JP2023177445A - Co2 emission calculation server, co2 emission calculation system, co2 emission calculation method, and program - Google Patents

Abstract

To provide a CO2 emission calculation server which allows a user to easily input and can calculate more accurate CO2 emissions.SOLUTION: According to an embodiment of the present invention, a CO2 emission calculation server includes a unit information storage part for associating a predetermined basic unit item with CO2 emissions per unit amount of the basic unit item for storage, a user information storage part for associating user identification information with CO2 emission calculating information for storage, and a control part which calculates CO2 emissions for each user and for each product, and can receive an input with a first product as one of basic unit items in receiving an input of a basic unit item by a second user in the case of receiving a report input of the first product to the second user of a supply destination by a first user, and can calculate CO2 emissions of the basic unit item on the basis of the CO2 emissions calculated on the basis of an input of the first user.SELECTED DRAWING: Figure 1

Description

The present invention relates to a CO2 emissions calculation server, a CO2 emissions calculation system, a CO2 emissions calculation method, and a program.

In order to become carbon neutral, each company has begun efforts toward decarbonization, including emissions from its own activities (Scope 1), emissions from electricity procurement (Scope 2), and other indirect emissions from a bird's-eye view of the supply chain (Scope 3). The need for calculating CO2 emissions is increasing. Life cycle is a method for quantitatively evaluating input resources, environmental loads, and their potential environmental impact on the earth and ecosystems during a product's life cycle, from procurement of raw materials to production, distribution, use, and disposal. There is also growing interest, especially in the manufacturing industry, in the calculation of carbon footprint (CFP) for each product based on the carbon footprint assessment (LCA) concept.

For example, Patent Document 1 discloses a calculation method that can accurately calculate the environmental load by using appropriate environmental load information that determines the environmental load (CO2 generation amount) from the environmental load factor according to the environmental load factor. ing.

Japanese Patent Application Publication No. 2011-141800

Under these circumstances, it is important to more accurately calculate CO2 emissions in each process of constructing the supply chain for each product, including material purchase, upstream transportation, production, downstream transportation, usage, recycling, and disposal. A system that can do this is needed. Furthermore, in such a system, since each user (company) needs to input information for calculating CO2 emissions, it is required that input by each user be easier.

The present invention has been made to solve such problems, and aims to provide a CO2 emissions calculation server etc. that allows users to easily input and calculate more accurate CO2 emissions. purpose.

[1] A CO2 emissions calculation server according to an embodiment of the present invention:
a unit information storage unit that stores predetermined basic unit items and CO2 emissions per unit amount of the basic unit items in association with each other;
A user information storage unit that stores user identification information and information for calculating CO2 emissions in association with each other, the information for calculating CO2 emissions including product information, a basic unit item, and an activity amount of the basic unit item. , a user information storage unit;
A control unit that calculates CO2 emissions for each user and each product,
The control unit includes:
When input of one basic unit item and the activity amount of the basic unit item is received, the basic unit is Calculate the CO2 emissions of each item,
Based on the CO2 emissions of the calculated basic unit items, calculate the CO2 emissions of the target product,
Accepts report input to report the CO2 emissions of the target product to the supplied user,
When a first user receives a report input for a first product for a second user who is a supply destination, when receiving input of a basic unit item from the second user, the first product is input as a basic unit item. can accept input as one of the first user's inputs, and can calculate the CO2 emissions of the basic unit item based on the CO2 emissions calculated based on the input of the first user.
This is a CO2 emissions calculation server.

[2] In one embodiment of the present invention,
The information for calculating CO2 emissions includes a process associated with product information and a basic unit item associated with the process,
The control unit includes:
It is possible to accept report input for reporting CO2 emissions of target products, including settings to make one or more basic unit items or processes private.
If a report input for a first product that includes a setting to make one or more basic unit items or processes private to the second user is received by the first user, one or more basic unit items or processes that are set to be non-public are received. The second user displays a screen that does not allow viewing of processes and information associated with the same, but allows viewing of basic unit items set to private, or basic unit items other than processes, or processes and information associated with this. can be displayed for,
This is the CO2 emissions calculation server described in [1].

[3] In one embodiment of the present invention,
The CO2 emissions calculation information includes a plurality of processes associated with product information and element items necessary for manufacturing the product associated with the process, and the basic unit item is associated with the element item,
The control unit includes:
When the first user receives a first product report input including a setting to make one or more basic unit items private to the second user, the second user inputs the basic unit items. At the time of acceptance, a screen where you cannot view the element items and information associated with them that are associated with the basic unit item that is set to private, but where you can view information associated with element items other than the element item. may be displayed to the second user,
This is the CO2 emissions calculation server described in [2].

[4] In one embodiment of the present invention,
The control unit includes:
A screen that presents the CO2 emissions for each process and the CO2 emissions for each basic unit item, and that presents the basic unit items provided by the supplier user in a different manner from the others, can be displayed.
This is the CO2 emissions calculation server described in [3].

[5] In one embodiment of the present invention,
The control unit includes:
Furthermore, in the case where a third user inputs a report for the second user about a third product that is the same as or similar to the first product, when receiving the input of a basic unit item from the second user, It is possible to accept input of the first product or the third product as one of the basic unit items;
The CO2 emissions calculation server according to any one of [1] to [4].

[6] In one embodiment of the present invention,
The information for calculating CO2 emissions includes a yield rate associated with product information,
The control unit further calculates the CO2 emissions of the target product based on the yield rate.
The CO2 emissions calculation server according to any one of [1] to [5].

[7] In one embodiment of the present invention,
The control unit includes:
It is possible to present an index based on the ratio of the basic unit items using the CO2 emissions provided by the supplier user among the basic unit items,
The CO2 emissions calculation server according to any one of [1] to [6].

[8] In one embodiment of the present invention,
The control unit includes:
Accepting user input from a predetermined checklist, generating an index based on the input, and associating it with information on the target product;
The CO2 emissions calculation server according to any one of [1] to [7].

[9] In one embodiment of the present invention,
The control unit is the CO2 emissions calculation system according to any one of [1] to [8], which calculates the CO2 emissions for each final product.

[10] The CO2 emissions calculation system of one embodiment of the present invention includes:
A CO2 emissions calculation system comprising the CO2 emissions calculation server according to any one of [1] to [9], and a plurality of user terminals connected to the CO2 emissions calculation server via a network. hand,
The control unit can receive input of CO2 emission calculation information and report input from each user via a user terminal.
This is a CO2 emissions calculation system.

[11] The CO2 emissions calculation method according to an embodiment of the present invention is as follows:
A CO2 emissions calculation method executed by one or more computers, the method comprising:
a step of receiving input of information for calculating CO2 emissions of one product from a user, the information for calculating CO2 emissions including predetermined basic unit items and activity amount of the basic unit items; and,
The input is based on the activity amount of the input intensity item and the CO2 emissions per unit amount obtained from the database that associates and stores the intensity item and the CO2 emissions per unit amount of the intensity item. a step of calculating the CO2 emissions of the basic unit item for which the request has been received;
a step of calculating the CO2 emissions of one product based on the calculated CO2 emissions of the basic unit items;
a step of receiving a report input from a user to report the CO2 emissions of the product to the user to whom the product is supplied;
including;
In the step of receiving the input, if the first user has received the report input of the first product to the second user who is the supply destination in the step of receiving the report input, This includes accepting input for the product as one of the basic unit items,
In the step of calculating the CO2 emissions of the basic unit item, if an input is received from the second user with the first product as one of the basic unit items, in the step of accepting the input, the first product Calculating the CO2 emissions of the basic unit item based on the CO2 emissions calculated based on the input of
It's a method.

[12] A program according to an embodiment of the present invention is a program that causes one or more computers to execute each step of the method [11].

According to the present invention, input is easy for the user, and more accurate CO2 emissions can be calculated.

1 is an overall configuration diagram of a CO2 emissions calculation system according to an embodiment of the present invention. FIG. 2 is a block diagram showing the hardware configuration of a CO2 emissions calculation server according to an embodiment of the present invention. FIG. 1 is a block diagram showing the hardware configuration of a user terminal according to an embodiment of the present invention. FIG. 1 is a functional block diagram of a CO2 emissions calculation system according to an embodiment of the present invention. It is a figure showing an example of an input screen. It is a figure showing an example of an input screen. It is a figure showing an example of a confirmation screen. It is a figure showing an example of a confirmation screen. FIG. 3 is a diagram showing an example of a disclosure setting screen. It is a figure showing an example of a simulation screen. It is a figure which shows the flowchart of the process of the control part regarding calculation of the CO2 emission amount of the target product of one Embodiment of this invention. FIG. 3 is a diagram showing an example of an input screen including a yield rate.

Hereinafter, a CO2 emissions calculation system 1 according to an embodiment of the present invention will be described with reference to the drawings. The CO2 emissions calculation system 1 can provide a CO2 emissions calculation service for visualizing CO2 emissions, targeting LCA for each product. The CO2 emissions calculation service is a service to support each company's LCA. In this specification, for convenience of explanation, more detailed explanation than necessary may be omitted.

FIG. 1 is an overall configuration diagram of a CO2 emissions calculation system 1 according to an embodiment of the present invention. As shown in FIG. 1, the CO2 emissions calculation system 1 includes a CO2 emissions calculation server 10 and a plurality of user terminals 20, and the CO2 emissions calculation server 10 and the user terminals 20 are connected to a network such as the Internet. 2 and can communicate with each other. The CO2 emissions calculation system 1 of this embodiment will be described assuming a known client-server type system, but is not limited to this.

The CO2 emissions calculation server 10 is a server configured to include one or more server devices. The CO2 emissions calculation server 10 may be realized by a virtual machine or a cloud system, or may be realized by one device. The CO2 emissions calculation server 10 receives access from the user terminal 20 and provides a CO2 emissions calculation service tailored to the user via the network 2. In this embodiment, for convenience of explanation, the CO2 emissions calculation server 10 will be described as being realized by one device.

FIG. 2 is a block diagram showing the hardware configuration of the CO2 emissions calculation server 10 according to an embodiment of the present invention. The CO2 emissions calculation server 10 includes a processor 11, a display device 12, an input device 13, a storage device 14, and a communication device 15. Each of these components is connected by a bus 26. Note that an interface is interposed between the bus 26 and each component device as necessary. The CO2 emissions calculation server 10 can include a configuration similar to a general server, PC, or the like.

The processor 11 controls the overall operation of the CO2 emissions calculation server 10. For example, the processor 11 is a CPU. The processor 11 executes various processes by reading and executing programs and data stored in the storage device 14. Processor 11 may be composed of multiple processors.

The display device 12 is a display that displays an application screen and the like to the user of the CO2 emissions calculation server 10. The input device 13 is a user interface that accepts input from a user to the CO2 emissions calculation server 10, and is, for example, a keyboard or a mouse.

The storage device 14 includes a main storage device and an auxiliary storage device. The main memory is, for example, a volatile memory capable of reading and writing information at high speed, and is used as a storage area and a work area when the processor 11 processes information. The auxiliary storage device stores various programs and data used by the processor 11 when executing each program. The auxiliary storage device is nonvolatile storage or nonvolatile memory, for example, a flash memory such as eMMC, UFS, or SSD, and may be removable. In this embodiment, the storage device 14 stores the server application SA. The server application SA includes a program for executing the server application SA and various data referred to when executing the program.

The communication device 15 is a module, device, or apparatus that can exchange data with the user terminal 20 or another computer via the network 2. The communication device 15 can be a wireless communication device or module, or a wired communication device or module.

FIG. 3 is a block diagram showing the hardware configuration of the user terminal 20 according to an embodiment of the present invention. The user terminal 20 includes a processor 21, a display device 22, an input device 23, a storage device 24, and a communication device 25. Each of these components is connected by a bus 26. Note that an interface is interposed between the bus 26 and each component device as necessary. Each of the plurality of user terminals 20 included in the CO2 emissions calculation system 1 may be a different type of terminal such as a personal computer or a smartphone.

The processor 21 controls the overall operation of the user terminal 20. For example, the processor 21 is a CPU. Note that as the processor 21, an electronic circuit such as an MPU may be used. The processor 21 executes various processes by reading and executing programs and data stored in the storage device 24. In one example, processor 21 is comprised of multiple processors.

The display device 22 is a display that displays application screens and the like to the user of the user terminal 20. The input device 23 is a user interface that accepts input from the user to the user terminal 20, and is, for example, a keyboard or a mouse.

The storage device 24 includes a main storage device and an auxiliary storage device. The main memory is, for example, a volatile memory capable of reading and writing information at high speed, and is used as a storage area and a work area when the processor 21 processes information. The auxiliary storage device stores various programs and data used by the processor 21 when executing each program. The auxiliary storage device is nonvolatile storage or nonvolatile memory, for example, a flash memory such as eMMC, UFS, or SSD, and may be removable. In this embodiment, the storage device 24 stores the terminal application TA. The terminal application TA includes a program for executing the terminal application TA and various data referred to when executing the program.

The communication device 25 is a module, device, or apparatus that can exchange data with the CO2 emissions calculation server 10 or other computers via the network 2. The communication device 25 can be a wireless communication device or module, or a wired communication device or module.

FIG. 4 is a functional block diagram of the CO2 emissions calculation system 1 according to an embodiment of the present invention. The CO2 emissions calculation system 1 includes a control section 31. The information processing and communication functions between the user terminal 20 of the control unit 31 and the CO2 emissions calculation server 10 are performed by the user terminal 20 and the CO2 emissions calculation server 10, which perform the same processing as a known client-server type client and server. This can be achieved by doing this. The function of the control unit 31 is, for example, when the processor 11 of the user terminal 20 executes a program, when the processor 21 of the CO2 emission calculation server 10 executes a program, or when the processor 11 executes a program, and This is realized by the processor 21 executing a program (and by transmitting and receiving data between the user terminal 20 and the CO2 emissions calculation server 10 as necessary). In this way, since the functions of the control unit 31 are realized by reading a program, another function unit may have a part or all of one function unit (for example, a software module) included in the control unit 31. However, the control section 31 may have other functional sections. However, these functions may also be realized by hardware by configuring an electronic circuit or the like to realize part or all of the control section 31.

The CO2 emissions calculation system 1 includes a unit information storage section 32 and a user information storage section 33. The unit information storage section 32 has a function of storing information related to the basic unit name (basic unit item), and is realized by the storage device 14 . The user information storage unit 33 has a function of storing information related to a user, and is realized by the storage device 14. In this embodiment, for convenience of explanation, the control unit 31 will be described as having a function of database software such as SQL, and the unit information storage unit 32 and user information storage unit 33 will be described as having a function of storing predetermined information in the storage device 14. However, it is not limited to this. For example, each of the unit information storage section 32 and the user information storage section 33 is a database that is realized by the storage device 14 storing data (for example, tables) and programs for various databases, and the programs being executed. Good too.

The unit information storage unit 32 associates and stores a basic unit item (basic unit name) and a CO2 emission amount per unit amount of the basic unit item. The CO2 emissions per unit amount of the basic unit item and the basic unit item are determined in advance by a predetermined organization or the like. For example, the unit information storage unit 32 is created based on the IDEA database, and includes approximately 4000 types (4000 lines) of basic unit items. In one example, the unit information storage unit 32 stores "primary aluminum ingot (unit: kg)" as one unit consumption item, and stores "10.23 (unit: kg - Co2eq)" in association with this. . This means that the production of 1 kg of primary aluminum ingot corresponds to 10.23 kg of CO2 emissions. For example, the unit information storage unit 32 stores, as basic unit items, "melamine resin (unit: kg)", "nylon 6 (unit: kg)", "truck transportation service, 4 ton vehicle, loading rate 50% (unit: km)", "Container ship transportation service, <4000 TEU (unit: km)", "Air transportation service, international passenger (unit: km)", "Vinyl chloride resin (unit: g)", "Factory electric power, Japan average, 2017 (unit: kWh)" )” is memorized. The CO2 emission amount stored in the unit information storage unit 32 is the CO2 emission amount (equivalent amount of CO2 emitted) per unit amount of the basic unit item (for example, per 1 kg, per 1 km, per 1 g, per 1 kWh).

The user information storage unit 33 stores a user ID and emissions information in association with each other. A user ID is one example of user identification information that can identify a user. The user information storage unit 33 stores the user name input in advance by the user in association with the user ID. In this embodiment, the user is a company. The user name is the name of a company, but may be a name that allows the company to be identified. Users include finished product manufacturers (final product manufacturers), primary suppliers that supply parts or materials to finished product manufacturers, and secondary suppliers that supply parts or materials to primary suppliers. Users may also include secondary and subsequent tertiary suppliers. Note that in the supply chain, the finished product manufacturer is the most downstream user among the users. Processing between users of the 1st tier supplier and the finished product manufacturer may include processing between the 2nd tier supplier and the user of the 1st tier supplier, processing between the user of the 3rd tier supplier and the 2nd tier supplier, etc., unless there is any inconsistency with other processing. It can also be applied to Similarly, the processing between the users of the secondary supplier and the primary supplier can also be applied to the processing between the users of the primary supplier and the finished product manufacturer, as long as there is no inconsistency with other processing.

The emission amount information includes calculation information and calculation information. Calculation information is information for calculating CO2 emissions, and includes product information, processes associated with the product information, element items necessary for manufacturing the product associated with the process, and elements associated with the element items. This includes the basic unit items and the amount of activity associated with the basic unit items. The CO2 emissions calculation system 1 receives input of calculation information via the user terminal 20, such as text input (text input) or selection input (selective input). The calculation information is information about CO2 emissions calculated by the CO2 emissions calculation system 1 using calculation information, and includes CO2 emissions for each element item, CO2 emissions for each process, and CO2 emissions for each product. including. The product information indicates the product, and includes, for example, the product name and product ID.

The process is one or more processes out of a plurality of preset processes. In one example, the plurality of preset processes are those defined in accordance with ISO, and include [A] a manufacturing stage process, [B] a usage stage process, and [C] a disposal/recycling stage process. process, [D] process of indirect influence, and [Z] other process. For example, the processes at the manufacturing stage include [A1] a process related to procurement of raw materials, [A2] a process related to transportation of raw materials to a factory, and [A3] a process related to product manufacturing.

The element item is an item that corresponds one-to-one to the basic unit item, and shows the outline of the basic unit item. In this embodiment, the element item is an item that the user inputs or refers to as a heading item when inputting a basic unit item. Therefore, in this embodiment, data associated with a basic unit item is associated with an element item, data associated with an element item is associated with a basic unit item, and data associated with a basic unit item is Data processing (setting, etc.) is the same as data processing for each element item, and data processing for each element item is the same as data processing for each basic unit item. For example, in the raw material procurement stage process, the user inputs "screws," "aluminum," and "resin" as element items via the user terminal 20, and enters "nylon 6" as the basic unit item to be associated with each item. ”, “Primary Aluminum Metal”, and “Melamine Resin”. For example, in the transportation stage process, the user inputs "resin," "aluminum transportation," and "screw" as element items via the user terminal 20, and inputs "container ship transportation" as the basic unit item to be associated with each item. Enter "Service, <4000 TEU", "Truck transport service, 4 ton vehicle, loading rate 50%", and "Air transport service, international passenger". For example, in a process at the manufacturing stage, the user inputs "factory electricity" and "vinyl transportation materials" as element items via the user terminal 20, and inputs "factory electricity, Japan Enter "Average, 2017" and "Vinyl chloride resin".

The activity amount is the amount of materials, electricity, etc. used by the user company. For example, if 2 kg of the basic unit item "primary aluminum ingot (unit: kg)" is used, the amount of activity is 2 (kg). For example, if 100 kWh is used in the basic unit item "Factory electric power, Japan average, 2017 (unit: kWh)", the amount of activity is 100 (kWh).

In the present embodiment, the unit information storage unit 32 stores (registers) a unit of consumption that can only be used by a specific user and the CO2 emissions per unit amount of the unit of consumption in association with a user ID. be able to.

In one example, when the terminal application TA is activated on the user terminal 20, the user terminal 20 communicates with the CO2 emissions calculation server 10 on which the server application SA is being executed. The CO2 emissions calculation server 10 transmits and receives data necessary for providing CO2 emissions services to and from the user terminal 20. In one example, the CO2 emissions calculation server 10 receives a user ID and a password from the user terminal 20, authenticates the user, and uses data stored in association with the user ID of the authenticated user to send information to the user terminal 20. Provides CO2 emissions calculation service. Once the control unit 31 authenticates a user ID, it stores the data in association with the user ID until it receives a logout operation, for example, so in the following description, storing data in association with the user ID is simply referred to as storing. There are cases where

In one example, user terminal 20 may be configured as a thin client terminal for input and output. In this case, the CO2 emissions calculation server 10 has the functions of the control unit 31 except for the input/output functions of the user terminal 20. In one example, the user terminal 20 may be configured to receive downloadable data in advance from the CO2 emissions calculation server 10 and store it as data related to the terminal application TA. In this case, the user terminal 20 is equipped with the functions of the control unit 31 except for the functions that need to be implemented in the CO2 emissions calculation server 10.

The control unit 31 stores the user ID, calculation information, and calculation information in association with each other. In this embodiment, the user terminal 20 receives input of calculation information from the user, and the CO2 emissions calculation server 10 calculates calculation information based on the input calculation information, and receives the user ID and input. The calculation information and the calculated calculation information are stored in the user information storage unit 33 in association with each other.

The control unit 31 receives product information indicating a product for each user via the user terminal 20, receives process input for each product (product information), and inputs element items, basic unit items, and Accepts input of activity amount. In this embodiment, the control unit 31 receives input of calculation information for each product (product information) per unit amount, and calculates calculation information. In this embodiment, this calculation target product may be referred to as a target product. For example, for products for which the number of products can be specified, the control unit 31 receives input of calculation information for each product and calculates the calculation information. For example, in the case of materials for which the number of products cannot be specified, the product per unit weight (for example, 1 kg) is the product to be calculated (target product). When inputting the calculation information, the control unit 31 can selectively input the unit amount of the product (pieces, kg, etc.).

In one example, when accepting process input, the control unit 31 selects and inputs a plurality of processes from a plurality of preset processes, and for each process, selects one or more element items related to the process, and the element. The unit inputs the basic unit item corresponding to the item and the activity amount of the basic unit item. In one example, when accepting the input of a basic unit item, the control unit 31 receives a text input and selects the basic unit item that includes the text for which the input has been accepted from among the basic unit items stored in the unit information storage unit 32. Display candidates and let the user make a selection.

When the control unit 31 receives the input of one element item, the basic unit item corresponding to the element item, and the activity amount of the basic unit item, the control unit 31 inputs the activity amount of the basic unit item and the basic unit item for which the input has been received. Based on the CO2 emissions per unit amount of , the CO2 emissions of the specific unit item are calculated. In one example, the control unit 31 calculates the product of the amount of CO2 emissions per unit amount associated in the unit information storage unit 32 with the input unit consumption item and the activity amount for which the input has been accepted, into the element item ( or basic unit item). After calculating (determining) the CO2 emissions of each element item, the control unit 31 calculates (determines) the CO2 emissions of each process, and calculates (determines) the CO2 emissions of the target product including the process. In one example, upon receiving completion of input or registration of calculation information via the user terminal 20, the control unit 31 controls the CO2 emissions of the element item (or basic unit item) corresponding to the basic unit item for which the input was accepted. The CO2 emissions of each process are calculated, and the CO2 emissions of the target product are calculated. In one example, the control unit 31 calculates CO2 emissions for each basic unit item by multiplying the CO2 emissions per unit amount associated with the basic unit item in the unit information storage unit 32 and the input activity amount. For each process, calculate the CO2 emissions by summing the CO2 emissions of the basic unit items included in the process, and calculate the CO2 emissions of the target product by summing the CO2 emissions of each process. calculate.

In this embodiment, the control unit 31 displays on the display device 22 of the user terminal 20 an input screen 40 for receiving input of calculation information for one product. FIG. 5 is a diagram showing an example of the input screen 40. The input screen 40 includes a product area 41 for displaying product information, a process area 42 for displaying processes, and an item area 44 for displaying element items, basic unit items, and activity amount. . The input screen 40 includes a process addition button 43 for adding a new process, an item addition button 45 for adding a new unit consumption item, a completion button 46 for accepting input completion (registration), and a product list. It includes a product list screen transition button 47 for moving to a screen (not shown).

The product area 41 includes an input field that allows the user to input product information such as a product name, and a selection input form that allows the user to select the unit of the product (for example, units, kg, etc.). The user inputs the product name into the input field in the product area 41 via the user terminal 20, and selects (inputs) the unit in the selection input form.

In one example, when the control unit 31 receives an input to the process addition button 43 via the user terminal 20, the control unit 31 displays a pop-up window (not shown) that allows the user to select one of a plurality of preset processes. When input to one of the processes is accepted, it is decided to add the process, and an object indicating the process is displayed in the process area 42.

In one example, the item area 44 includes input fields that allow the user to input each of an element item, a basic unit item, and an amount of activity. When accepting the input of a unit consumption item, the control unit 31 displays as a candidate unit item that includes the text input in the input field from among the unit consumption items stored in the unit information storage unit 32, and prompts the user to select and input the unit item. can be done.

FIG. 6 is a diagram showing an example of the input screen 40 on which calculation information is input by the user. The input screen 40 shown in FIG. 6 is provided with a scroll bar to display undisplayed areas (process area 42 and item area 44) in response to user operations.

In one example, upon receiving an input to the completion button 46, the control unit 31 calculates the CO2 emissions for each element item, the CO2 emissions for each process, and the CO2 emissions of the product. In this way, the completion button 46 can also include a function as a calculation button for calculating CO2 emissions. In one example, when the control unit 31 receives an input to the completion button 46, the control unit 31 stores the product information input by the user in association with the user ID in the user information storage unit 33, and stores the process input by the user in the user information storage unit 33. It is stored in association with the product information, and each of the element items, basic unit items, and activity amounts input by the user is stored in association with the process. At this time, the control unit 31 stores the calculated CO2 emissions for each item, the CO2 emissions for each process, and the CO2 emissions of the target product (total CO2 emissions).

The input screen 40 can include a temporary storage button for temporarily storing contents input by the user. When the control unit 31 receives the input to the temporary storage button, the control unit 31 stores the calculation information input on the input screen 40 in the user information storage unit 33. In this case, the control unit 31 may be configured to store calculation information calculated based on the calculation information in the user information storage unit 33 as temporary calculation information.

In one example, upon authenticating a user, the control unit 31 displays a product list screen on the display device 22 of the user terminal 20 of the authenticated user.

In one example, the control unit 31 displays a product list screen on which objects corresponding to registered product information (for which input completion has been accepted) is arranged, and accepts input completion in response to user input to the object. The input screen 40 is displayed. The user can change or input calculation information for the selected product information via this input screen 40. In one example, the control unit 31 arranges an object for adding a new product on the product list screen, and displays a new input screen 40 in response to a user input to the object. In one example, when the control unit 31 receives an input to the completion button 46, the control unit 31 generates emission amount information regarding the product information for which the input was received (emission amount information including the calculation information for which the input was received and the calculated calculation information). Display a confirmation screen to confirm.

In this embodiment, the control unit 31 displays a confirmation screen 60 on the display device 22 of the user terminal 20 for confirming the emission amount information of the target product. FIG. 7 is a diagram showing an example of the confirmation screen 60. The confirmation screen 60 includes a product area 61 for displaying product information, a public setting screen transition button 62 for moving to the public setting screen 70, and an input button for moving to the target product input screen 40. a simulation screen transition button 64 for moving to a simulation screen, and a product list screen transition button 65 for moving to a product list screen (not shown). The confirmation screen 60 includes a breakdown display area 66 that displays the breakdown of emissions for each process in a graph, and a result display area 67 that displays emissions information. For example, the graph displayed in the breakdown display area 66 is a donut graph or a pie chart, and the breakdown display area 66 includes an "emissions order" tab and a preset tab for showing the emissions of each process in order of emissions. Includes a "Process Order" tab to show emissions for each process in process order. A tab can also be a button, switch, etc.

The confirmation screen 60 shown in FIG. 7 shows that the CO2 emissions in the raw material procurement process are 27.5kg-CO2eq, the CO2 emissions in the transportation process to the factory are 0.182kg-CO2eq, and the CO2 emissions in the production process. It shows that the amount is 61.4 kg-CO2eq. For example, the confirmation screen 60 shown in FIG. 7 shows that the CO2 emissions of the element item "aluminum" in the raw material procurement process and the basic unit item "primary aluminum ingot" are 20.5 kg-CO2eq, which is 23.01 kg of the total. %. For example, the confirmation screen 60 shown in FIG. 7 shows that the CO2 emissions of the production process element item "Factory electricity" and the basic unit item "Electricity, Japan average, 2017" are 59.6 kg-CO2eq, which is the overall This shows that it accounts for 66.94%. By configuring the system so that the CO2 emissions for each process can be checked in this way, it is possible to support each company's CO2 emissions reduction and LCA.

When the user is other than the finished product manufacturer, the control unit 31 accepts a report input for reporting (providing) at least part of the emission amount information of the target product to the user to whom the report is made, in response to the user's operation. The control unit 31 can accept input completion or registration of calculation information in response to user operations, and after calculating the CO2 emissions of the target product, can accept report input. The control unit 31 stores, in the unit information storage unit 32, the target product for which the report input has been received in association with the user ID of the report destination as a consumption unit item, and stores the target product as the CO2 emissions per unit quantity of the unit quantity item. Memorize the product's CO2 emissions.

When the first user UA receives a report input of the first product PA for the second user UB as a supply destination, the control unit 31 controls the first It is possible to accept input of one product PA as one of the basic unit items. In one example, the first user UA is a first-tier supplier and the second user UB is a finished product manufacturer, and in one example, the first user UA is a second-tier supplier and the second user UB is a finished product manufacturer. UB is a tier 1 supplier. In one example, when the second user UB inputs the basic unit item, the control unit 31 displays the selection of the first product PA as a candidate in response to the user operation, and selects the first product PA displayed as the candidate. By accepting the input for the product PA, the first product PA is accepted as the basic unit item. When the control unit 31 receives an input with the first product PA as one of the basic unit items, the control unit 31 performs calculation based on the input from the first user UA (that is, based on the calculation information input by the first user UA). Based on the calculated CO2 emissions of the first product PA), the CO2 emissions of the specific unit item are calculated. In one example, the control unit 31 calculates the activity amount of the input unit consumption item (first product PA) and the first user UA as CO2 emissions per unit amount of the input unit quantity. The CO2 emission amount of the specific unit item is calculated by multiplying it by the CO2 emission amount of the first product PA calculated by inputting the information. Note that the basic unit item "first product PA" can be expressed as a basic unit item corresponding to the first product PA.

When receiving a report input, the control unit 31 receives an input regarding the setting of the disclosure state of the emission amount information of the target product for each user to whom the report is made. In this case, the control unit 31 can be expressed as accepting a report input including the setting of the public status.

In one example, the control unit 31 can set a setting to disclose only the CO2 emissions of the target product, a setting to publish in each process, a setting to publish in each element item (intensity item unit), or a setting to disclose in each element item unit (intensity item unit). Accepts setting input for either setting to be made public by selecting public/private (in unit item unit). In one example, the control unit 31 controls the report destination so that the report destination user can use the target product for which the report input has been received as a basic unit item and can refer to the emission information according to the disclosure status setting. Emission amount information corresponding to the target product and disclosure status setting is stored in association with the user ID of the user. For example, the control unit 31 can receive a setting to make all the emission amount information of the target product public by accepting a setting input to make all the disclosure/non-disclosure selections for each basic unit item public.

The control unit 31 provides a confirmation screen 60 that presents the unit consumption items provided by the supplier user, that is, the consumption unit items corresponding to the target product for which the report input has been received from the supplier user, in a manner different from the others. It can be displayed on the display device 22 of the user terminal 20 of the previous user. When the control unit 31 receives a user input for viewing the emissions information of the basic unit item corresponding to the target product for which the report input has been received from the supplier user, the control unit 31 displays the emissions information of the basic unit item according to the public status setting. Quantity information can be displayed. For example, if a setting input for disclosing all emissions information for a target product for which a report input has been received from a supplier user is received, the control unit 31 may view the emissions information of the basic unit item corresponding to the target product. When the user input is accepted, a screen similar to the confirmation screen 60 displayed to the supplier user can be displayed.

FIG. 8 is an example of a confirmation screen 60 that displays the basic unit item corresponding to the target product for which report input has been received from the supplier user in a different manner from the others. The basic unit item 68 shown in FIG. , and is displayed in a different manner from other basic unit items. When the control unit 31 receives a user input to a basic unit item corresponding to a target product for which a report input has been received from a supplier user, the control unit 31 can display the emission amount information of the basic unit item according to the setting of the disclosure state. can.

When the control unit 31 receives a report input from the first user UA for the first product PA that includes a setting to make one or more basic unit items private for the second user UB who is the supply destination, the control unit 31 inputs the first product PA. As information regarding the product PA, a second user is provided with a screen where they can view basic unit items other than those set to private and information associated with them (for example, CO2 emissions per unit amount and activity amount). It can be displayed against On this screen, the second user cannot view the basic unit items set to private and information associated therewith. For example, when the control unit 31 receives a user input from a supplier user to a unit consumption item corresponding to a target product for which report input has been received from a supplier user, the control unit 31 displays a confirmation screen similar to the confirmation screen 60 displayed to the supplier user. It is possible to display a screen in which basic unit items set to private and information associated therewith cannot be viewed. For example, the control unit 31 hides the element item "resin" (the basic unit item "melanin resin") in the report input by the first user UA to the second user UB regarding "bonnet" shown in FIG. If a report input for "bonnet" including settings to On the other hand, on the confirmation screen 60 in FIG. 7, only the element item "resin", the unit consumption item "melanin resin", and the activity amount "1.00 tkm" which are set to be private can be displayed. .

When the control unit 31 receives a report input from the first user UA for the first product PA that includes a setting that makes one or more processes private for the second user UB who is the supply destination, the control unit 31 controls whether the first product PA As information regarding this, a screen on which the second user can view processes other than processes set to be private and the CO2 emissions of the processes can be displayed to the second user. On this screen, the second user cannot view the process set to be private, the CO2 emissions of the process, the basic unit items of all processes, and information associated therewith. For example, the control unit 31 receives a report input from the first user UA to the second user UB regarding the "bonnet" shown in FIG. When the report input is received, when the user input for viewing the emissions information of the basic unit item corresponding to "bonnet" is received from the second user UB, the confirmation shown in Figure 7 is sent to the second user UB. On the screen 60, the process “A3: Production”, the element item “Factory electricity”, “Vinyl transportation material”, the basic unit item “Factory electricity electricity, Japan average, 2017”, “Vinyl chloride resin”, and the activity amount “1” .00×10 ² kwh”, “5.00×10 ⁻¹ ”, CO2 emissions “5.96×10 ¹ ”, “1.77”, “66.94%”, “1.99%” only It is possible to display screens that cannot be viewed.

When the control unit 31 receives, from the first user UA, a report input for the first product PA that includes a setting to make information other than the basic unit for the second user UB of the supply destination private, the control unit 31 controls the input of the report regarding the first product PA. As information, a screen on which the CO2 emissions of the target product can be viewed can be displayed to the second user. On this screen, the second user cannot view information other than the CO2 emissions of the target product.

In this embodiment, the control unit 31 displays on the display device 22 of the user terminal 20 a disclosure setting screen 70 for setting the disclosure status of the emissions information of the product to be reported. FIG. 9 is a diagram showing an example of the disclosure setting screen 70. The disclosure setting screen 70 includes a company selection area 71 for selecting a company to report product emissions information, and a setting area 73 for setting the disclosure status for each company.

Company selection area 71 includes an input field 72 that allows the user to input a company name. The control unit 31 displays the user name (company name) including the text input in the input field 72 from among the user names stored in the user information storage unit 33.

The setting area 73 includes a plurality of types of setting areas, and each setting area includes a selection button 74 and a cancel button 75 corresponding to each setting area. When the control unit 31 receives a selection of the selection button 74 while a company in the company selection area 71 is selected, the control unit 31 displays the selected company in the corresponding setting area. When receiving selection of the cancel button 75 with a company in the setting area selected, the control unit 31 deletes the selected company from the corresponding setting area.

The settings area includes an area for setting to disclose only the CO2 emissions of the target product (total CO2 emissions), an area for setting to publish for each process, an area for settings for disclosing for each element item, and Contains an area for settings for selecting public/private status for each element item.

The public setting screen 70 includes the input screen 40, a save button 76 for accepting completion (registration) of public status setting, and a confirmation screen transition button 77 for moving to a confirmation screen. When the control unit 31 receives the input to the save button 76, the control unit 31 stores the disclosure state setting in the user information storage unit 33 in association with the user ID that received the input. The control unit 31 stores the user ID of the user to whom the report is made so that the user to whom the report is made can use the product according to the disclosure status setting as a unit consumption item and refer to the emissions information according to the disclosure status setting. The product information and emission amount information of the product according to the disclosure status settings are stored in association with the release status setting. For example, the control unit 31 associates the report destination user ID with the product for which the disclosure status is set in the basic unit item, and the CO2 emissions of the product in the CO2 emissions per unit amount of the basic unit item, and the unit information. It is stored in the storage unit 32.

FIG. 10 is an example of the simulation screen 80. In one example, upon receiving a user input to the simulation screen transition button 64 on the confirmation screen 60, the control unit 31 displays the simulation screen 80. On the simulation screen 80, it is possible to check the change in the emission information of the target product displayed on the confirmation screen 60 when one or more basic unit items are changed. For example, changes in emissions information include not only the CO2 emissions of the target product, but also changes in the calculation of CO2 emissions of basic unit items and changes in the calculation of CO2 emissions of processes. For example, in the simulation screen 80 shown in FIG. 10, for the emission amount information of the target product displayed on the reference confirmation screen 60, if the basic unit item related to electricity is changed to one using renewable energy. You can check the emissions information for the target product when changing the means of transportation.

The control unit 31 (a) receives a report input from a first user (primary supplier) UA to a second user (finished product manufacturer) UB, which is the supply destination, of the first product PA, and (b) receives a report input from the third user UA. The user (primary supplier) UC accepts the report input of the third product PC for the second user UB who is the supply destination, and (c) whether the first product PA and the third product PC are substantially the same. Or, if it can be used for the same purpose (similar), when accepting input of the basic unit item by the second user UB on the simulation screen 80, the first product PA or the third product PC It is possible to accept input as one of the basic unit items. Note that if there is the specific unit item and its activity amount as a result, the user inputs this information when inputting the calculation information.

FIG. 11 is a diagram showing a flowchart of the process of the control unit 31 for calculating the CO2 emissions of one product (target product) according to an embodiment of the present invention.

In step S1, the control unit 31 receives input of calculation information for the target product. At this time, the user inputs the process, basic unit item, and activity amount necessary for manufacturing the target product into the CO2 emissions calculation system 1 via the user terminal 20.

In step S2, the control unit 31 determines calculation information (calculates )do.

When the control unit 31 receives the report input (step S3), in step S4, the control unit 31 sends the target product for which the report input has been received and its CO2 emissions as the basic unit item and the CO2 emissions per unit amount to the report destination. is stored in the unit information storage unit 32 in association with the user ID of the user, and the process ends. If the control unit 31 does not accept the report input (step S3), this flowchart ends.

Next, the main effects of the CO2 emissions calculation system 1 according to the embodiment of the present invention will be explained. In the present embodiment, when the first user UA receives a report input of the first product PA for the second user UB as a supply destination, the control unit 31 allows the second user UB to input the basic unit item. When accepting the input, the first product PA can be input as one of the basic unit items, and if the input is accepted, the first product PA calculated by inputting the calculation information of the first user UA. Based on the CO2 emissions of the PA, the CO2 emissions for the specific unit item are calculated. The supply chain involves not only one company but also other companies, and it is necessary to take into account information from other companies when calculating CO2 emissions from one's own activities. Previously, when calculating CO2 emissions, it was difficult for people in charge to calculate CO2 emissions, as there were many materials to refer to and details to confirm. In particular, when using data from parts companies, etc., it was necessary to estimate and input basic unit items or receive the data directly. By adopting the configuration of this embodiment, it is easier for the user who uses the CO2 emissions calculation system 1 to input information, and the CO2 emissions can be calculated by referring to the CO2 emissions of other companies upstream in the supply chain. can be calculated more accurately. For example, on the confirmation screen 60, the user can compare CO2 emissions between basic unit items and CO2 emissions between processes.

Further, in the present embodiment, the control unit 31 can receive a report input for reporting the CO2 emissions of the target product, including settings to make one or more basic unit items or processes private. In this case, the control unit 31 does not accept a setting input for making the CO2 emissions (total CO2 emissions) of the target product private. With this configuration, the reporting user can select the parts that he or she wants to keep private for each unit of consumption or each process, while the reporting user can still use the CO2 emissions of the target product. Therefore, it is possible to satisfy the needs of many users.

Further, in the present embodiment, when receiving the input of the basic unit item by the second user UB on the simulation screen 80, the control unit 31 controls the first product PA or the third product PA that has received the report input from the first user UA. The third product PC, which has received a report input from the user UC, can be input as one of the basic unit items. In this way, the second user UB can select basic unit items based on CO2 emissions, that is, parts and materials, by making it possible to use calculation information and emissions information of upstream companies in the supply chain. It becomes possible to select. This makes it possible to support each company's CO2 emissions reduction and LCA. It is understood that when the control unit 31 receives the input of the basic unit item from the user on the simulation screen 80, it can also accept the input of a predetermined basic unit item.

Further, in the present embodiment, the control unit 31 can calculate the CO2 emissions for each final product manufactured by a finished product manufacturer. This makes it possible to manage and understand emissions across the entire supply chain, and to support each company's LCA.

Further, in the present embodiment, the control unit 31 associates a consumption rate item that can only be used by a specific user and the CO2 emissions per unit amount of the consumption rate item with the user ID, and stores it in the unit information storage unit 32. can be memorized. For example, the user can store processing specific to the user's company that is not determined in advance in the unit information storage unit 32 as a basic unit item. By configuring the system so that unit consumption items that match the user's preferences can be registered in advance, input can be made easier for the user.

The above-mentioned effects are the same in other embodiments and modifications unless otherwise specified.

In one or more embodiments of the present invention, the calculation information may not include element items. In this case, for example, the control unit 31 receives product information for each user via the user terminal 20, receives process input for each product (product information), and inputs basic unit items and activity amount for each process. Accept input.

In one or more embodiments of the invention, the calculation information may not include a process. In this case, for example, the control unit 31 receives product information for each user via the user terminal 20, and receives input of element items, basic unit items, and activity amount for each product (product information). In this case, the calculation information may not include any element items.

In one or more embodiments of the present invention, the unit information storage section 32 can store text information that is expected to be input as an element item in association with a basic unit item. In this case, when the control unit 31 receives an input in the element item input field, it can automatically select the basic unit item or present a plurality of basic unit items as candidates. In one or more embodiments of the present invention, when the calculation information does not include an element item, the unit information storage unit 32 associates text information that is expected to be input as a basic unit item with the basic unit item. When the control unit 31 receives an input in the input field of the basic unit item, it can automatically select the basic unit item or present a plurality of basic unit items as candidates.

In one or more embodiments of the present invention, the calculation information includes a yield rate associated with product information, and the control unit 31 calculates the CO2 emissions of the target product for each product based on the yield rate. can do. For example, when the control unit 31 receives 90% as the yield rate of the target product, the value calculated as the CO2 emissions of each basic unit item is further divided by 0.9, and the value is set as the CO2 emissions of each basic unit item. It can be calculated. By adopting such an embodiment, it becomes possible to support each company with LCA that takes yield into consideration.

FIG. 12 is a diagram showing an example of an input screen 90 including the yield rate. The input screen 90 can include a yield rate input field 91 and a yield rate selection button 92. In this case, the control unit 31 calculates the CO2 emissions of the basic unit item by considering the yield rate input in the yield rate input field only for the basic unit item selected by the yield rate selection button 92. In one example, input screen 90 may include a version information input field 93 . For example, on the input screen 90, the user inputs different version information depending on the year of calculation and performs an operation to save the emission information, thereby checking the emission amount information of the same product according to the year of calculation. becomes possible.

In one or more embodiments of the present invention, when receiving input of transportation-related basic unit items, the control unit 31 answers questions set in advance according to a setting scenario stored in the storage device 14. It is possible to display a screen or pop-up window for inputting selections. In this case, upon receiving the selection input, the control unit 31 can automatically receive the input of the basic unit item. In one example, the control unit 31 receives an input of a process as a unit consumption item, and receives an input of a question regarding a means of transportation or a location. For example, upon receiving input of the raw material procurement process, the control unit 31 determines whether the transportation is by sea only, domestic transportation (from production site to port) that involves sea transportation, or international transportation that involves sea transportation. By accepting the input of whether the transportation is domestic transport (port → delivery destination) involving sea transportation, the basic unit item and activity amount are determined, and the input of the determined basic unit item and activity amount is input. I can accept it.

In one or more embodiments of the present invention, the control unit 31 controls, for each product, the ratio of the basic unit item using the CO2 emissions provided by the supplier's user among the basic unit items (emission amount information). It is possible to present an index based on the ratio of the basic unit items corresponding to the target product for which report input has been received from the supplier user among the included basic unit items. The control unit 31 can store the index in association with the product information of the target product so that the user to whom the report is made can also check the index. By having a configuration that presents such an index, it is possible to indicate the reliability of the CO2 emissions of the target product.

In one or more embodiments of the present invention, the control unit 31 presents a predetermined checklist when receiving completion of input of calculation information, receives input of the predetermined checklist in response to input of calculation information, An index based on the input can be generated and associated with information about the target product. The control unit 31 can store the index in association with the product information of the target product so that the user to whom the report is made can also check the index. The predetermined checklist may be predetermined by a predetermined organization or the like. With such a configuration, the user to whom the report is made can confirm the reliability of the CO2 emissions of the target product.

In one or more embodiments of the present invention, the control unit 31 can calculate the electric power per unit amount of the target product (for example, per 1 kg, per piece) for items whose basic unit item is electric power. With this configuration, when multiple factory power items are included as unit consumption items for target products, it is possible to compare the power per unit amount of target products between multiple factory power sources, so each company's CO2 It will be possible to support emissions reduction and LCA.

In the embodiment of the present invention, the control unit 31 can display a screen in a manner different from that shown in FIGS. 5 to 10 on the display device 22 of the user terminal 20. For example, the control unit 31 can display screens with different layouts, delete unnecessary objects, or add necessary objects. Further, for example, the button can be any GUI such as an icon or a virtual object.

In the embodiment of the present invention, the user terminal 20 may be configured to have some of the functions of the CO2 emission calculation server 10, as long as the same functions as those in the embodiment of the present invention can be realized. The CO2 emissions calculation server 10 may be configured to include some of the functions.

In other embodiments of the present invention, a program that implements the functions of the embodiment of the present invention described above and the information processing shown in the flowchart, and a computer-readable storage medium storing the program may be used. In other embodiments, a method may be used to implement the functions of the embodiments of the present invention described above and the information processing shown in the flowcharts. In other embodiments, a server can be used that can supply a computer with a program that implements the functions of the embodiments of the present invention described above and the information processing shown in the flowcharts.

Each of the embodiments described above is an illustration for explaining the present invention, and the present invention is not limited to these embodiments. The present invention can be implemented in various forms without departing from the gist thereof. For example, the data structure and database structure in the database described in the embodiments of the present invention are merely examples, and the present invention is not limited thereto.

1: CO2 emissions calculation system, 2: Network, 10: CO2 emissions calculation server, 11: Processor, 12: Display device, 13: Input device, 14: Storage device, 15: Communication device, 16: Bus, 20: user terminal, 21: processor, 22: display device, 23: input device, 24: storage device, 25: communication device, 26: bus, 31: control section, 32: unit information storage section, 33: user information storage section, 40: Input screen, 41: Product area, 42: Process area, 43: Add process button, 44: Item area, 45: Add item button, 46: Complete button, 47: Product list screen transition button, 60: For confirmation Screen, 61: Product area, 62: Public setting screen transition button, 63: Input screen transition button, 64: Simulation screen transition button, 65: Product list screen transition button, 66: Breakdown display area, 67: Results display area , 68: Basic unit item, 70: Public setting screen, 71: Company selection area, 72: Input field, 73: Setting area, 74: Selection button, 75: Cancel button, 76: Save button, 77: Confirmation Screen transition button, 80: Simulation screen, 90: Input screen, 91: Yield rate input field, 92: Yield rate selection button, 93: Version information input field

Claims (13)

A CO2 emissions calculation server,
a unit information storage unit that stores predetermined basic unit items and CO2 emissions per unit amount of the basic unit items in association with each other;
A user information storage unit that stores user identification information and information for calculating CO2 emissions in association with each other, the information for calculating CO2 emissions including product information, a basic unit item, and an activity amount of the basic unit item. , a user information storage unit;
A control unit that calculates CO2 emissions for each user and each product,
The control unit includes:
When input of one basic unit item and the activity amount of the basic unit item is received, the basic unit is Calculate the CO2 emissions of each item,
Based on the CO2 emissions of the calculated basic unit items, calculate the CO2 emissions of the target product,
Accepts report input to report the CO2 emissions of the target product to the supplied user,
When a first user receives a report input for a first product for a second user who is a supply destination, when receiving input of a basic unit item from the second user, the first product is input as a basic unit item. can accept input as one of the first user's inputs, and can calculate the CO2 emissions of the basic unit item based on the CO2 emissions calculated based on the input of the first user.
CO2 emissions calculation server. The information for calculating CO2 emissions includes a process associated with product information and a basic unit item associated with the process,
The control unit includes:
It is possible to accept report input for reporting CO2 emissions of target products, including settings to make one or more basic unit items or processes private.
If a report input for a first product that includes a setting to make one or more basic unit items or processes private to the second user is received by the first user, one or more basic unit items or processes that are set to be non-public are received. The second user displays a screen that does not allow viewing of processes and information associated with the same, but allows viewing of basic unit items set to private, or basic unit items other than processes, or processes and information associated with this. can be displayed for,
The CO2 emissions calculation server according to claim 1. The CO2 emissions calculation information includes a plurality of processes associated with product information and element items necessary for manufacturing the product associated with the process, and the basic unit item is associated with the element item,
The control unit includes:
When the first user receives a first product report input including a setting to make one or more basic unit items private to the second user, the second user inputs the basic unit items. At the time of acceptance, a screen where you cannot view the element items and information associated with them that are associated with the basic unit item that is set to private, but where you can view information associated with element items other than the element item. may be displayed to the second user,
The CO2 emissions calculation server according to claim 2. The control unit includes:
A screen that presents the CO2 emissions for each process and the CO2 emissions for each basic unit item, and that presents the basic unit items provided by the supplier user in a different manner from the others, can be displayed.
The CO2 emissions calculation server according to claim 3. The control unit includes:
Furthermore, in the case where a third user inputs a report for the second user about a third product that is the same as or similar to the first product, when receiving the input of a basic unit item from the second user, It is possible to accept input of the first product or the third product as one of the basic unit items;
The CO2 emissions calculation server according to any one of claims 1 to 3. The control unit includes:
Furthermore, in the case where a third user inputs a report for the second user about a third product that is the same as or similar to the first product, when receiving the input of a basic unit item from the second user, It is possible to accept input of the first product or the third product as one of the basic unit items;
The CO2 emissions calculation server according to claim 4. The information for calculating CO2 emissions includes a yield rate associated with product information,
The control unit further calculates the CO2 emissions of the target product based on the yield rate.
The CO2 emissions calculation server according to claim 1 or 6. The control unit includes:
It is possible to present an index based on the ratio of the basic unit items using the CO2 emissions provided by the supplier user among the basic unit items,
The CO2 emissions calculation server according to claim 1 or 6. The control unit includes:
Accepting user input from a predetermined checklist, generating an index based on the input, and associating it with information on the target product;
The CO2 emissions calculation server according to claim 1 or 6. The CO2 emissions calculation server according to claim 1 or 6, wherein the control unit calculates the CO2 emissions for each final product. A CO2 emissions calculation system comprising the CO2 emissions calculation server according to claim 1 or 6, and a plurality of user terminals connected to the CO2 emissions calculation server via a network,
The control unit can receive input of CO2 emission calculation information and report input from each user via a user terminal.
CO2 emissions calculation system. A CO2 emissions calculation method executed by one or more computers, the method comprising:
a step of receiving input of information for calculating CO2 emissions of one product from a user, the information for calculating CO2 emissions including predetermined basic unit items and activity amount of the basic unit items; and,
The input is based on the activity amount of the input intensity item and the CO2 emissions per unit amount obtained from the database that associates and stores the intensity item and the CO2 emissions per unit amount of the intensity item. a step of calculating the CO2 emissions of the basic unit item for which the request has been received;
a step of calculating the CO2 emissions of one product based on the calculated CO2 emissions of the basic unit items;
a step of receiving a report input from a user to report the CO2 emissions of the product to the user to whom the product is supplied;
including;
In the step of receiving the input, if the first user has received the report input of the first product to the second user who is the supply destination in the step of receiving the report input, This includes accepting input for the product as one of the basic unit items,
In the step of calculating the CO2 emissions of the basic unit item, if an input is received from the second user with the first product as one of the basic unit items, in the step of accepting the input, the first product Calculating the CO2 emissions of the basic unit item based on the CO2 emissions calculated based on the input of
Method. A program for causing one or more computers to perform each step of the method according to claim 12.

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