KR102662115B1 - Method of Providing Information Related to Carbon Emissions of the Target System Through the Template Application Method - Google Patents

Abstract

The method of providing information related to carbon emissions of a target system through the template application method according to the present invention involves the information management unit of the operation server inputting information from the target system, which is input by an administrator terminal owned by the administrator of the target system subject to carbon emissions calculation, Step (a) of receiving system information, the data processing unit of the operation server corresponds to the target system among a plurality of template sets stored in the database of the operation server based on the system information received in step (a). Step (b) of loading the template set, wherein the data processing unit applies an organization classification template for classifying sub-organizations by setting a classification boundary of the target system from the template set loaded in step (b) to the target system. Step (c), wherein the data processing unit specifies the carbon emission source from which carbon is emitted for each sub-organization of the target system classified by step (c), in the template set loaded in step (b), classification of emission sources. Step (d) of applying the template to the target system and step (e) of the data processing unit of the operation server calculating the amount of carbon emissions for each carbon emission source specified in step (d).

Description

{Method of Providing Information Related to Carbon Emissions of the Target System Through the Template Application Method}

The present invention relates to a method of providing information related to carbon emissions of a target system. More specifically, the present invention relates to a method of providing information related to carbon emissions of a target system. More specifically, it classifies sub-organizations for any target system through a pre-built template, specifies the carbon emission source, and calculates carbon emissions to ensure high quality. This relates to a method of providing information related to carbon emissions of a target system that can provide information related to carbon emissions.

Recently, as environmental pollution has accelerated due to industrial development, awareness of environmental pollution is gradually increasing in various fields, and various methods to reduce environmental pollution are being researched and discussed.

In addition, the concept of carbon neutrality has recently been spreading around the world.

Carbon neutrality is the concept of reducing carbon dioxide emissions generated by companies or individuals as much as possible, increasing absorption to minimize net emissions, and then offsetting the remainder, thereby reducing actual carbon dioxide emissions to ‘zero’. In other words, this means bringing the total amount of carbon dioxide to a neutral state by establishing measures to reabsorb carbon dioxide to the extent of offsetting the amount of carbon dioxide emitted into the atmosphere.

In order to achieve carbon neutrality, it is most important to accurately calculate the carbon emissions of companies and individuals and manage the emissions of affiliated organizations (supply chains). However, conventionally, only carbon dioxide directly emitted by companies is calculated, so it cannot be said that accurate carbon emissions are measured.

In addition, the process of calculating carbon emissions requires a lot of data and analysis techniques, and the analysis method varies depending on the characteristics of the company or individual, so in the past, the process of calculating carbon emissions took a long time and the analysis method was different. There were many difficulties in the process.

Therefore, a method to solve these problems is required.

Korean Patent No. 10-1081486

The present invention is an invention made to solve the problems of the prior art described above. It automatically classifies the sub-organization of a specific target system in detail through a pre-built template, and calculates the amount of carbon emissions by specifically specifying the carbon emission source. The purpose is to provide rapid and accurate carbon emissions-related information.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

The method of providing information related to carbon emissions of a target system through the template application method of the present invention to achieve the above purpose is provided by the information management unit of the operation server through an administrator terminal owned by the administrator of the target system subject to carbon emissions calculation. Step (a) of receiving input system information about the target system, the data processing unit of the operation server sets a plurality of templates stored in the database of the operation server based on the system information received in step (a) Among them, step (b) of loading a template set corresponding to the target system, and an organization classification template in which the data processing unit classifies lower organizations by setting a classification boundary of the target system from the template set loaded in step (b). Step (c) of applying to the target system, in the template set loaded by the data processing unit in step (b), carbon emissions for each sub-organization of the target system classified by step (c) Step (d) of applying an emission source classification template that specifies an emission source to the target system, and step (e) of the data processing unit of the operation server calculating the amount of carbon emissions for each carbon emission source specified in step (d). do.

At this time, after step (e), the information provider of the operation server can check the carbon emission information for each carbon emission source included in the sub-organization of the target system calculated by step (e) on the user terminal owned by the user. Step (f) may be further performed.

And the step (f) is step (f-1) of providing a first data dashboard showing the amount of carbon emissions by type for each sub-organization of the target system, each carbon emission source included in the sub-organization of the target system. It may include step (f-2) of providing a second data dashboard indicating the carbon amount distribution ratio and step (f-3) of providing a third data dashboard indicating the status of RE100 implementation achievement of the target system. there is.

In addition, after step (a), a step (ex) in which the information management unit of the operation server grants administrator authority to the administrator terminal may be further performed.

In addition, the process of classifying sub-organizations according to the organizational classification template applied in step (c) above divides the classification boundaries into unit groups divided by geographical unit facilities for constructing the target system or preset purposes for the target system. It may include step (c-1) of setting up and classifying sub-organizations, and step (c-2) of adding transportation and auxiliary facilities owned by the target system as sub-organizations.

And the process of specifying the carbon emission source by the emission source classification template applied in step (d) includes step (d-1) of defining a plurality of carbon emission types for each sub-organization classified in step (c) and the ( Step (d-2) may include specifying detailed carbon emission sources for each carbon emission type defined in step d-1).

At this time, the carbon emission types defined in step (d-1) may include direct emission types, indirect emission types, and other emission types.

In addition, step (d-2) specifies each item of the direct emission type, such as fixed combustion source, mobile combustion source, fugitive emission source, waste treatment facility, forest sink, fertilizer use, and owned animals, as detailed carbon emission source (d- Step 2-1), step (d-2-2) of specifying each item of electricity use, heat use, water use, and waste as detailed carbon emission sources as the indirect emission types, and commuting/school means and It may include step (d-2-3) of specifying each item of business trip as a detailed carbon emission source.

In addition, step (e) is a step (e-1) in which the data processing unit calculates a base emission figure for each carbon emission source specified in step (d), and the data processing unit calculates an emission coefficient through the basic emission figure. Step (e-2) of calculating, step (e-3) where the data processing unit calculates the carbon emissions by multiplying the base emission figure and the emission coefficient, and step (e-3) where the data processing unit calculates the amount of carbon emissions by multiplying the base emission figure and the emission coefficient. It may include step (e-4) of converting the calculated carbon emissions into carbon dioxide equivalent (CO ₂ eq).

Meanwhile, after step (e), an (add) step may be further performed in which the information management unit receives additional carbon emission sources from the manager terminal and registers them.

And the (add) step is an (add-1) step in which the information management department loads industry-specific guidelines of the target system and provides them to the manager terminal, and the information management department provides an additional carbon emission source to the manager terminal. It may include a (add-2) step of providing input items and a (add-3) step of the information management unit receiving and registering input data of mandatory input items entered by the manager terminal.

Additionally, the (add) step is an (add-4) step in which the information management unit transmits a notification message to the manager terminal asking whether to enter non-mandatory input items for additional carbon emission sources, and the information management unit sends a notification message to the manager terminal. (add-5) step of providing non-mandatory input items for additional carbon emission sources to the manager terminal when receiving a request for input of non-mandatory input items entered by the manager terminal, and the information management unit It may include an (add-6) step of receiving and registering input data of mandatory input items.

The method of providing information related to carbon emissions of a target system through the template application method of the present invention to solve the above-described problem is to establish in advance a set of templates that can be automatically applied to each target system with various organizations, so that the carbon emissions calculation target is The advantage is that the process of calculating each carbon emission amount can be processed quickly and accurately by setting the classification boundary of the target system, classifying the sub-organizations, and specifying in detail the carbon emission source from which carbon is emitted for each classified sub-organization. have

In particular, according to an embodiment of the present invention, by providing a user interface that is neatly organized and easy to identify information, users can more conveniently and intuitively view carbon emission information for each carbon emission source included in the sub-organization of the target system. can do.

In addition, the present invention can contribute to environmental protection by enabling those who have received information on carbon emissions to continuously monitor their contribution to environmental pollution and respond to domestic and international laws and obligations while raising awareness.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

Figure 1 is a diagram showing the entire process of a method for providing information related to carbon emissions of a target system according to an embodiment of the present invention.
Figure 2 is a diagram conceptually showing a system for implementing a method of providing information related to carbon emissions of a target system according to an embodiment of the present invention.
Figure 3 is a diagram showing a system information input screen provided from the operation server to the administrator terminal in the method of providing information related to carbon emissions of a target system according to an embodiment of the present invention.
Figure 4 is a diagram showing an administrator authority registration screen provided from the operation server to the administrator terminal in the method of providing information related to carbon emissions of a target system according to an embodiment of the present invention.
Figure 5 is a diagram showing the detailed process of step (c) in the method of providing information related to carbon emissions of a target system according to an embodiment of the present invention.
Figure 6 is a diagram showing the detailed process of step (d) in the method of providing information related to carbon emissions of a target system according to an embodiment of the present invention.
Figure 7 is a diagram showing the detailed process of step (d-2) in the method of providing information related to carbon emissions of a target system according to an embodiment of the present invention.
Figure 8 is a diagram showing the detailed process of step (e) in the method of providing information related to carbon emissions of a target system according to an embodiment of the present invention.
Figure 9 is a diagram showing the detailed process of step (f) in the method of providing information related to carbon emissions of a target system according to an embodiment of the present invention.
10 to 12 are diagrams illustrating a first data dashboard, a second data dashboard, and a third data dashboard in a method of providing information related to carbon emissions of a target system according to an embodiment of the present invention. .
Figure 13 is a diagram showing the detailed process of the (add) step in the method of providing information related to carbon emissions of a target system according to an embodiment of the present invention.
Figure 14 is a diagram illustrating a screen provided on an administrator terminal to input additional carbon emission sources in a method of providing information related to carbon emissions of a target system according to an embodiment of the present invention.

In this specification, when a component (or region, layer, portion, etc.) is referred to as being “on,” “connected to,” or “coupled to” another component, it is directly placed/on the other component. This means that they can be connected/combined or a third component can be placed between them.

Like reference numerals refer to like elements. Additionally, in the drawings, the thickness, proportions, and dimensions of components are exaggerated for effective explanation of technical content.

“And/or” includes all combinations of one or more that the associated configurations may define.

Terms such as first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, a first component may be named a second component without departing from the scope of the present invention, and similarly, the second component may also be named a first component. Singular expressions include plural expressions unless the context clearly dictates otherwise.

Additionally, terms such as “below,” “on the lower side,” “above,” and “on the upper side” are used to describe the relationship between the components shown in the drawings. The above terms are relative concepts and are explained based on the direction indicated in the drawings.

Unless otherwise defined, all terms (including technical terms and scientific terms) used in this specification have the same meaning as commonly understood by a person skilled in the art to which the present invention pertains. Additionally, terms such as those defined in commonly used dictionaries should be interpreted as having meanings consistent with their meanings in the context of the relevant technology, and unless interpreted in an idealized or overly formal sense, are explicitly defined herein. do.

Terms such as “include” or “have” are intended to designate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but do not include one or more other features, numbers, or steps. , it should be understood that it does not exclude in advance the possibility of the existence or addition of operations, components, parts, or combinations thereof.

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

The method of providing information related to carbon emissions of a target system according to the present invention is performed through an operating server that provides a program for providing information related to carbon emissions of a target system stored in a storage medium, and may be driven by a processor of the operating server.

In addition, the program for providing information related to the carbon emissions of the target system can be output through video output devices such as display modules, and can be visualized on the operation server, the administrator terminal owned by the administrator of the target system, and the user terminal owned by the user who is the subject of information inquiry. Visible information can be provided through a graphical user interface.

In particular, the program for providing information related to carbon emissions of the target system can be installed on the operation server, administrator terminal, and user terminal using a removable disk or communication network, respectively. The method of providing information related to carbon emissions of the target system is operated by the operation server, administrator terminal, User terminals, etc. can be operated through various functional means.

In other words, in the present invention, information processing by software is concretely realized through hardware.

Hereinafter, a method of providing information related to carbon emissions of a target system according to an embodiment of the present invention will be described with reference to the attached drawings.

Figure 1 is a diagram showing the entire process of a method for providing information related to carbon emissions of a target system according to an embodiment of the present invention.

And FIG. 2 is a diagram conceptually showing each configuration of a system for performing a method of providing information related to carbon emissions of a target system according to an embodiment of the present invention. In the following description, the symbols assigned to each component refer to the drawing. It is based on .

As shown in Figure 1, the method of providing information related to carbon emissions of a target system according to an embodiment of the present invention includes steps (a) to (f).

In step (a), the information management unit 110 of the operation server 100 receives system information about the target system input by the administrator terminal 10 owned by the administrator of the target system subject to carbon emissions calculation. It is a process.

Here, the target system refers to a certain institution/organization such as a company, university, etc., and the purpose of the present invention is to calculate and provide carbon emission information of such target system.

Additionally, the system information includes various items related to the target system, and the administrator inputs the system information required by the operation server 100 through the administrator terminal 10.

Figure 3 is a diagram showing a system information input screen provided from the operation server 100 to the administrator terminal 10 in the method of providing information related to carbon emissions of a target system according to an embodiment of the present invention.

As shown in FIG. 3, the operation server 100 may provide input items including first main information, second main information, and sub-information to the administrator terminal 10.

Here, the first main information includes information about the business name and type of business, and the second main information can provide input items including business registration number, corporation registration number, representative name, location, and industry type.

And sub-information can provide inputs including number of employees, operating hours, main products produced, annual production, and annual sales.

Accordingly, the administrator can input the contents of each input item through the administrator terminal 10 and provide it to the operation server 100.

However, this is an input screen presented as an example, and of course, each input item may be configured differently from the present embodiment.

And after step (a), a step (ex) in which the information management unit 110 of the operation server 100 grants administrator authority to the administrator terminal 10 may be further performed.

Figure 4 is a diagram showing an administrator authority registration screen provided from the operation server to the administrator terminal in the method of providing information related to carbon emissions of a target system according to an embodiment of the present invention.

As shown in FIG. 4, the administrator authority registration screen may include items for entering the administrator name, email address, department name, position, administrator contact information, and fax number.

And when the operation server 100 enters each item for the administrator and clicks the invite button, an invitation link is sent to the administrator's email. At this time, if no response is made to the administrator within the preset time, the invitation link may be deleted, and then a voice message may be sent to the contact information entered by the administrator or the invitation link may be resent.

Additionally, when the manager approves the invitation through the manager terminal 10, the manager may be registered as an manager by the operation server 100.

Next, in step (b), the data processing unit 120 of the operation server 100 selects one of a plurality of template sets stored in the database 105 of the operation server 100 based on the system information received in step (a). This is the process of loading the template set corresponding to the target system.

Here, the template set is based on the industry of the first and second main information of the above-mentioned system information and is based on the 'Greenhouse Gas Activity Data Creation Guidelines' and is pre-built to correspond to the characteristics of each target system related to carbon emissions. This is a form for information.

Such a template set may be configured in detail including individual templates.

For example, the template set is an organizational classification template that is considered according to the industry characteristics of the target system (including items such as 'construction site' for the construction industry, and 'factory' for the manufacturing industry), and is mandatory/preferentially created for each industry. It may include a template for classification of emission sources, a template for report form for preparing activity data according to industry, etc.

That is, a plurality of template sets can be prepared appropriately for each industry and stored in the database 105, and in step (b), the data processing unit 120 of the operation server 100 creates the corresponding template based on the system information of the target system. The template set is loaded.

However, depending on the industry of the target system, there may be cases where the template set does not exist in the database 105.

In this case, the data processing unit 120 of the operation server 100 informs the administrator terminal (10) that a template set corresponding to the target system industry does not exist, and together with the administrator terminal (10) A process of building a new template set corresponding to the industry may be performed.

In this process, the data processing unit 120 can extract n template sets with the highest similarity to the relevant industry and provide them to the manager terminal 10, and the manager selects the template set deemed most appropriate through the manager terminal 10. One or more are selected.

Afterwards, the data processing unit 120 randomly extracts detailed items from the n template set extracted as having the highest similarity to the relevant industry in the previous process, and randomly combines them with one or more template sets selected by the manager to create m candidate templates. Derive a set.

The reason for doing this is that the template set selected by the manager can be considered to have the highest degree of similarity to the relevant industry, but only some detailed items do not match appropriately.

That is, the data processing unit 120 combines the detailed items of a plurality of template sets recommended as having high similarity in the previous process with the detailed items of the template set selected by the manager to randomly derive a new combination of candidate template sets.

This is because the template set determined to have a high degree of similarity by the data processing unit 120 will also include many items suitable for the relevant industry, so if the detailed items of the template set with a high degree of similarity are combined in various ways with the template set selected by the manager, This is because there is a high possibility that a template set that is more appropriate for the industry will be derived.

Afterwards, the administrator can check the plurality of template sets newly combined and presented, and if there is a more appropriate template set than one or more template sets selected by the administrator, select the template set and proceed with the subsequent process.

This series of processes may be repeated multiple times, and as the number of times performed increases, a more appropriate set of templates for the industry can be derived.

Next, step (c) is a process in which the data processing unit 120 applies an organizational classification template that sets the classification boundary of the target system and classifies lower-level organizations from the template set loaded in step (b) to the target system.

Here, the classification boundary refers to a virtual standard that distinguishes the various sub-organizations that make up the target system.

In other words, in step (c), classification boundaries are set and sub-organizations are classified according to the characteristics of the target system subject to carbon emissions calculation.

Figure 5 is a diagram showing a detailed process of classifying sub-organizations by the organization classification template applied in step (c) in the method of providing information related to carbon emissions of a target system according to an embodiment of the present invention.

As shown in Figure 5, step (c) includes steps (c-1) and (c-2) in detail.

Step (c-1) is the process of classifying sub-organizations by setting classification boundaries into unit groups divided by pre-established purposes for the geography-based unit facility or target system that constructs the target system.

For example, if the target system is a company, the sub-organization may be a geographically based unit facility such as headquarters/production facility/storage facility, or may be a unit group such as each department divided by task.

Alternatively, if the target system is a university, the lower-level organization may be a geographically-based unit facility such as a building within each university site, or a unit group such as a department/division.

And step (c-2) is the process of adding transportation and auxiliary facilities owned by the target system as sub-organizations.

In other words, the sub-organization of the target system may further include geographically-based unit facilities or unit groups, transportation such as vehicles, and other auxiliary facilities excluding the unit facilities or unit groups.

Next, in step (d), the data processing unit 120 specifies the carbon emission source that emits carbon for each sub-organization of the target system classified by step (c) from the template set loaded in step (b). This is the process of applying a classification template to the target system.

In this process, carbon emission sources are identified to calculate carbon emissions in each sub-organization.

Figure 6 is a diagram showing a detailed process of classifying carbon emission sources according to the emission source classification template applied in step (d) in the method of providing information related to carbon emissions of the target system according to an embodiment of the present invention, and Figure 7 is This is a diagram showing the detailed process of step (d-2) in the method of providing information related to carbon emissions of a target system according to an embodiment of the invention.

As shown in Figures 6 and 7, step (d) includes steps (d-1) and (d-2) in detail, and step (d-2) is (d-2-1) It may include steps from steps (d-2-3).

Step (d-1) is the process of defining multiple carbon emission types for each sub-organization classified in step (a).

At this time, carbon emission types defined in step (d-1) may include direct emission types, indirect emission types, and other emission types.

Direct emission types refer to sources that directly emit/absorb greenhouse gases, indirect emission types refer to sources that indirectly generate greenhouse gases, and other emission types refer to emission sources other than direct and indirect emission types. .

And step (d-2) is the process of specifying detailed carbon emission sources for each carbon emission type defined in step (d-1), that is, direct emission type, indirect emission type, and other emission type.

In detail, step (d-2-1) is the process of specifying each item as a detailed carbon emission source as a direct emission type: fixed combustion source, mobile combustion source, fugitive emission source, waste treatment facility, forest sink, fertilizer use, and owned animals.

Stationary combustion sources are carbon emissions sources that generate carbon emissions through the combustion process of fuel or waste, such as steam (heat) and power production, heating, and waste incineration.

Additionally, a mobile combustion source is a carbon emission source that generates carbon emissions through transportation means owned and managed by the target system, and a fugitive emission source is a carbon emission source that generates carbon emissions from products such as fire extinguishers, insulators, and refrigerants.

Additionally, waste treatment facilities are a source of carbon emissions that generate carbon emissions from treatment facilities that process waste generated from the target system.

At this time, in the forest sink, greenhouse gases are absorbed due to an increase in carbon accumulation in the forest's biomass, and therefore, unlike other carbon emission sources, the figure may be displayed as a negative in the carbon emission calculation process, which will be described later.

And step (d-2-2) is the process of specifying each item of indirect emissions such as electricity use, heat use, water use, and waste as detailed carbon emission sources.

In this way, indirect emission types can be various carbon emission sources that indirectly generate greenhouse gases.

In addition, step (d-2-3) is the process of specifying each item of commuting/school transportation and business trip as a detailed carbon emission source as other emission types.

Other emission types specified by this process are the remaining emission sources excluding direct emission types and indirect emission types.

Next, step (e) is a process in which the data processing unit 120 of the operation server 100 calculates the amount of carbon emissions for each carbon emission source specified in step (d).

In step (e), the process of calculating carbon emissions individually is performed for each carbon emission source of the direct emission type, indirect emission type, and other emission type specified in step (d).

Figure 8 is a diagram showing the detailed process of step (e) in the method of providing information related to carbon emissions of a target system according to an embodiment of the present invention.

As shown in Figure 8, step (e) may include steps (e-1) to (e-4) in detail, and in particular, step (e-1) is different for each carbon emission source. It is applied in this way, and steps (e-2) to (e-4) can be commonly applied to each carbon emission source.

Step (e-1) is a process in which the data processing department calculates the basic emission figure for each carbon emission source specified in step (d).

Specifically, if the carbon emission source is a direct emission type and is a stationary combustion source/mobile combustion source, the base emission figure can be calculated by calculating fuel consumption and calorific value for each fuel and multiplying them.

In addition, when the carbon emission source is a direct emission type and a waste treatment facility, when solid waste is landfilled, when solid waste is biologically treated, when sewage/wastewater is treated, when waste is incinerated, basic emission figures are calculated. Different methods can be applied.

In the case of landfilling solid waste, the basic emission figure is calculated by collecting activity data at the waste treatment facility, that is, landfill volume for each year, and calculating the DDOEmτ and DDOEmaτ values for the first year of landfill and the DDOEmτ and DDOEmaτ values up to the year of calculation. It can be calculated using multiplication.

In addition, when solid waste is treated biologically, the basic emission figure can be calculated by determining the biological treatment volume at the waste treatment facility, and when sewage/wastewater is treated, the basic emission figure is determined by determining BOD ₅ , TN, and inflow sewage volume. It can be calculated in this way.

In addition, when incinerating waste, the basic emission figure can be calculated by determining the amount of waste incineration.

And if the carbon emission source is a direct emission type and a fugitive emission source, the base emission figure can be calculated by determining the number of registered fire extinguishers, refrigerators, and air conditioners, and determining the type/refrigerant charge of each refrigerant.

Additionally, if the carbon emission source is a direct emission type and a forest sink, the base emission figure can be calculated by determining the forest area. However, as mentioned above, forest sinks absorb greenhouse gases due to an increase in carbon accumulation in forest biomass, and unlike other carbon emission sources, in the carbon emission calculation process, the figure may be displayed as a negative figure.

In addition, if the carbon emission source is a direct emission type and fertilizer use, the base emission figure can be obtained by identifying the location of fertilizer use and the amount of fertilizer used. If the carbon emission source is a direct emission type and it is an owned animal, the basic emission figure can be calculated by determining the location of fertilizer use and the amount of fertilizer used. It can be calculated by identifying the animal's breeding location, breeding method, and animal type.

And if the carbon emission source is an indirect emission type and uses steam (heat), the base emission figure can be obtained by determining the amount of heat usage from the district heating corporation, etc., and if the carbon emission source is an indirect emission type and electricity use, the basic emission figure can be calculated. can be calculated by determining power usage from Korea Electric Power Corporation, etc.

In addition, if the carbon emission source is an indirect emission type and water use, the base emission figure can be obtained by determining the amount of water usage from waterworks, etc., and if the carbon emission source is an indirect emission type and waste, the basic emission figure can be calculated as landfill/incineration/ It can be calculated by determining the type of waste treatment, type of waste, and amount of waste such as wastewater.

In addition, if the carbon emission source is other emission types and is a means of commuting/school or business trip, the base emission figure can be calculated through the results of a survey of personnel within the relevant subordinate organization.

Afterwards, in step (e-2), the data processing unit 120 calculates the emission coefficient through the base emission figure, and in step (e-3), the data processing unit 120 multiplies the base emission figure and the emission coefficient. The process of calculating carbon emissions is carried out.

Once the carbon emissions are calculated in this way, in step (e-4), a process is performed to convert the carbon emissions calculated in step (e-3) into carbon dioxide equivalent (EO2eq).

The process of calculating carbon emissions for each carbon emission source can be performed in the same manner as above.

Meanwhile, after step (e), an (add) step may be further performed in which the information management unit 110 of the operation server 100 receives additional carbon emission sources from the manager terminal 10 and registers them, which will be described later. Let's do it.

And after step (e), the information provision unit 130 of the operation server 100 displays the carbon emission sources included in the sub-organization of the target system calculated by step (e) on the user terminal 20 owned by the user. Step (f) of providing individual carbon emission information so that it can be viewed can be further performed.

Here, the user refers to the entity that searches for carbon emission information by carbon emission source included in the sub-organization of the target system. In other words, the user may be an administrator, or may be a separate entity other than the administrator that performs information inquiry.

Figure 9 is a diagram showing the detailed process of step (f) in the method of providing information related to carbon emissions of a target system according to an embodiment of the present invention.

As shown in FIG. 9, step (f) may include steps (f-1) to (f-4) in detail.

And Figures 10 to 12 illustrate a first data dashboard, a second data dashboard, and a third data dashboard in the method of providing information related to carbon emissions of the target system according to an embodiment of the present invention. It is a drawing.

As shown in Figure 9, step (f) may include steps (f-1) to (f-3).

Step (f-1) is the process of providing a first data dashboard showing carbon emissions by type for each sub-organization of the target system.

As shown in Figure 10, the first data dashboard displays carbon emissions by direct emission type, indirect emission type, and other emission types, as well as monthly emissions, trend display, emissions compared to sales, and emissions compared to the industry average. An indication of emissions compared to the annual average can be provided.

Step (f-2) is the process of providing a second data dashboard showing the carbon amount distribution ratio of each carbon emission source included in the sub-organization of the target system.

And as shown in Figure 11, the second data dashboard displays the carbon amount distribution of each carbon emission source included in the sub-organization of the target system into squares with a size corresponding to the ratio of each item within the overall boundary in the form of a large square box. It can be displayed.

At this time, the second data dashboard arranged the top n items in descending order of proportion, with darker colors from the left to the top to the bottom. However, this is presented as an example, and the arrangement form can of course be changed in various ways.

Step (f-3) is the process of providing a third data dashboard that shows the target system's RE100 implementation achievement status.

And as shown in Figure 12, the third data dashboard can provide a display of new and renewable energy production, a display of REC renewable energy certificate purchase volume, a display of production compared to the industry average, and a display of production compared to the annual average.

In particular, the display of REC renewable energy certificate purchase volume can be automatically connected to the national certification trading market when clicked.

In addition, detailed information can be viewed for the 'REC renewable energy certificate purchase' item shown in Figure 12, and the detailed information includes 'amount already purchased', 'amount available for purchase', and 'amount expected to be purchased during the future setting period. Information about ' can be displayed separately.

Here, the ‘quantity expected to be purchased during the future set period’ can be calculated based on the average information for the period corresponding to the past year based on the current year.

At this time, the degree of increase or decrease compared to the previous year can be considered. For example, the degree of increase or decrease can be calculated by comparing the most recent n months of the current year with the n month value of the same period in the past year based on the average, and then this degree of increase or decrease is calculated as the By applying it to the average information, you can calculate the 'expected purchaseable amount during the future set period'.

As described above, after step (e), an (add) step may be further performed in which the information management unit 110 of the operation server 100 receives additional carbon emission sources from the manager terminal 10 and registers them.

This process can be provided so that the manager terminal 10 can separately enter additional carbon emission sources in addition to the criteria for automatically classifying carbon emission sources according to the emission source classification template in step (d).

Figure 13 is a diagram showing the detailed process of the (add) step in the method of providing information related to carbon emissions of a target system according to an embodiment of the present invention.

And Figure 14 is a diagram illustrating a screen provided on an administrator terminal to input additional carbon emission sources in the method of providing information related to carbon emissions of a target system according to an embodiment of the present invention.

As shown in FIG. 13, the (add) step may include steps (add-1) to (add-6).

The (add-1) step is a process in which the information management unit 110 loads guidelines for each industry of the target system and provides them to the administrator terminal 10.

Through this process, the manager can view the guidelines through the manager terminal 10 and become familiar with the guidelines.

And the (add-2) step is a process in which the information management unit 110 provides mandatory input items for additional carbon emission sources to the manager terminal 10, and the (add-3) step is a process in which the information management unit 110 provides the manager terminal 10 with mandatory input items ( This is the process of receiving and registering the input data of the mandatory input items entered by 10).

In the case of the present invention, mandatory emission reporting input items and non-mandatory input items can be distinguished according to industry-specific guidelines, and through this process, managers can be encouraged to register mandatory input items preferentially.

Accordingly, the information management unit 110 can hide non-mandatory input items from view on the administrator terminal 10 during the initial input process and display only mandatory items.

And the (add-4) step is a process in which the information management unit 110 transmits a notification message to the manager terminal 10 asking whether to enter non-mandatory input items for additional carbon emission sources.

That is, in this process, after mandatory input items are registered, the administrator terminal 10 displays whether to input non-mandatory input items.

Accordingly, when the information management unit 110 receives a request for input of non-mandatory input items entered by the manager terminal 20, it provides (add) non-mandatory input items for additional carbon emission sources to the manager terminal 20. Step -5) is performed, followed by step (add-6) in which the information management unit 110 receives and registers input data of non-mandatory input items entered by the manager terminal 20.

In addition, as shown in Figure 14, the registration information for carbon emission sources provided to the manager terminal 10 includes emission facility name, self-facility name, activity data (emission source) name, activity data (emission amount), energy consumption, and greenhouse gas emissions. , date of use, scope, registrant, registration date, and attached documents.

Among these, the attached document availability item can provide guidance on whether attached documents are needed and whether to submit them.

For example, in the case of items requiring attached documents, the document-shaped icon may be displayed as visually inactive by default, and when the administrator terminal 10 uploads the attached document, the document-shaped icon may be visually activated, such as color, etc. It can be displayed by changing .

As described above, preferred embodiments according to the present invention have been examined, and the fact that the present invention can be embodied in other specific forms in addition to the embodiments described above without departing from the spirit or scope thereof is recognized by those skilled in the art. It is self-evident to them. Therefore, the above-described embodiments are to be regarded as illustrative and not restrictive, and thus the present invention is not limited to the above description but may be modified within the scope of the appended claims and their equivalents.

10: Administrator terminal
20: User terminal
100: Operation server
110: Information Management Department
120: Data processing unit
130: Information Department

Claims (12)

Step (a) of the information management unit of the operation server receiving system information about the target system input by an administrator terminal owned by an administrator of the target system subject to carbon emissions calculation;
Step (b) of the data processing unit of the operation server loading a template set corresponding to the target system among a plurality of template sets stored in the database of the operation server based on the system information received in step (a);
Step (c) of the data processing unit applying to the target system an organization classification template that classifies sub-organizations by setting a classification boundary of the target system from the template set loaded in step (b);
From the template set loaded in step (b), the data processing unit provides an emission source classification template that specifies carbon emission sources for each sub-organization of the target system classified by step (c). Step (d) of applying;
Step (e) where the data processing unit of the operation server calculates the amount of carbon emissions for each carbon emission source specified in step (d); and
An (add) step of the information management unit receiving additional carbon emission sources from the manager terminal and registering them;
Includes,
The (add) step is,
An (add-1) step in which the information management unit loads guidelines for each industry of the target system and provides them to the manager terminal;
(add-2) step in which the information management unit provides mandatory input items for additional carbon emission sources to the manager terminal;
An (add-3) step in which the information management unit receives and registers input data of mandatory input items entered by the manager terminal;
An (add-4) step in which the information management unit transmits a notification message to the administrator terminal asking whether to enter non-mandatory input items for additional carbon emission sources;
(add-5) step of providing non-mandatory input items for additional carbon emission sources to the manager terminal when the information management unit receives a request for input of non-mandatory input items entered by the manager terminal; and
An (add-6) step of the information management unit receiving and registering input data of non-mandatory input items entered by the manager terminal;
Including,
Method of providing information related to carbon emissions of the target system. According to paragraph 1,
After step (e) above,
There is a further step (f) in which the information provision unit of the operation server provides the carbon emission information for each carbon emission source included in the sub-organization of the target system calculated in step (e) to the user terminal owned by the user so that it can be viewed. performed,
Method of providing information related to carbon emissions of the target system. According to paragraph 2,
In step (f),
Step (f-1) of providing a first data dashboard showing carbon emissions by type for each sub-organization of the target system;
Step (f-2) of providing a second data dashboard showing the carbon amount distribution ratio of each carbon emission source included in the sub-organization of the target system; and
Step (f-3) of providing a third data dashboard indicating the RE100 implementation achievement status of the target system;
Including,
Method of providing information related to carbon emissions of the target system. According to paragraph 1,
After step (a) above,
The (ex) step of granting administrator authority to the administrator terminal is further performed by the information management unit of the operation server,
Method of providing information related to carbon emissions of the target system. According to paragraph 1,
The process of classifying sub-organizations according to the organization classification template applied in step (c) above is,
Step (c-1) of classifying sub-organizations by setting classification boundaries into geographic-based unit facilities for constructing the target system or unit groups divided by preset purposes for the target system; and
Step (c-2) of adding transportation and auxiliary facilities owned by the target system as sub-organizations;
Including,
Method of providing information related to carbon emissions of the target system. According to paragraph 1,
The process of specifying a carbon emission source using the emission source classification template applied in step (d) above is,
Step (d-1) of defining a plurality of carbon emission types for each sub-organization classified in step (c) above; and
Step (d-2) of specifying detailed carbon emission sources for each carbon emission type defined in step (d-1) above;
Including,
Method of providing information related to carbon emissions of the target system. According to clause 6,
Carbon emission types defined in step (d-1) include direct emission types, indirect emission types, and other emission types,
Method of providing information related to carbon emissions of the target system. In clause 7,
In step (d-2),
Step (d-2-1) of specifying each of the direct emission types, such as fixed combustion sources, mobile combustion sources, fugitive emission sources, waste treatment facilities, forest sinks, fertilizer use, and owned animals, as detailed carbon emission sources;
Step (d-2-2) of specifying each item of electricity use, heat use, water use, and waste as the indirect emission type as a detailed carbon emission source; and
Step (d-2-3) of specifying each item of commuting/school means and business trips as the detailed carbon emission source as the other emission types;
Including,
Method of providing information related to carbon emissions of the target system. According to paragraph 1,
In step (e),
Step (e-1) where the data processing unit calculates a base emission figure for each carbon emission source specified in step (d);
Step (e-2) where the data processing unit calculates an emission coefficient through the base emission figure;
Step (e-3) in which the data processing unit calculates carbon emissions by multiplying the base emission figure and the emission coefficient; and
Step (e-4) of the data processing unit converting the carbon emissions calculated in step (e-3) into carbon dioxide equivalent (CO ₂ eq);
Including,
Method of providing information related to carbon emissions of the target system. delete delete delete