Patent Application
20230025792
The present invention relates to an environmental impact assessment device, an environmental impact assessment method, and a program.
An ICT (Information and Communication Technology) service consumes electric power, but contributes to environmental load decrease because of reduction in resource consumption and movement. Many companies calculates a difference in CO2 emissions between before and after the introduction of the ICT service, as a CO2 reduction effect, by LCA (Life-Cycle Assessment), for emphasizing environmental load decrease effect due to the introduction of the ICT service.
For the calculation of the CO2 reduction effect, there is a method for modeling by classifying the environmental impact due to the ICT service into a plurality of activity items, analyzing each activity item at stages of production, use and disposal, and considering what activity item matches with the ICT service that is planned to be introduced (For example, Non-Patent Literature 1).
Non-Patent Literature 1: Shinsuke Hannoe et al. “Kankyou asesumento kyoutsu-kiban no Kaihatsu (Development of Common Environmental Assessment Base)”, NTT Gijutsu Janaru (NTT Technology Journal), November 2012 issue, pp. 2S-32
However, there is a problem in that it is not possible to easily determine what activity item matches with a certain ICT service, because it is necessary to have expertness relevant to functions and effects of the ICT service and environmental impact assessments.
The present invention has been made in view of the above point, and has an object to simplify the assessment of the environmental load reduction effect due to the ICT service.
For solving the above problem, an environmental impact assessment device includes: an input unit configured to accept an input of a utilization purpose of an ICT service from a user, the ICT service being a target of assessment of a reduction effect for an environmental load; a first identification unit configured to refer to a storage unit in which, for each existing case about the assessment, an assessment result about the reduction effect for the environmental load for each activity item and a utilization purpose of the ICT service in the existing case are stored in association with each other, and to identify an existing case associated with the input utilization purpose; a second identification unit configured to identify an activity item for which the reduction effect is highest, for each existing case identified by the first identification unit; an acquisition unit configured to acquire a value of a parameter for an assessment expression for the environmental load, the assessment expression being previously set for each of the activity item identified by the second identification unit and utilization of an apparatus relevant to the ICT service; and a calculation unit configured to substitute the value acquired by the acquisition unit into the assessment expression, and to calculate a value of the environmental load for each of the activity item identified by the second identification unit and the utilization of the apparatus.
It is possible to simplify the assessment of the environmental load reduction effect due to the ICT service.
An embodiment of the present invention will be described below based on the drawings.
A program that realizes processing in the environmental impact assessment device 10 is provided by a recording medium 101 such as a CD-ROM. When the recording medium 101 holding the program is set in the drive device 100, the program is installed in the auxiliary storage device 102 from the recording medium 101 through the drive device 100. The program does not always need to be installed from the recording medium 101, and may be downloaded from another computer through a network. The auxiliary storage device 102 holds the installed program, and holds necessary files, data and the like.
The memory device 103 reads the program from the auxiliary storage device 102 and holds the program, in response to an activation instruction for the program. The CPU 104 realizes functions about the environmental impact assessment device 10, in accordance with the program held in the memory device 103. The interface device 105 is used as an interface for connection with a network. The display device 106 displays a GUI (Graphical User Interface) by the program, and the like. The input device 107 is constituted by a keyboard, a mouse and the like, and is used for input of various operation instructions.
It is necessary to determine a functional unit of the ICT service for calculating the reduction effect (CO2 reduction effect) for the environmental load due to the introduction of the ICT service that is an assessment target based on LCA. The functional unit of the ICT service means what the function to be served by the ICT service is (that is, for what purpose the ICT service is utilized). In the embodiment, the functional unit is almost synonymous with a utilization purpose of the ICT service.
A processing procedure that is executed by the environmental impact assessment device 10 will be described below.
In step S101, the input unit 11 makes an inquiry to a user (assessment person) about the utilization purpose of the ICT service (referred to as a “target service”, hereinafter) that is an assessment target. For example, the target service is an ICT service that is planned to be introduced or has been introduced by the user. In the embodiment, as an example, the target service is a TV conference system.
For example, the inquiry about the utilization purpose of the target service may be made by displaying a screen shown in
When the user selects one utilization purpose, the input unit 11 accepts the utilization purpose (referred to as a “target utilization purpose”, hereinafter), as the utilization purpose of the target service. For example, when the target service is a TV conference system, “conference” is selected as the utilization purpose.
Subsequently, the analysis unit 12 refers to the existing case DB 121, and identifies an existing LCA case that is associated with the same utilization purpose as the target utilization purpose (S102).
The service name is the name of the ICT service for the existing case. The assessment result is information indicating an assessment result for the existing case, that is, the reduction effect for the environmental load due to the introduction of the ICT service, for each activity item. In
The utilization purpose is the utilization purpose of the ICT service for the existing case. For example, an expert previously defines a plurality of utilization purposes, and gives (labeling) one of the plurality of utilization purposes to each existing case. The labeling of the utilization purpose is performed from a standpoint of what is performed using the ICT service or what is replaced using the ICT service. The utilization purpose is a purpose of using the function of the ICT service. For example, when the function of a certain ICT service is “accumulation”, the purpose of utilizing the function “accumulation” is regarded as “sharing of documents and the like”. Thereby, it is possible to appropriately derive the functional unit.
The utilization purposes displayed as options on the utilization purpose selection screen 510 in
In step S102, the existing case (IC service) associated with the same utilization purpose as the target utilization purpose is identified. Hereinafter, the existing case identified in step S102 is referred to as a “target existing case”. Note that a plurality of target existing cases can be identified.
Subsequently, for each target existing case, the analysis unit 12 calculates the difference (reduction effect) in CO2 emissions between before and after the introduction of the ICT service in the assessment result, by category of the activity item, and identifies an activity item having the largest difference (S103). For example, when there are ten target existing cases, one activity item is identified for each of the ten target existing cases.
Subsequently, the question unit 13 identifies activity items for which the number of appearances is relatively large (top N activity items), from a set of the identified activity items (S104). For example, N is 2. On this occasion, for example, in the case where five activity items of the ten activity items fall under an activity item A, where three activity items fall under an activity item B, and where the remaining two activity items are other than the activity items A and B, the largest activity item in terms of the number of appearances is A, and the second largest activity item is B. In the case where all the ten activity items fail under A, only A is identified in step S104. Further, N may be 3 or more. Hereinafter, the activity item identified in step S104 is referred to as a “before-introduction activity item candidate”.
Subsequently, the question unit 13 acquires a specific example of each before-introduction activity item candidate, from the activity item DB 122 (S105).
Subsequently, for each before-introduction activity item candidate, the question unit 13 outputs a question of whether the user has performed the specific example acquired for the before-introduction activity item candidate before the introduction of the target service, and accepts an input of an answer to the question, from the user (S106). For example, when the before-introduction activity item candidate is “person movement”, the specific example of “person movement” is “utilization of vehicle” in the example of
Subsequently, on the display device 106, the parameter acquisition unit 14 displays a parameter input screen for accepting an input of the value of a parameter to be substituted into an assessment expression (a calculation expression for CO2 emissions) for the environmental load, from the user, for each of the before-introduction activity item candidate (referred to as a “before-introduction activity item”, hereinafter) for which the answer is positive and “ICT apparatus utilization” (S107). The reason why not only the before-introduction activity item but also the activity item “ICT apparatus utilization” are adopted as the assessment target for the environment load is that the activity item after the introduction of the target service is fixed to “ICT apparatus utilization” for convenience sake in the embodiment. That is, the before-introduction activity item is an activity item that has been performed before the introduction of the target service, and is an activity item for which the reduction effect for the environmental load is relatively large in the existing case. Meanwhile, in the case where some kind of ICT service is introduced, the activity item that is mainly performed is “ICT apparatus utilization”. Accordingly, in the embodiment, the reduction effect for the environmental load before and after the introduction of the target service is assessed by comparison of the respective environmental loads (CO2 emissions) of the before-introduction activity item and “ICT apparatus utilization” after the introduction of the target service.
Accordingly, in the case where the before-introduction activity item is “person movement” for example, a parameter input screen shown in
The input region 521 includes input fields of a movement section, a movement distance and the number of persons, for each movement means (a railroad and an automobile). The movement section is a combination of a start point and end point of a movement, and for example, a value such as “Tokyo-Osaka” is input. The movement distance is the distance of the movement section. The number of persons is the number of persons that move. In the example of
On the other hand, the input region 522 includes fields of the number of apparatuses, a consumed power and a use time, for each ICT apparatus that is expected to be used in the ICT system. To a line including the name of each ICT apparatus that actually constitutes the target service, the user inputs the number of apparatuses, the consumed power and the use time for the ICT apparatus. For example, the use time is the time of use of each ICT apparatus during the utilization of the target service in the latest one month. The name of the ICT apparatus may be input by the user. The consumed power may be input by reference to a specification document and the like of each ICT apparatus.
The parameter acquisition unit 14 generates the parameter input screen 520 by reference to the template DB 123. In the template DB 123, a template of an input region for parameters is stored for each activity item. The parameter acquisition unit 14 generates the parameter input screen 520, such that the parameter input screen 520 includes a template of an input region corresponding to the before-introduction activity item and a template of an input region corresponding to “ICT apparatus utilization”.
After the input of the values of the parameters finishes, the environmental load calculation unit 15 substitutes input results of the values of the parameters into assessment expressions previously stored in the assessment expression DB 124, and calculates the CO2 emissions before the introduction of the target service and the CO2 emissions after the introduction of the target service (S108).
“CO2 emission intensity” in each assessment expression is a factor (conversion factor) for converting the amount of the activity item into the CO2 emissions, and differs for each activity item and for each means that is utilized in the activity item. For example, as for “person movement”, the CO2 emission intensity differs for each movement means (the railroad, the automobile and the like). Further, as for “ICT apparatus utilization”, the CO2 emission intensity differs for each ICT apparatus and for each of the life cycle stages of production, use and disposal (for each of production CO2 emissions, use CO2 emissions and disposal CO2 emissions). Accordingly, the value of the CO2 emission intensity may be stored in another DB. Alternatively, in the assessment expression DB 124, as to the assessment expression for “person movement”, an assessment expression may be stored for each combination of “person movement” and “movement means”, and as to the assessment expression for “ICT apparatus utilization”, an assessment expression may be stored for each ICT apparatus.
In the embodiment, the CO2 emissions before the introduction of the target service is estimated from the CO2 emissions due to the before-introduction activity item. Further, the CO2 emissions after the introduction of the target service is estimated from the CO2 emissions due to “ICT apparatus utilization”. Accordingly, the environmental load calculation unit 15 calculates the CO2 emissions before the introduction of the target service, based on the assessment expression stored in the assessment expression DB 124 for the before-introduction activity item, and calculates the CO2 emissions after the introduction of the target service, based on the assessment expression stored in the assessment expression DB 124 for “ICT apparatus utilization”.
For example, suppose that the input result to the input, region 521 on the parameter input screen 520 are an input result shown in
CO2 emissions=the movement distance×the number of persons×the CO2 emission intensity for railroad movement×the number of conferences×12×the number of years=1200 km×3 persons×0.0000236 t-CO2/km-person×4 conferences×12×5 years=20.4 t-CO2
Similarly, the CO2 emissions after the introduction of the target service is calculated as 11.4 t-CO2, for example. The CO2 emissions after the introduction of the target service is derived by calculating the total of production CO2 emissions, use CO2 emissions and disposal CO2 emissions in the assessment expression for “ICT apparatus utilization” in
In the calculation of the CO2 emissions for each ICT apparatus, a value for each model number of the ICT apparatus may be used as the CO2 emission intensity, but in the case of being difficult, the respective CO2 emission intensities for production, use and disposal may be registered for each class (a server, a camera and the like) based on the function and purpose of the ICT apparatus, and the CO2 emission intensities may be used for calculation.
Alternatively, the CO2 emissions per unit price (for example, per one million yen) may be set for each of production, use and disposal, as the CO2 emission intensity for each class based on the function and purpose of the ICT apparatus, and the CO2 emission intensities for the production, use and disposal of each ICT apparatus may be calculated based on the price of an ICT apparatus that is actually used.
For example, suppose that 2.78 t-CO2/one million yen is registered as the CO2 emissions for the production of one server per one million yen. In this case, when a server with 1.38 million yen/one server is used, the production CO2 emissions for the server may be calculated as follows.
2.78 t-CO2/one million yen×1.38 million yen×one server=3.83 t-CO2
That is, in this case, the CO2 emission intensity for the production of the server is calculated by 2.78 t-CO2/one million yen×1.38 million yen.
The CO2 emissions for the use and disposal of the server also may be calculated using CO2 emission intensities based on similar calculation methods, and the CO2 emissions for the server may be calculated by summing the respective calculation results. For other ICT apparatuses also, similar calculations may be performed.
Subsequently, the output unit 16 outputs the calculation results by the environmental load calculation unit 15 (S109).
Further, for showing the reduction effect for the environmental load in a more understandable manner, the output unit 16 may display 9 t-CO2, which is the difference (the CO2 emissions before and after the introduction—the CO2 emissions after the introduction) between the CO2 emissions before the introduction and the CO2 emissions after the introduction, on the display device 106. The reduction effect may be expressed as 56% (≈11.4÷20.4×100).
An example in which the ICT apparatus has not been utilized before the introduction of the target service has been shown above. However, in the case where an ICT apparatus substituted in a TV conference system has been utilized in a conference before the introduction of the target service and where the activity item as the utilization of the ICT apparatus is identified as the before-introduction activity item, the CO2 emissions relevant to the ICT apparatus are calculated in the calculation of the CO2 emissions before the introduction of the target service.
As described above, according to the embodiment, without the assessment person assuming situations before and after the introduction of the ICT service from scratch to build a model by oneself, by inputting the answer to the question or the value of the parameter, the situations before and after the introduction of the ICT service are automatically identified and the reduction effect for the environmental load before and after the introduction of the ICT service is calculated. As a result, it is possible to simplify the assessment of the environmental load reduction effect due to the ICT service. Accordingly, it is possible to assess the CO2 reduction effect due to the ICT service, without having expertness relevant to the environmental impact assessment and the ICT service. Thereby, it is possible to easily calculate the CO2 reduction effect depending on the utilization situation of an individual user, and to promote the ICT service from an environmental aspect in business activity.
In the embodiment, the analysis unit 12 is an example of the first identification unit and the second identification unit. The parameter acquisition unit 14 is an example of the acquisition unit. The environmental load calculation unit 15 is an example of the calculation unit.
The embodiment, of the present invention has been described above in detail. The present invention is not limited to the particular embodiment, and various modifications and alterations can be made in the scope of the spirit of the present invention described in the claims.
10 Environmental impact assessment device
11 Input unit
12 Analysis unit
13 Question unit
14 Parameter acquisition
15 Environmental load calculation unit
16 Output unit
100 Drive device
101 Recording medium
102 Auxiliary storage device
103 Memory device
104 CPU
105 interface device
106 Display device
107 Input device
121 Existing case DB
122 Activity item DB
123 Template DB
124 Assessment expression DB
B Bus
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/JP2020/003092 | 1/29/2020 | WO |
