WO2023149440A1 - Carbon dioxide collection management system - Google Patents
Carbon dioxide collection management system Download PDFInfo
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- WO2023149440A1 WO2023149440A1 PCT/JP2023/003130 JP2023003130W WO2023149440A1 WO 2023149440 A1 WO2023149440 A1 WO 2023149440A1 JP 2023003130 W JP2023003130 W JP 2023003130W WO 2023149440 A1 WO2023149440 A1 WO 2023149440A1
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- Prior art keywords
- carbon dioxide
- information
- amount
- recovery
- storage
- Prior art date
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Images
Classifications
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q50/00—Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
- G06Q50/10—Services
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q50/00—Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
- G06Q50/10—Services
- G06Q50/26—Government or public services
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/80—Management or planning
- Y02P90/84—Greenhouse gas [GHG] management systems
Definitions
- the present invention relates to a carbon dioxide recovery management system, a program, and a program storage medium.
- Japanese Patent Application Laid-Open No. 2015-219542 discloses a CO2 emission reduction evaluation device.
- This CO2 emission reduction amount evaluation device identifies the main factor from among the activity items based on the main factor identification information stored in the main factor identification DB. Then, the CO2 emission reduction evaluation device calculates the CO2 emissions related to the main factor before and after the introduction of the ICT solution based on the CO2 emission intensity stored in the CO2 emission intensity DB. Based on this, the amount of CO2 emission reduction due to the introduction of ICT solutions is evaluated.
- society is aiming for carbon neutrality, a state in which the impact of carbon dioxide on the global environment is zero by equalizing the amount of carbon dioxide recovered with the amount of carbon dioxide emitted. Therefore, a system capable of managing not only the amount of carbon dioxide emitted but also the amount of carbon dioxide recovered is desired, as disclosed in Japanese Patent Application Laid-Open No. 2015-219542.
- "recovery” means that carbon dioxide is not discharged into the atmosphere by, for example, absorbing carbon dioxide into an absorbing member.
- This disclosure has been made to solve the above problems, and aims to provide a carbon dioxide recovery management system, a program, and a program storage medium capable of managing the amount of carbon dioxide recovered.
- a carbon dioxide recovery management system configured to be able to communicate with a plurality of information terminals, and collects carbon dioxide in at least one of the air.
- a carbon dioxide recovery management system for managing the amount of carbon dioxide recovered by an absorption member, wherein the identification information of the absorption member that absorbs carbon dioxide from the air, the saturation level of the absorption member, and the weight of the absorption member an information acquisition unit that acquires, from each of the plurality of information terminals, absorption member information including at least one of; a recovery amount determination unit that determines a recovery amount of carbon dioxide based on the absorption member information; and a storage control unit that stores the amount of carbon dioxide recovered determined by the amount determination unit in a database.
- “Absorptive saturation” is data representing the ratio of the amount of carbon dioxide that has already been absorbed to the amount of carbon dioxide that can be absorbed by the absorbent member, expressed as a continuous value or a discrete value.
- a program according to a second aspect of the present disclosure is a program for managing the amount of carbon dioxide recovered in at least one of the atmosphere and the air exhausted from the equipment, the program comprising the air exhausted from the atmosphere or the equipment a process of acquiring, from each of a plurality of information terminals, absorption member information including at least one of identification information of an absorption member that absorbs carbon dioxide from inside, the saturation level of the absorption member, and the weight of the absorption member; Based on the absorption member information, a process of determining the amount of recovered carbon dioxide, and a process of storing the determined amount of recovered carbon dioxide in a database are executed by a processor of a computer.
- a program storage medium is a computer-readable program storage medium in which a program is stored, wherein the program includes identification information of an absorption member that absorbs carbon dioxide from the air; A process of acquiring absorption member information including at least one of the saturation degree of the absorption member and the weight of the absorption member from each of a plurality of information terminals, and calculating the recovery amount of carbon dioxide based on the absorption member information. A process of determining, a process of storing the determined carbon dioxide recovery amount in a database, and a processor of a computer are executed.
- the recovery amount of carbon dioxide can be determined based on the identification information of the absorption member that has recovered carbon dioxide, the absorption saturation level, or the weight of the absorption member included in the absorption member information. As a result, there is no need to directly measure the amount of carbon dioxide recovered, so the amount of recovered carbon dioxide can be easily calculated. Since the amount of recovered carbon dioxide is stored in the database, the amount of recovered carbon dioxide can be managed.
- FIG. 1 is a block diagram showing the configuration of a carbon dioxide recovery management system 100 according to the first embodiment.
- FIG. 2 is a block diagram showing the configuration of the carbon dioxide recovery management system 100.
- FIG. 3A is a block diagram showing the configuration of the first collection party terminal 20.
- FIG. 3B is a block diagram showing the configuration of the second collection party terminal 120.
- FIG. 4A is a diagram for explaining an example of a member registration screen (first half) displayed on the display unit 23 of the first collection person terminal 20.
- FIG. FIG. 4B is a diagram for explaining an example of the member registration screen (second half) displayed on the display unit 23 of the first recovery person terminal 20.
- FIG. FIG. 4A is a diagram for explaining an example of a member registration screen (first half) displayed on the display unit 23 of the first collection person terminal 20.
- FIG. FIG. 4B is a diagram for explaining an example of the member registration screen (second half) displayed on the display unit 23 of the first recovery person terminal 20.
- FIG. 4C is a diagram for explaining an example of a user ID notification screen displayed on the display unit 23 of the first recoverer terminal 20.
- FIG. 4D is a diagram for explaining an example of a screen displayed on the display section 123 of the second collection party terminal 120.
- FIG. 4E is a diagram for explaining an example of a screen displayed on the display section 23 of the first recovery person terminal 20.
- FIG. 5A is a diagram for explaining the configuration and color change of the absorbing member 61.
- FIG. FIG. 5B is a diagram for explaining an example of a screen displayed on the notification unit 64.
- FIG. FIG. 6 is a schematic diagram of an absorbent member group 161 stored by an intermediate storage person.
- FIG. 6 is a schematic diagram of an absorbent member group 161 stored by an intermediate storage person.
- FIG. 7 is a schematic diagram of an absorbent member group 261 stored by a storer.
- FIG. 8 is a block diagram showing the configuration of the intermediate depositor terminal 30.
- FIG. 9 is a block diagram showing the configuration of the depositor terminal 40.
- FIG. 10 is a block diagram showing the configuration of the administrator terminal 50.
- FIG. 11 is a functional block diagram of the control unit 11 of the server device 10.
- FIG. 12 is a diagram showing an example of absorbent member information acquired from each terminal by the information acquisition unit 11a.
- FIG. 13 is a diagram showing the correspondence between the product number of the absorbing member 61 and the absorbable amount of carbon dioxide stored in the database 12b.
- FIG. 14 is a diagram showing the correspondence between the number of the absorbent member group 161 stored in the database 12b and the storage fee.
- FIG. 15 is a diagram showing the correspondence between the number of the absorbent member group 261 stored in the database 12b and the storage amount.
- FIG. 16A is a diagram showing the correspondence between user IDs stored in the database 12b and the total amount of carbon dioxide, emission credits, and points.
- FIG. 16B is a diagram for explaining the database 12b in which user IDs, certification mark use permission information, and certification grades are associated.
- FIG. 17 is a diagram for explaining the database 12b in which information on attributes, total amounts, emission credits and points, and certification mark use permission are associated.
- FIG. 18A is a diagram for explaining a notice of permission to use the certification mark.
- FIG. 18A is a diagram for explaining a notice of permission to use the certification mark.
- FIG. 18B is a diagram for explaining a notification that the authentication grade has been raised.
- FIG. 19 is a diagram for explaining the database 12b that stores information on transactions of emission credits and points.
- FIG. 20A is a block diagram of a carbon dioxide recovery management system 200 according to the second embodiment.
- FIG. 20B is a block diagram of the second recoverer terminal 220b.
- FIG. 21A is a diagram for explaining an example of a photographed screen by the first recovery person terminal 220a according to the second embodiment.
- FIG. 21B is a diagram for explaining an example of a photographed screen by the second recovery person terminal 220b according to the second embodiment.
- FIG. 22 is a block diagram of a carbon dioxide recovery management system 300 according to the third embodiment.
- FIG. 23 is a schematic diagram showing the configuration of a dehumidifier 361 according to the third embodiment.
- FIG. 24 is a diagram for explaining an example of a photographing screen according to the third embodiment.
- FIG. 25 is a diagram showing the configuration of a carbon dioxide recovery management system 400 according to modifications of the first to third embodiments.
- FIG. 26 is a diagram showing the configuration of an absorbing member 561 according to modifications of the first to third embodiments.
- FIG. 27 is a diagram showing the configuration of an absorbing member 661 according to modifications of the first to third embodiments.
- FIG. 1 is a block diagram showing the configuration of a carbon dioxide recovery management system 100 (hereinafter referred to as "system 100") according to the first embodiment.
- FIG. 2 is a block diagram showing the configuration of the carbon dioxide recovery management system 100 in the first embodiment.
- the system 100 recovers carbon dioxide in at least one of the air and the atmosphere exhausted from humans, animals or equipment and the natural environment with an absorption member 61, and manages the amount of carbon dioxide recovered.
- collection sites include private homes, corporate offices, restaurants, sports clubs, commercial facilities, cars, trains, airplanes, and ships. used.
- the carbon dioxide in the air exhausted from animals is collected, for example, livestock barns, pet shops, poultry farms, pig farms, etc. are used as collection sites.
- carbon dioxide in the air exhausted from equipment for example, thermal power plants, manufacturing plants, exhaust gas from automobiles, incinerators, and the like are used as recovery sites.
- volcanoes or hot springs may be used as a capture site for carbon dioxide in air exhausted from the natural environment.
- carbon dioxide may be recovered from the atmosphere.
- the first recoverer opens the outer bag 61b (see FIG. 5A) of the absorbing member 61 and causes the absorbing member 61 to start absorbing carbon dioxide.
- the second recoverer recovers the absorbing member 61 that has absorbed carbon dioxide.
- the absorbing member 61 is arranged, for example, in the carbon dioxide recovery machine 60 shown in FIG.
- the “first collector” and “second collector” may be individuals who use the carbon dioxide recovery machine 60, may be business operators who manage the carbon dioxide recovery machine 60, or may be carbon dioxide recovery operators. It may be a public institution (local government, country, international organization, school, etc.) that manages the collecting machine 60 .
- the "second collector” may be the same person as the "first collector", or the "intermediate custodian” or "repositor” described later may act as the "second collector”. good.
- the first recovery person hands over the absorbing member 61 from the carbon dioxide recovery machine 60 to the second recovery person, and the first recovery person places a new absorption member 61 that has not yet absorbed carbon dioxide into the carbon dioxide recovery machine 60.
- the system 100 acquires absorbent member information including at least one of the identification information of the absorbent member 61, the saturation of absorption of the absorbent member 61, and the weight of the absorbent member 61 from the recoverer (eg, the second recoverer). Then, the recovery amount of carbon dioxide based on the absorbing member information is stored in the database 12b.
- the system 100 then grants credits and points based on the amount of carbon dioxide captured to the first capturer.
- An “emission permit” is an amount of carbon dioxide permitted to be emitted by a country or an international organization. If the amount of carbon dioxide emitted by the first collector exceeds the emission rights owned by the first collector, it is necessary to transfer “emission rights" from others.
- a “point” is something other than an “emissions right” and indicates a numerical value that is profitable for a given person. For example, “points” may have a value equivalent to the currency of the country to which the given person belongs. lower public utility charges and medical costs) or lower tax rates.
- the “identification information of the absorbing member 61” includes the type, weight, maximum carbon dioxide absorption amount (absorbable amount) of the absorbing member 61, supply region (area), manufacturer name, date of manufacture, material, and the absorbing member. If there is a company advertising on 61, it is information for specifying data such as company information and advertisement rank (proportional ratio of emission rights or points with the first collector, etc.), which will be described later. Associated with these data in the database 12b.
- the second recoverer hands over the recovered absorption member 61 (carbon dioxide) to the intermediate storage person.
- the second recovery person may hand over the recovered absorption member 61 (carbon dioxide) to the storage person.
- the absorption member 61 (carbon dioxide) owned by the first recovery person may be recovered by the intermediate storage person himself/herself.
- An "intermediate custodian" is a local government, a national government, an international organization, or a private enterprise that temporarily stores the absorbent members 61 (carbon dioxide) collected from a plurality of second collectors until they are handed over to the custodian.
- storage locations for intermediate storage include garbage collection sites, garbage incinerators, convenience stores, post offices, commercial facilities, gas stations, warehouses such as delivery companies, public facilities, and the like.
- the system 100 acquires the absorbent member information from the intermediate storage person, and stores the intermediate storage amount of carbon dioxide based on the absorbent member information in the database 12b.
- the system 100 then grants emission credits and points based on the intermediate storage amount of carbon dioxide to the intermediate storage person.
- the intermediate storage person hands over the plurality of absorbing members 61 (carbon dioxide) collected from the plurality of second recovery persons to the storage person.
- the absorbing member 61 (carbon dioxide) stored by the intermediate storage person may be collected by the storage person, or there may be a third recovery person who delivers the material from the intermediate storage person to the storage person.
- the storer stores the absorbent members 61 (carbon dioxide) collected from the plurality of intermediate storagers or the plurality of second recoveryrs in a place other than the atmosphere.
- the storer may store the absorbing member 61 itself in a place other than the atmosphere, or may extract carbon dioxide from the absorbing member 61 and store the carbon dioxide in a place other than the atmosphere.
- Storage locations include underground, underwater (subsea), and space.
- a "reservoir” is a person who stores the captured carbon dioxide outside the atmosphere, and the reservoir is, for example, a municipality, a country, an international organization, or a business.
- the system 100 acquires information on the absorbent member from the storer, and stores the amount of carbon dioxide stored based on the information on the absorbent member in the database 12b. The system 100 then awards credits and points to the reservoir based on the amount of carbon dioxide stored.
- system 100 includes server device 10 .
- the server device 10 connects, via a network N, a plurality of first recovery party terminals 20, a plurality of second recovery party terminals 120, a plurality of intermediate storage party terminals 30, a plurality of storage party terminals 40, an administrator It is configured to be communicable with the terminal 50 .
- the network N is, for example, the Internet, a Local Area Network (LAN), or the like, but a network other than these may be used.
- the server device 10 stores the amount of carbon dioxide recovered, the intermediate storage amount of carbon dioxide, the storage amount of carbon dioxide, the emission rights and points of each of the plurality of first recovery persons, and the emission rights and points of each of the plurality of intermediate storages. and a device for managing credits and points for each of a plurality of reservoirs.
- the server device 10 may be an on-premise (stationary) server device, or may be a server device configured on a cloud.
- each of the plurality of first recovery party terminals 20, the plurality of second recovery party terminals 120, the plurality of intermediate storage party terminals 30, the plurality of storage party terminals 40, and the administrator terminal 50 can access the server device 10.
- An application program is installed to An “administrator” is a municipality, country, international organization, or private business that manages system 100 .
- a plurality of first recovery party terminals 20, a plurality of second recovery party terminals 120, a plurality of intermediate storage party terminals 30, a plurality of storage party terminals 40, and a plurality of administrator terminals 50 each access the server device 10.
- the information and images provided by the server device 10 are obtained.
- browser software e.g., web browser
- multiple first recovery party terminals 20 multiple second recovery party terminals 120, multiple intermediate storage party terminals 30, multiple may be installed in each of the storage terminal 40 and a plurality of administrator terminals 50 .
- information and images provided by the server device 10 are displayed on each of the plurality of first recovery party terminals 20, the plurality of second recovery party terminals 120, the plurality of intermediate storage party terminals 30, the plurality of storage party terminals 40, and the plurality of administrator terminals 50.
- the first collection person terminal 20 is an information terminal used by the first collection person.
- the second recovery party terminal 120 is an information terminal used by the second recovery party.
- the intermediate custodian terminal 30 is an information terminal used by the intermediate custodian.
- a plurality of banker terminals 40 are information terminals used by bankers.
- the administrator terminal 50 is an information terminal used by an administrator.
- the first recoverer terminal 20 includes a control unit 21, an operation unit 22, a display unit 23, a communication unit 24, an imaging unit 25, a storage unit 26, and a position information sensor 27. ,including.
- the control unit 21 includes a processor that executes control processing by executing a program. Then, the control unit 21 executes each control process of the first recovery person terminal 20 .
- the operation unit 22 is a user interface such as a keyboard, mouse, and touch panel.
- the display unit 23 is, for example, a liquid crystal display or an organic EL display.
- the touch panel may serve as both the operation unit 22 and the display unit 23 .
- the communication unit 24 is a communication interface and is connected to the network N.
- the photographing unit 25 is a camera that photographs the absorbing member 61 and the QR code (registered trademark) 61 a attached to the absorbing member 61 .
- the storage unit 26 includes, for example, at least one of an SSD (Solid State Drive) and an HDD (Hard Disk Drive).
- the storage unit 26 stores an application program 26a.
- the position information sensor 27 is, for example, a GPS (Global Positioning System) sensor.
- FIG. 3B is a block diagram showing the configuration of the second recoverer terminal 120.
- the second recovery person terminal 120 includes a control unit 121, an operation unit 122, a display unit 123, a communication unit 124, an imaging unit 125, and a storage unit 126.
- the control section 121 executes each control process of the second collection party terminal 120 .
- FIG. 4A is a diagram for explaining an example of the member registration screen (first half) displayed on the display unit 23 of the first recoverer terminal 20.
- FIG. 4A when the application program 26a is started by the control unit 21 for the first time, a member registration screen is displayed. When the member registration screen is displayed, photographing by the photographing unit 25 is started.
- the display unit 23 displays an image of the QR code 61a.
- the display unit 23 also displays messages such as "Please take a picture so that the QR code appears", "Your location information will be sent", and a button for executing the shooting.
- the first recovery party terminal 20 sends the information stored in the QR code 61a, the identification information of the first recovery party terminal 20, and the location information of the first recovery party terminal 20 to the server device.
- the server device 10 newly issues a user ID that associates the information stored in the QR code 61a, the identification information of the first recovery party terminal 20, and the location information of the first recovery party terminal 20, and stores it in the database 12b.
- member registration can also be performed by sending a registration form in which the above information in this paragraph is filled in to the administrator (by mail or e-mail, etc.). 2, the member number (QR code 23a, etc.) is sent from the manager terminal 50 to the first recovery person terminal 20, or a sticker with the QR code 23a is sent to the first recovery person by mail. be.
- FIG. 4B is a diagram for explaining an example of the member registration screen (second half) displayed on the display unit 23 of the first collection person terminal 20.
- the display unit 23 is used for inputting the user's own name or name, information on the user's attributes (company/organization to which the user belongs, location, etc.), and information on the authority to acquire other information.
- member registration screen is displayed.
- the first recovery person inputs the information to the first recovery person terminal 20 , and the input information is transmitted from the first recovery person terminal 20 to the server device 10 .
- the first collection party can be an individual, a company, or any group or organization. may want to check.
- the first recovery person can request the server device 10 to grant the first recovery person the right to acquire other person's information by inputting the information of the other person's information acquisition right.
- a “member” is a user who has registered his or her name and his or her attributes with the system 100 . Even if the first recovery person does not register as a member, the second recovery person may collect the absorbent member 61 from the first recovery person by proceeding to the scene shown in FIG. 4D described later.
- "Other information acquisition authority" means the right to access (view) information associated with other user IDs for which the user has authority in the database 12b.
- FIG. 4C is a diagram for explaining an example of a user ID notification screen displayed on the display unit 23 of the first recoverer terminal 20.
- the server device 10 acquires the information photographed and input on the member registration screen from the first collection person terminal 20, and newly issues a user ID. Then, the server device 10 transmits to the first collection party terminal 20 the QR code 23a in which the user ID is stored.
- the first recoverer terminal 20 causes the display unit 23 to display the QR code 23a as shown in FIG. 4C.
- the QR code 23a may be a bar code or may be displayed as numbers.
- the server device 10 when the server device 10 receives the information of the authority to acquire the information of others from the first collector terminal 20 (for example, “individual A”) (for example, when A browses the information of the organization B to which A belongs to), the server device 10 If you want to do so), send a notification requesting approval to the terminal of organization B. Then, when the server device 10 receives a response to the effect of approval from the terminal of the organization B, the first recovery person (individual A) stored in the database 12b is sent from the first recovery person terminal 20 of the person A. (such as information on the amount collected) and information on the organization B stored in the database 12b can be viewed.
- the server device 10 receives the information of the authority to acquire the information of others from the first collector terminal 20 (for example, “individual A”) (for example, when A browses the information of the organization B to which A belongs to), the server device 10 If you want to do so), send a notification requesting approval to the terminal of organization B. Then, when the server device 10 receives a
- the server device 10 controls so that the terminal of the organization B can browse the information of the individual A stored in the database 12b (information on the collection amount, etc.).
- the approval procedure may be performed at the time of member registration as described above, or may be performed after member registration.
- all other users can access the information.
- the user can view the information of the organizations, groups, and individuals whose disclosure has been approved.
- the information of organizations, groups, and individuals that have been approved to be disclosed may be disclosed on the website separately from the system. Then, as shown in FIG.
- a message such as "You can browse the information of users belonging to ' ⁇ Corporation'” is displayed on the display unit 23 . Then, the first collection person can access the information associated with the user ID belonging to "XX Corporation" in the database 12b. Further, when the approval is rejected, for example, a message such as "Approval has been rejected. You cannot view the information of users who belong to ' ⁇ Co., Ltd.'" is displayed on the display unit 23. be done.
- FIG. 4D is a diagram for explaining an example of a screen displayed on the display unit 123 of the second recoverer terminal 120.
- FIG. 4D When the second collector collects the absorbent member 61, the application program 26a of the second collector terminal 120 is activated, and the photographing unit 125 starts photographing. As shown in FIG. 4D, the display unit 123 displays the image of the absorbent member 61 photographed by the photographing unit 125, the image of the QR code 61a, the advertisement QR code 61d, and the A QR code 23a is displayed.
- the display unit 123 displays, for example, a message such as "Please take a picture so that the whole image and the QR code can be seen", the user ID of the first recoverer, the saturation rate described later, the weight of carbon dioxide in the absorbing member 61 , advertisers, and a button for taking a picture are displayed.
- FIG. 4D shows an example in which the absorbing member 61, the QR code 23a, the QR code 61a, and the advertisement QR code 61d are photographed at once, but these may be photographed separately.
- the first recovery person periodically hands over the absorbent member 61 to the second recovery person, and the intermediate storage person who has acquired the absorption member 61 from the second recovery person uses the intermediate storage person terminal 30 , information such as the weight of the absorbent member 61 and change in the color of the absorbent member 61 may be acquired and the information may be transmitted to the server device 10, or the absorbent member 61 may be acquired from the second recovery person or the intermediate storage person.
- the storer may acquire information such as the weight of the absorbent member 61 and the change in color of the absorbent member 61 from the storer terminal 40 and transmit the information to the server device 10 .
- the first recoverer is not limited to handing over the absorbent member 61 directly to the second recoverer, but rather places the absorbent member 61 at a predetermined collection location (for example, a garbage disposal site) at any time, may recover the absorbent member 61 placed at a predetermined recovery location.
- the server device 10 refers to the database 12b, and assumes that the first collection person having the user ID associated with the QR code 61a of the absorbent member 61 has handed over the second collection person. Add the amount of carbon dioxide recovered to the total amount of the person (see FIG. 16A).
- the first recoverer may hand over the absorbent member 61 to the second recoverer with a sticker on which the QR code 23a in which the user ID of the first recoverer is written is affixed to the absorbent member 61,
- the first recovery person may orally convey the user ID to the second recovery person, or the first recovery person may write down the user ID on paper and give it to the second recovery person.
- the second recovery person inputs the user ID of the first recovery person into the second recovery person terminal 120 and transmits the user ID to the server device 10 .
- FIG. 4E is a diagram for explaining an example of a screen displayed on the display unit 123 of the first recoverer terminal 20.
- FIG. As described above, when the first recoverer does not attend the recovery of the absorbent member 61 by the second recoverer, as shown in FIG. When the member 61 is handed over, the first recoverer terminal 20 reads the absorbent member information of the absorbent member 61 and transmits the information from the first recoverer terminal 20 to the server device 10 . At this point, information on the degree of saturation and weight associated with the QR code 61a (identification information) attached to the absorbent member 61 is updated or added in the database 12b. If the first recoverer delivers the data to the intermediate storage location or hands it over to the second recoverer in a state in which the data on the database 12b has been updated, the work of the intermediate storage person or the second recoverer can be saved.
- FIG. 5A is a diagram for explaining the configuration and color change of the absorbing member 61.
- the absorbing member 61 is configured to change color depending on the amount of carbon dioxide absorbed, for example.
- the absorbing member 61 is, for example, a calcium hydroxide-based absorbing member, and changes from “white” to "red, purple, or pink” when carbon dioxide is absorbed.
- a material that changes from "red or purple” to “white or pink” when carbon dioxide is absorbed may be used, or a material that changes to a color other than the above may be used.
- the method of adsorbing carbon dioxide to the absorbing member 61 is not limited to the adsorption method using a chemical reaction represented by calcium hydroxide. It may be a collection method, a carbon dioxide repair method using a hollow fiber membrane or the like, or other methods.
- the chemical reaction system can recover carbon dioxide as a solid (powder), carbon dioxide can be recovered and stored more efficiently than other methods.
- the application program 26a also includes data or a model in which the image of the sample absorbent member 61 is associated with the saturation of carbon dioxide absorption.
- the control unit 121 determines the absorption saturation (saturation rate) from the photographed image (for example, color) of the absorbing member 61 .
- the saturation rate is the ratio of the amount of carbon dioxide that has already been absorbed to the amount of carbon dioxide that the absorption member 61 can absorb.
- the determined (estimated) saturation rate is displayed on the display unit 123 .
- the "saturation of absorption" is not limited to the saturation rate.
- Absorption saturation may be represented by a discrete value represented by two or more values.
- the degree of saturation of absorption is represented by a binary value
- a state in which the absorption member 61 is saturated and cannot absorb carbon dioxide any more may be set to "0"
- a state in which carbon dioxide can still be absorbed may be set to, for example, "1”.
- the degree of saturation of absorption may be, for example, "a state in which the absorbing member 61 is saturated and cannot absorb carbon dioxide any more", "a state in which the absorbing member 61 has reduced its ability to absorb carbon dioxide to less than half”
- the absorption member 61 may be divided into three or more stages, such as when the absorption member 61 has more than half of the carbon dioxide absorption capacity remaining, and each stage may be represented by a specific numerical value.
- the controller 121 replaces the saturation of absorption with graphic symbols such as “x”, “ ⁇ ”, and “ ⁇ ” so that the display unit 123 can easily understand the degree of absorption. You may make it display to .
- control unit 121 causes the display unit 123 to display the weight of carbon dioxide in the absorbing member 61 calculated from the degree of absorption saturation (saturation rate). For example, when the absorption member 61 can absorb 24.64 g of carbon dioxide, the controller 121 multiplies 23.64 g by the saturation rate of 76% to calculate the weight of carbon dioxide to be approximately 18 g.
- the amount of carbon dioxide that the absorption member 61 can absorb may be associated with the information (for example, product number) of the QR code 61a and stored in advance in the application program 26a. In this case, the control unit 121 reads the amount of carbon dioxide that can be absorbed by the absorbing member 61 and calculates the weight of carbon dioxide.
- the control unit 121 stores data in the database 12b (see FIG. 13) based on the information (for example, product number) of the QR code 61a. ), the amount of carbon dioxide that can be absorbed by the absorbing member 61 may be read out. Note that the above calculation of the weight of carbon dioxide may be performed by the control unit 11 of the server device 10 .
- the second recovery party terminal 120 calculates the saturation of absorption
- at least one of the first recovery party terminal 20, the intermediate storage party terminal 30, the storage party terminal 40, and the carbon dioxide recovery machine 60 may be configured to be able to calculate the saturation of absorption, or a dedicated measuring instrument for calculating the saturation of absorption may be separately prepared.
- control unit 121 displays the advertiser's information on the display unit 123 .
- the advertiser's information may be stored in advance in the application program 26a in association with the information of the advertisement QR code 61d (for example, an advertisement number to be described later).
- control unit 121 reads advertiser information and displays the advertiser information on display unit 123 .
- the control unit 121 selects the information (advertisement number) from the database 12b (see FIG. 16A) based on the information (advertisement number) of the advertisement QR code 61d. Advertiser information may be retrieved.
- the QR code 61a is an identification code to which the identification information of the absorbing member 61 is fixed.
- the advertisement QR code 61d is an identification code having a fixed number (advertisement number) for identifying an advertiser.
- the QR code 61a and the advertisement QR code 61d are given as examples of the identification code attached to the absorbing member 61, it may be a barcode, the product number of the absorbing member 61, and the carbon dioxide that the absorbing member 61 can recover. quantity, serial number, and advertiser information may be indicated by numbers, letters, or symbols.
- the control unit 21 reads the above information from the captured QR code 61a and the advertisement QR code 61d.
- the first recovery person terminal 20 transmits to the server device 10 absorbent member information including information read from the QR code 61a and the advertisement QR code 61d. Also, the first recovery person terminal 20 may include the saturation rate and the advertisement number in the absorbent member information and transmit the absorbent member information to the server device 10 . It should be noted that the first recoverer terminal 20 transmits the number of absorbent members 61 to the server device 10 when a plurality of absorbent members 61 are photographed at the same time. Also, the first recoverer terminal 20 transmits the user ID and user attribute information to the server device 10 together with the absorbent member information.
- User attribute information includes information indicating whether the user is a "first collector”, “intermediate storage person”, or “repositor”, information on the company or organization to which the user belongs, and information on the user's This includes information such as the address and nationality of User IDs of each first collection person, each intermediate storage person, and each storage person are registered (membership registration) in the database 12b. Information can be easily obtained from the absorbing member 61 by reading the QR code 61a. As a result, it is possible to reduce the workload of the second recoverer who inputs the absorbent member information to the second recoverer's terminal 120 .
- the QR code 61a is attached in the absorbent member 61 at a position where it cannot be read when the absorbent member 61 is unopened and at a position where it can be read when the absorbent member 61 is opened.
- the QR code 61a is attached to the absorbent member 61 at a position covered by the outer bag 61b.
- the QR code 61a is exposed.
- the absorbing member 61 does not come into contact with the outside air when placed inside the outer bag 61b, but comes into contact with the outside air when removed from the outer bag 61b, and starts absorbing carbon dioxide.
- An advertisement 61c is attached to the outer bag 61b and the absorbent member 61. As shown in FIG. Although FIG. 5A shows an example in which the advertisement 61c is attached to both the outer bag 61b and the absorbent member 61, the advertisement 61c may be attached to only one of the outer bag 61b and the absorbent member 61. Alternatively, the advertisement 61c may not be attached to both the outer bag 61b and the absorbent member 61. Moreover, the above-described advertisement QR code 61d for identifying the advertiser of the advertisement 61c is attached to the absorbing member 61. As shown in FIG.
- the first recoverer can reduce the purchase cost of the absorbent member 61, and in some cases, the absorbent member 61 can be made free of charge.
- the absorbing member 61 is arranged in the carbon dioxide recovery machine 60.
- the carbon dioxide collector 60 is configured as, for example, a refrigerator such as a vending machine, an air washer (cleaner), a dehumidifier, a humidifier, a ventilator, and an air conditioner such as an air conditioner.
- the carbon dioxide capture device 60 is not limited to an air conditioner, but may be a boiler, an incinerator, a cooker such as a gas range, a processing machine, a thermal power generator, a wind power generator, a geothermal power generator, a solar power generator, or other machinery.
- the absorption member 61 may be attached to the air intake or air duct of a moving body such as a vending machine, a refrigerator, an automobile, a motorcycle, a train, etc., or may be a utility pole, a postbox, a gas meter, or a water supply. Meters, furniture, clocks, lighting, walls, ceilings, floors, and the like may be provided with the absorbing member 61 (equipment including the absorbing member 61). For example, if the carbon dioxide recovery machine 60 is configured as a thermal power generator, carbon dioxide can be efficiently recovered. Similarly, by configuring the carbon dioxide recovery machine 60 as a power generator including other power generators (locating the carbon dioxide recovery machine 60 inside the power generator), when the carbon dioxide recovery machine 60 is in operation, The necessary electric power can also be covered by the generator.
- a moving body such as a vending machine, a refrigerator, an automobile, a motorcycle, a train, etc.
- Meters, furniture, clocks, lighting, walls, ceilings, floors, and the like may
- the absorbing member 61 is configured as, for example, a filter that allows air to pass through.
- the absorbent member 61 is not limited to this, and may be arranged in a state where an adsorbent (filter) is placed, may be portable, or may be worn like a mask. Alternatively, it may be a device (adsorber) that feeds air into an adsorbent (filter), or a device (adsorber) that sucks air through the adsorbent (filter).
- the carbon dioxide recovery machine 60 includes a control unit 62, a measurement unit 63, and a notification unit 64.
- the control unit 62 includes a processor that executes control processing by executing a program. Then, the control unit 62 executes each control process of the carbon dioxide recovery machine 60 .
- the measurement unit 63 is a sensor that measures the carbon dioxide concentration and humidity around the carbon dioxide recovery machine 60 .
- the amount of carbon dioxide that the absorbing member 61 can absorb and the date and time when the absorbing member 61 was replaced are registered in the control unit 62 . For example, when the used absorbent member 61 is collected by the second collector and a new absorbent member 61 is placed, the first collector registers the replacement date and time in the control unit 62 .
- the controller 62 also stores data in which the concentration of carbon dioxide is associated with the amount of carbon dioxide absorbed per predetermined period. Then, the control unit 62 controls the absorption member 61 based on the above data, the carbon dioxide concentration and humidity measured by the measurement unit 63, the amount of carbon dioxide that can be absorbed by the absorption member 61, and the date and time when the absorption member 61 was replaced. determines when the absorption of In addition, the control unit 62 determines the time of saturation (predicted saturation day) by changing the time each time according to the daily carbon dioxide concentration and humidity during the recovery period. The control unit 62 outputs from the reporting unit 64 the time when the absorption of the absorbing member 61 is saturated (predicted saturation date).
- FIG. 5B is a diagram for explaining an example of a screen displayed on the notification unit 64.
- the notification unit 64 is configured as, for example, a display, and the notification unit 64 displays when the absorption of the absorbent member 61 is saturated.
- the notification unit 64 displays temperature, humidity, carbon dioxide concentration, and their respective graphs.
- the graph is a display of data for a predetermined period such as data for one day or data for one week.
- the control unit 62 measures the place where the carbon dioxide recovery machine 60 is installed, the carbon dioxide concentration at each time, and the humidity, and corrects and displays the predicted saturation date on the notification unit 64 (for example, display).
- the second collector or the intermediate custodian may collect the absorbent member 61, or the first collector may hand over the absorbent member 61 to the second fetcher or the intermediate custodian.
- the last data transmitted to the server device 10 is the final recovery amount (determined data).
- the first collector terminal 20 transmits the collection amount (saturation, etc.) to the server device 10, and in the database 12b, X measures The value is a provisional value for the amount of carbon dioxide recovered.
- the second collector (Y) measures the degree of saturation and the like, and the data of the degree of saturation and the like is transmitted to the server device 10
- the measured value of X changes from the provisional value to the final value, and the amount of X collected is added.
- Y can be collected further if the saturation level at that time is low. subtracted the fixed value) is added to the database 12b.
- the second collector (Y) may be an intermediate custodian, a stocker, or a third collector.
- FIG. 6 is a schematic diagram of the absorbent member group 161 stored by the intermediate storage person.
- the intermediate storage person creates an absorbent member group 161 by assembling a plurality of absorbent members 61 collected from a plurality of first collectors (second collectors).
- a QR code 161 a is attached to the absorbing member group 161 .
- Absorption member information of each absorption member 61 included in the absorption member group 161 is fixed to the QR code 161a.
- FIG. 7 is a schematic diagram of an absorbent member group 261 stored by a storer. As shown in FIG. 7, the storer creates an absorbent member group 261 by assembling a plurality of absorbent member groups 161 collected from a plurality of intermediate storage providers.
- a QR code 261 a is attached to the absorbing member group 261 .
- Information of each absorbing member group 161 included in the absorbing member group 261 is fixed to the QR code 261a.
- only the carbon dioxide adsorbent inside is taken out from a plurality of absorbent members 61 collected from a plurality of first recoverers to form one aggregate of carbon dioxide adsorbents to create an absorbent member group 161.
- a QR code 161 a is attached to the absorbing member group 161 . That is, when the carbon dioxide adsorbent is a calcium hydroxide-based adsorbent, it can be recovered in the form of powder. can be created.
- FIG. 8 is a block diagram showing the configuration of the intermediate depositor terminal 30.
- the intermediate depositor terminal 30 includes a control section 31 , an operation section 32 , a display section 33 , a communication section 34 and an imaging section 35 .
- the control unit 31 includes a processor that executes control processing by executing a program. Then, the control unit 31 executes each control process of the intermediate storage person terminal 30 .
- the operation unit 32, the display unit 33, the communication unit 34, and the photographing unit 35 are the same as the operation unit 22, the display unit 23, the communication unit 24, and the photographing unit 25, respectively, and thus the description thereof is omitted.
- the intermediate custodian captures the QR code 161a (see FIG. 6) using the intermediate custodian's terminal 30.
- the control unit 31 reads the absorbent member information of each absorbent member 61 included in the absorbent member group 161 from the QR code 161a.
- the intermediate custodian terminal 30 reads the information read from the QR code 161a, the user ID (intermediate custodian's ID), and the user attribute information indicating which municipality or company the user belongs to, etc., along with the server device. Send to 10.
- FIG. 9 is a block diagram showing the configuration of the storage terminal 40.
- the storer terminal 40 includes a control section 41 , an operation section 42 , a display section 43 , a communication section 44 and an imaging section 45 .
- the control unit 41 includes a processor that executes control processing by executing a program. Then, the control unit 41 executes each control process of the storer terminal 40 .
- the operation unit 42, the display unit 43, the communication unit 44, and the photographing unit 45 are the same as the operation unit 22, the display unit 23, the communication unit 24, and the photographing unit 25, respectively, and thus the description thereof is omitted.
- the storer takes a picture of the QR code 261a (see FIG. 7) with the storer terminal 40.
- the control unit 41 reads the absorbent member information of each absorbent member 61 included in the absorbent member group 261 from the QR code 261a. Then, the storage terminal 40 sends the information read from the QR code 261a, the user ID (ID of the storage), and the user attribute information indicating which municipality or company the user belongs to to the server device 10. Send.
- FIG. 10 is a block diagram showing the configuration of the administrator terminal 50.
- the administrator terminal 50 includes a control section 51, an operation section 52, a display section 53, and a communication section .
- Control unit 51 includes a processor that executes a control process by executing a program. The control unit 51 then executes each control process of the administrator terminal 50 . Also, since the operation unit 52, the display unit 53, and the communication unit 54 are the same as the operation unit 22, the display unit 23, and the communication unit 24, respectively, description thereof will be omitted.
- An administrator who manages the system 100 operates the administrator terminal 50 to edit the database 12b.
- server device 10 includes control unit 11 , storage unit 12 , and communication unit 13 .
- the control unit 11 includes a processor that executes control processing by executing a program 12a. Then, the control unit 11 executes each control process of the server device 10 .
- the communication unit 13 is a communication interface and is connected to the network N.
- the storage unit 12 stores a program 12a and a database 12b.
- the program 12a is a program that causes the processor of the control unit 11 to execute each control process in order to manage the amount of carbon dioxide recovered in at least one of the atmosphere and the air exhausted from the equipment.
- FIG. 11 is a functional block diagram of the control unit 11 of the server device 10.
- the control unit 11 includes an information acquisition unit 11a, a collection amount determination unit 11b, a storage control unit 11c, an emission credit determination unit 11d, a notification control unit 11e, and a transaction control unit 11f. include.
- the configuration of the control unit 11 is shown as functional blocks in FIG. 11, separate hardware may be configured for each function.
- the control unit 11 By executing the program 12a, the control unit 11 functions as an information acquisition unit 11a, a collection amount determination unit 11b, a storage control unit 11c, an emission credit determination unit 11d, a notification control unit 11e, and a transaction control unit 11f.
- FIG. 12 is a diagram showing an example of absorbent member information acquired from each terminal by the information acquisition unit 11a.
- the information acquisition unit 11a acquires absorbent member information and user attribute information of each user from the first recovery party terminal 20, the intermediate storage party terminal 30, and the storage party terminal 40.
- FIG. 12 the information acquired by the information acquisition unit 11a includes the date and time of acquisition (for example, "2022/1/1/10:32"), the user ID (for example, "10001"), ), user attributes (for example, the first attribute is “first recovery person”, the second attribute is “ ⁇ company”, and the third attribute is “ ⁇ city, Japan”), and absorbent member information (identification information of the absorbing member 61, the saturation rate of the absorbing member 61, and the advertisement number).
- the date and time of acquisition for example, "2022/1/1/10:32”
- the user ID for example, "10001"
- user attributes for example, the first attribute is “first recovery person”, the second attribute is “ ⁇ company”, and the third attribute is “ ⁇ city, Japan”
- FIG. 13 is a diagram showing the correspondence between the product number of the identification information of the absorbing member 61 stored in the database 12b and the absorbable amount of carbon dioxide.
- FIG. 14 is a diagram showing the correspondence between the number of the absorbent member group 161 stored in the database 12b and the storage fee.
- FIG. 15 is a diagram showing the correspondence between the number of the absorbent member group 261 stored in the database 12b and the storage amount.
- FIG. 16A is a diagram showing the correspondence between user IDs stored in the database 12b and the total amount of carbon dioxide, emission credits, and points.
- the database 12b stores the product number of the absorbing member 61 in association with the amount of carbon dioxide that the absorbing member 61 can absorb (absorbable amount).
- the recovery amount determination unit 11b determines the amount of carbon dioxide recovered by the first recovery person based on the absorbent material information acquired from the second recovery person terminal 120 by the information acquisition unit 11a and the absorbable amount. For example, the information acquisition unit 11a acquires absorbent member information indicating that the first collector (see FIG. 16A) with the user ID “10001” has collected one absorbent member 61 with the product number “0001” and a saturation rate of 76%.
- the recovery amount determining unit 11b and the storage control unit 11c set at least a part of the value obtained by multiplying the saturation rate (for example, 76%) to " ⁇ g" shown in FIG. It is added to the total amount of the user ID "10001" in the database 12b.
- the storage control unit 11c attaches an advertisement 61c to the absorbent member 61 when the first collector (eg, user ID "10001”) collects the absorbent member 61 for the first time. If not, the value of "OOg x 0.76" is stored as the total amount in the database 12b.
- the storage control unit 11c associates the first collection person's user ID, attribute information (for example, information of attributes 1 to 3), the first collection person's total value, and the advertisement number, and stores them in the database 12b. do.
- attribute information for example, information of attributes 1 to 3
- the advertisement number for example, information of attributes 1 to 3
- the storage control unit 11c associates the first collection person's user ID, attribute information (for example, information of attributes 1 to 3), the first collection person's total value, and the advertisement number, and stores them in the database 12b. do.
- attribute information for example, information of attributes 1 to 3
- the advertisement number for example, information of attributes 1 to 3
- the advertisement number for example, information of attributes 1 to 3
- FIG. 16A "none" is described for users who have not issued advertisements.
- the database 12b stores the number of the absorbent member group 161 in association with the total value (intermediate storage amount) of carbon dioxide contained in the absorbent member group 161.
- the collected amount determining unit 11b collects the absorbent member group 161 based on the product numbers and the number of absorbent members 61 included in the absorbent member group 161 and the absorbable amount stored in the database 12b shown in FIG. Determine the amount of carbon dioxide contained (intermediate storage amount). For example, when the information acquisition unit 11a acquires absorbent member information indicating that an intermediate storage person (see FIG.
- the determination unit 11b determines the intermediate storage amount based on the total amount of carbon dioxide recovered (see FIGS. 4D and 12) associated with each of the product numbers of the plurality of absorbent members 61 included in the absorbent member group 161. calculate. Then, as shown in FIG. 14, the storage control unit 11c stores the number of the absorbing member group 161 in the database 12b in association with the intermediate storage amount. Then, the collection amount determining unit 11b and the storage control unit 11c add the calculated intermediate storage amount to the total value of the intermediate storage person (for example, user ID "24584"), as shown in FIG. 16A. Further, the storage control unit 11c associates the user ID of the intermediate storage person, the attribute information (for example, information of attributes 1 to 3), the total value of the intermediate storage amount, and the advertisement number, and stores them in the database 12b.
- the storage control unit 11c associates the user ID of the intermediate storage person, the attribute information (for example, information of attributes 1 to 3), the total value of the intermediate storage amount, and the advertisement number, and
- the intermediate storage person may allow the absorption member 61 to absorb carbon dioxide by himself or herself to improve the saturation rate, regardless of only storing. In this case, for example, if the saturation rate of the absorbent member 61 recovered from the first recovery person is 76%, the intermediate storage person sets the saturation rate of the absorbent member 61 to approximately 100%, and the intermediate storage person Store the absorbent member 61 .
- the recovery amount determination unit 11b may calculate the intermediate storage amount by multiplying the absorbable amount (see FIG. 13) by the number of absorbent members 61 of the product number.
- the recovery amount determining unit 11b calculates the recovery amount of carbon dioxide recovered by the intermediate storage person by the same method as the amount of carbon dioxide recovered by the first recovery person. As shown in FIG.
- the amount of carbon dioxide collected by the intermediate storage person is associated with the user ID of the intermediate storage person and stored in the database 12b as an "additional collection amount". Also, when the intermediate storage person himself makes the absorption member 61 absorb carbon dioxide, the saturation rate of the absorption member 61 may be less than 100% (for example, 90%) instead of almost 100%.
- the database 12b stores the number of the absorbing member group 261 in association with the total value (storage amount) of carbon dioxide contained in the absorbing member group 261.
- the recovery amount determination unit 11b collects the absorbent member group 261 based on the product numbers and the number of absorbent members 61 included in the absorbent member group 261 and the absorbable amount stored in the database 12b shown in FIG. Determine the amount of carbon dioxide contained (storage). For example, when the information acquisition unit 11a acquires the absorbent member information indicating that one absorbent member group 261 with the product number “2456” has been stored by the storer with the user ID “34568” (see FIG. 16A), the collected amount is determined.
- the unit 11b calculates the storage amount based on the total amount of carbon dioxide recovered (see FIGS. 4D and 12) associated with each of the product numbers of the plurality of absorbent members 61 included in the absorbent member group 261. . Then, as shown in FIG. 15, the storage control unit 11c stores the number of the absorbing member group 261 in the database 12b in association with the storage amount. Then, as shown in FIG. 16A, the collection amount determining unit 11b and the storage control unit 11c store the user ID of the storage person, attribute information (for example, information of attributes 1 to 3), The total storage amount and the advertisement number are associated and stored in the database 12b.
- the storer may allow the absorption member 61 to absorb carbon dioxide by himself to improve the saturation rate, regardless of the storage.
- the storer stores the absorbent member 61 in a state where the saturation rate of the absorbent member 61 is set to approximately 100% by the storer.
- the recovery amount determination unit 11b may calculate the storage amount by multiplying the absorbable amount (see FIG. 13) by the number of absorbent members 61 of the product number.
- the recovery amount determination unit 11b calculates the recovery amount of carbon dioxide recovered by the storage person by the same method as the recovery amount of carbon dioxide by the first recovery person. As shown in FIG. 16A, the amount of carbon dioxide collected by the reservoir is stored in the database 12b as an "additional collection amount" in association with the user ID of the reservoir. Also, when the storer himself/herself causes the absorbing member 61 to absorb carbon dioxide, the saturation rate of the absorbing member 61 may be less than 100% (for example, 95%) instead of almost 100%.
- the database 12b stores emission credits and points associated with each user ID.
- the emission credit determination unit 11d selects users (first recovery person, intermediate storage person, (or reservoir) determines the allowance, which is the amount of carbon dioxide permitted to be emitted. For example, credits are sized proportionally to the total amount.
- the emission credit determination unit 11d determines whether the user (first recovery person, intermediate storage , or banker). For example, the points are set to a size proportional to the total amount.
- the storage control unit 11c stores the emission rights and points in the database 12b in association with each user ID.
- the advertiser is also given at least one of emission rights and points.
- at least one of emission credits and points is proportionally distributed between the first collector and the advertiser at a predetermined ratio.
- FIG. 16B is a diagram for explaining the database 12b in which user IDs, certification mark usage permission information, and certification grades are associated.
- FIG. 17 is a diagram for explaining the database 12b in which information on attributes, total amounts, emission credits and points, and certification mark use permission are associated.
- FIG. 18A is a diagram for explaining a notice of permission to use the certification mark.
- FIG. 19 is a diagram for explaining the database 12b that stores information on transactions of emission credits and points.
- the database 12b stores authentication mark usage permission information and authentication grade for each user ID.
- Information on permission to use the certification mark is information indicating whether a company or individual matching the user ID is permitted to use the certification mark.
- “Certification mark” is a mark that proves that the user contributes to environmental protection (carbon neutral) by collecting, interim storage, or storage amount of carbon dioxide exceeding the standard value.
- Standard values for "certification marks” are set by international organizations, countries (governments), local governments, or private organizations. For example, the user can use the certification mark in an advertisement or the like to appeal that the user is protecting the environment.
- a plurality of values are set for the "reference value”, and an authentication grade is set according to the size. For example, authentication grades such as “silver”, “gold”, and “diamond” are associated with user IDs in the database 12b in ascending order of reference value.
- the database 12b stores information on other person's information acquisition authority for each user ID.
- the database 12b stores information on the total amount, emission credits and points, and permission to use certification marks for each attribute. For example, the total amount of carbon dioxide collection amount of multiple user IDs whose attribute is included in " ⁇ company", the total amount of emission credits and points of multiple user IDs, and the use of the certification mark Permission information is stored in the database 12b.
- FIG. 18A when the total amount stored in the database 12b exceeds a predetermined reference value, the notification control unit 11e controls each first recovery party terminal 20, each intermediate storage party terminal 30, and each storage A notification indicating that the total amount (collected amount in the example of FIG. 18A) has reached or exceeded the reference value is displayed on the display section of the user terminal 40 (the display section 23 in the example of FIG. 18A). In addition, the notification control unit 11e notifies the user of permission to use the certification mark together with the certification mark.
- FIG. 18B is a diagram for explaining an example of notification that the authentication grade has been raised.
- the notification control unit 11e controls each of the first recovery party terminals 20, each of the intermediate storage party terminals 30, And the display unit (in the example of FIG. 18B, the display unit 23) of each storage terminal 40 displays a notification indicating that the total amount (in the example of FIG. 18B, the collected amount) has reached or exceeded the reference value, and a certification mark.
- a notification indicating that the grade (certification grade) has been raised is displayed.
- the user can trade emission credits and points with other users, and transmit the trading result from each information terminal to the server device 10 .
- the transaction control unit 11f receives information from the first collection person terminal 20 (transfer source user) that "the transfer source user ID is '10001'" and that "the transferee user ID is '13546'". and that "the points traded are 'xxpt'".
- the storage control unit 11c reduces the points "xxpt" from the points of the user ID "10001" in the database 12b and adds the points "xxpt" to the points of the user ID "24568".
- the database 12b also stores the trading results of emission credits between a country and other countries, not limited to other users, from the user.
- the configuration of the carbon dioxide recovery management system 200 according to the second embodiment will be described with reference to FIGS. 20A to 21B.
- the system 200 calculates the recovery amount of carbon dioxide based on the weight of the absorbing member 61 and the average humidity during the adsorption period.
- symbol as 1st Embodiment is used for the structure similar to 1st Embodiment, and description is abbreviate
- FIG. 20A is a block diagram of a carbon dioxide recovery management system 200 (hereinafter referred to as "system 200") according to the second embodiment.
- FIG. 20B is a block diagram of the second recoverer terminal 220b.
- FIG. 21A is a diagram for explaining an example of a photographed screen by the first recovery person terminal 220a according to the second embodiment.
- FIG. 21B is a diagram for explaining an example of a photographed screen by the second recovery person terminal 220b according to the second embodiment.
- the system 200 includes a first recoverer terminal 220a. As shown in FIG. 20B, system 200 includes a second recoverer terminal 220b. System 200 also includes weigh scale 71 and hygrometer 72 .
- the first collection party terminal 220a includes a control unit 221a that executes an application program 226a.
- the second collection party terminal 220b includes a control section 221b that executes an application program 226a.
- the control unit 211a controls the image of the QR code 23a photographed by the photographing unit 25, the image of the QR code 61a, the image of the advertisement QR code 61d, the weight display of the weight scale 71, and the display of the hygrometer 72.
- Humidity display is displayed on the display unit 23 .
- the display unit 23 also displays, for example, the user's ID, a message such as "Please take a picture so that the QR code, the display of the weighing scale, and the display of the hygrometer can be seen.”
- the weight of the carbon, the advertiser, and a button to run the shoot are displayed. Note that FIG.
- the first recovery person terminal 220a transmits the user ID of the first recovery person, the information of the QR code 61a (for example, product number), and the humidity information to the server device (not shown).
- the server device causes the database to store the user ID of the first collector, the information of the QR code 61a (for example, product number), and the information of humidity.
- the control unit 211b controls the image of the QR code 23a photographed by the photographing unit 125, the image of the QR code 61a, the image of the advertisement QR code 61d, the weight display of the weight scale 71, and the display of the hygrometer 72.
- Humidity display is displayed on the display unit 123 .
- the display unit 123 also displays, for example, the user's ID, a message such as "Please photograph the QR code, the display of the weighing scale, and the display of the hygrometer", the weight, the humidity, and the carbon dioxide in the absorbing member 61.
- the weight of the carbon, the advertiser, and a button to run the shoot are displayed. Note that FIG.
- the second collection person terminal 220b transmits the user ID of the first collection person, the information of the QR code 61a (for example, product number), and the humidity information to the server device.
- the server device transmits the humidity information registered by the first recovery person from the database to the second recovery person terminal 220b.
- the control unit 211b calculates the weight of carbon dioxide based on the information of the QR code 61a (for example, product number), the weight display of the weight, the humidity display of the humidity, and the humidity information registered by the first recovery person. .
- the control unit 221 subtracts the weight "100 g" of the absorbent member 61 before opening from the weight display "118 g" of the weight, and calculates the increase "18 g". Then, the control unit 221 calculates the increment "18 g", the average value of the humidity "XX%” registered by the first collector and the humidity "XX%” photographed by the second collector, and a predetermined coefficient. By multiplying by , the weight of the additional "18 g" moisture (for example, "2 g") is calculated.
- the controller 221 calculates the weight of carbon dioxide to be approximately 16 g.
- the weight of the absorbent member 61 before opening may be associated with the information (for example, product number) of the QR code 61a and stored in advance in the application program 226a. In this case, the controller 221 reads the weight of the absorbent member 61 before opening. If the weight of the absorbent member 61 before opening is not stored in advance in the application program 226a, the control unit 221 determines whether the absorbent member 61 can be absorbed from the database based on the information (for example, product number) of the QR code 61a. amount of carbon dioxide may be read. Note that the calculation of the weight of carbon dioxide described above may be performed by the control unit of the server device instead of the second recovery person terminal 220b.
- FIG. 1 the configuration of the carbon dioxide recovery management system 300 according to the third embodiment will be described with reference to FIGS. 22 to 24.
- FIG. 1 the absorbing member 61 is arranged at the exhaust port 361 a of the dehumidifier 361 .
- the same reference numerals as in the first or second embodiment are used for the same configuration as in the first or second embodiment, and the description thereof is omitted.
- FIG. 22 is a block diagram of a carbon dioxide recovery management system 300 (hereinafter referred to as "system 300") according to the third embodiment.
- system 300 includes a second recovery person terminal 320 and a dehumidifier 361 .
- the second collection party terminal 320 includes a control section 321 that executes an application program 326a.
- the absorbing member 61 is arranged at the exhaust port 361a of the dehumidifier 361.
- the air at the air supply port 361b of the dehumidifier 361 contains a lot of moisture, but the air discharged from the exhaust port 361a contains almost no moisture. , the amount of moisture absorbed by the absorbent member 61 is negligible.
- the control unit 311 causes the display unit 23 to display the image of the QR code 61 a photographed by the photographing unit 125 , the image of the advertisement QR code 61 d , and the weight display of the weighing scale 71 .
- the display unit 123 also displays, for example, the user's ID, a message such as "Please take a picture so that the display of the QR code and the weighing scale can be seen", the weight, the weight of the carbon dioxide in the absorbing member 61, the advertiser, And a button for executing shooting is displayed.
- FIG. 24 shows an example in which the QR code 61a, the advertisement QR code 61d, and the weight display of the weight are photographed at once, but these may be photographed separately.
- the control unit 311 calculates the weight of carbon dioxide based on the information of the QR code 61a (for example, product number) and the weight display. For example, the control unit 321 subtracts the weight "100 g" of the absorbent member 61 before opening from the weight display "118 g" of the weight to calculate the increment "18 g". Then, the control unit 321 sets the increased amount of "18 g" to the weight of carbon dioxide of "approximately 18 g".
- the weight of the absorbent member 61 before opening may be associated with the information (for example, product number) of the QR code 61a and stored in advance in the application program 326a. In this case, the controller 321 reads the weight of the absorbent member 61 before opening.
- the controller 321 determines whether the absorbent member 61 can be absorbed from the database based on the information (for example, product number) of the QR code 61a. amount of carbon dioxide may be read. Note that the calculation of the weight of carbon dioxide described above may be performed by the control unit of the server device instead of the second recovery person terminal 320 .
- the present disclosure is not limited to this.
- a user whose user ID is not registered may transmit the absorbent member information to the server device.
- the server device adds this carbon dioxide recovery amount to the recovery amount of the country to which the user who sent the data belongs.
- the server device may acquire an image of the absorbent member from the information terminal and determine the degree of saturation (ratio of saturation) by the server device, or Saturation may be determined.
- the absorbing member is configured as a filter
- the present disclosure is not limited to this.
- the absorbent member may be arranged in the atmosphere (merely in contact with air) rather than as a filter (permeable).
- the absorbing member may be arranged in the carbon dioxide recovery machine, or the absorbing member may be left alone in the atmosphere.
- the second collector reads the QR code indicating the user ID of the first collector and transmits the user ID and absorbent member information to the server device.
- the first collection person may transmit the user ID and the absorbent material information to the server device from his/her first collection person terminal, or the intermediate storage person may transmit the user information of the first collection person from the intermediate storage person terminal.
- the ID and the absorbent member information may be sent to the server device, or the storer may send the user ID of the first recoverer and the absorbent member information to the server device from the storer terminal.
- the second collector may be registered as a member in the same manner as the first collector.
- the database associates the user ID of the second collector with the total amount of carbon dioxide collected by the second collector, information on emission rights/points, information on permission to use the certification mark, and the like.
- the absorbent member is covered with the outer bag, but the present disclosure is not limited to this.
- absorption of carbon dioxide may be started at the time of completion of production at an absorbent member manufacturing factory.
- carbon dioxide can be absorbed from an early stage, which is effective in terms of global environment protection such as global warming countermeasures.
- a cover seal 661b may be attached so that the QR code 61a cannot be seen, like the absorbent member 661 according to the modified example shown in FIG. In this case, when the first recovery person reads the QR code 61a, the first recovery person should remove the cover seal 661b.
- the first recoverer is the person who purchased the absorbing member 661 and made the absorbing member 661 adsorb carbon dioxide.
- the cost of the absorbent member 661 is paid to the manufacturer or distributor by the first collection party, the advertiser, the national government, the local government, or the like. Since the manufacturer does not manufacture unless an order for the absorbent member 661 is received, the orderer becomes the first collector at the time of manufacture. If another person purchases the absorbent member 661 from the orderer, the first collector is changed from the orderer to the other person at that time. If the advertiser so desires, emission credits and points are proportionally divided between the first collector and the advertiser according to predetermined conditions.
- the program for controlling the operation of the carbon dioxide recovery management system is stored in a storage unit such as a server device.
- a storage unit such as a server device.
- any computer-readable storage medium that stores a program for controlling the operation of the carbon dioxide recovery management system, or a program (program product) that is transmitted through a wireless or wired communication line. , are included in the embodiments.
- the recovery amount determination unit refers to an absorbent material database in which the identification information of the absorbent member and the absorbable amount are stored in association with each other, and the absorbable amount associated with the absorbent member acquired by the information acquisition unit is converted into dioxide. It may be configured to be determined as the amount of carbon recovered. That is, when the recovered absorbent member is the recovered absorbent member after the time when the absorption is saturated, the recovered absorbent member is in a saturated state. Therefore, the amount of carbon dioxide recovered by the absorbent member after the time of saturation of absorption is equal to the absorbable capacity associated with the absorbent member, so that even without using the saturation or weight of the absorbent member, amount can be determined.
- a carbon dioxide recovery management system is configured to be able to communicate with a plurality of information terminals, recovers carbon dioxide in at least one of the atmosphere and air exhausted from equipment with an absorption member, and releases carbon dioxide.
- a carbon dioxide recovery management system that manages the amount of recovery, and includes identification information of an absorption member that absorbs carbon dioxide from the atmosphere or air exhausted from equipment, the saturation level of the absorption member, and the weight of the absorption member.
- An information acquisition unit that acquires absorption member information including at least one from each of a plurality of information terminals, a recovery amount determination unit that determines the recovery amount of carbon dioxide based on the absorption member information, and a recovery amount determination unit a storage control unit that stores the determined carbon dioxide recovery amount in a database (first configuration).
- the recovery amount of carbon dioxide can be determined based on the identification information of the absorbing member that has recovered the carbon dioxide contained in the absorbing member information, the degree of absorption saturation, or the weight of the absorbing member. can. As a result, there is no need to directly measure the amount of carbon dioxide recovered, so the amount of recovered carbon dioxide can be easily calculated. Since the amount of recovered carbon dioxide is stored in the database, the amount of recovered carbon dioxide can be managed.
- the carbon dioxide recovery management system is based on the recovery amount of carbon dioxide, and the recovery person who is the permitted amount of carbon dioxide emission by the first recovery person who absorbed carbon dioxide with the absorption member
- a collector emission credit determination unit that determines the emission credit information may be further provided (second configuration).
- the collector emission credit information can be used for emission credit transactions between the first collectors.
- the plurality of information terminals includes a collector terminal used by the second collector who collects the absorbent members, and a storage terminal used by the storer who stores the absorbent members collected by the second collector. and a recovery amount determination unit, based on the absorption member information acquired from the recovery party terminal, determines the recovery amount of carbon dioxide, and based on the absorption member information acquired from the storage party terminal,
- the storage control unit may be configured to determine the amount of carbon dioxide stored, and the storage control unit is configured to store the amount of carbon dioxide recovered and the amount of carbon dioxide stored determined by the recovery amount determination unit in a database. (third configuration).
- the storage amount of carbon dioxide can be determined based on the absorption member information. can be managed.
- the carbon dioxide capture management system determines reservoir allowance information, which is the amount of carbon dioxide allowed to be emitted by the reservoir, based on the amount of carbon dioxide stored.
- reservoir allowance information is the amount of carbon dioxide allowed to be emitted by the reservoir, based on the amount of carbon dioxide stored.
- a part may be further provided (fourth configuration).
- the storage amount emission right it is possible to determine the storage amount emission right according to the storage amount of carbon dioxide.
- the stored emission credit information can be used for trading of emission credits between stockers.
- the plurality of information terminals may further include an intermediate custodian terminal used by an intermediate custodian who stores the absorbent member until the absorbent member is handed over to the custodian who receives the absorbent member from the second recoverer.
- the determination unit may be configured to determine the intermediate storage amount of carbon dioxide based on the absorption member information acquired from the intermediate storage person terminal, and the storage control unit determines the amount of carbon dioxide determined by the recovery amount determination unit. may be configured to store the intermediate storage amount of in a database (fifth configuration).
- the fifth configuration it is possible to manage the intermediate storage amount of carbon dioxide stored by the intermediate storage person who manages between the second recovery person and the storage person.
- the information acquisition unit may be configured to acquire the absorbent member information and the information terminal user attribute information from each of the plurality of information terminals
- the storage control unit may be configured to associate the carbon dioxide recovery amount determined by the recovery amount determination unit with the user attribute information and store it in the database
- the carbon dioxide recovery management system may be configured to associate the same user attribute information with the carbon dioxide recovery amount.
- a total value output unit may be further provided which totals the recovered amount of carbon dioxide and outputs the total value of the recovered amount of carbon dioxide (sixth configuration).
- the absorbent member has an identification code readable by at least one of the plurality of information terminals, and the identification code in which at least part of the absorbent member information is stored is
- the information acquisition unit may be configured to acquire information read from the identification code from at least one of the plurality of information terminals (seventh configuration).
- the information terminal can easily acquire information from the absorbing member. As a result, it is possible to reduce the workload of the user who inputs the absorbent member information to the information terminal.
- the identification code may include information on the amount of carbon dioxide that can be recovered by the absorbing member, and the recovery determining unit determines the information on the amount of carbon dioxide that can be recovered by the absorbing member from among the absorbing member information. (eighth configuration).
- the absorption member if the absorption member is saturated, it can be estimated that the absorption member has recovered the amount of carbon dioxide that can be recovered, and based on the identification information of the absorption member of the saturation , the recovery amount of carbon dioxide can be easily calculated.
- the ninth configuration it is possible to prevent the identification code from being erroneously read from the absorbent member before use.
- At least one of the plurality of information terminals may include a photographing unit that photographs an image of the identification code and the absorbing member, and the carbon dioxide recovery management system includes the absorbing member (tenth configuration).
- the tenth configuration it is possible to easily acquire the absorbent member information by photographing the identification code and the absorbent member.
- the absorbing member includes a carbon dioxide measuring instrument that measures the concentration of carbon dioxide in the surroundings, and the absorption of the absorbing member is saturated based on the concentration of carbon dioxide in the surroundings. and a saturation timing output unit that outputs the timing to be set in the carbon dioxide recovery machine (eleventh configuration).
- the eleventh configuration it is possible to predict when the absorbing member should be replaced. Therefore, if the absorbing member is replaced at the time when it should be replaced, the period during which the saturated absorbing member is left unused is shortened. be able to. Thereby, carbon dioxide can be recovered efficiently.
- the carbon dioxide recovery management system compares the total amount of carbon dioxide recovery stored in the database with a predetermined reference value, and determines the amount of carbon dioxide recovered.
- a transmitter may be further provided for transmitting a notification signal to at least one of the plurality of information terminals when the total value is equal to or greater than a predetermined reference value (12th configuration).
- the user using the information terminal can recognize that the total value of the recovered amount of carbon dioxide has reached or exceeded the predetermined reference value.
- a program according to a thirteenth configuration is a program for managing the amount of carbon dioxide recovered in at least one of the atmosphere and the air exhausted from the equipment, wherein carbon dioxide is collected from the atmosphere or the air exhausted from the equipment a process of acquiring, from each of a plurality of information terminals, absorption member information including at least one of identification information of an absorption member that absorbs carbon, saturation of the absorption member, and weight of the absorption member; Based on this, a process of determining the amount of carbon dioxide recovered, a process of storing the determined amount of carbon dioxide recovered in a database, and a processor of a computer are caused to execute the process (thirteenth configuration).
- a program storage medium is a program storage medium that stores a program and is readable by a computer, wherein the program stores identification information of an absorption member that absorbs carbon dioxide from the air; a process of acquiring absorption member information including at least one of a saturation level and a weight of the absorption member from each of a plurality of information terminals; a process of determining the recovery amount of carbon dioxide based on the absorption member information; A process of storing the determined carbon dioxide recovery amount in a database and a processor of a computer are executed (14th configuration).
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Abstract
This carbon dioxide collection management system comprises: an information acquisition unit which acquires, from each of a plurality of information terminals, absorption member information including at least one among identification information about an absorption member that absorbs carbon dioxide from the air, the saturation of the absorption member, and the weight of the absorption member; a collection amount determination unit which determines a collection amount of the carbon dioxide on the basis of the absorption member information; and a storage control unit which stores, in a database, the collection amount of the carbon dioxide determined by the collection amount determination unit.
Description
本発明は、二酸化炭素回収管理システム、プログラム、及びプログラム記憶媒体に関する。
The present invention relates to a carbon dioxide recovery management system, a program, and a program storage medium.
近年、環境保護活動への取り組みが社会的に行われている。特に、地球温暖化の原因と考えられている二酸化炭素の排出量を抑制するための取り組みが、企業及び公的機関において行われている。
In recent years, efforts to protect the environment have been socially carried out. In particular, companies and public institutions are making efforts to reduce carbon dioxide emission, which is considered to be a cause of global warming.
例えば、特開2015-219542号公報には、CO2排出削減量評価装置が開示されている。このCO2排出削減量評価装置は、主要因特定DBに記憶されている主要因特定情報に基づいて活動項目のうちから主要因を特定する。そして、CO2排出削減量評価装置は、CO2排出原単位DBに記憶されているCO2排出原単位に基づいて、ICTソリューションの導入前後における、主要因に関するCO2排出量を算出する。これにより、ICTソリューションの導入によるCO2排出削減量が評価される。
For example, Japanese Patent Application Laid-Open No. 2015-219542 discloses a CO2 emission reduction evaluation device. This CO2 emission reduction amount evaluation device identifies the main factor from among the activity items based on the main factor identification information stored in the main factor identification DB. Then, the CO2 emission reduction evaluation device calculates the CO2 emissions related to the main factor before and after the introduction of the ICT solution based on the CO2 emission intensity stored in the CO2 emission intensity DB. Based on this, the amount of CO2 emission reduction due to the introduction of ICT solutions is evaluated.
ここで、二酸化炭素の回収量を、二酸化炭素の排出量と等しくすることにより、地球環境への二酸化炭素による影響をゼロにする状態であるカーボンニュートラルが、社会的に目指されている。そこで、特開2015-219542号公報のような二酸化炭素の排出量のみならず、二酸化炭素の回収量を管理することが可能なシステムが望まれている。なお、「回収」とは、二酸化炭素を吸収部材に吸収させることなどによって、大気中に二酸化炭素を排出させないことを意味する。
Here, society is aiming for carbon neutrality, a state in which the impact of carbon dioxide on the global environment is zero by equalizing the amount of carbon dioxide recovered with the amount of carbon dioxide emitted. Therefore, a system capable of managing not only the amount of carbon dioxide emitted but also the amount of carbon dioxide recovered is desired, as disclosed in Japanese Patent Application Laid-Open No. 2015-219542. In addition, "recovery" means that carbon dioxide is not discharged into the atmosphere by, for example, absorbing carbon dioxide into an absorbing member.
この開示は、上記のような課題を解決するためになされたものであり、二酸化炭素の回収量を管理することが可能な二酸化炭素回収管理システム、プログラム、及びプログラム記憶媒体を提供することを目的とする。
This disclosure has been made to solve the above problems, and aims to provide a carbon dioxide recovery management system, a program, and a program storage medium capable of managing the amount of carbon dioxide recovered. and
上記の目的を達成するために、以下に開示する、本開示の第1の態様に係る二酸化炭素回収管理システムは、複数の情報端末と通信可能に構成され、空気中の少なくとも一方における二酸化炭素を吸収部材によって回収し、二酸化炭素の回収量を管理する二酸化炭素回収管理システムであって、空気中から二酸化炭素を吸収する吸収部材の識別情報、当該吸収部材の飽和度、及び当該吸収部材の重量の少なくとも1つを含む吸収部材情報を、前記複数の情報端末の各々から取得する情報取得部と、前記吸収部材情報に基づいて、二酸化炭素の回収量を決定する回収量決定部と、前記回収量決定部により決定された前記二酸化炭素の回収量を、データベースに記憶する記憶制御部と、を備える。「吸収の飽和度」とは、吸収部材が吸収可能な二酸化炭素の量に対する、既に吸収した二酸化炭素の量の割合を、連続値または離散値で表したデータである。
In order to achieve the above object, a carbon dioxide recovery management system according to a first aspect of the present disclosure disclosed below is configured to be able to communicate with a plurality of information terminals, and collects carbon dioxide in at least one of the air. A carbon dioxide recovery management system for managing the amount of carbon dioxide recovered by an absorption member, wherein the identification information of the absorption member that absorbs carbon dioxide from the air, the saturation level of the absorption member, and the weight of the absorption member an information acquisition unit that acquires, from each of the plurality of information terminals, absorption member information including at least one of; a recovery amount determination unit that determines a recovery amount of carbon dioxide based on the absorption member information; and a storage control unit that stores the amount of carbon dioxide recovered determined by the amount determination unit in a database. "Absorptive saturation" is data representing the ratio of the amount of carbon dioxide that has already been absorbed to the amount of carbon dioxide that can be absorbed by the absorbent member, expressed as a continuous value or a discrete value.
本開示の第2の態様に係るプログラムは、大気中及び機器から排気される空気中の少なくとも一方における二酸化炭素の回収量を管理するためのプログラムであって、大気中又は機器から排気される空気中から二酸化炭素を吸収する吸収部材の識別情報、当該吸収部材の飽和度、及び当該吸収部材の重量の少なくとも1つを含む吸収部材情報を、複数の情報端末の各々から取得する処理と、前記吸収部材情報に基づいて、二酸化炭素の回収量を決定する処理と、決定された前記二酸化炭素の回収量を、データベースに記憶する処理と、コンピュータのプロセッサに実行させる。
A program according to a second aspect of the present disclosure is a program for managing the amount of carbon dioxide recovered in at least one of the atmosphere and the air exhausted from the equipment, the program comprising the air exhausted from the atmosphere or the equipment a process of acquiring, from each of a plurality of information terminals, absorption member information including at least one of identification information of an absorption member that absorbs carbon dioxide from inside, the saturation level of the absorption member, and the weight of the absorption member; Based on the absorption member information, a process of determining the amount of recovered carbon dioxide, and a process of storing the determined amount of recovered carbon dioxide in a database are executed by a processor of a computer.
本開示の第3の態様に係るプログラム記憶媒体は、プログラムが記憶され、コンピュータによる読み取りが可能なプログラム記憶媒体であって、前記プログラムは、空気中から二酸化炭素を吸収する吸収部材の識別情報、当該吸収部材の飽和度、及び当該吸収部材の重量の少なくとも1つを含む吸収部材情報を、複数の情報端末の各々から取得する処理と、前記吸収部材情報に基づいて、二酸化炭素の回収量を決定する処理と、決定された前記二酸化炭素の回収量を、データベースに記憶する処理と、コンピュータのプロセッサに実行させる。
A program storage medium according to a third aspect of the present disclosure is a computer-readable program storage medium in which a program is stored, wherein the program includes identification information of an absorption member that absorbs carbon dioxide from the air; A process of acquiring absorption member information including at least one of the saturation degree of the absorption member and the weight of the absorption member from each of a plurality of information terminals, and calculating the recovery amount of carbon dioxide based on the absorption member information. A process of determining, a process of storing the determined carbon dioxide recovery amount in a database, and a processor of a computer are executed.
上記の構成によれば、吸収部材情報に含まれる二酸化炭素を回収した吸収部材の識別情報、吸収の飽和度、又は吸収部材の重量に基づいて、二酸化炭素の回収量を決定することができる。この結果、回収した二酸化炭素の量を直接的に測定する必要がなくなるので、二酸化炭素の回収量を容易に算出することができる。そして、二酸化炭素の回収量がデータベースに記憶されるので、二酸化炭素の回収量を管理することができる。
According to the above configuration, the recovery amount of carbon dioxide can be determined based on the identification information of the absorption member that has recovered carbon dioxide, the absorption saturation level, or the weight of the absorption member included in the absorption member information. As a result, there is no need to directly measure the amount of carbon dioxide recovered, so the amount of recovered carbon dioxide can be easily calculated. Since the amount of recovered carbon dioxide is stored in the database, the amount of recovered carbon dioxide can be managed.
以下、本開示の実施形態を図面に基づいて説明する。なお、本開示は、以下の実施形態に限定されるものではなく、本開示の構成を充足する範囲内で、適宜設計変更を行うことが可能である。また、以下の説明において、同一部分または同様な機能を有する部分には同一の符号を異なる図面間で共通して用い、その繰り返しの説明は省略する。また、実施形態および変形例に記載された各構成は、適宜組み合わされてもよいし、変更されてもよい。また、説明を分かりやすくするために、以下で参照する図面においては、構成が簡略化または模式化して示されたり、一部の構成部材が省略されたりしている。
Hereinafter, embodiments of the present disclosure will be described based on the drawings. Note that the present disclosure is not limited to the following embodiments, and design changes can be made as appropriate within the scope of satisfying the configuration of the present disclosure. Further, in the following description, the same reference numerals are used in common for the same parts or parts having similar functions in different drawings, and the repeated description thereof will be omitted. Also, each configuration described in the embodiment and modification may be appropriately combined or changed. Also, in order to make the explanation easier to understand, in the drawings referred to below, the configuration is shown in a simplified or schematic form, or some constituent members are omitted.
[第1実施形態]
(二酸化炭素回収管理システムの全体構成)
図1は、第1実施形態における二酸化炭素回収管理システム100(以下、「システム100」という)の構成を示すブロック図である。図2は、第1実施形態における二酸化炭素回収管理システム100の構成を示すブロック図である。 [First embodiment]
(Overall configuration of carbon dioxide recovery management system)
FIG. 1 is a block diagram showing the configuration of a carbon dioxide recovery management system 100 (hereinafter referred to as "system 100") according to the first embodiment. FIG. 2 is a block diagram showing the configuration of the carbon dioxide recovery management system 100 in the first embodiment.
(二酸化炭素回収管理システムの全体構成)
図1は、第1実施形態における二酸化炭素回収管理システム100(以下、「システム100」という)の構成を示すブロック図である。図2は、第1実施形態における二酸化炭素回収管理システム100の構成を示すブロック図である。 [First embodiment]
(Overall configuration of carbon dioxide recovery management system)
FIG. 1 is a block diagram showing the configuration of a carbon dioxide recovery management system 100 (hereinafter referred to as "
図1に示すように、システム100は、人間、動物又は機器類及び自然環境から排気される空気中又は大気中の少なくとも一方における二酸化炭素を吸収部材61によって回収し、二酸化炭素の回収量を管理するシステムである。人間から排気される空気中の二酸化炭素が回収される場合、例えば、個人宅、企業のオフィス、飲食店、スポーツクラブ、商業施設、自動車内、電車内、飛行機内、船舶内などが回収場所として使用される。動物から排気される空気中の二酸化炭素が回収される場合、例えば、畜舎、ペットショップ、養鶏場、養豚場などが回収場所として使用される。機器類から排気される空気中の二酸化炭素が回収される場合、例えば、火力発電所、製造工場、自動車の排ガス、焼却炉などが回収場所として使用される。この他にも、火山、又は温泉が、自然環境から排気される空気中の二酸化炭素の回収場所として利用されてもよい。また、大気中から二酸化炭素が回収されてもよい。
As shown in FIG. 1, the system 100 recovers carbon dioxide in at least one of the air and the atmosphere exhausted from humans, animals or equipment and the natural environment with an absorption member 61, and manages the amount of carbon dioxide recovered. It is a system that When carbon dioxide in the air emitted by humans is collected, for example, collection sites include private homes, corporate offices, restaurants, sports clubs, commercial facilities, cars, trains, airplanes, and ships. used. When the carbon dioxide in the air exhausted from animals is collected, for example, livestock barns, pet shops, poultry farms, pig farms, etc. are used as collection sites. When carbon dioxide in the air exhausted from equipment is recovered, for example, thermal power plants, manufacturing plants, exhaust gas from automobiles, incinerators, and the like are used as recovery sites. Alternatively, volcanoes or hot springs may be used as a capture site for carbon dioxide in air exhausted from the natural environment. Also, carbon dioxide may be recovered from the atmosphere.
第1回収者は、吸収部材61の外袋61b(図5A参照)を開封し、吸収部材61による二酸化炭素の吸収を開始させる。第2回収者は、二酸化炭素を吸収した吸収部材61を回収する。吸収部材61は、例えば、図2に示す二酸化炭素回収機60に配置されている。「第1回収者」及び「第2回収者」は、二酸化炭素回収機60を使用する個人であってもよいし、二酸化炭素回収機60を管理する事業者であってもよいし、二酸化炭素回収機60を管理する公的機関(自治体、国、国際機関、及び学校など)であってもよい。「第2回収者」は、「第1回収者」と同一の者であってもよいし、後述する「中間保管者」又は「貯蔵者」が、「第2回収者」として行動してもよい。
The first recoverer opens the outer bag 61b (see FIG. 5A) of the absorbing member 61 and causes the absorbing member 61 to start absorbing carbon dioxide. The second recoverer recovers the absorbing member 61 that has absorbed carbon dioxide. The absorbing member 61 is arranged, for example, in the carbon dioxide recovery machine 60 shown in FIG. The “first collector” and “second collector” may be individuals who use the carbon dioxide recovery machine 60, may be business operators who manage the carbon dioxide recovery machine 60, or may be carbon dioxide recovery operators. It may be a public institution (local government, country, international organization, school, etc.) that manages the collecting machine 60 . The "second collector" may be the same person as the "first collector", or the "intermediate custodian" or "repositor" described later may act as the "second collector". good.
第1回収者は、吸収部材61を二酸化炭素回収機60から第2回収者に引き渡し、第1回収者は、二酸化炭素を未だ吸収していない新たな吸収部材61を二酸化炭素回収機60内に配置する。システム100は、吸収部材61の識別情報、当該吸収部材61の吸収の飽和度、及び当該吸収部材61の重量の少なくとも1つを含む吸収部材情報を回収者(例えば、第2回収者)から取得し、当該吸収部材情報に基づく二酸化炭素の回収量をデータベース12bに記憶する。そして、システム100は、二酸化炭素の回収量に基づく排出権及びポイントを、第1回収者に付与する。「排出権」とは、排出を国又は国際機関によって許可された二酸化炭素の排出量である。第1回収者は、自身の二酸化炭素の排出量が、所有している排出権を超える場合には、他者から「排出権」を譲受する必要がある。「ポイント」とは、「排出権」以外のもので、与えられた者にとって利得のある数値を示すものである。例えば、「ポイント」は、与えられた者が所属する国の通貨と同等の価値を有するものであってもよいし、当該ポイントの大きさによって、所定のサービスの優遇度を向上させる(例えば、公共料金・医療負担額が低くなる)又は税率を下げるものであってもよい。「吸収部材61の識別情報」とは、当該吸収部材61の種類、重量、二酸化炭素の最大吸収量(吸収可能量)、提供地域(エリア)、製造会社名、製造日、材料、当該吸収部材61に広告掲載している企業が有ればその企業情報、及び広告ランク(第1回収者との排出権又はポイントの案分割合等)などのデータを特定するための情報であり、後述するデータベース12b内でこれらのデータと関連付けられている。
The first recovery person hands over the absorbing member 61 from the carbon dioxide recovery machine 60 to the second recovery person, and the first recovery person places a new absorption member 61 that has not yet absorbed carbon dioxide into the carbon dioxide recovery machine 60. Deploy. The system 100 acquires absorbent member information including at least one of the identification information of the absorbent member 61, the saturation of absorption of the absorbent member 61, and the weight of the absorbent member 61 from the recoverer (eg, the second recoverer). Then, the recovery amount of carbon dioxide based on the absorbing member information is stored in the database 12b. The system 100 then grants credits and points based on the amount of carbon dioxide captured to the first capturer. An "emission permit" is an amount of carbon dioxide permitted to be emitted by a country or an international organization. If the amount of carbon dioxide emitted by the first collector exceeds the emission rights owned by the first collector, it is necessary to transfer "emission rights" from others. A "point" is something other than an "emissions right" and indicates a numerical value that is profitable for a given person. For example, "points" may have a value equivalent to the currency of the country to which the given person belongs. lower public utility charges and medical costs) or lower tax rates. The “identification information of the absorbing member 61” includes the type, weight, maximum carbon dioxide absorption amount (absorbable amount) of the absorbing member 61, supply region (area), manufacturer name, date of manufacture, material, and the absorbing member. If there is a company advertising on 61, it is information for specifying data such as company information and advertisement rank (proportional ratio of emission rights or points with the first collector, etc.), which will be described later. Associated with these data in the database 12b.
第2回収者は、回収した吸収部材61(二酸化炭素)を、中間保管者に引き渡す。また、図示しないが、第2回収者は、回収した吸収部材61(二酸化炭素)を、貯蔵者に引き渡してもよい。また、第1回収者が所有する吸収部材61(二酸化炭素)を、中間保管者自身が回収してもよい。「中間保管者」は、複数の第2回収者から回収した吸収部材61(二酸化炭素)を貯蔵者に引き渡すまで一時的に保管する自治体、国、国際機関又は民間事業者である。例えば、中間保管者による保管場場所として、ゴミ収集場所、ゴミ焼却場コンビニエンスストア、郵便局、商業施設、ガソリンスタンド、配送業者などの倉庫及び公共施設などが挙げられる。システム100は、吸収部材情報を中間保管者から取得し、当該吸収部材情報に基づく二酸化炭素の中間保管量をデータベース12bに記憶する。そして、システム100は、二酸化炭素の中間保管量に基づく排出権及びポイントを、中間保管者に付与する。
The second recoverer hands over the recovered absorption member 61 (carbon dioxide) to the intermediate storage person. Also, although not shown, the second recovery person may hand over the recovered absorption member 61 (carbon dioxide) to the storage person. Also, the absorption member 61 (carbon dioxide) owned by the first recovery person may be recovered by the intermediate storage person himself/herself. An "intermediate custodian" is a local government, a national government, an international organization, or a private enterprise that temporarily stores the absorbent members 61 (carbon dioxide) collected from a plurality of second collectors until they are handed over to the custodian. For example, storage locations for intermediate storage include garbage collection sites, garbage incinerators, convenience stores, post offices, commercial facilities, gas stations, warehouses such as delivery companies, public facilities, and the like. The system 100 acquires the absorbent member information from the intermediate storage person, and stores the intermediate storage amount of carbon dioxide based on the absorbent member information in the database 12b. The system 100 then grants emission credits and points based on the intermediate storage amount of carbon dioxide to the intermediate storage person.
中間保管者は、複数の第2回収者から回収した複数の吸収部材61(二酸化炭素)を、貯蔵者に引き渡す。また、中間保管者が保管している吸収部材61(二酸化炭素)を、貯蔵者自身が回収してもよいし、中間保管者から貯蔵者に引き渡す第3の回収者がさらに居ても良い。貯蔵者は、複数の中間保管者又は複数の第2回収者から回収した吸収部材61(二酸化炭素)を大気以外の場所に貯蔵する。貯蔵者は、吸収部材61自体を、大気以外の場所に貯蔵してもよいし、吸収部材61から二酸化炭素を抽出し、当該二酸化炭素を大気以外の場所に貯蔵してもよい。貯蔵場所としては、地中、水中(海中)、及び宇宙が挙げられる。「貯蔵者」は、回収した二酸化炭素を大気以外の場所に貯蔵する者であり、貯蔵者は、例えば、自治体、国、国際機関、又は事業者である。システム100は、吸収部材情報を貯蔵者から取得し、当該吸収部材情報に基づく二酸化炭素の貯蔵量をデータベース12bに記憶する。そして、システム100は、二酸化炭素の貯蔵量に基づく排出権及びポイントを、貯蔵者に付与する。
The intermediate storage person hands over the plurality of absorbing members 61 (carbon dioxide) collected from the plurality of second recovery persons to the storage person. Also, the absorbing member 61 (carbon dioxide) stored by the intermediate storage person may be collected by the storage person, or there may be a third recovery person who delivers the material from the intermediate storage person to the storage person. The storer stores the absorbent members 61 (carbon dioxide) collected from the plurality of intermediate storagers or the plurality of second recoveryrs in a place other than the atmosphere. The storer may store the absorbing member 61 itself in a place other than the atmosphere, or may extract carbon dioxide from the absorbing member 61 and store the carbon dioxide in a place other than the atmosphere. Storage locations include underground, underwater (subsea), and space. A "reservoir" is a person who stores the captured carbon dioxide outside the atmosphere, and the reservoir is, for example, a municipality, a country, an international organization, or a business. The system 100 acquires information on the absorbent member from the storer, and stores the amount of carbon dioxide stored based on the information on the absorbent member in the database 12b. The system 100 then awards credits and points to the reservoir based on the amount of carbon dioxide stored.
上記の構成によれば、二酸化炭素の回収量、中間保管量、及び貯蔵量の各々を管理することができるとともに、回収量、中間保管量、及び貯蔵量に関連する排出権及びポイントを管理することができる。
According to the above configuration, it is possible to manage each of the amount of carbon dioxide recovered, the amount of intermediate storage, and the amount of storage, and manage the emission rights and points related to the amount of recovery, the amount of intermediate storage, and the amount of storage. be able to.
(二酸化炭素回収管理システムの各部の構成)
図2に示すように、システム100は、サーバ装置10を含む。サーバ装置10は、ネットワークNを介して、複数の第1回収者端末20と、複数の第2回収者端末120と、複数の中間保管者端末30と、複数の貯蔵者端末40と、管理者端末50と、通信可能に構成されている。なお、ネットワークNは、例えば、インターネット及びLocal Area Network(LAN)等であるが、これら以外のネットワークを用いてもよい。 (Configuration of each part of the carbon dioxide recovery management system)
As shown in FIG. 2,system 100 includes server device 10 . The server device 10 connects, via a network N, a plurality of first recovery party terminals 20, a plurality of second recovery party terminals 120, a plurality of intermediate storage party terminals 30, a plurality of storage party terminals 40, an administrator It is configured to be communicable with the terminal 50 . Note that the network N is, for example, the Internet, a Local Area Network (LAN), or the like, but a network other than these may be used.
図2に示すように、システム100は、サーバ装置10を含む。サーバ装置10は、ネットワークNを介して、複数の第1回収者端末20と、複数の第2回収者端末120と、複数の中間保管者端末30と、複数の貯蔵者端末40と、管理者端末50と、通信可能に構成されている。なお、ネットワークNは、例えば、インターネット及びLocal Area Network(LAN)等であるが、これら以外のネットワークを用いてもよい。 (Configuration of each part of the carbon dioxide recovery management system)
As shown in FIG. 2,
サーバ装置10は、二酸化炭素の回収量、二酸化炭素の中間保管量、二酸化炭素の貯蔵量、複数の第1回収者の各々の排出権及びポイント、複数の中間保管者の各々の排出権及びポイント、及び、複数の貯蔵者の各々の排出権及びポイントを管理するための装置である。サーバ装置10は、オンプレミス型(据え置き型)のサーバ装置でもよいし、クラウド上に構成されたサーバ装置であってもよい。
The server device 10 stores the amount of carbon dioxide recovered, the intermediate storage amount of carbon dioxide, the storage amount of carbon dioxide, the emission rights and points of each of the plurality of first recovery persons, and the emission rights and points of each of the plurality of intermediate storages. and a device for managing credits and points for each of a plurality of reservoirs. The server device 10 may be an on-premise (stationary) server device, or may be a server device configured on a cloud.
また、複数の第1回収者端末20、複数の第2回収者端末120、複数の中間保管者端末30、複数の貯蔵者端末40、及び管理者端末50の各々には、サーバ装置10にアクセスするためのアプリケーションプログラムがインストールされている。「管理者」とは、システム100を管理する自治体、国、国際機関、又は民間事業者である。複数の第1回収者端末20、複数の第2回収者端末120、複数の中間保管者端末30、複数の貯蔵者端末40、及び複数の管理者端末50の各々は、サーバ装置10にアクセスすることにより、サーバ装置10が提供する情報及び画像を取得する。なお、専用のアプリケーションソフトウェアを用いることに限られず、ブラウザ用ソフトウェア(例えば、Webブラウザ)が複数の第1回収者端末20、複数の第2回収者端末120、複数の中間保管者端末30、複数の貯蔵者端末40、及び複数の管理者端末50の各々にインストールされていてもよい。この場合、複数の第1回収者端末20、複数の第2回収者端末120、複数の中間保管者端末30、複数の貯蔵者端末40、及び複数の管理者端末50の各々において、ブラウザ上で、サーバ装置10が提供する情報及び画像が表示される。
In addition, each of the plurality of first recovery party terminals 20, the plurality of second recovery party terminals 120, the plurality of intermediate storage party terminals 30, the plurality of storage party terminals 40, and the administrator terminal 50 can access the server device 10. An application program is installed to An “administrator” is a municipality, country, international organization, or private business that manages system 100 . A plurality of first recovery party terminals 20, a plurality of second recovery party terminals 120, a plurality of intermediate storage party terminals 30, a plurality of storage party terminals 40, and a plurality of administrator terminals 50 each access the server device 10. Thus, the information and images provided by the server device 10 are obtained. It should be noted that, without being limited to using dedicated application software, browser software (e.g., web browser) can be used in multiple first recovery party terminals 20, multiple second recovery party terminals 120, multiple intermediate storage party terminals 30, multiple may be installed in each of the storage terminal 40 and a plurality of administrator terminals 50 . In this case, on each of the plurality of first recovery party terminals 20, the plurality of second recovery party terminals 120, the plurality of intermediate storage party terminals 30, the plurality of storage party terminals 40, and the plurality of administrator terminals 50, , information and images provided by the server device 10 are displayed.
(各情報端末の構成)
第1回収者端末20は、第1回収者が使用する情報端末である。第2回収者端末120は、第2回収者が使用する情報端末である。中間保管者端末30は、中間保管者が使用する情報端末である。複数の貯蔵者端末40は、貯蔵者が使用する情報端末である。管理者端末50は、管理者が使用する情報端末である。「情報端末」としては、例えば、スマートフォン、スマートウォッチ、パーソナルコンピュータ、またはタブレット端末を用いることができる。 (Configuration of each information terminal)
The firstcollection person terminal 20 is an information terminal used by the first collection person. The second recovery party terminal 120 is an information terminal used by the second recovery party. The intermediate custodian terminal 30 is an information terminal used by the intermediate custodian. A plurality of banker terminals 40 are information terminals used by bankers. The administrator terminal 50 is an information terminal used by an administrator. As the "information terminal", for example, a smart phone, a smart watch, a personal computer, or a tablet terminal can be used.
第1回収者端末20は、第1回収者が使用する情報端末である。第2回収者端末120は、第2回収者が使用する情報端末である。中間保管者端末30は、中間保管者が使用する情報端末である。複数の貯蔵者端末40は、貯蔵者が使用する情報端末である。管理者端末50は、管理者が使用する情報端末である。「情報端末」としては、例えば、スマートフォン、スマートウォッチ、パーソナルコンピュータ、またはタブレット端末を用いることができる。 (Configuration of each information terminal)
The first
図3Aは、第1回収者端末20の構成を示すブロック図である。図3Aに示すように、第1回収者端末20は、制御部21と、操作部22と、表示部23と、通信部24と、撮影部25と、記憶部26と、位置情報センサ27と、を含む。制御部21は、プログラムを実行することにより制御処理を実行するプロセッサを含む。そして、制御部21は、第1回収者端末20の各制御処理を実行する。また、操作部22は、キーボード、マウス、タッチパネル等のユーザインタフェースである。表示部23は、例えば、液晶ディスプレイまたは有機ELディスプレイである。また、表示部23がタッチパネルとして構成されている場合には、当該タッチパネルが操作部22と表示部23とを兼ねてもよい。通信部24は、通信インターフェイスであり、ネットワークNに接続されている。撮影部25は、吸収部材61及び吸収部材61に付されたQRコード(登録商標)61aを撮影するカメラである。記憶部26は、例えば、SSD(Solid State Drive)又はHDD(Hard Disk Drive)の少なくとも一方を含む。記憶部26には、アプリケーションプログラム26aが記憶されている。位置情報センサ27は、例えば、GPS(Global Positioning System)センサである。
3A is a block diagram showing the configuration of the first recoverer terminal 20. FIG. As shown in FIG. 3A, the first recoverer terminal 20 includes a control unit 21, an operation unit 22, a display unit 23, a communication unit 24, an imaging unit 25, a storage unit 26, and a position information sensor 27. ,including. The control unit 21 includes a processor that executes control processing by executing a program. Then, the control unit 21 executes each control process of the first recovery person terminal 20 . Also, the operation unit 22 is a user interface such as a keyboard, mouse, and touch panel. The display unit 23 is, for example, a liquid crystal display or an organic EL display. Moreover, when the display unit 23 is configured as a touch panel, the touch panel may serve as both the operation unit 22 and the display unit 23 . The communication unit 24 is a communication interface and is connected to the network N. The photographing unit 25 is a camera that photographs the absorbing member 61 and the QR code (registered trademark) 61 a attached to the absorbing member 61 . The storage unit 26 includes, for example, at least one of an SSD (Solid State Drive) and an HDD (Hard Disk Drive). The storage unit 26 stores an application program 26a. The position information sensor 27 is, for example, a GPS (Global Positioning System) sensor.
図3Bは、第2回収者端末120の構成を示すブロック図である。図3Bに示すように、第2回収者端末120は、制御部121と、操作部122と、表示部123と、通信部124と、撮影部125と、記憶部126とを含む。そして、制御部121は、第2回収者端末120の各制御処理を実行する。制御部121と、操作部122と、表示部123と、通信部124と、撮影部125と、記憶部126とは、制御部21と、操作部22と、表示部23と、通信部24と、撮影部25と、記憶部26と同様の構成であるため、説明を省略する。
FIG. 3B is a block diagram showing the configuration of the second recoverer terminal 120. As shown in FIG. As shown in FIG. 3B, the second recovery person terminal 120 includes a control unit 121, an operation unit 122, a display unit 123, a communication unit 124, an imaging unit 125, and a storage unit 126. Then, the control section 121 executes each control process of the second collection party terminal 120 . Control unit 121 , operation unit 122 , display unit 123 , communication unit 124 , imaging unit 125 , storage unit 126 , control unit 21 , operation unit 22 , display unit 23 , communication unit 24 , the photographing unit 25 and the storage unit 26, the description thereof will be omitted.
図4Aは、第1回収者端末20の表示部23に表示される会員登録画面(前半)の例を説明するための図である。図4Aに示すように、アプリケーションプログラム26aが初めて制御部21により起動されると、会員登録画面が表示される。会員登録画面が表示されると、撮影部25による撮影が開始される。表示部23には、QRコード61aの画像が表示される。また、表示部23には、例えば、「QRコードが写るように撮影してください」、「あなたの位置情報が送信されます」等のメッセージ、及び撮影を実行させるためのボタンが表示される。第1回収者端末20は、撮影が実行されると、QRコード61aに記憶された情報と、第1回収者端末20の識別情報と、第1回収者端末20の位置情報とを、サーバ装置10に送信する。サーバ装置10は、QRコード61aに記憶された情報と、第1回収者端末20の識別情報と、第1回収者端末20の位置情報とを関連付けたユーザIDを新たに発行し、データベース12bに記憶する。なお、会員登録は、上記の方法以外に、当段落の上記の情報が記入された登録用紙を管理者へ送付(郵送または電子メール等)で行うこともでき、その場合は、後述する図4Cに示す処理において、管理者端末50から、会員番号(QRコード23aなど)が第1回収者端末20に送信されるか、郵送でQRコード23aが記載されたステッカーが第1回収者に送付される。
FIG. 4A is a diagram for explaining an example of the member registration screen (first half) displayed on the display unit 23 of the first recoverer terminal 20. FIG. As shown in FIG. 4A, when the application program 26a is started by the control unit 21 for the first time, a member registration screen is displayed. When the member registration screen is displayed, photographing by the photographing unit 25 is started. The display unit 23 displays an image of the QR code 61a. The display unit 23 also displays messages such as "Please take a picture so that the QR code appears", "Your location information will be sent", and a button for executing the shooting. When the image is captured, the first recovery party terminal 20 sends the information stored in the QR code 61a, the identification information of the first recovery party terminal 20, and the location information of the first recovery party terminal 20 to the server device. Send to 10. The server device 10 newly issues a user ID that associates the information stored in the QR code 61a, the identification information of the first recovery party terminal 20, and the location information of the first recovery party terminal 20, and stores it in the database 12b. Remember. In addition to the above method, member registration can also be performed by sending a registration form in which the above information in this paragraph is filled in to the administrator (by mail or e-mail, etc.). 2, the member number (QR code 23a, etc.) is sent from the manager terminal 50 to the first recovery person terminal 20, or a sticker with the QR code 23a is sent to the first recovery person by mail. be.
また、図4Bは、第1回収者端末20の表示部23に表示される会員登録画面(後半)の例を説明するための図である。図4Bに示すように、表示部23には、ユーザ自身の氏名又は名称、ユーザの属性(自身が所属する企業・団体、所在地など)の情報、及び他者情報取得権限の情報を入力するための会員登録画面が表示される。そして、第1回収者端末20に第1回収者が入力し、入力された情報は、第1回収者端末20からサーバ装置10に送信される。ここで、第一回収者は、上記したように、個人、企業、任意の団体や組織が挙げられるが、企業の場合、各支店、各営業所の回収実績(回収量)などの情報を本部が確認したい場合がある。また、企業に関わらず任意の団体や組織が、他社の回収量を把握しながら、温暖化対策を啓蒙し二酸化炭素を回収する場合がある。そこで、第1回収者は、他者情報取得権限の情報を入力することにより、第1回収者に対する他者情報取得権限の付与を、サーバ装置10に要求することができる。「会員」とは、システム100に自身の氏名又は名称、及び自身の属性等を登録したユーザである。なお、第1回収者が会員登録しない状態でも、後述する図4Dの場面に進み、第2回収者によって第1回収者から吸収部材61が回収されてもよい。「他者情報取得権限」とは、データベース12b内の自身が権限を有する他のユーザIDに関連付けられた情報にアクセス(閲覧)できる権利を意味する。
Also, FIG. 4B is a diagram for explaining an example of the member registration screen (second half) displayed on the display unit 23 of the first collection person terminal 20. As shown in FIG. As shown in FIG. 4B, the display unit 23 is used for inputting the user's own name or name, information on the user's attributes (company/organization to which the user belongs, location, etc.), and information on the authority to acquire other information. member registration screen is displayed. The first recovery person inputs the information to the first recovery person terminal 20 , and the input information is transmitted from the first recovery person terminal 20 to the server device 10 . Here, as mentioned above, the first collection party can be an individual, a company, or any group or organization. may want to check. In addition, there are cases in which an arbitrary group or organization, regardless of a company, collects carbon dioxide while grasping the amount collected by other companies, enlightening global warming countermeasures. Therefore, the first recovery person can request the server device 10 to grant the first recovery person the right to acquire other person's information by inputting the information of the other person's information acquisition right. A “member” is a user who has registered his or her name and his or her attributes with the system 100 . Even if the first recovery person does not register as a member, the second recovery person may collect the absorbent member 61 from the first recovery person by proceeding to the scene shown in FIG. 4D described later. "Other information acquisition authority" means the right to access (view) information associated with other user IDs for which the user has authority in the database 12b.
図4Cは、第1回収者端末20の表示部23に表示されるユーザID通知画面の例を説明するための図である。サーバ装置10は、第1回収者端末20から会員登録画面において撮影及び入力された情報を取得し、ユーザIDを新たに発行する。そして、サーバ装置10は、第1回収者端末20にユーザIDが記憶されたQRコード23aを第1回収者端末20に送信する。第1回収者端末20は、QRコード23aを受信すると、図4Cに示すように、表示部23にQRコード23aを表示させる。QRコード23aは、バーコードであってもよいし、数字として表示されるものであってもよい。また、サーバ装置10は、第1回収者端末20(例えば、「個人A」)から他者情報取得権限の情報を受信した場合(例えば、AがA自身が所属する組織団体Bの情報を閲覧したい場合)、組織団体Bの端末に、承認を求める通知等を行う。そして、サーバ装置10は、組織団体Bの端末から、承認する旨の回答を得た場合、個人Aの第1回収者端末20からは、データベース12bに記憶された第1回収者(個人A)の情報(回収量の情報など)と、データベース12bに記憶された組織団体Bの情報とが閲覧できるように制御する。また、サーバ装置10は、組織団体Bの端末からデータベース12bに記憶された個人Aの情報(回収量の情報など)を閲覧できるように制御する。上記の承認の手続きは、上記のように会員登録時に行われてもよいし、会員登録後に行われてもよい。また、ユーザ本人がデータベース12bに記憶された自身の情報を公表することを承認している場合は、全ての他のユーザが当該情報にアクセスすることができる。例えば、ユーザ自身が所属する組織以外のその他の団体や組織、及び個人の回収量については、当該ユーザは、公表することを承認した組織、団体、個人の情報の閲覧が可能となる。また、公表することを承認した組織、団体、個人の情報は、当該システム上とは別に、ウェブサイト上に公開されてもよい。そして、図4Cに示すように、例えば、表示部23に「あなたは、『○○株式会社』に所属するユーザの情報を閲覧することができます」等のメッセージが表示される。そして、第1回収者は、データベース12b内において、「○○株式会社」に所属するユーザIDに関連付けられた情報にアクセスすることができる。また、承認が拒否されると、例えば、表示部23に「承認が拒否されました。あなたは、『○○株式会社』に所属するユーザの情報を閲覧することはできません」等のメッセージが表示される。
FIG. 4C is a diagram for explaining an example of a user ID notification screen displayed on the display unit 23 of the first recoverer terminal 20. FIG. The server device 10 acquires the information photographed and input on the member registration screen from the first collection person terminal 20, and newly issues a user ID. Then, the server device 10 transmits to the first collection party terminal 20 the QR code 23a in which the user ID is stored. When receiving the QR code 23a, the first recoverer terminal 20 causes the display unit 23 to display the QR code 23a as shown in FIG. 4C. The QR code 23a may be a bar code or may be displayed as numbers. In addition, when the server device 10 receives the information of the authority to acquire the information of others from the first collector terminal 20 (for example, “individual A”) (for example, when A browses the information of the organization B to which A belongs to), the server device 10 If you want to do so), send a notification requesting approval to the terminal of organization B. Then, when the server device 10 receives a response to the effect of approval from the terminal of the organization B, the first recovery person (individual A) stored in the database 12b is sent from the first recovery person terminal 20 of the person A. (such as information on the amount collected) and information on the organization B stored in the database 12b can be viewed. In addition, the server device 10 controls so that the terminal of the organization B can browse the information of the individual A stored in the database 12b (information on the collection amount, etc.). The approval procedure may be performed at the time of member registration as described above, or may be performed after member registration. Also, if the user himself has authorized the publication of his information stored in database 12b, all other users can access the information. For example, with regard to collection amounts of groups, organizations, and individuals other than the organization to which the user himself/herself belongs, the user can view the information of the organizations, groups, and individuals whose disclosure has been approved. In addition, the information of organizations, groups, and individuals that have been approved to be disclosed may be disclosed on the website separately from the system. Then, as shown in FIG. 4C, for example, a message such as "You can browse the information of users belonging to '○○ Corporation'" is displayed on the display unit 23 . Then, the first collection person can access the information associated with the user ID belonging to "XX Corporation" in the database 12b. Further, when the approval is rejected, for example, a message such as "Approval has been rejected. You cannot view the information of users who belong to '○○ Co., Ltd.'" is displayed on the display unit 23. be done.
図4Dは、第2回収者端末120の表示部123に表示される画面の例を説明するための図である。第2回収者が吸収部材61を回収する際に、第2回収者端末120のアプリケーションプログラム26aを起動させ、撮影部125による撮影が開始される。図4Dに示すように、表示部123には、撮影部125により撮影された吸収部材61の画像、QRコード61aの画像、広告QRコード61d、及び第1回収者端末20の表示部23内のQRコード23aが表示される。また、表示部123には、例えば、「全体とQRコードが写るように撮影してください」等のメッセージ、第1回収者のユーザID、後述する飽和率、吸収部材61内の二酸化炭素の重量、広告主、及び撮影を実行させるためのボタンが表示される。なお、図4Dでは、吸収部材61、QRコード23a、QRコード61a及び広告QRコード61dが、1度に撮影される例を示しているが、これらが別々に撮影されてもよい。また、上記の例に限られず、定期的に第1回収者は、第2回収者に吸収部材61を渡し、第2回収者から吸収部材61を取得した中間保管者が中間保管者端末30により、吸収部材61の重さや吸収部材61の色彩の変化などの情報を取得し、当該情報をサーバ装置10に送信してもよいし、第2回収者又は中間保管者から吸収部材61を取得した貯蔵者が貯蔵者端末40により、吸収部材61の重さや吸収部材61の色彩の変化などの情報を取得し、当該情報をサーバ装置10に送信してもよい。また、第1回収者は、吸収部材61を第2回収者に直接引き渡すことに限られず、所定の回収場所(例えば、ゴミ捨て場)に、任意の時に吸収部材61を置き、第2回収者が所定の回収場所に置かれた吸収部材61を回収してもよい。この場合、サーバ装置10は、データベース12bを参照し、吸収部材61のQRコード61aに関連付けられたユーザIDを有する第1回収者が、第2回収者に引き渡したものとして、後述する第1回収者の合計量(図16A参照)に二酸化炭素を回収量を加算する。また、第1回収者は、吸収部材61に自身のユーザIDが記憶されたQRコード23aが記載されたステッカを貼った状態で、当該吸収部材61を第2回収者に渡してもよいし、第1回収者がユーザIDを口頭で第2回収者に伝えてもよいし、第1回収者がユーザIDを紙に記載したものを第2回収者に渡してもよい。この場合、第2回収者は、第2回収者端末120に、第1回収者のユーザIDを入力し、ユーザIDをサーバ装置10に送信する。
FIG. 4D is a diagram for explaining an example of a screen displayed on the display unit 123 of the second recoverer terminal 120. FIG. When the second collector collects the absorbent member 61, the application program 26a of the second collector terminal 120 is activated, and the photographing unit 125 starts photographing. As shown in FIG. 4D, the display unit 123 displays the image of the absorbent member 61 photographed by the photographing unit 125, the image of the QR code 61a, the advertisement QR code 61d, and the A QR code 23a is displayed. In addition, the display unit 123 displays, for example, a message such as "Please take a picture so that the whole image and the QR code can be seen", the user ID of the first recoverer, the saturation rate described later, the weight of carbon dioxide in the absorbing member 61 , advertisers, and a button for taking a picture are displayed. Note that FIG. 4D shows an example in which the absorbing member 61, the QR code 23a, the QR code 61a, and the advertisement QR code 61d are photographed at once, but these may be photographed separately. Also, not limited to the above example, the first recovery person periodically hands over the absorbent member 61 to the second recovery person, and the intermediate storage person who has acquired the absorption member 61 from the second recovery person uses the intermediate storage person terminal 30 , information such as the weight of the absorbent member 61 and change in the color of the absorbent member 61 may be acquired and the information may be transmitted to the server device 10, or the absorbent member 61 may be acquired from the second recovery person or the intermediate storage person. The storer may acquire information such as the weight of the absorbent member 61 and the change in color of the absorbent member 61 from the storer terminal 40 and transmit the information to the server device 10 . Further, the first recoverer is not limited to handing over the absorbent member 61 directly to the second recoverer, but rather places the absorbent member 61 at a predetermined collection location (for example, a garbage disposal site) at any time, may recover the absorbent member 61 placed at a predetermined recovery location. In this case, the server device 10 refers to the database 12b, and assumes that the first collection person having the user ID associated with the QR code 61a of the absorbent member 61 has handed over the second collection person. Add the amount of carbon dioxide recovered to the total amount of the person (see FIG. 16A). In addition, the first recoverer may hand over the absorbent member 61 to the second recoverer with a sticker on which the QR code 23a in which the user ID of the first recoverer is written is affixed to the absorbent member 61, The first recovery person may orally convey the user ID to the second recovery person, or the first recovery person may write down the user ID on paper and give it to the second recovery person. In this case, the second recovery person inputs the user ID of the first recovery person into the second recovery person terminal 120 and transmits the user ID to the server device 10 .
図4Eは、第1回収者端末20の表示部123に表示される画面の例を説明するための図である。上記のように、第2回収者による吸収部材61の回収に、第1回収者が同席しない場合には、図4Eに示すように、第1回収者は、二酸化炭素の回収が終了して吸収部材61を引き渡す時に、第1回収者端末20により、吸収部材61の吸収部材情報を読み取り、第1回収者端末20からサーバ装置10に送信する。この時点で、データベース12bにおいて、吸収部材61に添付されているQRコード61a(識別情報)と関連付けられている飽和度や重量の情報が更新若しくは書き加えが行われる。データベース12b上のデータが更新された状態で、第1回収者が、中間保管場所に自ら届けたり、第2回収者に引き渡せば、中間保管者又は第2回収者の手間が省ける。
FIG. 4E is a diagram for explaining an example of a screen displayed on the display unit 123 of the first recoverer terminal 20. FIG. As described above, when the first recoverer does not attend the recovery of the absorbent member 61 by the second recoverer, as shown in FIG. When the member 61 is handed over, the first recoverer terminal 20 reads the absorbent member information of the absorbent member 61 and transmits the information from the first recoverer terminal 20 to the server device 10 . At this point, information on the degree of saturation and weight associated with the QR code 61a (identification information) attached to the absorbent member 61 is updated or added in the database 12b. If the first recoverer delivers the data to the intermediate storage location or hands it over to the second recoverer in a state in which the data on the database 12b has been updated, the work of the intermediate storage person or the second recoverer can be saved.
図5Aは、吸収部材61の構成と色彩の変化について説明するための図である。図5Aに示すように、吸収部材61は、例えば、吸収した二酸化炭素の量に応じて色彩が変化するように構成されている。吸収部材61は、例えば、水酸化カルシウム系の吸収部材であり、二酸化炭素を吸収すると「白色」から「赤色、紫色、又はピンク色」に変わる。また、吸収部材61として、二酸化炭素を吸収すると「赤又は紫色」から「白色又はピンク色」に変わるものが用いられてもよいし、上記以外の色彩に変化するものが用いられてもよい。また、吸収部材61への二酸化炭素の吸着方法は、水酸化カルシウム系に代表される化学反応を利用した吸着方法に限られず、ゼオライト等の鉱物系に代表される多孔質素材を利用した二酸化炭素の捕集方法であってもよいし、中空糸膜等を利用した二酸化炭素の補修方法であってもよいし、その他の方法であってもよい。なお、化学反応系は、個体(紛体)にて二酸化炭素を回収できるため、他の方法に比べて効率良く二酸化炭素を回収し貯蔵することができる。
FIG. 5A is a diagram for explaining the configuration and color change of the absorbing member 61. FIG. As shown in FIG. 5A, the absorbing member 61 is configured to change color depending on the amount of carbon dioxide absorbed, for example. The absorbing member 61 is, for example, a calcium hydroxide-based absorbing member, and changes from "white" to "red, purple, or pink" when carbon dioxide is absorbed. Also, as the absorbing member 61, a material that changes from "red or purple" to "white or pink" when carbon dioxide is absorbed may be used, or a material that changes to a color other than the above may be used. In addition, the method of adsorbing carbon dioxide to the absorbing member 61 is not limited to the adsorption method using a chemical reaction represented by calcium hydroxide. It may be a collection method, a carbon dioxide repair method using a hollow fiber membrane or the like, or other methods. In addition, since the chemical reaction system can recover carbon dioxide as a solid (powder), carbon dioxide can be recovered and stored more efficiently than other methods.
また、アプリケーションプログラム26aは、サンプルの吸収部材61の画像に二酸化炭素の吸収の飽和度が関連付けられたデータ又はモデルを含む。これにより、図4Dに示すように、制御部121は、撮影した吸収部材61の画像(例えば、色彩)から、吸収の飽和度(飽和率)を決定する。飽和率とは、吸収部材61が吸収可能な二酸化炭素の量に対する既に吸収した二酸化炭素の量の割合である。例えば、図4Dに示すように、表示部123に決定(推定)された飽和率が表示される。なお、「吸収の飽和度」は飽和率に限定されない。吸収の飽和度を、2値またはそれ以上の個数の値で表される離散値で示しても良い。吸収の飽和度を2値で表す場合、吸収部材61が飽和しておりこれ以上二酸化炭素を吸収できない状態を例えば「0」、まだ二酸化炭素を吸収可能な状態を例えば「1」としても良い。あるいは、吸収の飽和度を、例えば、「吸収部材61が飽和しておりこれ以上二酸化炭素を吸収できない状態」、「吸収部材61が二酸化炭素を吸収する能力が半分以下になった状態」、「吸収部材61が二酸化炭素を吸収する能力が半分以上残っている場合」のように3段階に以上に分け、それぞれの段階を固有の数値で表しても良い。また、このような場合に、ユーザが理解しやすいように、制御部121が、吸収の飽和度を「×」、「△」、および「○」のようなグラフィック記号に置換して表示部123に表示させるようにしても良い。
The application program 26a also includes data or a model in which the image of the sample absorbent member 61 is associated with the saturation of carbon dioxide absorption. As a result, as shown in FIG. 4D, the control unit 121 determines the absorption saturation (saturation rate) from the photographed image (for example, color) of the absorbing member 61 . The saturation rate is the ratio of the amount of carbon dioxide that has already been absorbed to the amount of carbon dioxide that the absorption member 61 can absorb. For example, as shown in FIG. 4D, the determined (estimated) saturation rate is displayed on the display unit 123 . Note that the "saturation of absorption" is not limited to the saturation rate. Absorption saturation may be represented by a discrete value represented by two or more values. When the degree of saturation of absorption is represented by a binary value, for example, a state in which the absorption member 61 is saturated and cannot absorb carbon dioxide any more may be set to "0", and a state in which carbon dioxide can still be absorbed may be set to, for example, "1". Alternatively, the degree of saturation of absorption may be, for example, "a state in which the absorbing member 61 is saturated and cannot absorb carbon dioxide any more", "a state in which the absorbing member 61 has reduced its ability to absorb carbon dioxide to less than half", or " The absorption member 61 may be divided into three or more stages, such as when the absorption member 61 has more than half of the carbon dioxide absorption capacity remaining, and each stage may be represented by a specific numerical value. In such a case, the controller 121 replaces the saturation of absorption with graphic symbols such as “x”, “Δ”, and “○” so that the display unit 123 can easily understand the degree of absorption. You may make it display to .
また、制御部121は、表示部123に、吸収の飽和度(飽和率)から算出した吸収部材61内の二酸化炭素の重量を表示させる。例えば、吸収部材61が24.64gの二酸化炭素を吸収することが可能な場合、制御部121は、23.64gに飽和率76%を乗算し、二酸化炭素の重量を約18gと算出する。吸収部材61が吸収可能な二酸化炭素の量は、QRコード61aの情報(例えば、品番)と関連付けられてアプリケーションプログラム26aに予め記憶されていてもよい。この場合、制御部121は、吸収部材61が吸収可能な二酸化炭素の量を読み出して、二酸化炭素の重量を算出する。また、吸収部材61が吸収可能な二酸化炭素の量がアプリケーションプログラム26aに予め記憶されていない場合は、制御部121は、QRコード61aの情報(例えば、品番)に基づいて、データベース12b(図13参照)から吸収部材61が吸収可能な二酸化炭素の量を読み出してもよい。なお、上記の二酸化炭素の重量の算出は、サーバ装置10の制御部11により実行されてもよい。また、第2回収者端末120が、吸収の飽和度を算出する例を示したが、第1回収者端末20、中間保管者端末30、貯蔵者端末40、及び二酸化炭素回収機60の少なくとも1つが、吸収の飽和度を算出可能に構成されてもよいし、別途吸収の飽和度を算出するための専用の計測器が準備されてもよい。
Further, the control unit 121 causes the display unit 123 to display the weight of carbon dioxide in the absorbing member 61 calculated from the degree of absorption saturation (saturation rate). For example, when the absorption member 61 can absorb 24.64 g of carbon dioxide, the controller 121 multiplies 23.64 g by the saturation rate of 76% to calculate the weight of carbon dioxide to be approximately 18 g. The amount of carbon dioxide that the absorption member 61 can absorb may be associated with the information (for example, product number) of the QR code 61a and stored in advance in the application program 26a. In this case, the control unit 121 reads the amount of carbon dioxide that can be absorbed by the absorbing member 61 and calculates the weight of carbon dioxide. If the amount of carbon dioxide that can be absorbed by the absorbing member 61 is not stored in advance in the application program 26a, the control unit 121 stores data in the database 12b (see FIG. 13) based on the information (for example, product number) of the QR code 61a. ), the amount of carbon dioxide that can be absorbed by the absorbing member 61 may be read out. Note that the above calculation of the weight of carbon dioxide may be performed by the control unit 11 of the server device 10 . Also, although an example in which the second recovery party terminal 120 calculates the saturation of absorption has been shown, at least one of the first recovery party terminal 20, the intermediate storage party terminal 30, the storage party terminal 40, and the carbon dioxide recovery machine 60 One may be configured to be able to calculate the saturation of absorption, or a dedicated measuring instrument for calculating the saturation of absorption may be separately prepared.
また、制御部121は、表示部123に、広告主の情報を表示する。広告主の情報は、広告QRコード61dの情報(例えば、後述する広告番号)と関連付けられてアプリケーションプログラム26aに予め記憶されていてもよい。この場合、制御部121は、広告主の情報を読み出して、表示部123に広告主の情報を表示する。また、吸収部材61が広告主の情報がアプリケーションプログラム26aに予め記憶されていない場合は、制御部121は、広告QRコード61dの情報(広告番号)に基づいて、データベース12b(図16A参照)から広告主の情報を読み出してもよい。
Also, the control unit 121 displays the advertiser's information on the display unit 123 . The advertiser's information may be stored in advance in the application program 26a in association with the information of the advertisement QR code 61d (for example, an advertisement number to be described later). In this case, control unit 121 reads advertiser information and displays the advertiser information on display unit 123 . In addition, when the information of the advertiser of the absorbing member 61 is not stored in advance in the application program 26a, the control unit 121 selects the information (advertisement number) from the database 12b (see FIG. 16A) based on the information (advertisement number) of the advertisement QR code 61d. Advertiser information may be retrieved.
QRコード61aは、吸収部材61の識別情報が固定されている識別符号である。広告QRコード61dは、広告主を識別するための番号(広告番号)が固定されている識別符号である。吸収部材61に付された識別符号の例として、QRコード61a及び広告QRコード61dを挙げたが、バーコードであってもよいし、吸収部材61の品番、吸収部材61が回収可能な二酸化炭素の量、シリアル番号、広告主の情報が数字、文字又は記号により表示されていてもよい。制御部21は、撮影したQRコード61a及び広告QRコード61dから上記の各情報を読み取る。そして、第1回収者端末20は、QRコード61a及び広告QRコード61dから読み取った情報を含む吸収部材情報を、サーバ装置10に送信する。また、第1回収者端末20は、飽和率、及び広告番号を吸収部材情報に含めて、当該吸収部材情報をサーバ装置10に送信してもよい。なお、第1回収者端末20は、複数の吸収部材61を同時に撮影した場合は、吸収部材61の数を、サーバ装置10に送信する。また、第1回収者端末20は、ユーザID、及びユーザ属性情報を、吸収部材情報とともに、サーバ装置10に送信する。「ユーザ属性情報」には、ユーザが「第1回収者」、「中間保管者」、及び「貯蔵者」のいずれであるかを示す情報、ユーザが所属する企業、又は団体の情報、及びユーザの住所・国籍の情報などが含まれる。なお、各第1回収者、各中間保管者、及び各貯蔵者は、データベース12bにユーザIDが登録(会員登録)されている。また、QRコード61aを読み取ることにより、吸収部材61から情報を容易に取得することができる。この結果、第2回収者端末120に吸収部材情報を入力する第2回収者の作業負担を軽減することができる。
The QR code 61a is an identification code to which the identification information of the absorbing member 61 is fixed. The advertisement QR code 61d is an identification code having a fixed number (advertisement number) for identifying an advertiser. Although the QR code 61a and the advertisement QR code 61d are given as examples of the identification code attached to the absorbing member 61, it may be a barcode, the product number of the absorbing member 61, and the carbon dioxide that the absorbing member 61 can recover. quantity, serial number, and advertiser information may be indicated by numbers, letters, or symbols. The control unit 21 reads the above information from the captured QR code 61a and the advertisement QR code 61d. Then, the first recovery person terminal 20 transmits to the server device 10 absorbent member information including information read from the QR code 61a and the advertisement QR code 61d. Also, the first recovery person terminal 20 may include the saturation rate and the advertisement number in the absorbent member information and transmit the absorbent member information to the server device 10 . It should be noted that the first recoverer terminal 20 transmits the number of absorbent members 61 to the server device 10 when a plurality of absorbent members 61 are photographed at the same time. Also, the first recoverer terminal 20 transmits the user ID and user attribute information to the server device 10 together with the absorbent member information. "User attribute information" includes information indicating whether the user is a "first collector", "intermediate storage person", or "repositor", information on the company or organization to which the user belongs, and information on the user's This includes information such as the address and nationality of User IDs of each first collection person, each intermediate storage person, and each storage person are registered (membership registration) in the database 12b. Information can be easily obtained from the absorbing member 61 by reading the QR code 61a. As a result, it is possible to reduce the workload of the second recoverer who inputs the absorbent member information to the second recoverer's terminal 120 .
図5Aに示すように、QRコード61aは、吸収部材61内において、吸収部材61が開封されない状態では読取できない位置で、かつ、吸収部材61が開封された状態で読取可能な位置に付されている。例えば、図5Aに示すように、QRコード61aは、吸収部材61の外袋61bによって覆われた位置に付されている。これにより、吸収部材61が外袋61bから取り出されると、QRコード61aが露出する。また、吸収部材61は、外袋61b内に配置された状態では外気に触れず、外袋61bから取り出された状態で外気に触れ、二酸化炭素の吸収を開始する。また、外袋61b及び吸収部材61には、広告61cが貼付されていている。なお、図5Aでは、外袋61b及び吸収部材61の両方に広告61cが貼付されている例を示したが、外袋61b及び吸収部材61のいずれか一方のみに広告61cが貼付されていてもよいし、外袋61b及び吸収部材61の両方に広告61cが貼付されていなくてもよい。また、吸収部材61には、広告61cの広告主を識別するための上記した広告QRコード61dが貼付されている。このように、吸収部材61に広告が付されることにより、広告主からの広告費が吸収部材61の販売者に提供される。この結果、第1回収者は、吸収部材61の購入費の軽減や、場合によっては吸収部材61の代金を無料にすることができる。
As shown in FIG. 5A, the QR code 61a is attached in the absorbent member 61 at a position where it cannot be read when the absorbent member 61 is unopened and at a position where it can be read when the absorbent member 61 is opened. there is For example, as shown in FIG. 5A, the QR code 61a is attached to the absorbent member 61 at a position covered by the outer bag 61b. Thus, when the absorbent member 61 is removed from the outer bag 61b, the QR code 61a is exposed. Also, the absorbing member 61 does not come into contact with the outside air when placed inside the outer bag 61b, but comes into contact with the outside air when removed from the outer bag 61b, and starts absorbing carbon dioxide. An advertisement 61c is attached to the outer bag 61b and the absorbent member 61. As shown in FIG. Although FIG. 5A shows an example in which the advertisement 61c is attached to both the outer bag 61b and the absorbent member 61, the advertisement 61c may be attached to only one of the outer bag 61b and the absorbent member 61. Alternatively, the advertisement 61c may not be attached to both the outer bag 61b and the absorbent member 61. Moreover, the above-described advertisement QR code 61d for identifying the advertiser of the advertisement 61c is attached to the absorbing member 61. As shown in FIG. In this way, by attaching an advertisement to the absorbent member 61 , the advertisement fee from the advertiser is provided to the seller of the absorbent member 61 . As a result, the first recoverer can reduce the purchase cost of the absorbent member 61, and in some cases, the absorbent member 61 can be made free of charge.
図3Aに示すように、吸収部材61は、二酸化炭素回収機60に配置されている。二酸化炭素回収機60は、例えば、自動販売機等の冷蔵装置、空気洗浄機(クリーナ)、除湿機、加湿機、換気装置、及びエアーコンディショナー等の空調装置として構成されている。また、二酸化炭素回収機60は、空調装置に限られず、ボイラー、焼却炉、ガスレンジ等の調理器具、加工機、火力発電機、風力発電機、地熱発電機、太陽光発電機、その他機械類として構成されてもよいし、自販機、冷蔵庫、自動車・バイク・電車等、移動体のエアインテークやエアダクトに吸収部材61が取り付けられたものであってもよいし、電柱、郵便ポスト、ガスメーター、水道メーター、家具、時計、照明、壁、天井、床等に吸収部材61(吸収部材61を含む機器)が取り付けられたものでもよい。例えば、二酸化炭素回収機60を、火力発電機として構成すれば、二酸化炭素を効率よく回収できる。これと同様に、二酸化炭素回収機60を、その他の発電機も含め、発電機として構成する(発電機の内部に二酸化炭素回収機60を配置する)ことで、二酸化炭素回収機60の稼働時に必要な電力も発電機により賄うことが可能になる。
As shown in FIG. 3A, the absorbing member 61 is arranged in the carbon dioxide recovery machine 60. As shown in FIG. The carbon dioxide collector 60 is configured as, for example, a refrigerator such as a vending machine, an air washer (cleaner), a dehumidifier, a humidifier, a ventilator, and an air conditioner such as an air conditioner. In addition, the carbon dioxide capture device 60 is not limited to an air conditioner, but may be a boiler, an incinerator, a cooker such as a gas range, a processing machine, a thermal power generator, a wind power generator, a geothermal power generator, a solar power generator, or other machinery. , the absorption member 61 may be attached to the air intake or air duct of a moving body such as a vending machine, a refrigerator, an automobile, a motorcycle, a train, etc., or may be a utility pole, a postbox, a gas meter, or a water supply. Meters, furniture, clocks, lighting, walls, ceilings, floors, and the like may be provided with the absorbing member 61 (equipment including the absorbing member 61). For example, if the carbon dioxide recovery machine 60 is configured as a thermal power generator, carbon dioxide can be efficiently recovered. Similarly, by configuring the carbon dioxide recovery machine 60 as a power generator including other power generators (locating the carbon dioxide recovery machine 60 inside the power generator), when the carbon dioxide recovery machine 60 is in operation, The necessary electric power can also be covered by the generator.
吸収部材61は、例えば、空気を通過させるフィルタとして構成されている。吸収部材61は、これに限られず、吸着剤(フィルター)が載置された状態で配置されてもよいし、携帯型であってもよいし、マスク等のように身につけるものであってもよいし、吸着剤(フィルター)に空気を送り込む(吸着器)であってもよいし、吸着剤(フィルター)を通して空気を吸い出すもの(吸着器)であってもよい。
The absorbing member 61 is configured as, for example, a filter that allows air to pass through. The absorbent member 61 is not limited to this, and may be arranged in a state where an adsorbent (filter) is placed, may be portable, or may be worn like a mask. Alternatively, it may be a device (adsorber) that feeds air into an adsorbent (filter), or a device (adsorber) that sucks air through the adsorbent (filter).
二酸化炭素回収機60は、制御部62と、計測部63と、報知部64と、を含む。制御部62は、プログラムを実行することにより制御処理を実行するプロセッサを含む。そして、制御部62は、二酸化炭素回収機60の各制御処理を実行する。計測部63は、二酸化炭素回収機60の周囲の二酸化炭素濃度と、湿度を計測するセンサである。制御部62には、吸収部材61が吸収可能な二酸化炭素の量と、吸収部材61が交換された日時とが登録されている。例えば、第1回収者は、使用済みの吸収部材61が第2回収者により回収され、新たな吸収部材61を配置したときに、交換された日時を制御部62に登録する。また、制御部62には、二酸化炭素濃度と所定の期間当たりの二酸化炭素の吸収量とが関係付けられたデータが記憶されている。そして、制御部62は、上記データと、計測部63により計測された二酸化炭素濃度と湿度と、吸収部材61が吸収可能な二酸化炭素の量と、交換された日時とに基づいて、吸収部材61の吸収が飽和する時期を決定する。また、制御部62は、飽和する時期(予測飽和日)を、回収期間中の日々の二酸化炭素濃度と湿度とにより時期が都度変更され決定される。制御部62は、吸収部材61の吸収が飽和する時期(予測飽和日)を報知部64から出力する。
The carbon dioxide recovery machine 60 includes a control unit 62, a measurement unit 63, and a notification unit 64. The control unit 62 includes a processor that executes control processing by executing a program. Then, the control unit 62 executes each control process of the carbon dioxide recovery machine 60 . The measurement unit 63 is a sensor that measures the carbon dioxide concentration and humidity around the carbon dioxide recovery machine 60 . The amount of carbon dioxide that the absorbing member 61 can absorb and the date and time when the absorbing member 61 was replaced are registered in the control unit 62 . For example, when the used absorbent member 61 is collected by the second collector and a new absorbent member 61 is placed, the first collector registers the replacement date and time in the control unit 62 . The controller 62 also stores data in which the concentration of carbon dioxide is associated with the amount of carbon dioxide absorbed per predetermined period. Then, the control unit 62 controls the absorption member 61 based on the above data, the carbon dioxide concentration and humidity measured by the measurement unit 63, the amount of carbon dioxide that can be absorbed by the absorption member 61, and the date and time when the absorption member 61 was replaced. determines when the absorption of In addition, the control unit 62 determines the time of saturation (predicted saturation day) by changing the time each time according to the daily carbon dioxide concentration and humidity during the recovery period. The control unit 62 outputs from the reporting unit 64 the time when the absorption of the absorbing member 61 is saturated (predicted saturation date).
図5Bは、報知部64に表示される画面の例を説明するための図である。図5Bに示すように、報知部64は、例えば、ディスプレイとして構成されており、報知部64は、吸収部材61の吸収が飽和する時期を表示する。例えば、報知部64は、温度、湿度、及び二酸化炭素濃度と、これらそれぞれのグラフとが表示される。グラフは、例えば、1日分のデータ、又は1週間分のデータなど所定の期間のデータが表示されたものである。そして、制御部62は、報知部64(例えば、ディスプレイ)に、二酸化炭素回収機60の設置される場所、その時々の二酸化炭素濃度、湿度を計測して予測飽和日を修正し表示する。この予測飽和日において、第2回収者又は中間保管者が吸収部材61を回収したり、第1回収者が吸収部材61を第2回収者又は中間保管者に引き渡しても良い。
FIG. 5B is a diagram for explaining an example of a screen displayed on the notification unit 64. FIG. As shown in FIG. 5B, the notification unit 64 is configured as, for example, a display, and the notification unit 64 displays when the absorption of the absorbent member 61 is saturated. For example, the notification unit 64 displays temperature, humidity, carbon dioxide concentration, and their respective graphs. The graph is a display of data for a predetermined period such as data for one day or data for one week. Then, the control unit 62 measures the place where the carbon dioxide recovery machine 60 is installed, the carbon dioxide concentration at each time, and the humidity, and corrects and displays the predicted saturation date on the notification unit 64 (for example, display). On this predicted saturation date, the second collector or the intermediate custodian may collect the absorbent member 61, or the first collector may hand over the absorbent member 61 to the second fetcher or the intermediate custodian.
ここで、吸収部材61に有るQRコード61aと紐付けて測定された二酸化炭素の回収量(吸収の飽和度)のデータうち、サーバ装置10に最後に送信されたデータが最終の回収量(確定されたデータ)となる。例えば、第1回収者(X)が第2回収者(Y)に引き渡す前に回収量(飽和度など)を第1回収者端末20からサーバ装置10に送信し、データベース12bでは、Xによる測定値が二酸化炭素の回収量の暫定値となる。そして、第2回収者(Y)が飽和度など測定し、当該飽和度などのデータがサーバ装置10に送信されると、Xの測定値が暫定値から確定値になり、Xの回収量として加算される。Yはその時点の飽和度が低ければさらに回収を進めることができ、二酸化炭素の回収後、改めて飽和度のデータをサーバ装置10に送信すると、Yの回収量(Yの測定値から上記Xの確定値が減算されたもの)がデータベース12bに加算される。第2回収者(Y)は、中間保管者で有っても良いし、貯蔵者であっても良いし、第3の回収者で有っても良い。
Here, among the data on the carbon dioxide recovery amount (absorption saturation) measured in association with the QR code 61a on the absorption member 61, the last data transmitted to the server device 10 is the final recovery amount (determined data). For example, before the first collector (X) hands over to the second collector (Y), the first collector terminal 20 transmits the collection amount (saturation, etc.) to the server device 10, and in the database 12b, X measures The value is a provisional value for the amount of carbon dioxide recovered. Then, when the second collector (Y) measures the degree of saturation and the like, and the data of the degree of saturation and the like is transmitted to the server device 10, the measured value of X changes from the provisional value to the final value, and the amount of X collected is is added. Y can be collected further if the saturation level at that time is low. subtracted the fixed value) is added to the database 12b. The second collector (Y) may be an intermediate custodian, a stocker, or a third collector.
図6は、中間保管者が保管する吸収部材群161の模式図である。図6に示すように、中間保管者は、複数の第1回収者(第2回収者)から回収した複数の吸収部材61を1つの集合体として、吸収部材群161を作成する。吸収部材群161にはQRコード161aが貼り付けられている。QRコード161aには、吸収部材群161に含まれる各吸収部材61の吸収部材情報が固定されている。図7は、貯蔵者が貯蔵する吸収部材群261の模式図である。図7に示すように、貯蔵者は、複数の中間保管者から回収した複数の吸収部材群161を1つの集合体として、吸収部材群261を作成する。吸収部材群261にはQRコード261aが貼り付けられている。QRコード261aには、吸収部材群261に含まれる各吸収部材群161の情報が固定されている。あるいは、複数の第1回収者から回収した複数の吸収部材61から、内部の二酸化炭素吸着剤のみを取出して、二酸化炭素吸着剤からなる1つの集合体を形成し、吸収部材群161を作成してもよい。吸収部材群161にはQRコード161aが貼り付けられている。すなわち、二酸化炭素吸着剤が、水酸化カルシウム系の吸着剤である場合、紛体で回収できるため、二酸化炭素を吸着した紛体のみを取出し、新たに貯蔵用の容器に詰め替える事で、吸収部材群161を作成することができる。
FIG. 6 is a schematic diagram of the absorbent member group 161 stored by the intermediate storage person. As shown in FIG. 6, the intermediate storage person creates an absorbent member group 161 by assembling a plurality of absorbent members 61 collected from a plurality of first collectors (second collectors). A QR code 161 a is attached to the absorbing member group 161 . Absorption member information of each absorption member 61 included in the absorption member group 161 is fixed to the QR code 161a. FIG. 7 is a schematic diagram of an absorbent member group 261 stored by a storer. As shown in FIG. 7, the storer creates an absorbent member group 261 by assembling a plurality of absorbent member groups 161 collected from a plurality of intermediate storage providers. A QR code 261 a is attached to the absorbing member group 261 . Information of each absorbing member group 161 included in the absorbing member group 261 is fixed to the QR code 261a. Alternatively, only the carbon dioxide adsorbent inside is taken out from a plurality of absorbent members 61 collected from a plurality of first recoverers to form one aggregate of carbon dioxide adsorbents to create an absorbent member group 161. may A QR code 161 a is attached to the absorbing member group 161 . That is, when the carbon dioxide adsorbent is a calcium hydroxide-based adsorbent, it can be recovered in the form of powder. can be created.
図8は、中間保管者端末30の構成を示すブロック図である。図8に示すように、中間保管者端末30は、制御部31と、操作部32と、表示部33と、通信部34と、撮影部35と、を含む。制御部31は、プログラムを実行することにより制御処理を実行するプロセッサを含む。そして、制御部31は、中間保管者端末30の各制御処理を実行する。また、操作部32、表示部33、通信部34、及び撮影部35は、それぞれ、操作部22、表示部23、通信部24、及び撮影部25と同様であるため、説明を省略する。
FIG. 8 is a block diagram showing the configuration of the intermediate depositor terminal 30. As shown in FIG. As shown in FIG. 8 , the intermediate depositor terminal 30 includes a control section 31 , an operation section 32 , a display section 33 , a communication section 34 and an imaging section 35 . The control unit 31 includes a processor that executes control processing by executing a program. Then, the control unit 31 executes each control process of the intermediate storage person terminal 30 . Also, the operation unit 32, the display unit 33, the communication unit 34, and the photographing unit 35 are the same as the operation unit 22, the display unit 23, the communication unit 24, and the photographing unit 25, respectively, and thus the description thereof is omitted.
中間保管者は、中間保管者端末30により、QRコード161a(図6参照)を撮影する。制御部31は、QRコード161aから吸収部材群161に含まれる各吸収部材61の吸収部材情報を読み取る。そして、中間保管者端末30は、QRコード161aから読み取った情報と、ユーザID(中間保管者のID)、及びユーザがどの自治体又は企業に所属しているか等を示すユーザ属性情報とともに、サーバ装置10に送信する。
The intermediate custodian captures the QR code 161a (see FIG. 6) using the intermediate custodian's terminal 30. The control unit 31 reads the absorbent member information of each absorbent member 61 included in the absorbent member group 161 from the QR code 161a. Then, the intermediate custodian terminal 30 reads the information read from the QR code 161a, the user ID (intermediate custodian's ID), and the user attribute information indicating which municipality or company the user belongs to, etc., along with the server device. Send to 10.
図9は、貯蔵者端末40の構成を示すブロック図である。図9に示すように、貯蔵者端末40は、制御部41と、操作部42と、表示部43と、通信部44と、撮影部45と、を含む。制御部41は、プログラムを実行することにより制御処理を実行するプロセッサを含む。そして、制御部41は、貯蔵者端末40の各制御処理を実行する。また、操作部42、表示部43、通信部44、及び撮影部45は、それぞれ、操作部22、表示部23、通信部24、及び撮影部25と同様であるため、説明を省略する。
FIG. 9 is a block diagram showing the configuration of the storage terminal 40. As shown in FIG. As shown in FIG. 9 , the storer terminal 40 includes a control section 41 , an operation section 42 , a display section 43 , a communication section 44 and an imaging section 45 . The control unit 41 includes a processor that executes control processing by executing a program. Then, the control unit 41 executes each control process of the storer terminal 40 . Also, the operation unit 42, the display unit 43, the communication unit 44, and the photographing unit 45 are the same as the operation unit 22, the display unit 23, the communication unit 24, and the photographing unit 25, respectively, and thus the description thereof is omitted.
貯蔵者は、貯蔵者端末40により、QRコード261a(図7参照)を撮影する。制御部41は、QRコード261aから吸収部材群261に含まれる各吸収部材61の吸収部材情報を読み取る。そして、貯蔵者端末40は、QRコード261aから読み取った情報と、ユーザID(貯蔵者のID)、及びユーザがどの自治体又は企業に所属しているか等を示すユーザ属性情報とともに、サーバ装置10に送信する。
The storer takes a picture of the QR code 261a (see FIG. 7) with the storer terminal 40. The control unit 41 reads the absorbent member information of each absorbent member 61 included in the absorbent member group 261 from the QR code 261a. Then, the storage terminal 40 sends the information read from the QR code 261a, the user ID (ID of the storage), and the user attribute information indicating which municipality or company the user belongs to to the server device 10. Send.
図10は、管理者端末50の構成を示すブロック図である。図10に示すように、管理者端末50は、制御部51と、操作部52と、表示部53と、通信部54と、を含む。制御部51は、プログラムを実行することにより制御処理を実行するプロセッサを含む。そして、制御部51は、管理者端末50の各制御処理を実行する。また、操作部52、表示部53、及び通信部54は、それぞれ、操作部22、表示部23、及び通信部24と同様であるため、説明を省略する。システム100を管理する管理者は、管理者端末50を操作して、データベース12b内の編集を行う。
FIG. 10 is a block diagram showing the configuration of the administrator terminal 50. As shown in FIG. As shown in FIG. 10, the administrator terminal 50 includes a control section 51, an operation section 52, a display section 53, and a communication section . Control unit 51 includes a processor that executes a control process by executing a program. The control unit 51 then executes each control process of the administrator terminal 50 . Also, since the operation unit 52, the display unit 53, and the communication unit 54 are the same as the operation unit 22, the display unit 23, and the communication unit 24, respectively, description thereof will be omitted. An administrator who manages the system 100 operates the administrator terminal 50 to edit the database 12b.
(サーバ装置の構成)
図2に示すように、サーバ装置10は、制御部11と、記憶部12と、通信部13とを含む。制御部11は、プログラム12aを実行することにより制御処理を実行するプロセッサを含む。そして、制御部11は、サーバ装置10の各制御処理を実行する。通信部13は、通信インターフェイスであり、ネットワークNに接続されている。 (Configuration of server device)
As shown in FIG. 2 ,server device 10 includes control unit 11 , storage unit 12 , and communication unit 13 . The control unit 11 includes a processor that executes control processing by executing a program 12a. Then, the control unit 11 executes each control process of the server device 10 . The communication unit 13 is a communication interface and is connected to the network N.
図2に示すように、サーバ装置10は、制御部11と、記憶部12と、通信部13とを含む。制御部11は、プログラム12aを実行することにより制御処理を実行するプロセッサを含む。そして、制御部11は、サーバ装置10の各制御処理を実行する。通信部13は、通信インターフェイスであり、ネットワークNに接続されている。 (Configuration of server device)
As shown in FIG. 2 ,
記憶部12は、プログラム12aと、データベース12bとが記憶されている。プログラム12aは、大気中及び機器から排気される空気中の少なくとも一方における二酸化炭素の回収量を管理するために、制御部11のプロセッサに、各制御処理を実行させるプログラムである。
The storage unit 12 stores a program 12a and a database 12b. The program 12a is a program that causes the processor of the control unit 11 to execute each control process in order to manage the amount of carbon dioxide recovered in at least one of the atmosphere and the air exhausted from the equipment.
(サーバ装置の制御部の詳細構成)
図11は、サーバ装置10の制御部11の機能ブロック図である。図11に示すように、制御部11は、情報取得部11aと、回収量決定部11bと、記憶制御部11cと、排出権決定部11dと、通知制御部11eと、取引制御部11fとを含む。なお、図11では、制御部11の構成を機能ブロックとして記載しているが、各機能ごとに別個のハードウェアを構成してもよい。制御部11は、プログラム12aを実行することにより、情報取得部11a、回収量決定部11b、記憶制御部11c、排出権決定部11d、通知制御部11e、及び取引制御部11fとして機能する。 (Detailed configuration of control unit of server device)
FIG. 11 is a functional block diagram of thecontrol unit 11 of the server device 10. As shown in FIG. As shown in FIG. 11, the control unit 11 includes an information acquisition unit 11a, a collection amount determination unit 11b, a storage control unit 11c, an emission credit determination unit 11d, a notification control unit 11e, and a transaction control unit 11f. include. Although the configuration of the control unit 11 is shown as functional blocks in FIG. 11, separate hardware may be configured for each function. By executing the program 12a, the control unit 11 functions as an information acquisition unit 11a, a collection amount determination unit 11b, a storage control unit 11c, an emission credit determination unit 11d, a notification control unit 11e, and a transaction control unit 11f.
図11は、サーバ装置10の制御部11の機能ブロック図である。図11に示すように、制御部11は、情報取得部11aと、回収量決定部11bと、記憶制御部11cと、排出権決定部11dと、通知制御部11eと、取引制御部11fとを含む。なお、図11では、制御部11の構成を機能ブロックとして記載しているが、各機能ごとに別個のハードウェアを構成してもよい。制御部11は、プログラム12aを実行することにより、情報取得部11a、回収量決定部11b、記憶制御部11c、排出権決定部11d、通知制御部11e、及び取引制御部11fとして機能する。 (Detailed configuration of control unit of server device)
FIG. 11 is a functional block diagram of the
図12は、情報取得部11aが各端末から取得する吸収部材情報の一例を示す図である。情報取得部11aは、第1回収者端末20、中間保管者端末30、及び、貯蔵者端末40から、吸収部材情報及び各ユーザのユーザ属性情報を取得する。例えば、図12に示すように、例えば、情報取得部11aが取得する情報には、取得した日時(例えば、「2022/1/1/10:32」)と、ユーザID(例えば、「10001」)と、ユーザ属性(例えば、第1の属性として「第1回収者」、第2の属性として「○○株式会社」、第3の属性として「○○市、日本」)と、吸収部材情報(吸収部材61の識別情報、当該吸収部材61の飽和率、及び広告番号)とが含まれる。
FIG. 12 is a diagram showing an example of absorbent member information acquired from each terminal by the information acquisition unit 11a. The information acquisition unit 11a acquires absorbent member information and user attribute information of each user from the first recovery party terminal 20, the intermediate storage party terminal 30, and the storage party terminal 40. FIG. For example, as shown in FIG. 12, the information acquired by the information acquisition unit 11a includes the date and time of acquisition (for example, "2022/1/1/10:32"), the user ID (for example, "10001"), ), user attributes (for example, the first attribute is “first recovery person”, the second attribute is “○○ company”, and the third attribute is “○○ city, Japan”), and absorbent member information (identification information of the absorbing member 61, the saturation rate of the absorbing member 61, and the advertisement number).
図13は、データベース12bに記憶された吸収部材61の識別情報のうちの品番と二酸化炭素の吸収可能量との対応を示す図である。図14は、データベース12bに記憶された吸収部材群161の番号と保管料との対応を示す図である。図15は、データベース12bに記憶された吸収部材群261の番号と貯蔵量との対応を示す図である。図16Aは、データベース12bに記憶されたユーザIDと二酸化炭素の合計量、排出権、及びポイントとの対応を示す図である。
FIG. 13 is a diagram showing the correspondence between the product number of the identification information of the absorbing member 61 stored in the database 12b and the absorbable amount of carbon dioxide. FIG. 14 is a diagram showing the correspondence between the number of the absorbent member group 161 stored in the database 12b and the storage fee. FIG. 15 is a diagram showing the correspondence between the number of the absorbent member group 261 stored in the database 12b and the storage amount. FIG. 16A is a diagram showing the correspondence between user IDs stored in the database 12b and the total amount of carbon dioxide, emission credits, and points.
図13に示すように、データベース12bには、吸収部材61の品番が、当該吸収部材61が吸収することが可能な二酸化炭素の量(吸収可能量)と関連付けられて記憶されている。回収量決定部11bは、情報取得部11aが第2回収者端末120から取得した吸収部材情報と、吸収可能量とに基づいて、第1回収者による二酸化炭素の回収量を決定する。例えば、情報取得部11aが、ユーザID「10001」の第1回収者(図16A参照)が品番「0001」の飽和率76%の吸収部材61を1つ回収したことを示す吸収部材情報を取得した場合、回収量決定部11b及び記憶制御部11cは、図13に示す「○○g」に飽和率(例えば、76%)を乗算した値(二酸化炭素の回収量)の少なくとも一部を、データベース12bのユーザID「10001」の合計量に加算する。なお、記憶制御部11cは、図16Aに示すように、第1回収者(例えば、ユーザID「10001」)が初めて吸収部材61の回収を行った場合で、吸収部材61に広告61cが付されていなかった場合、「○○g×0.76」の値を、データベース12bの合計量として記憶する。また、記憶制御部11cは、第1回収者のユーザIDと、属性情報(例えば、属性1~3の情報)と、第1回収者の合計値と、広告番号とを関連付けてデータベース12bに記憶する。なお、図16Aでは、広告を発行していないユーザについては「なし」と記載している。これにより、吸収部材情報に含まれる二酸化炭素を回収した吸収部材61の数又は吸収の飽和度に基づいて、二酸化炭素の回収量を決定することができる。この結果、回収した二酸化炭素の量を直接的に測定する必要がなくなるので、二酸化炭素の回収量を容易に算出することができる。そして、二酸化炭素の回収量がデータベース12bに記憶されるので、二酸化炭素の回収量を管理することができる。
As shown in FIG. 13, the database 12b stores the product number of the absorbing member 61 in association with the amount of carbon dioxide that the absorbing member 61 can absorb (absorbable amount). The recovery amount determination unit 11b determines the amount of carbon dioxide recovered by the first recovery person based on the absorbent material information acquired from the second recovery person terminal 120 by the information acquisition unit 11a and the absorbable amount. For example, the information acquisition unit 11a acquires absorbent member information indicating that the first collector (see FIG. 16A) with the user ID “10001” has collected one absorbent member 61 with the product number “0001” and a saturation rate of 76%. In this case, the recovery amount determining unit 11b and the storage control unit 11c set at least a part of the value obtained by multiplying the saturation rate (for example, 76%) to "○○ g" shown in FIG. It is added to the total amount of the user ID "10001" in the database 12b. As shown in FIG. 16A, the storage control unit 11c attaches an advertisement 61c to the absorbent member 61 when the first collector (eg, user ID "10001") collects the absorbent member 61 for the first time. If not, the value of "OOg x 0.76" is stored as the total amount in the database 12b. In addition, the storage control unit 11c associates the first collection person's user ID, attribute information (for example, information of attributes 1 to 3), the first collection person's total value, and the advertisement number, and stores them in the database 12b. do. In addition, in FIG. 16A, "none" is described for users who have not issued advertisements. As a result, the amount of carbon dioxide to be recovered can be determined based on the number of absorbing members 61 that have recovered carbon dioxide or the degree of saturation of absorption included in the absorbing member information. As a result, there is no need to directly measure the amount of carbon dioxide recovered, so the amount of recovered carbon dioxide can be easily calculated. Since the amount of carbon dioxide recovered is stored in the database 12b, the amount of carbon dioxide recovered can be managed.
図14に示すように、データベース12bには、吸収部材群161の番号が、当該吸収部材群161に含まれる二酸化炭素の合計値(中間保管量)と関連付けられて記憶されている。回収量決定部11bは、吸収部材群161に含まれる吸収部材61の品番及び吸収部材61の数と、図13に示すデータベース12bに記憶された吸収可能量とに基づいて、吸収部材群161に含まれる二酸化炭素の量(中間保管量)を決定する。例えば、情報取得部11aが、ユーザID「24584」の中間保管者(図16A参照)が品番「1234」の吸収部材群161を1つ保管したことを示す吸収部材情報を取得した場合、回収量決定部11bは、吸収部材群161に含まれる複数の吸収部材61の品番の各々と紐づけられた二酸化炭素を回収量(図4D及び図12参照)の合計量に基づいて、中間保管量を算出する。そして、図14に示すように、記憶制御部11cは、吸収部材群161の番号を中間保管量に関連付けてデータベース12bに記憶する。そして、回収量決定部11b及び記憶制御部11cは、図16Aに示すように、中間保管者(例えば、ユーザID「24584」)の合計値に算出された中間保管量を加算する。また、記憶制御部11cは、中間保管者のユーザIDと、属性情報(例えば、属性1~3の情報)と、中間保管量の合計値と、広告番号とを関連付けてデータベース12bに記憶する。
As shown in FIG. 14, the database 12b stores the number of the absorbent member group 161 in association with the total value (intermediate storage amount) of carbon dioxide contained in the absorbent member group 161. The collected amount determining unit 11b collects the absorbent member group 161 based on the product numbers and the number of absorbent members 61 included in the absorbent member group 161 and the absorbable amount stored in the database 12b shown in FIG. Determine the amount of carbon dioxide contained (intermediate storage amount). For example, when the information acquisition unit 11a acquires absorbent member information indicating that an intermediate storage person (see FIG. 16A) with a user ID of “24584” has stored one absorbent member group 161 with a product number of “1234”, the collected amount The determination unit 11b determines the intermediate storage amount based on the total amount of carbon dioxide recovered (see FIGS. 4D and 12) associated with each of the product numbers of the plurality of absorbent members 61 included in the absorbent member group 161. calculate. Then, as shown in FIG. 14, the storage control unit 11c stores the number of the absorbing member group 161 in the database 12b in association with the intermediate storage amount. Then, the collection amount determining unit 11b and the storage control unit 11c add the calculated intermediate storage amount to the total value of the intermediate storage person (for example, user ID "24584"), as shown in FIG. 16A. Further, the storage control unit 11c associates the user ID of the intermediate storage person, the attribute information (for example, information of attributes 1 to 3), the total value of the intermediate storage amount, and the advertisement number, and stores them in the database 12b.
中間保管者は、保管することのみにかかわらず、自身により吸収部材61に二酸化炭素を吸収させて、飽和率を向上させてもよい。この場合、例えば、第1回収者から回収した吸収部材61の飽和率が76%だった場合、中間保管者によって当該吸収部材61の飽和率をほぼ100%にした状態で、中間保管者は当該吸収部材61を保管する。この場合、回収量決定部11bは、吸収可能量(図13参照)と当該品番の吸収部材61の数とを乗算して、中間保管量を算出してもよい。また、回収量決定部11bは、中間保管者自身が回収した二酸化炭素の回収量を、上記第1回収者の二酸化炭素の回収量と同様の方法で算出する。中間保管者自身が回収した二酸化炭素の回収量は、図16Aに示すように、中間保管者のユーザIDと関連付けられて「追加回収量」として、データベース12bに記憶される。また、中間保管者自身が、吸収部材61に二酸化炭素を吸収させる場合、当該吸収部材61の飽和率をほぼ100%ではなく、100%未満(例えば、90%)の状態であってもよい。
The intermediate storage person may allow the absorption member 61 to absorb carbon dioxide by himself or herself to improve the saturation rate, regardless of only storing. In this case, for example, if the saturation rate of the absorbent member 61 recovered from the first recovery person is 76%, the intermediate storage person sets the saturation rate of the absorbent member 61 to approximately 100%, and the intermediate storage person Store the absorbent member 61 . In this case, the recovery amount determination unit 11b may calculate the intermediate storage amount by multiplying the absorbable amount (see FIG. 13) by the number of absorbent members 61 of the product number. In addition, the recovery amount determining unit 11b calculates the recovery amount of carbon dioxide recovered by the intermediate storage person by the same method as the amount of carbon dioxide recovered by the first recovery person. As shown in FIG. 16A, the amount of carbon dioxide collected by the intermediate storage person is associated with the user ID of the intermediate storage person and stored in the database 12b as an "additional collection amount". Also, when the intermediate storage person himself makes the absorption member 61 absorb carbon dioxide, the saturation rate of the absorption member 61 may be less than 100% (for example, 90%) instead of almost 100%.
図15に示すように、データベース12bには、吸収部材群261の番号が、当該吸収部材群261に含まれる二酸化炭素の合計値(貯蔵量)と関連付けられて記憶されている。回収量決定部11bは、吸収部材群261に含まれる吸収部材61の品番及び吸収部材61の数と、図13に示すデータベース12bに記憶された吸収可能量とに基づいて、吸収部材群261に含まれる二酸化炭素の量(貯蔵量)を決定する。例えば、情報取得部11aが、ユーザID「34568」の貯蔵者(図16A参照)が品番「2456」の吸収部材群261を1つ保管したことを示す吸収部材情報を取得した場合、回収量決定部11bは、吸収部材群261に含まれる複数の吸収部材61の品番の各々と紐づけられた二酸化炭素を回収量(図4D及び図12参照)の合計量に基づいて、貯蔵量を算出する。そして、図15に示すように、記憶制御部11cは、吸収部材群261の番号を貯蔵量に関連付けてデータベース12bに記憶する。そして、回収量決定部11b及び記憶制御部11cは、図16Aに示すように、また、記憶制御部11cは、貯蔵者のユーザIDと、属性情報(例えば、属性1~3の情報)と、貯蔵量の合計値と、広告番号とを関連付けてデータベース12bに記憶する。
As shown in FIG. 15, the database 12b stores the number of the absorbing member group 261 in association with the total value (storage amount) of carbon dioxide contained in the absorbing member group 261. The recovery amount determination unit 11b collects the absorbent member group 261 based on the product numbers and the number of absorbent members 61 included in the absorbent member group 261 and the absorbable amount stored in the database 12b shown in FIG. Determine the amount of carbon dioxide contained (storage). For example, when the information acquisition unit 11a acquires the absorbent member information indicating that one absorbent member group 261 with the product number “2456” has been stored by the storer with the user ID “34568” (see FIG. 16A), the collected amount is determined. The unit 11b calculates the storage amount based on the total amount of carbon dioxide recovered (see FIGS. 4D and 12) associated with each of the product numbers of the plurality of absorbent members 61 included in the absorbent member group 261. . Then, as shown in FIG. 15, the storage control unit 11c stores the number of the absorbing member group 261 in the database 12b in association with the storage amount. Then, as shown in FIG. 16A, the collection amount determining unit 11b and the storage control unit 11c store the user ID of the storage person, attribute information (for example, information of attributes 1 to 3), The total storage amount and the advertisement number are associated and stored in the database 12b.
貯蔵者は、貯蔵することのみにかかわらず、自身により吸収部材61に二酸化炭素を吸収させて、飽和率を向上させてもよい。この場合、例えば、第1回収者による二酸化炭素の回収により吸収部材61の飽和率が76%となり、中間保管者による二酸化炭素の回収により吸収部材61の飽和率が90%となっている場合、貯蔵者によって当該吸収部材61の飽和率をほぼ100%にした状態で、貯蔵者は当該吸収部材61を保管する。この場合、回収量決定部11bは、吸収可能量(図13参照)と当該品番の吸収部材61の数とを乗算して、貯蔵量を算出してもよい。また、回収量決定部11bは、貯蔵者自身が回収した二酸化炭素の回収量を、上記第1回収者の二酸化炭素の回収量と同様の方法で算出する。貯蔵者自身が回収した二酸化炭素の回収量は、図16Aに示すように、貯蔵者のユーザIDと関連付けられて「追加回収量」として、データベース12bに記憶される。また、貯蔵者自身が、吸収部材61に二酸化炭素を吸収させる場合、当該吸収部材61の飽和率をほぼ100%ではなく、100%未満(例えば、95%)の状態であってもよい。
The storer may allow the absorption member 61 to absorb carbon dioxide by himself to improve the saturation rate, regardless of the storage. In this case, for example, when the saturation rate of the absorbing member 61 is 76% due to the recovery of carbon dioxide by the first recoverer and the saturation rate of the absorbing member 61 is 90% due to the recovery of carbon dioxide by the intermediate storage person, The storer stores the absorbent member 61 in a state where the saturation rate of the absorbent member 61 is set to approximately 100% by the storer. In this case, the recovery amount determination unit 11b may calculate the storage amount by multiplying the absorbable amount (see FIG. 13) by the number of absorbent members 61 of the product number. In addition, the recovery amount determination unit 11b calculates the recovery amount of carbon dioxide recovered by the storage person by the same method as the recovery amount of carbon dioxide by the first recovery person. As shown in FIG. 16A, the amount of carbon dioxide collected by the reservoir is stored in the database 12b as an "additional collection amount" in association with the user ID of the reservoir. Also, when the storer himself/herself causes the absorbing member 61 to absorb carbon dioxide, the saturation rate of the absorbing member 61 may be less than 100% (for example, 95%) instead of almost 100%.
図16Aに示すように、データベース12bには、各ユーザIDに関連付けられた排出権及びポイントが記憶されている。排出権決定部11dは、二酸化炭素の回収量、中間保管量、及び貯蔵量のいずれか(例えば、図16Aに示す「合計量」)に基づいて、ユーザ(第1回収者、中間保管者、又は貯蔵者)による二酸化炭素の排出が許可された量である排出権を決定する。例えば、排出権は、合計量に比例する大きさに設定される。また、排出権決定部11dは、二酸化炭素の回収量、中間保管量、及び貯蔵量のいずれか(例えば、図16Aに示す「合計量」)に基づいて、ユーザ(第1回収者、中間保管者、又は貯蔵者)のポイントを決定する。例えば、ポイントは、合計量に比例する大きさに設定される。そして、記憶制御部11cは、各ユーザIDに関連付けて排出権及びポイントをデータベース12bに記憶する。また、第1回収者が二酸化炭素を回収した吸収部材61に広告61cが付されていた場合、広告主にも、排出権及びポイントの少なくとも一方が加算される。この場合、第1回収者と広告主とは、あらかじめ決まった比率で排出権及びポイントの少なくとも一方が按分される。
As shown in FIG. 16A, the database 12b stores emission credits and points associated with each user ID. The emission credit determination unit 11d selects users (first recovery person, intermediate storage person, (or reservoir) determines the allowance, which is the amount of carbon dioxide permitted to be emitted. For example, credits are sized proportionally to the total amount. In addition, the emission credit determination unit 11d determines whether the user (first recovery person, intermediate storage , or banker). For example, the points are set to a size proportional to the total amount. Then, the storage control unit 11c stores the emission rights and points in the database 12b in association with each user ID. Further, when the advertisement 61c is attached to the absorption member 61 from which the first recovery person has recovered the carbon dioxide, the advertiser is also given at least one of emission rights and points. In this case, at least one of emission credits and points is proportionally distributed between the first collector and the advertiser at a predetermined ratio.
図16Bは、ユーザID、認証マーク使用許可の情報、及び認証グレードが関連付けられたデータベース12bを説明するための図である。図17は、属性、合計量、排出権及びポイント、及び認証マーク使用許可の情報が関連付けられたデータベース12bを説明するための図である。図18Aは、認証マークの使用を許可する通知を説明するための図である。図19は、排出権及びポイントの取引の情報が記憶されたデータベース12bを説明するための図である。図16Bに示すように、データベース12bには、ユーザIDごとに、認証マーク使用許可の情報及び認証グレードが記憶されている。認証マーク使用許可の情報とは、ユーザIDに一致する企業又は個人が、認証マークの使用が許可されているかを示す情報である。「認証マーク」とは、二酸化炭素の回収量、中間保管量、又は貯蔵量が基準値以上になっており、環境保護(カーボンニュートラル)に貢献しているユーザであることを証明するマークである。「認証マーク」の基準値は、国際機関、国(政府)、自治体、又は民間機関によって設定される。例えば、ユーザは、認証マークを広告等に使用して、環境保護を行っていることをアピールすることができる。また、「基準値」は、複数の値設けられており、大きさに応じて、認証グレードが設定されている。例えば、基準値が小さいものから「シルバー」、「ゴールド」、「ダイアモンド」等の認証グレードがデータベース12b内でユーザIDと紐付けられている。また、図16Bに示すように、データベース12bには、ユーザIDごとに、他者情報取得権限の情報が記憶されている。
FIG. 16B is a diagram for explaining the database 12b in which user IDs, certification mark usage permission information, and certification grades are associated. FIG. 17 is a diagram for explaining the database 12b in which information on attributes, total amounts, emission credits and points, and certification mark use permission are associated. FIG. 18A is a diagram for explaining a notice of permission to use the certification mark. FIG. 19 is a diagram for explaining the database 12b that stores information on transactions of emission credits and points. As shown in FIG. 16B, the database 12b stores authentication mark usage permission information and authentication grade for each user ID. Information on permission to use the certification mark is information indicating whether a company or individual matching the user ID is permitted to use the certification mark. "Certification mark" is a mark that proves that the user contributes to environmental protection (carbon neutral) by collecting, interim storage, or storage amount of carbon dioxide exceeding the standard value. . Standard values for "certification marks" are set by international organizations, countries (governments), local governments, or private organizations. For example, the user can use the certification mark in an advertisement or the like to appeal that the user is protecting the environment. A plurality of values are set for the "reference value", and an authentication grade is set according to the size. For example, authentication grades such as "silver", "gold", and "diamond" are associated with user IDs in the database 12b in ascending order of reference value. In addition, as shown in FIG. 16B, the database 12b stores information on other person's information acquisition authority for each user ID.
また、図17に示すように、データベース12bには、属性ごとに、合計量、排出権及びポイント、及び認証マーク使用許可の情報が記憶されている。例えば、属性が「○○株式会社」に含まれる複数のユーザIDの二酸化炭素の回収量が合計された合計量と、複数のユーザIDの排出権及びポイントが合計されたものと、認証マーク使用許可の情報とがデータベース12bに記憶されている。
In addition, as shown in FIG. 17, the database 12b stores information on the total amount, emission credits and points, and permission to use certification marks for each attribute. For example, the total amount of carbon dioxide collection amount of multiple user IDs whose attribute is included in "○○ company", the total amount of emission credits and points of multiple user IDs, and the use of the certification mark Permission information is stored in the database 12b.
図18Aに示すように、通知制御部11eは、データベース12bに記憶された合計量が所定の基準値以上となった場合、各第1回収者端末20、各中間保管者端末30、及び各貯蔵者端末40の表示部(図18Aの例では、表示部23)に、合計量(図18Aの例では、回収量)が基準値以上となったことを示す通知を表示させる。また、通知制御部11eは、認証マークとともに、認証マークの使用を許可する旨をユーザに通知する。図18Bは、認証グレードが上がったことの通知の例を説明するための図である。そして、通知制御部11eは、データベース12bに記憶された合計量がさらに、上記所定の基準値よりも大きい基準値以上となった場合、各第1回収者端末20、各中間保管者端末30、及び各貯蔵者端末40の表示部(図18Bの例では、表示部23)に、合計量(図18Bの例では、回収量)が基準値以上となったことを示す通知と、認証マークのグレード(認証グレード)が上がったことを示す通知とを表示させる。
As shown in FIG. 18A, when the total amount stored in the database 12b exceeds a predetermined reference value, the notification control unit 11e controls each first recovery party terminal 20, each intermediate storage party terminal 30, and each storage A notification indicating that the total amount (collected amount in the example of FIG. 18A) has reached or exceeded the reference value is displayed on the display section of the user terminal 40 (the display section 23 in the example of FIG. 18A). In addition, the notification control unit 11e notifies the user of permission to use the certification mark together with the certification mark. FIG. 18B is a diagram for explaining an example of notification that the authentication grade has been raised. Then, when the total amount stored in the database 12b becomes equal to or greater than the reference value, which is larger than the predetermined reference value, the notification control unit 11e controls each of the first recovery party terminals 20, each of the intermediate storage party terminals 30, And the display unit (in the example of FIG. 18B, the display unit 23) of each storage terminal 40 displays a notification indicating that the total amount (in the example of FIG. 18B, the collected amount) has reached or exceeded the reference value, and a certification mark. A notification indicating that the grade (certification grade) has been raised is displayed.
また、ユーザは、他のユーザと排出権及びポイントを取り引きすることができ、取引結果を、各情報端末からサーバ装置10に送信する。例えば、図19に示すように、取引制御部11fは、第1回収者端末20(譲渡元ユーザ)から「譲渡元ユーザIDが『10001』」であること、「譲受先ユーザIDが『13546』」であること、「取り引きしたポイントが『××pt』」であることを示す情報を取得する。記憶制御部11cは、データベース12b内のユーザID「10001」のポイントからポイント「××pt」を減らし、ユーザID「24568」のポイントにポイント「××pt」を追加させる。また、図19に示すように、ユーザから、他のユーザに限られず、国と他の国との排出権の取引結果も、データベース12bに記憶される。
Also, the user can trade emission credits and points with other users, and transmit the trading result from each information terminal to the server device 10 . For example, as shown in FIG. 19, the transaction control unit 11f receives information from the first collection person terminal 20 (transfer source user) that "the transfer source user ID is '10001'" and that "the transferee user ID is '13546'". and that "the points traded are 'xxpt'". The storage control unit 11c reduces the points "xxpt" from the points of the user ID "10001" in the database 12b and adds the points "xxpt" to the points of the user ID "24568". In addition, as shown in FIG. 19, the database 12b also stores the trading results of emission credits between a country and other countries, not limited to other users, from the user.
[第2実施形態]
次に、図20A~図21Bを参照して、第2実施形態による二酸化炭素回収管理システム200の構成について説明する。第2実施形態では、システム200は、吸収部材61の重量と吸着期間中の平均湿度とに基づいて、二酸化炭素の回収量を算出する。なお、第1実施形態と同様の構成には、第1実施形態と同じ符号を用い説明を省略する。 [Second embodiment]
Next, the configuration of the carbon dioxiderecovery management system 200 according to the second embodiment will be described with reference to FIGS. 20A to 21B. In the second embodiment, the system 200 calculates the recovery amount of carbon dioxide based on the weight of the absorbing member 61 and the average humidity during the adsorption period. In addition, the same code|symbol as 1st Embodiment is used for the structure similar to 1st Embodiment, and description is abbreviate|omitted.
次に、図20A~図21Bを参照して、第2実施形態による二酸化炭素回収管理システム200の構成について説明する。第2実施形態では、システム200は、吸収部材61の重量と吸着期間中の平均湿度とに基づいて、二酸化炭素の回収量を算出する。なお、第1実施形態と同様の構成には、第1実施形態と同じ符号を用い説明を省略する。 [Second embodiment]
Next, the configuration of the carbon dioxide
図20Aは、第2実施形態による二酸化炭素回収管理システム200(以下、「システム200」という)のブロック図である。図20Bは、第2回収者端末220bのブロック図である。図21Aは、第2実施形態による第1回収者端末220aによる撮影画面の例を説明するための図である。図21Bは、第2実施形態による第2回収者端末220bによる撮影画面の例を説明するための図である。
FIG. 20A is a block diagram of a carbon dioxide recovery management system 200 (hereinafter referred to as "system 200") according to the second embodiment. FIG. 20B is a block diagram of the second recoverer terminal 220b. FIG. 21A is a diagram for explaining an example of a photographed screen by the first recovery person terminal 220a according to the second embodiment. FIG. 21B is a diagram for explaining an example of a photographed screen by the second recovery person terminal 220b according to the second embodiment.
図20Aに示すように、システム200は、第1回収者端末220aを含む。図20Bに示すように、システム200は、第2回収者端末220bを含む。また、システム200は、重量計71及び湿度計72を備える。第1回収者端末220aは、アプリケーションプログラム226aを実行する制御部221aを含む。第2回収者端末220bは、アプリケーションプログラム226aを実行する制御部221bを含む。
As shown in FIG. 20A, the system 200 includes a first recoverer terminal 220a. As shown in FIG. 20B, system 200 includes a second recoverer terminal 220b. System 200 also includes weigh scale 71 and hygrometer 72 . The first collection party terminal 220a includes a control unit 221a that executes an application program 226a. The second collection party terminal 220b includes a control section 221b that executes an application program 226a.
図21Aに示すように、制御部211aは、撮影部25により撮影されたQRコード23aの画像、QRコード61aの画像、広告QRコード61dの画像、重量計71の重量表示、及び湿度計72の湿度表示を、表示部23に表示させる。また、表示部23には、例えば、ユーザのID、「QRコードと重量計の表示と湿度計の表示が写るように撮影してください」等のメッセージ、重量、湿度、吸収部材61内の二酸化炭素の重量、広告主、及び撮影を実行させるためのボタンが表示される。なお、図21Aでは、QRコード23a、QRコード61a、広告QRコード61d、重量の重量表示、及び湿度の湿度表示が、1度に撮影される例を示しているが、これらが別々に撮影されてもよい。第1回収者端末220aは、図示しないサーバ装置に、第1回収者のユーザID、QRコード61aの情報(例えば、品番)、及び湿度の情報を送信する。サーバ装置は、データベースに、第1回収者のユーザID、QRコード61aの情報(例えば、品番)、及び湿度の情報を記憶させる。
As shown in FIG. 21A, the control unit 211a controls the image of the QR code 23a photographed by the photographing unit 25, the image of the QR code 61a, the image of the advertisement QR code 61d, the weight display of the weight scale 71, and the display of the hygrometer 72. Humidity display is displayed on the display unit 23 . The display unit 23 also displays, for example, the user's ID, a message such as "Please take a picture so that the QR code, the display of the weighing scale, and the display of the hygrometer can be seen." The weight of the carbon, the advertiser, and a button to run the shoot are displayed. Note that FIG. 21A shows an example in which the QR code 23a, the QR code 61a, the advertisement QR code 61d, the weight display of the weight, and the humidity display of the humidity are photographed at once, but these are photographed separately. may The first recovery person terminal 220a transmits the user ID of the first recovery person, the information of the QR code 61a (for example, product number), and the humidity information to the server device (not shown). The server device causes the database to store the user ID of the first collector, the information of the QR code 61a (for example, product number), and the information of humidity.
図21bに示すように、制御部211bは、撮影部125により撮影されたQRコード23aの画像、QRコード61aの画像、広告QRコード61dの画像、重量計71の重量表示、及び湿度計72の湿度表示を、表示部123に表示させる。また、表示部123には、例えば、ユーザのID、「QRコードと重量計の表示と湿度計の表示が写るように撮影してください」等のメッセージ、重量、湿度、吸収部材61内の二酸化炭素の重量、広告主、及び撮影を実行させるためのボタンが表示される。なお、図21Bでは、QRコード23a、QRコード61a、広告QRコード61d、重量の重量表示、及び湿度の湿度表示が、1度に撮影される例を示しているが、これらが別々に撮影されてもよい。第2回収者端末220bは、サーバ装置に、第1回収者のユーザID、QRコード61aの情報(例えば、品番)、及び湿度の情報を送信する。サーバ装置は、データベースから、第1回収者が登録した湿度の情報を第2回収者端末220bに送信する。
As shown in FIG. 21b, the control unit 211b controls the image of the QR code 23a photographed by the photographing unit 125, the image of the QR code 61a, the image of the advertisement QR code 61d, the weight display of the weight scale 71, and the display of the hygrometer 72. Humidity display is displayed on the display unit 123 . The display unit 123 also displays, for example, the user's ID, a message such as "Please photograph the QR code, the display of the weighing scale, and the display of the hygrometer", the weight, the humidity, and the carbon dioxide in the absorbing member 61. The weight of the carbon, the advertiser, and a button to run the shoot are displayed. Note that FIG. 21B shows an example in which the QR code 23a, the QR code 61a, the advertisement QR code 61d, the weight display of the weight, and the humidity display of the humidity are photographed at once, but these are photographed separately. may The second collection person terminal 220b transmits the user ID of the first collection person, the information of the QR code 61a (for example, product number), and the humidity information to the server device. The server device transmits the humidity information registered by the first recovery person from the database to the second recovery person terminal 220b.
制御部211bは、QRコード61aの情報(例えば、品番)、重量の重量表示、及び湿度の湿度表示と、第1回収者が登録した湿度の情報とに基づいて、二酸化炭素の重量を算出する。例えば、制御部221は、重量の重量表示「118g」から、吸収部材61の開封前の重量「100g」を引き、増加分「18g」を算出する。そして、制御部221は、増加分「18g」と、第1回収者が登録した湿度「○○%」と第2回収者が撮影した湿度「○○%」との平均値と所定の係数とを乗算することにより、増加分「18g」の水分の重量(例えば、「2g」とする)を算出する。この結果、制御部221は、二酸化炭素の重量を約16gと算出する。吸収部材61の開封前の重量は、QRコード61aの情報(例えば、品番)と関連付けられてアプリケーションプログラム226aに予め記憶されていてもよい。この場合、制御部221は、吸収部材61の開封前の重量を読み出す。また、吸収部材61の開封前の重量がアプリケーションプログラム226aに予め記憶されていない場合は、制御部221は、QRコード61aの情報(例えば、品番)に基づいて、データベースから吸収部材61が吸収可能な二酸化炭素の量を読み出してもよい。なお、上記の二酸化炭素の重量の算出は、第2回収者端末220bではなく、サーバ装置の制御部により実行されてもよい。
The control unit 211b calculates the weight of carbon dioxide based on the information of the QR code 61a (for example, product number), the weight display of the weight, the humidity display of the humidity, and the humidity information registered by the first recovery person. . For example, the control unit 221 subtracts the weight "100 g" of the absorbent member 61 before opening from the weight display "118 g" of the weight, and calculates the increase "18 g". Then, the control unit 221 calculates the increment "18 g", the average value of the humidity "XX%" registered by the first collector and the humidity "XX%" photographed by the second collector, and a predetermined coefficient. By multiplying by , the weight of the additional "18 g" moisture (for example, "2 g") is calculated. As a result, the controller 221 calculates the weight of carbon dioxide to be approximately 16 g. The weight of the absorbent member 61 before opening may be associated with the information (for example, product number) of the QR code 61a and stored in advance in the application program 226a. In this case, the controller 221 reads the weight of the absorbent member 61 before opening. If the weight of the absorbent member 61 before opening is not stored in advance in the application program 226a, the control unit 221 determines whether the absorbent member 61 can be absorbed from the database based on the information (for example, product number) of the QR code 61a. amount of carbon dioxide may be read. Note that the calculation of the weight of carbon dioxide described above may be performed by the control unit of the server device instead of the second recovery person terminal 220b.
第2実施形態による構成によっても、二酸化炭素のみの重量を直接的に計測することなく、二酸化炭素の回収量を算出することができる。第2実施形態によるその他の構成及び効果は、第1実施形態による構成及び効果と同様である。
Also with the configuration according to the second embodiment, it is possible to calculate the recovery amount of carbon dioxide without directly measuring the weight of only carbon dioxide. Other configurations and effects of the second embodiment are the same as those of the first embodiment.
[第3実施形態]
次に、図22~図24を参照して、第3実施形態による二酸化炭素回収管理システム300の構成について説明する。第3実施形態では、吸収部材61が除湿機361の排気口361aに配置されている。なお、第1又は第2実施形態と同様の構成には、第1又は第2実施形態と同じ符号を用い説明を省略する。 [Third Embodiment]
Next, the configuration of the carbon dioxiderecovery management system 300 according to the third embodiment will be described with reference to FIGS. 22 to 24. FIG. In the third embodiment, the absorbing member 61 is arranged at the exhaust port 361 a of the dehumidifier 361 . In addition, the same reference numerals as in the first or second embodiment are used for the same configuration as in the first or second embodiment, and the description thereof is omitted.
次に、図22~図24を参照して、第3実施形態による二酸化炭素回収管理システム300の構成について説明する。第3実施形態では、吸収部材61が除湿機361の排気口361aに配置されている。なお、第1又は第2実施形態と同様の構成には、第1又は第2実施形態と同じ符号を用い説明を省略する。 [Third Embodiment]
Next, the configuration of the carbon dioxide
図22は、第3実施形態による二酸化炭素回収管理システム300(以下、「システム300」という)のブロック図である。図23は、第3実施形態による除湿機361の構成を示す模式図である。図24は、第3実施形態による撮影画面の例を説明するための図である。図22に示すように、システム300は、第2回収者端末320と除湿機361とを含む。第2回収者端末320は、アプリケーションプログラム326aを実行する制御部321を含む。
FIG. 22 is a block diagram of a carbon dioxide recovery management system 300 (hereinafter referred to as "system 300") according to the third embodiment. FIG. 23 is a schematic diagram showing the configuration of a dehumidifier 361 according to the third embodiment. FIG. 24 is a diagram for explaining an example of a photographing screen according to the third embodiment. As shown in FIG. 22, the system 300 includes a second recovery person terminal 320 and a dehumidifier 361 . The second collection party terminal 320 includes a control section 321 that executes an application program 326a.
図23に示すように、第3実施形態では、吸収部材61は、除湿機361の排気口361aに配置されている。すなわち、除湿機361の給気口361bでは、空気中には水分が多く含まれるが、排気口361aから排出される空気中には水分はほとんど含まれないでので、上記の第2実施形態とは異なり、吸収部材61が吸収する水分の量を無視することができる。図24に示すように、制御部311は、撮影部125により撮影されたQRコード61aの画像、広告QRコード61dの画像、及び重量計71の重量表示を表示部23に表示させる。また、表示部123には、例えば、ユーザのID、「QRコードと重量計の表示が写るように撮影してください」等のメッセージ、重量、吸収部材61内の二酸化炭素の重量、広告主、及び撮影を実行させるためのボタンが表示される。なお、図24では、QRコード61a、広告QRコード61d、及び重量の重量表示が、1度に撮影される例を示しているが、これらが別々に撮影されてもよい。
As shown in FIG. 23, in the third embodiment, the absorbing member 61 is arranged at the exhaust port 361a of the dehumidifier 361. As shown in FIG. That is, the air at the air supply port 361b of the dehumidifier 361 contains a lot of moisture, but the air discharged from the exhaust port 361a contains almost no moisture. , the amount of moisture absorbed by the absorbent member 61 is negligible. As shown in FIG. 24 , the control unit 311 causes the display unit 23 to display the image of the QR code 61 a photographed by the photographing unit 125 , the image of the advertisement QR code 61 d , and the weight display of the weighing scale 71 . The display unit 123 also displays, for example, the user's ID, a message such as "Please take a picture so that the display of the QR code and the weighing scale can be seen", the weight, the weight of the carbon dioxide in the absorbing member 61, the advertiser, And a button for executing shooting is displayed. Note that FIG. 24 shows an example in which the QR code 61a, the advertisement QR code 61d, and the weight display of the weight are photographed at once, but these may be photographed separately.
そして、制御部311は、QRコード61aの情報(例えば、品番)、及び重量の重量表示に基づいて、二酸化炭素の重量を算出する。例えば、制御部321は、重量の重量表示「118g」から、吸収部材61の開封前の重量「100g」を引き、増加分「18g」を算出する。そして、制御部321は、増加分「18g」を二酸化炭素の重量「約18g」とする。吸収部材61の開封前の重量は、QRコード61aの情報(例えば、品番)と関連付けられてアプリケーションプログラム326aに予め記憶されていてもよい。この場合、制御部321は、吸収部材61の開封前の重量を読み出す。また、吸収部材61の開封前の重量がアプリケーションプログラム326aに予め記憶されていない場合は、制御部321は、QRコード61aの情報(例えば、品番)に基づいて、データベースから吸収部材61が吸収可能な二酸化炭素の量を読み出してもよい。なお、上記の二酸化炭素の重量の算出は、第2回収者端末320ではなく、サーバ装置の制御部により実行されてもよい。
Then, the control unit 311 calculates the weight of carbon dioxide based on the information of the QR code 61a (for example, product number) and the weight display. For example, the control unit 321 subtracts the weight "100 g" of the absorbent member 61 before opening from the weight display "118 g" of the weight to calculate the increment "18 g". Then, the control unit 321 sets the increased amount of "18 g" to the weight of carbon dioxide of "approximately 18 g". The weight of the absorbent member 61 before opening may be associated with the information (for example, product number) of the QR code 61a and stored in advance in the application program 326a. In this case, the controller 321 reads the weight of the absorbent member 61 before opening. If the weight of the absorbent member 61 before opening is not pre-stored in the application program 326a, the controller 321 determines whether the absorbent member 61 can be absorbed from the database based on the information (for example, product number) of the QR code 61a. amount of carbon dioxide may be read. Note that the calculation of the weight of carbon dioxide described above may be performed by the control unit of the server device instead of the second recovery person terminal 320 .
第3実施形態による構成によっても、二酸化炭素のみの重量を直接的に計測することなく、二酸化炭素の回収量を算出することができる。第3実施形態によるその他の構成及び効果は、第1又は第2実施形態による構成及び効果と同様である。
Also with the configuration according to the third embodiment, it is possible to calculate the amount of recovered carbon dioxide without directly measuring the weight of only carbon dioxide. Other configurations and effects of the third embodiment are the same as those of the first or second embodiment.
[変形例]
以上、上述した実施形態は本開示を実施するための例示に過ぎない。よって、本開示は上述した実施形態に限定されることなく、その趣旨を逸脱しない範囲内で上述した実施形態を適宜変形して実施することが可能である。 [Modification]
As described above, the above-described embodiments are merely examples for carrying out the present disclosure. Therefore, the present disclosure is not limited to the above-described embodiments, and the above-described embodiments can be appropriately modified and implemented without departing from the scope of the present disclosure.
以上、上述した実施形態は本開示を実施するための例示に過ぎない。よって、本開示は上述した実施形態に限定されることなく、その趣旨を逸脱しない範囲内で上述した実施形態を適宜変形して実施することが可能である。 [Modification]
As described above, the above-described embodiments are merely examples for carrying out the present disclosure. Therefore, the present disclosure is not limited to the above-described embodiments, and the above-described embodiments can be appropriately modified and implemented without departing from the scope of the present disclosure.
(1)上記第1実施形態では、吸収部材の識別情報、当該吸収部材の飽和度を、第2回収者端末からサーバ装置に送信する例を示したが、本開示はこれに限られない。例えば、吸収部材の識別情報のみの情報が第2回収者端末からサーバ装置に送信されてもよいし、吸収部材の識別情報、当該吸収部材の飽和度を、第1回収者端末からサーバ装置に送信してもよい。
(1) In the above-described first embodiment, an example in which the identification information of the absorbent member and the saturation degree of the absorbent member are transmitted from the second recovery person terminal to the server device has been described, but the present disclosure is not limited to this. For example, only the identification information of the absorbent member may be transmitted from the second recoverer terminal to the server device, or the identification information of the absorbent member and the saturation level of the absorbent member may be transmitted from the first recoverer terminal to the server device. You may send.
(2)上記第1~第3実施形態では、データベースには、全てのユーザのユーザIDが登録されている例(会員登録されている)を示したが、本開示はこれに限られない。例えば、ユーザIDが登録されていないユーザが、吸収部材情報を、サーバ装置に送信してもよい。サーバ装置は、例えば、送信したユーザが所属する国の回収量に、この二酸化炭素の回収量を加算する。
(2) In the first to third embodiments, an example in which the user IDs of all users are registered in the database (membership registration) is shown, but the present disclosure is not limited to this. For example, a user whose user ID is not registered may transmit the absorbent member information to the server device. The server device, for example, adds this carbon dioxide recovery amount to the recovery amount of the country to which the user who sent the data belongs.
(3)上記第1実施形態では、第2回収者端末(情報端末)により、飽和度(飽和率)を決定する例を示したが、本開示はこれに限られない。例えば、サーバ装置が情報端末から吸収部材の画像を取得して、サーバ装置によって飽和度(飽和率)を決定してもよいし、第1回収者端末、中間保管者端末、又は貯蔵者端末によって飽和度を決定してもよい。
(3) In the above-described first embodiment, an example in which the degree of saturation (saturation rate) is determined by the second recovery person terminal (information terminal) was shown, but the present disclosure is not limited to this. For example, the server device may acquire an image of the absorbent member from the information terminal and determine the degree of saturation (ratio of saturation) by the server device, or Saturation may be determined.
(4)上記第1~第3実施形態では、吸収部材をフィルタとして構成する例を示したが、本開示はこれに限られない。例えば、吸収部材がフィルタ(通気させるもの)ではなく、大気中に配置したもの(単に空気に接触するもの)として構成されてもよい。この場合、二酸化炭素回収機に、吸収部材を配置してもよいし、吸収部材を単独で大気中に放置してもよい。
(4) In the first to third embodiments, an example in which the absorbing member is configured as a filter has been shown, but the present disclosure is not limited to this. For example, the absorbent member may be arranged in the atmosphere (merely in contact with air) rather than as a filter (permeable). In this case, the absorbing member may be arranged in the carbon dioxide recovery machine, or the absorbing member may be left alone in the atmosphere.
(5)上記第1~第3実施形態では、撮影部により撮影した画像から、飽和率、重量、湿度、及び広告番号等を取得する例を示したが、本開示はこれに限られない。例えば、図25に示す変形例による二酸化炭素回収管理システム400のように、ユーザが数値を手入力してもよい。
(5) In the above first to third embodiments, examples of acquiring the saturation ratio, weight, humidity, advertisement number, etc. from the image captured by the imaging unit have been shown, but the present disclosure is not limited to this. For example, the user may manually input numerical values as in the modified carbon dioxide recovery management system 400 shown in FIG.
(6)上記第1~第3実施形態では、吸収部材の色彩が「白色」からから「赤色、紫色、又はピンク色」に変わる例を示したが、本開示はこれに限られない。例えば、図26に示す吸収部材561のように、二酸化炭素を吸収すると「赤又は紫色」から「白色又はピンク色」に変わるものが吸収部材として用いられてもよい。
(6) In the above-described first to third embodiments, an example in which the color of the absorbing member changes from "white" to "red, purple, or pink" is shown, but the present disclosure is not limited to this. For example, like an absorbing member 561 shown in FIG. 26, an absorbing member that changes from "red or purple" to "white or pink" when carbon dioxide is absorbed may be used as the absorbing member.
(7)上記第1~第3実施形態では、第2回収者が、第1回収者のユーザIDを示すQRコードを読み取り、当該ユーザIDと吸収部材情報とをサーバ装置に送信する例を示したが、本開示はこれに限られない。例えば、第1回収者が自身の第1回収者端末により、ユーザIDと吸収部材情報とをサーバ装置に送信してもよいし、中間保管者が中間保管者端末により、第1回収者のユーザIDと吸収部材情報とをサーバ装置に送信してもよいし、貯蔵者が貯蔵者端末により、第1回収者のユーザIDと吸収部材情報とをサーバ装置に送信してもよい。
(7) In the above first to third embodiments, the second collector reads the QR code indicating the user ID of the first collector and transmits the user ID and absorbent member information to the server device. However, the present disclosure is not limited to this. For example, the first collection person may transmit the user ID and the absorbent material information to the server device from his/her first collection person terminal, or the intermediate storage person may transmit the user information of the first collection person from the intermediate storage person terminal. The ID and the absorbent member information may be sent to the server device, or the storer may send the user ID of the first recoverer and the absorbent member information to the server device from the storer terminal.
(8)上記第1~第3実施形態では、第1回収者、中間保管者、及び貯蔵者が、会員登録する例を示したが、本開示はこれに限られない。例えば、第2回収者も、第1回収者と同様に会員登録されてもよい。この場合、データベースでは、第2回収者のユーザIDと、当該第2回収者による二酸化炭素の回収量の合計量、排出権・ポイントの情報、及び認証マークの使用許可の情報等と関連付けられる。
(8) In the above-described first to third embodiments, an example is shown in which the first recovery person, the intermediate storage person, and the storage person register as members, but the present disclosure is not limited to this. For example, the second collector may be registered as a member in the same manner as the first collector. In this case, the database associates the user ID of the second collector with the total amount of carbon dioxide collected by the second collector, information on emission rights/points, information on permission to use the certification mark, and the like.
(9)上記第1~第3実施形態では、吸収部材を外袋で覆う例を示したが、本開示はこれに限られない。例えば、吸収部材を外袋で覆わずに、吸収部材製造工場にて、製造完了時から二酸化炭素の吸収が始まってもよい。この場合、より早期から二酸化炭素を吸収することができるので、温暖化対策等の地球環境保護の点から有効である。吸収部材を外袋で覆わない場合、図27に示す変形例による吸収部材661のように、QRコード61aが見えなくなるように、カバーシール661bが貼り付けられていても良い。この場合、第1回収者がQRコード61aを読み取る際に、第1回収者がカバーシール661bを取り外せばよい。この場合、第1回収者とは、吸収部材661を購入した者であり、二酸化炭素を吸収部材661に吸着させた者である。吸収部材661の費用を製造業者又は販売業者に支払うのは、第1回収者、広告主、国や自治体などである。製造業者は、吸収部材661の発注が来なければ製造しないので、製造時点では発注者が第1回収者になる。その吸収部材661を上記発注者から別の者が購入した場合、その時点で第1回収者が上記発注者から当該別の者に変更される。広告主が要れば所定の条件に則り、排出権及びポイントを、第1回収者と広告主とで按分する。
(9) In the above first to third embodiments, the absorbent member is covered with the outer bag, but the present disclosure is not limited to this. For example, without covering the absorbent member with an outer bag, absorption of carbon dioxide may be started at the time of completion of production at an absorbent member manufacturing factory. In this case, carbon dioxide can be absorbed from an early stage, which is effective in terms of global environment protection such as global warming countermeasures. When the absorbent member is not covered with an outer bag, a cover seal 661b may be attached so that the QR code 61a cannot be seen, like the absorbent member 661 according to the modified example shown in FIG. In this case, when the first recovery person reads the QR code 61a, the first recovery person should remove the cover seal 661b. In this case, the first recoverer is the person who purchased the absorbing member 661 and made the absorbing member 661 adsorb carbon dioxide. The cost of the absorbent member 661 is paid to the manufacturer or distributor by the first collection party, the advertiser, the national government, the local government, or the like. Since the manufacturer does not manufacture unless an order for the absorbent member 661 is received, the orderer becomes the first collector at the time of manufacture. If another person purchases the absorbent member 661 from the orderer, the first collector is changed from the orderer to the other person at that time. If the advertiser so desires, emission credits and points are proportionally divided between the first collector and the advertiser according to predetermined conditions.
(10)上記実施形態では、二酸化炭素回収管理システムの動作を制御するプログラムが、サーバ装置等の記憶部に記憶されている態様を例示した。しかし、二酸化炭素回収管理システムの動作を制御するためのプログラムを記憶した、コンピュータ読み取り可能な任意の記憶媒体(プログラム記憶媒体)や、無線または有線の通信回線を通じて伝送されるプログラム(プログラム製品)も、実施形態に含まれる。
(10) In the above embodiment, the program for controlling the operation of the carbon dioxide recovery management system is stored in a storage unit such as a server device. However, any computer-readable storage medium (program storage medium) that stores a program for controlling the operation of the carbon dioxide recovery management system, or a program (program product) that is transmitted through a wireless or wired communication line. , are included in the embodiments.
(11)上記実施形態では、二酸化炭素の回収量を、吸収部材の飽和度又は重量のうちの少なくとも一方に基づいて決定する例を示したが、本開示はこれに限られない。例えば、回収量決定部を、吸収部材の識別情報と吸収可能量とが関連付けて記憶された吸収部材データベースを参照し、情報取得部により取得された吸収部材に関連付けられた吸収可能量を、二酸化炭素の回収量として決定するように構成してもよい。すなわち、回収された吸収部材が、吸収が飽和する時期以降に回収された吸収部材である場合、当該回収された吸収部材は、飽和した状態になっている。このため、吸収が飽和する時期以降に回収された吸収部材による二酸化炭素の回収量は、吸収部材に関連付けられた吸収可能量と等しくなるため、吸収部材の飽和度又は重量を用いなくとも、回収量を決定することができる。
(11) In the above embodiment, an example in which the recovery amount of carbon dioxide is determined based on at least one of the saturation degree and the weight of the absorbing member has been shown, but the present disclosure is not limited to this. For example, the recovery amount determination unit refers to an absorbent material database in which the identification information of the absorbent member and the absorbable amount are stored in association with each other, and the absorbable amount associated with the absorbent member acquired by the information acquisition unit is converted into dioxide. It may be configured to be determined as the amount of carbon recovered. That is, when the recovered absorbent member is the recovered absorbent member after the time when the absorption is saturated, the recovered absorbent member is in a saturated state. Therefore, the amount of carbon dioxide recovered by the absorbent member after the time of saturation of absorption is equal to the absorbable capacity associated with the absorbent member, so that even without using the saturation or weight of the absorbent member, amount can be determined.
また、上述した構成は、以下のように説明することができる。
In addition, the configuration described above can be explained as follows.
第1の構成に係る二酸化炭素回収管理システムは、複数の情報端末と通信可能に構成され、大気中及び機器から排気される空気中の少なくとも一方における二酸化炭素を吸収部材によって回収し、二酸化炭素の回収量を管理する二酸化炭素回収管理システムであって、大気中又は機器から排気される空気中から二酸化炭素を吸収する吸収部材の識別情報、当該吸収部材の飽和度、及び当該吸収部材の重量の少なくとも1つを含む吸収部材情報を、複数の情報端末の各々から取得する情報取得部と、吸収部材情報に基づいて、二酸化炭素の回収量を決定する回収量決定部と、回収量決定部により決定された二酸化炭素の回収量を、データベースに記憶する記憶制御部と、を備える(第1の構成)。
A carbon dioxide recovery management system according to a first configuration is configured to be able to communicate with a plurality of information terminals, recovers carbon dioxide in at least one of the atmosphere and air exhausted from equipment with an absorption member, and releases carbon dioxide. A carbon dioxide recovery management system that manages the amount of recovery, and includes identification information of an absorption member that absorbs carbon dioxide from the atmosphere or air exhausted from equipment, the saturation level of the absorption member, and the weight of the absorption member. An information acquisition unit that acquires absorption member information including at least one from each of a plurality of information terminals, a recovery amount determination unit that determines the recovery amount of carbon dioxide based on the absorption member information, and a recovery amount determination unit a storage control unit that stores the determined carbon dioxide recovery amount in a database (first configuration).
上記第1の構成によれば、吸収部材情報に含まれる二酸化炭素を回収した吸収部材の識別情報、吸収の飽和度、又は吸収部材の重量に基づいて、二酸化炭素の回収量を決定することができる。この結果、回収した二酸化炭素の量を直接的に測定する必要がなくなるので、二酸化炭素の回収量を容易に算出することができる。そして、二酸化炭素の回収量がデータベースに記憶されるので、二酸化炭素の回収量を管理することができる。
According to the first configuration, the recovery amount of carbon dioxide can be determined based on the identification information of the absorbing member that has recovered the carbon dioxide contained in the absorbing member information, the degree of absorption saturation, or the weight of the absorbing member. can. As a result, there is no need to directly measure the amount of carbon dioxide recovered, so the amount of recovered carbon dioxide can be easily calculated. Since the amount of recovered carbon dioxide is stored in the database, the amount of recovered carbon dioxide can be managed.
第1の構成において、二酸化炭素回収管理システムは、二酸化炭素の回収量に基づいて、吸収部材によって二酸化炭素の吸収を行った第1回収者による二酸化炭素の排出が許可された量である回収者排出権情報を決定する回収者排出権決定部を、さらに備えてもよい(第2の構成)。
In the first configuration, the carbon dioxide recovery management system is based on the recovery amount of carbon dioxide, and the recovery person who is the permitted amount of carbon dioxide emission by the first recovery person who absorbed carbon dioxide with the absorption member A collector emission credit determination unit that determines the emission credit information may be further provided (second configuration).
上記第2の構成によれば、二酸化炭素の回収量に応じた回収者排出権を決定することができる。この結果、回収者排出権情報を、第1回収者同士による排出権の取り引きに利用することができる。
According to the above second configuration, it is possible to determine the collector emission rights according to the amount of carbon dioxide collected. As a result, the collector emission credit information can be used for emission credit transactions between the first collectors.
第1または第2の構成において、複数の情報端末は、吸収部材を回収する第2回収者が使用する回収者端末と、第2回収者が回収した吸収部材を貯蔵する貯蔵者が使用する貯蔵者端末と、を含んでもよく、回収量決定部は、回収者端末から取得した吸収部材情報に基づいて、二酸化炭素の回収量を決定し、貯蔵者端末から取得した吸収部材情報に基づいて、二酸化炭素の貯蔵量を決定するように構成されてもよく、記憶制御部は、回収量決定部により決定された二酸化炭素の回収量及び二酸化炭素の貯蔵量を、データベースに記憶するように構成されてもよい(第3の構成)。
In the first or second configuration, the plurality of information terminals includes a collector terminal used by the second collector who collects the absorbent members, and a storage terminal used by the storer who stores the absorbent members collected by the second collector. and a recovery amount determination unit, based on the absorption member information acquired from the recovery party terminal, determines the recovery amount of carbon dioxide, and based on the absorption member information acquired from the storage party terminal, The storage control unit may be configured to determine the amount of carbon dioxide stored, and the storage control unit is configured to store the amount of carbon dioxide recovered and the amount of carbon dioxide stored determined by the recovery amount determination unit in a database. (third configuration).
上記第3の構成によれば、吸収部材情報に基づいて、二酸化炭素の貯蔵量を決定することができるので、貯蔵した二酸化炭素の量を直接的に計測することなく、二酸化炭素の貯蔵量を管理することができる。
According to the third configuration, the storage amount of carbon dioxide can be determined based on the absorption member information. can be managed.
第3の構成において、二酸化炭素回収管理システムは、二酸化炭素の貯蔵量に基づいて、貯蔵者による二酸化炭素の排出が許可された量である貯蔵者排出権情報を決定する、貯蔵者排出権決定部を、さらに備えてもよい(第4の構成)。
In a third configuration, the carbon dioxide capture management system determines reservoir allowance information, which is the amount of carbon dioxide allowed to be emitted by the reservoir, based on the amount of carbon dioxide stored. A part may be further provided (fourth configuration).
上記第4の構成によれば、二酸化炭素の貯蔵量に応じた貯蔵量排出権を決定することができる。この結果、貯蔵量排出権情報を、貯蔵者同士による排出権の取り引きに利用することができる。
According to the above fourth configuration, it is possible to determine the storage amount emission right according to the storage amount of carbon dioxide. As a result, the stored emission credit information can be used for trading of emission credits between stockers.
第4の構成において、複数の情報端末は、第2回収者から吸収部材を受け取る貯蔵者に吸収部材を引き渡すまで保管する中間保管者が使用する中間保管者端末、をさらに含んでもよく、回収量決定部は、中間保管者端末から取得した吸収部材情報に基づいて、二酸化炭素の中間保管量を決定するように構成されてもよく、記憶制御部は、回収量決定部により決定された二酸化炭素の中間保管量を、データベースに記憶するように構成されてもよい(第5の構成)。
In a fourth configuration, the plurality of information terminals may further include an intermediate custodian terminal used by an intermediate custodian who stores the absorbent member until the absorbent member is handed over to the custodian who receives the absorbent member from the second recoverer. The determination unit may be configured to determine the intermediate storage amount of carbon dioxide based on the absorption member information acquired from the intermediate storage person terminal, and the storage control unit determines the amount of carbon dioxide determined by the recovery amount determination unit. may be configured to store the intermediate storage amount of in a database (fifth configuration).
上記第5の構成によれば、第2回収者と貯蔵者との間で管理する中間保管者が保管している二酸化炭素の中間保管量を管理することができる。
According to the fifth configuration, it is possible to manage the intermediate storage amount of carbon dioxide stored by the intermediate storage person who manages between the second recovery person and the storage person.
第1~第5の構成のいずれか1つにおいて、情報取得部は、複数の情報端末の各々から、吸収部材情報及び情報端末ユーザ属性情報を取得するように構成されてもよく、記憶制御部は、回収量決定部により決定された二酸化炭素の回収量をユーザ属性情報に関連付けて、データベースに記憶するように構成されてもよく、二酸化炭素回収管理システムは、同一のユーザ属性情報に関連付けられた二酸化炭素の回収量を合計するとともに、二酸化炭素の回収量の合計値を出力する合計値出力部を、さらに備えてもよい(第6の構成)。
In any one of the first to fifth configurations, the information acquisition unit may be configured to acquire the absorbent member information and the information terminal user attribute information from each of the plurality of information terminals, and the storage control unit may be configured to associate the carbon dioxide recovery amount determined by the recovery amount determination unit with the user attribute information and store it in the database, and the carbon dioxide recovery management system may be configured to associate the same user attribute information with the carbon dioxide recovery amount. A total value output unit may be further provided which totals the recovered amount of carbon dioxide and outputs the total value of the recovered amount of carbon dioxide (sixth configuration).
上記第6の構成によれば、ユーザの属性に応じて二酸化炭素の回収量を集計することができる。
According to the sixth configuration, it is possible to aggregate the amount of carbon dioxide recovered according to the attributes of the user.
第1~第5の構成のいずれか1つにおいて、吸収部材は、複数の情報端末の少なくとも1つにより読取可能な識別符号であって、吸収部材情報の少なくとも一部が記憶された識別符号が付されていてもよく、情報取得部は、複数の情報端末の少なくとも1つから、識別符号から読み取った情報を取得するように構成されてもよい(第7の構成)。
In any one of the first to fifth configurations, the absorbent member has an identification code readable by at least one of the plurality of information terminals, and the identification code in which at least part of the absorbent member information is stored is The information acquisition unit may be configured to acquire information read from the identification code from at least one of the plurality of information terminals (seventh configuration).
上記第7の構成によれば、情報端末によって吸収部材から情報を容易に取得することができる。この結果、情報端末に吸収部材情報を入力するユーザの作業負担を軽減することができる。
According to the seventh configuration, the information terminal can easily acquire information from the absorbing member. As a result, it is possible to reduce the workload of the user who inputs the absorbent member information to the information terminal.
第7の構成において、識別符号は、吸収部材が回収可能な二酸化炭素の量の情報を含んでもよく、回収決定部は、吸収部材情報のうちの吸収部材が回収可能な二酸化炭素の量の情報に基づいて、二酸化炭素の回収量を決定するように構成されてもよい(第8の構成)。
In a seventh configuration, the identification code may include information on the amount of carbon dioxide that can be recovered by the absorbing member, and the recovery determining unit determines the information on the amount of carbon dioxide that can be recovered by the absorbing member from among the absorbing member information. (eighth configuration).
上記第8の構成によれば、吸収部材が飽和度であれば、当該吸収部材が回収可能な二酸化炭素の量を回収したものと推定することができ、飽和度の吸収部材の識別情報に基づいて、二酸化炭素の回収量を容易に計算することができる。
According to the eighth configuration, if the absorption member is saturated, it can be estimated that the absorption member has recovered the amount of carbon dioxide that can be recovered, and based on the identification information of the absorption member of the saturation , the recovery amount of carbon dioxide can be easily calculated.
第7または第8の構成において、識別符号は、吸収部材内において、吸収部材が開封されない状態では読取できない位置で、かつ、吸収部材が開封された状態で読取可能な位置に付されていてもよい(第9の構成)。
In the seventh or eighth configuration, even if the identification code is attached in the absorbent member at a position where it cannot be read when the absorbent member is not unsealed and where it is readable when the absorbent member is unsealed. Good (9th configuration).
上記第9の構成によれば、使用前の吸収部材から誤って識別符号が読み取られることを防止することができる。
According to the ninth configuration, it is possible to prevent the identification code from being erroneously read from the absorbent member before use.
第7~第9の構成のいずれか1つにおいて、複数の情報端末の少なくとも1つは、識別符号及び吸収部材の画像を撮影する撮影部を含んでもよく、二酸化炭素回収管理システムは、吸収部材の画像に基づいて、吸収部材の飽和度を決定する状態決定部を、さらに備えてもよい(第10の構成)。
In any one of the seventh to ninth configurations, at least one of the plurality of information terminals may include a photographing unit that photographs an image of the identification code and the absorbing member, and the carbon dioxide recovery management system includes the absorbing member (tenth configuration).
上記第10の構成によれば、識別符号及び吸収部材を撮影することで、吸収部材情報を容易に取得することができる。
According to the tenth configuration, it is possible to easily acquire the absorbent member information by photographing the identification code and the absorbent member.
第7~第10の構成のいずれか1つにおいて、吸収部材は、周囲の二酸化炭素濃度を計測する二酸化炭素計測器と、前記周囲の二酸化炭素濃度量に基づいて、前記吸収部材の吸収が飽和する時期を出力する飽和時期出力部と、を含む、二酸化炭素回収機内に配置されていてもよい(第11の構成)。
In any one of the seventh to tenth configurations, the absorbing member includes a carbon dioxide measuring instrument that measures the concentration of carbon dioxide in the surroundings, and the absorption of the absorbing member is saturated based on the concentration of carbon dioxide in the surroundings. and a saturation timing output unit that outputs the timing to be set in the carbon dioxide recovery machine (eleventh configuration).
上記第11の構成によれば、吸収部材を交換すべき時期を予測することができるので、交換すべき時期に吸収部材が交換されれば、飽和度の吸収部材が放置される期間を短くすることができる。これにより、効率良く二酸化炭素を回収することができる。
According to the eleventh configuration, it is possible to predict when the absorbing member should be replaced. Therefore, if the absorbing member is replaced at the time when it should be replaced, the period during which the saturated absorbing member is left unused is shortened. be able to. Thereby, carbon dioxide can be recovered efficiently.
第1~第11の構成のいずれか1つにおいて、二酸化炭素回収管理システムは、データベースに記憶された二酸化炭素の回収量の合計値と所定の基準値とを比較し、二酸化炭素の回収量の合計値が所定の基準値以上となった場合に、複数の情報端末のうちの少なくとも1つに、通知信号を送信する送信部をさらに備えてもよい(第12の構成)。
In any one of the first to eleventh configurations, the carbon dioxide recovery management system compares the total amount of carbon dioxide recovery stored in the database with a predetermined reference value, and determines the amount of carbon dioxide recovered. A transmitter may be further provided for transmitting a notification signal to at least one of the plurality of information terminals when the total value is equal to or greater than a predetermined reference value (12th configuration).
上記第12の構成によれば、情報端末を使用するユーザが、二酸化炭素の回収量の合計値が所定の基準値以上となったことを認識することができる。
According to the twelfth configuration, the user using the information terminal can recognize that the total value of the recovered amount of carbon dioxide has reached or exceeded the predetermined reference value.
第13の構成に係るプログラムは、大気中及び機器から排気される空気中の少なくとも一方における二酸化炭素の回収量を管理するためのプログラムであって、大気中又は機器から排気される空気中から二酸化炭素を吸収する吸収部材の識別情報、当該吸収部材の飽和度、及び当該吸収部材の重量の少なくとも1つを含む吸収部材情報を、複数の情報端末の各々から取得する処理と、吸収部材情報に基づいて、二酸化炭素の回収量を決定する処理と、決定された二酸化炭素の回収量を、データベースに記憶する処理と、コンピュータのプロセッサに実行させる(第13の構成)。
A program according to a thirteenth configuration is a program for managing the amount of carbon dioxide recovered in at least one of the atmosphere and the air exhausted from the equipment, wherein carbon dioxide is collected from the atmosphere or the air exhausted from the equipment a process of acquiring, from each of a plurality of information terminals, absorption member information including at least one of identification information of an absorption member that absorbs carbon, saturation of the absorption member, and weight of the absorption member; Based on this, a process of determining the amount of carbon dioxide recovered, a process of storing the determined amount of carbon dioxide recovered in a database, and a processor of a computer are caused to execute the process (thirteenth configuration).
上記第13の構成によれば、二酸化炭素の回収量を管理することが可能なプログラムを提供することができる。
According to the thirteenth configuration, it is possible to provide a program capable of managing the amount of carbon dioxide recovered.
第14の構成に係るプログラム記憶媒体は、プログラムが記憶され、コンピュータによる読み取りが可能なプログラム記憶媒体であって、プログラムは、空気中から二酸化炭素を吸収する吸収部材の識別情報、当該吸収部材の飽和度、及び当該吸収部材の重量の少なくとも1つを含む吸収部材情報を、複数の情報端末の各々から取得する処理と、吸収部材情報に基づいて、二酸化炭素の回収量を決定する処理と、決定された前記二酸化炭素の回収量を、データベースに記憶する処理と、コンピュータのプロセッサに実行させる(第14の構成)。
A program storage medium according to a fourteenth configuration is a program storage medium that stores a program and is readable by a computer, wherein the program stores identification information of an absorption member that absorbs carbon dioxide from the air; a process of acquiring absorption member information including at least one of a saturation level and a weight of the absorption member from each of a plurality of information terminals; a process of determining the recovery amount of carbon dioxide based on the absorption member information; A process of storing the determined carbon dioxide recovery amount in a database and a processor of a computer are executed (14th configuration).
上記第14の構成によれば、二酸化炭素の回収量を管理することが可能なプログラム記憶媒体を提供することができる。
According to the fourteenth configuration, it is possible to provide a program storage medium capable of managing the amount of carbon dioxide recovered.
10…サーバ装置、11…制御部、11a…情報取得部、11b…回収量決定部、11c…記憶制御部、11d…排出権決定部、11e…通知制御部、11f…取引制御部、12…記憶部、12a…プログラム、12b…データベース、20、220、320…回収者端末、21、221、321…制御部、23…表示部、25…撮影部、26a、226a、326a…アプリケーションプログラム、30…中間保管者端末、33…表示部、35…撮影部、40…貯蔵者端末、43…表示部、45…撮影部、60…二酸化炭素回収機、61、561…吸収部材、61a…QRコード、61b…外袋、63…計測部、64…報知部、100、200、300、400…二酸化炭素回収管理システム、161…吸収部材群、161a…QRコード、261…吸収部材群、261a…QRコード
DESCRIPTION OF SYMBOLS 10... Server apparatus 11... Control part 11a... Information acquisition part 11b... Collection amount determination part 11c... Storage control part 11d... Emissions determination part 11e... Notification control part 11f... Transaction control part 12... Memory unit 12a...Program 12b... Database 20, 220, 320... Collector terminal 21, 221, 321...Control unit 23...Display unit 25...Photographing unit 26a, 226a, 326a...Application program 30 Intermediate storage terminal 33 Display unit 35 Imaging unit 40 Storer terminal 43 Display unit 45 Imaging unit 60 Carbon dioxide recovery machine 61, 561 Absorbing member 61a QR code , 61b... Outer bag 63... Measurement unit 64... Notification unit 100, 200, 300, 400... Carbon dioxide recovery management system 161... Absorption member group 161a... QR code 261... Absorption member group 261a... QR code
Claims (14)
- 複数の情報端末と通信可能に構成され、空気中の二酸化炭素を吸収部材によって回収し、二酸化炭素の回収量を管理する二酸化炭素回収管理システムであって、
空気中から二酸化炭素を吸収する吸収部材の識別情報、当該吸収部材の飽和度、及び当該吸収部材の重量の少なくとも1つを含む吸収部材情報を、前記複数の情報端末の各々から取得する情報取得部と、
前記吸収部材情報に基づいて、二酸化炭素の回収量を決定する回収量決定部と、
前記回収量決定部により決定された前記二酸化炭素の回収量を、データベースに記憶する記憶制御部と、を備える、二酸化炭素回収管理システム。 A carbon dioxide recovery management system that is configured to be able to communicate with a plurality of information terminals, recovers carbon dioxide in the air with an absorption member, and manages the amount of carbon dioxide recovered,
Acquiring information from each of the plurality of information terminals, absorbing member information including at least one of identification information of an absorbing member that absorbs carbon dioxide from the air, saturation of the absorbing member, and weight of the absorbing member Department and
a recovery amount determination unit that determines a recovery amount of carbon dioxide based on the absorption member information;
and a storage control unit that stores the amount of carbon dioxide recovered determined by the recovery amount determination unit in a database. - 前記二酸化炭素の回収量に基づいて、前記吸収部材によって二酸化炭素の吸収を行った第1回収者による二酸化炭素の排出が許可された量である回収者排出権情報を決定する回収者排出権決定部を、さらに備える、請求項1に記載の二酸化炭素回収管理システム。 Determination of recoverer emission rights for determining recoverer emission credit information, which is an amount permitted for emission of carbon dioxide by a first recoverer who has absorbed carbon dioxide with the absorbing member, based on the amount of recovered carbon dioxide. 2. The carbon dioxide capture management system of claim 1, further comprising a unit.
- 前記複数の情報端末は、前記吸収部材を回収する第2回収者が使用する回収者端末と、前記第2回収者が回収した前記吸収部材を貯蔵する貯蔵者が使用する貯蔵者端末と、を含み、
前記回収量決定部は、前記回収者端末から取得した前記吸収部材情報に基づいて、前記二酸化炭素の回収量を決定し、前記貯蔵者端末から取得した前記吸収部材情報に基づいて、前記二酸化炭素の貯蔵量を決定し、
前記記憶制御部は、前記回収量決定部により決定された前記二酸化炭素の回収量及び前記二酸化炭素の貯蔵量を、前記データベースに記憶する、請求項1または2に記載の二酸化炭素回収管理システム。 The plurality of information terminals include a collector terminal used by a second collector who collects the absorbent members, and a stocker terminal used by a stocker who stores the absorbent members collected by the second collector. including
The recovery amount determination unit determines the recovery amount of the carbon dioxide based on the absorption member information acquired from the recovery terminal, and determines the carbon dioxide recovery amount based on the absorption member information acquired from the storage terminal. determine the amount of storage of
3. The carbon dioxide recovery management system according to claim 1, wherein the storage control unit stores the amount of carbon dioxide recovered and the amount of stored carbon dioxide determined by the recovery amount determination unit in the database. - 前記二酸化炭素の貯蔵量に基づいて、前記貯蔵者による二酸化炭素の排出が許可された量である貯蔵者排出権情報を決定する、貯蔵者排出権決定部を、さらに備える、請求項3に記載の二酸化炭素回収管理システム。 4. The storage credit determination unit according to claim 3, further comprising a storage credit determination unit that determines storage credit credit information, which is the amount of carbon dioxide permitted to be discharged by the storage device, based on the amount of carbon dioxide stored. carbon capture management system.
- 前記複数の情報端末は、前記第2回収者から前記吸収部材を受け取り、前記貯蔵者に前記吸収部材を引き渡すまで前記吸収部材を保管する中間保管者が使用する中間保管者端末、をさらに含み、
前記回収量決定部は、前記中間保管者端末から取得した前記吸収部材情報に基づいて、前記二酸化炭素の中間保管量を決定し、
前記記憶制御部は、前記回収量決定部により決定された前記二酸化炭素の中間保管量を、前記データベースに記憶する、請求項4に記載の二酸化炭素回収管理システム。 The plurality of information terminals further includes an intermediate custodian terminal used by an intermediate custodian who receives the absorbent member from the second collector and stores the absorbent member until the absorbent member is handed over to the storage person,
The recovery amount determination unit determines the intermediate storage amount of carbon dioxide based on the absorption member information acquired from the intermediate storage person terminal,
5. The carbon dioxide recovery management system according to claim 4, wherein the storage control unit stores the intermediate storage amount of carbon dioxide determined by the recovery amount determination unit in the database. - 前記情報取得部は、前記複数の情報端末の各々から、前記吸収部材情報及び情報端末ユーザ属性情報を取得し、
前記記憶制御部は、前記回収量決定部により決定された前記二酸化炭素の回収量を前記ユーザ属性情報に関連付けて、前記データベースに記憶し、
同一のユーザ属性情報に関連付けられた前記二酸化炭素の回収量を合計するとともに、前記二酸化炭素の回収量の合計値を出力する合計値出力部を、さらに備える、請求項1~5のいずれか1項に記載の二酸化炭素回収管理システム。 The information acquisition unit acquires the absorbent member information and the information terminal user attribute information from each of the plurality of information terminals,
The storage control unit associates the recovery amount of carbon dioxide determined by the recovery amount determination unit with the user attribute information and stores it in the database;
6. Any one of claims 1 to 5, further comprising a total value output unit that totals the carbon dioxide recovery amounts associated with the same user attribute information and outputs the total value of the carbon dioxide recovery amounts. A carbon dioxide capture management system as described in paragraph 1. - 前記吸収部材は、前記複数の情報端末の少なくとも1つにより読取可能な識別符号であって、前記吸収部材情報の少なくとも一部が記憶された識別符号が付されており、
前記情報取得部は、前記複数の情報端末の少なくとも1つから、前記識別符号から読み取った情報を取得する、請求項1~6のいずれか1項に記載の二酸化炭素回収管理システム。 the absorbing member is attached with an identification code readable by at least one of the plurality of information terminals and storing at least part of the absorbing member information;
The carbon dioxide recovery management system according to any one of claims 1 to 6, wherein the information acquisition unit acquires information read from the identification code from at least one of the plurality of information terminals. - 前記識別符号は、前記吸収部材が回収可能な二酸化炭素の量の情報を含み、
前記回収決定部は、前記吸収部材情報のうちの前記吸収部材が回収可能な二酸化炭素の量の情報に基づいて、前記二酸化炭素の回収量を決定する、請求項7に記載の二酸化炭素回収管理システム。 The identification code includes information on the amount of carbon dioxide that can be recovered by the absorption member,
8. The carbon dioxide recovery management according to claim 7, wherein said recovery determination unit determines the amount of carbon dioxide to be recovered based on information on the amount of carbon dioxide that can be recovered by said absorption member, out of said absorption member information. system. - 前記識別符号は、前記吸収部材内において、前記吸収部材が開封されない状態では読取できない位置で、かつ、前記吸収部材が開封された状態で読取可能な位置に付されている、請求項7または8に記載の二酸化炭素回収管理システム。 9. The identification code is attached in the absorbent member at a position where the identification code cannot be read when the absorbent member is unopened and at a position where the identification code can be read when the absorbent member is opened. The carbon dioxide capture management system according to .
- 前記複数の情報端末の少なくとも1つは、前記識別符号及び前記吸収部材の画像を撮影する撮影部を含み、
前記吸収部材の画像に基づいて、前記吸収部材の飽和度を決定する状態決定部を、さらに備える、請求項7~9のいずれか1項に記載の二酸化炭素回収管理システム。 at least one of the plurality of information terminals includes a photographing unit for photographing an image of the identification code and the absorbing member;
10. The carbon dioxide recovery management system according to any one of claims 7 to 9, further comprising a state determining unit that determines the degree of saturation of the absorbing member based on the image of the absorbing member. - 前記吸収部材は、周囲の二酸化炭素濃度を計測する二酸化炭素計測器と、前記周囲の二酸化炭素濃度に基づいて、前記吸収部材の吸収が飽和する時期を出力する飽和時期出力部と、を含む、二酸化炭素回収機内に配置されている、請求項1~10のいずれか1項に記載の二酸化炭素回収管理システム。 The absorption member includes a carbon dioxide measuring instrument that measures the concentration of carbon dioxide in the surroundings, and a saturation time output unit that outputs the timing at which the absorption of the absorption member is saturated based on the concentration of carbon dioxide in the surroundings, The carbon dioxide capture management system according to any one of claims 1 to 10, located within a carbon dioxide capture machine.
- 前記データベースに記憶された前記二酸化炭素の回収量の合計値と所定の基準値とを比較し、前記二酸化炭素の回収量の合計値が前記所定の基準値以上となった場合に、前記複数の情報端末のうちの少なくとも1つに、通知信号を送信する送信部を、さらに備える、請求項1~11のいずれか1項に記載の二酸化炭素回収管理システム。 The total value of the amount of recovered carbon dioxide stored in the database is compared with a predetermined reference value, and if the total value of the amount of recovered carbon dioxide is equal to or greater than the predetermined reference value, the plurality of The carbon dioxide recovery management system according to any one of claims 1 to 11, further comprising a transmitter that transmits a notification signal to at least one of the information terminals.
- 空気中の二酸化炭素の回収量を管理するためのプログラムであって、
空気中から二酸化炭素を吸収する吸収部材の識別情報、当該吸収部材の飽和度、及び当該吸収部材の重量の少なくとも1つを含む吸収部材情報を、複数の情報端末の各々から取得する処理と、
前記吸収部材情報に基づいて、二酸化炭素の回収量を決定する処理と、
決定された前記二酸化炭素の回収量を、データベースに記憶する処理と、コンピュータのプロセッサに実行させる、プログラム。 A program for managing the recovery of carbon dioxide from the air,
a process of acquiring, from each of a plurality of information terminals, absorption member information including at least one of identification information of an absorption member that absorbs carbon dioxide from the air, saturation of the absorption member, and weight of the absorption member;
a process of determining the recovery amount of carbon dioxide based on the absorption member information;
A process of storing the determined carbon dioxide recovery amount in a database, and a program that causes a processor of a computer to execute the process. - プログラムが記憶され、コンピュータによる読み取りが可能なプログラム記憶媒体であって、
前記プログラムは、
空気中から二酸化炭素を吸収する吸収部材の識別情報、当該吸収部材の飽和度、及び当該吸収部材の重量の少なくとも1つを含む吸収部材情報を、複数の情報端末の各々から取得する処理と、
前記吸収部材情報に基づいて、二酸化炭素の回収量を決定する処理と、
決定された前記二酸化炭素の回収量を、データベースに記憶する処理と、コンピュータのプロセッサに実行させる、プログラム記憶媒体。
A program storage medium that stores a program and is readable by a computer,
The program
a process of acquiring, from each of a plurality of information terminals, absorption member information including at least one of identification information of an absorption member that absorbs carbon dioxide from the air, saturation of the absorption member, and weight of the absorption member;
a process of determining the recovery amount of carbon dioxide based on the absorption member information;
A process of storing the determined carbon dioxide recovery amount in a database, and a program storage medium causing a processor of a computer to execute the process.
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