that a frame transaction is established between a sell order and a buy order determined to meet the conditions.

  In addition, the configuration of the carbon dioxide emission trading frame system based on the evaluation calculation method of comprehensive centralized management by the solar panel according to the present invention for solving the above-mentioned problems can be made up of individuals, organizations, groups, companies, businesses, etc. In the emission credit trading frame system of the comprehensive unified management method using solar panels according to claim 1, the establishment of a contract between a selling order and a buying order is registered and released to a public institution, It is in the point that comprehensive evaluation is made in all directions and the power generation amount with accuracy is utilized.

  Furthermore, the configuration of the emission credit trading frame system by the solar panel according to the present invention for solving the above-mentioned problems is the emission credit trading frame system by the solar panel according to claim 1 or 2, Access to the data of related organizations for various evaluation items, and the detailed information resides in the calculation coefficient by the comprehensive terms of the symbols A to N developed in the application of the present invention and the point of complementation.

  According to the emission trading frame system using solar panels according to the present invention, by using familiar solar panel evaluation items, the amount of O2 gas generated corresponding to CO2 emissions can be easily calculated. Also, for the evaluation items of the solar panels, the information regarding the solar panels accumulated in related organizations such as the Ministry of the Environment, the Ministry of International Trade and Industry, the Ministry of Education, the Ministry of Education, various administrative organizations, the Solar Panel Association, etc. should be used effectively. Thus, it can be more easily achieved. In addition, when a contract is completed, duplicate trading can be prevented by registering with a public institution and certification.

Furthermore, if the emission allowance is expressed specifically, to obtain a scale comparable to the annual carbon dioxide (CO2) emissions in the automobile industry (55.53 million tons in 2008) (obtained from [standard] only [range] In addition to this, if you include areas such as mega solar, factory roofs, and vacant lots, you will get a large CO2 emission allowance. If it is used, it can be effectively expected as an overall social effect.
Moreover, if it adds, the CO2 discharge | emission amount per 1kw of solar panels will be a value used as an effect of about 0.75g when expressed in weight.

As shown in FIG. 1, the system for calculating the absorption amount (including the frame) of the emission credit trading frame by the solar panel according to the present invention is arranged as a system on the Internet, and the cyber market regarding the emission credit by the solar panel And a terminal group 12 for confirming the trading of the emission allowance in the cyber market and the status of the transaction,
In addition, organizations, individuals, companies, groups, etc., and supplementing this system, governmental organizations 13 such as the Ministry of International Trade and Industry, Ministry of the Environment, Ministry of Education, etc., unions 14, and administrative organizations 15 in various places, will eventually trade CO2 emissions. It is desirable to configure so as to be linked to a public institution or organization that approves the frame, and the evaluation accuracy is improved.

  First of all, providers such as landowners, places, power generation companies and individuals, operation managers, public organizations, etc., to install solar panels are willing to provide the capacity of the solar panels to absorb CO2 Access is made to the management site 11 of the system via the Internet. As used herein, a solar panel does not simply mean the panel area of a panel, but also includes the installation zone of a company in an urban area, personal housing, a facility managed by a government agency, a slope along a road, etc. Please understand what it means.

  For example, the provider 12 has the O2 production capacity of the panel, the minimum data necessary to calculate the performance, the area of the solar panel, the manufacturer type, the facility capacity, the conversion power per panel, the panel management status, the panel It is desirable to present arbitrary data from the direction, panel sunshine hours, panel elevation, panel terrain, equipment latitude and longitude (including symbols A to N), and these data are comprehensive. It can be said that the more accurate and detailed, the more reliable the operation results are guaranteed.

However, considering the evaluation items of the above-mentioned panel, it can be understood that they are closely related to each other (Symbols A to N) as having a great influence on the manufacturer's performance, type and quality. Too complicated data handling.
Therefore, it is possible to extract these data by linking them with related data in the government, government, organizations, association organizations, and power generators and individuals, operation management operators, participating related organizations, groups, companies, and individuals. Become.

Therefore, the amount of power generated from the solar panel is converted to CO2, and it is proposed that it will be utilized in society as an evaluation system after comprehensive calculation. For example, the area of the panel can be made accurate by duplicating the data of the Japan Solar Panel Association and administrative agencies in various places in the remote sensing data from the satellite of the Ministry of Education, Culture, Sports, Science and Technology. Similarly, remote sensing data from the satellite of the Ministry of Education, Culture, Sports, Science and Technology can be plotted as the block staircase performance for each location in the data of the Japan Solar Panel Association and various administrative agencies.
Furthermore, as for the management status of panels, comprehensive information such as deterioration of quality and weather, panel dirt, shade, sunshine hours, pruning, grass cutting, pests, etc. are accumulated. The administrative data of the relevant government can be used effectively and simply in a housing complex, a park, or a slope in an urban area.

FIG. 3 shows an example of the development for using the collected data for the panel evaluation items. In FIG. 3, the vertical axis indicates evaluation items, the horizontal axis indicates detail ranks for each evaluation item, and an evaluation index based on this ranking is determined, and the determined evaluation index is added as a linear expression. Strongly related (deep)
As for the evaluation items, it is possible to obtain more detailed accuracy by repeating trial and error by assuming that the amount of O2 generated by the solar panel is indicated by integrating the evaluation items.

  4 is a method of calculating the O2 generation amount frame of the panel similarly to FIG. 3, and adopts a tree method. That is, for the evaluation items of the panel code symbols A to N, a linear function is obtained by calculating 1 to 2 items at random, and then calculating an arbitrary 2 or more for this primary function. Further, the O2 generation amount is finally calculated in detail by repeating the procedure of calculating by combining two or more of the quadratic functions. By adopting such a calculation method, it is possible to handle a large number of evaluation items such as code explanations A to N, and to treat each as contributing to performance and accuracy. It was possible to calculate the O2 generation amount frame.

Furthermore, it demonstrates according to FIG. Check whether the location of the panel installation (including, for example, the explanation of codes A to N) and the number of panel areas, weather, shade, panel dirt, sunshine hours, or effective control from the provider (seller) 12 Evaluation items such as whether or not there is any failure, whether or not the repair is completed are input in step S1.
In order to determine whether the input evaluation items are sufficient (step S2) or to confirm the authenticity of the input evaluation items, the government, the power generation company, the individual, the operation management company, or the relevant organization of Gyosei In step S3, the O2 generation amount frame is calculated in detail, apart from which of the above-described calculation methods is adopted in step S3.

  When the calculation of the O2 generation amount frame is completed (step 5), in step 6, the data is banked to the computer of the operation site 11 of this system, and at the same time, the contents are disclosed to a third party. These contents can be viewed at any time if they have a transaction terminal, and for others, they can be matched with participating organizations, groups, individuals, and public institutions with functions of transaction centers. It is good to publish.

  On the other hand, the application from the person 12b who needs the emission allowance frame by the solar panel inputs the necessary CO2 absorption amount, in other words, the generated O2 amount from the transaction terminal (step S7). If the application is made, the computer at the site 11 starts matching the data contained in the accident with the required conditions (step 8). When the matching is completed and the associated contract is completed, the data in the data bank is corrected or deleted.

  At the same time, a procedure (including CDM and self-participation type) for obtaining approval by a public third-party organization or organization proceeds in Step 10 for the case for which the contract has been completed. This is to prevent the emission allowances of the same solar panel from being traded in duplicate (including Internet transactions and securitization) and obstructing the purpose of the law (approval / authentication).

  In the present situation, a method for simply calculating and calculating the amount of power generated from solar panels (conversion evaluation method) has not been specifically proposed to establish even a standard system, including a complex and easy-to-use system. However, focusing on this point in the growing spread of mega solar and general households, the amount of power generation = (equol) CO2 conversion amount, the path that can be utilized in society and industry as the CO2 emission allowance by sunlight, There is a great possibility that this system can be further systematized and effectively used in a special and simple manner.

  In addition, when the installer (provider side) spends money on the equipment, paying attention to profitability, even if the equipment is installed regardless of the size, it ends with the purchase price of the country and the range of self-consumption. However, the combined (synergistic) effect proposed in the present invention (CO2 evaluation price by emission allowance) produces profits and is effective for industrial development.

  Schematic diagram of a comprehensive unified emission trading system with solar panels of the present invention   The flowchart of the comprehensive unified management emission credit trading system by the solar panel of this invention.   A comprehensive evaluation total index calculation table for calculating the O2 generation amount.   Calculation table of other O2 generation amount (tree method) coefficient.

11: Site 12: Provider (transaction terminal)
12b: Buyer (transaction terminal)
13-15: Related organizations 16: Approval organizations

Claims (3)

In order to solve the problem, the configuration of the carbon dioxide emission trading frame system based on the evaluation calculation method of comprehensive centralized management by the solar panel according to the present invention is applied to sales applications from landowners, owners of facilities, various organizations, etc. Evaluation item (A) Total area of solar panel (module), (B) Performance and type by manufacturer (including conversion efficiency), (C) Weather of panel installation location (sunshine duration and amount of solar radiation), (D) Panel installation angle and direction, (E) Panel board temperature, (F) Panel board aging (including service life performance), (G) Power conditioner (inverter) conversion equipment performance and capacity, (H) Cubicle (booster) and current collection box status, (I) Latitude / longitude of installation location, (J) Management status (maintenance / inspection, thunder, snow, frost, panel surface contamination, site mowing status, stand Stability etc. , (K) Disconnection presence, (L) Emergency access in emergency, (M) Elevation of panel installation location, (N) Risk management system (maintenance, inspection, repair system, insurance), etc. At least two types are input from the inside, the O2 gas generation amount by the panel at the panel installation location to be evaluated is comprehensively calculated, and the CO2 gas is regarded as the power generation frame amount and converted and stored with the O2 calculation generation amount.
On the other hand, based on the required CO2 gas absorption amount of the applicant who wants to purchase the emission credits, the coefficient generation amount of the comprehensive sum of the evaluation items A to N in the O2 gas calculation calculation table symbol 14 [FIG. (Seller, buyer) The solution is the system that establishes a frame transaction between the selling order and the buying order that are determined to meet the conditions and the conversion indexing method (unified management), and integrating them. .   In addition, the configuration of the carbon dioxide emission trading frame system based on the evaluation calculation method of comprehensive centralized management by the solar panel according to the present invention for solving the above-mentioned problems can be made up of individuals, organizations, groups, companies, businesses, etc. In addition, the establishment of a contract between a sell order and a buy order is registered and disclosed to a public institution in the emission credit trading system of the comprehensive unified management method using solar panels as described in [Claim 1]. It is a solution to the point that it is comprehensively evaluated in all directions and uses power generation with a certain degree of accuracy.   Furthermore, the configuration of an emission credit trading frame system using a solar panel according to the present invention for solving the above-described problems is the following: The data of the related organizations are accessed for the various evaluation items, and the detailed information is developed upon the application of the present invention. [FIG. 3] The calculation coefficients by the comprehensive terms of the terms A to N and the means for complementing the points It exists in

Images