JP2011022892A - Management method of greenhouse gas, program for executing the method, and apparatus for executing the method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve an incentive for reduction of greenhouse gas. <P>SOLUTION: Emission of an emission source is assigned for each individual product by ratio of weighting indicating the degree of relation between an individual product and the emission source obtained by using a relation time related to the individual product of the emission source, and individual product emission for each individual product are obtained (S144 to S146), the individual emission for each individual product is divided by the relation time of the individual product to obtain real unit emission for each individual product (S147). Next, the real unit emission of the individual product are subtracted from standard unit emission being standard emission predetermined for the individual product of a virtual emission source per unit time, the value obtained by the subtraction is multiplied by the relation time for the individual product to obtain an emission right of the individual product (S148), and the emission right of the individual product is output (S151). <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a greenhouse gas management technique, and more particularly to a technique capable of improving incentives for reducing greenhouse gas.

  In recent years, various efforts have been made to reduce greenhouse gases to prevent global warming. In order to reduce greenhouse gases, it is first important to calculate the amount of emission or energy consumption. For example, Patent Document 1 discloses a method for calculating the amount of transportation energy consumed for each package or shipper.

JP 2008-21285A

  However, the technique described in Patent Document 1 is limited to the calculation of energy consumption for each package, and it cannot be directly linked to suppression of energy consumption or reduction of greenhouse gases. There is a point.

  Accordingly, an object of the present invention is to provide a technique capable of improving incentives for reducing greenhouse gases.

In order to solve the above problems, the present invention provides:
Data indicating the amount of greenhouse gas emissions at the source that emits greenhouse gases in the course of treatment for individual items representing each of the products, and the degree of operation related to the individual item of the source, An acquisition step of acquiring a standard unit emission amount that is a standard emission amount predetermined for a product to which the individual item belongs, per unit operation degree of a virtual emission source,
Using the amount of greenhouse gas emissions at the source and data indicating the degree of operation associated with the individual item at the source, the greenhouse gas actual at the source for the individual item is used. A step of calculating actual unit emissions to obtain unit emissions;
A value obtained by multiplying the difference between the standard unit discharge amount of the individual product and the actual unit discharge amount of the individual product by the operation degree related to the individual product of the discharge source is the individual at the discharge source. Emission credit calculation step required as an emission credit for goods,
An output step of causing the output means of the computer to output the emission right of the individual product obtained in the emission right calculation step;
Is executed by a processor of the computer.

  Here, the operation level of the emission source may be a time related to the emission of the greenhouse gas at the emission source, and the unit operation level may be a unit time.

In this case, when multiple individual items are involved with the discharge source,
In the obtaining step, the emission start time and emission end time of the greenhouse gas at the emission source and the emission amount between the emission start time and the emission end time are obtained, and the emission source As the data indicating the degree of operation related to the individual item, the relationship start time and the relationship end time for the individual discharge sources for all individual items related to the discharge source between the discharge start time and the discharge end time To obtain traceability data
In the actual unit emission calculating step,
Using the traceability data for all the individual items, a relationship time calculating step for obtaining a relationship time with the discharge source for all the individual items;
For each of the individual items, a weight degree calculation step for obtaining a weight degree indicating the degree of the relationship between the individual item and the discharge source using the relation time of the individual item;
By dividing the discharge amount for all the individual items by the ratio of the weight degree for all the individual items, an individual amount that is the discharge amount for each individual item of the discharge source for each of the individual items. Individual product discharge calculation step to determine product discharge,
Dividing the individual product discharge amount for all the individual products by the related time of the individual product to obtain the actual unit discharge amount calculating step for obtaining the actual unit discharge amount for each individual product;
Run
In the emission credit calculation step, the emission credits for all the individual items are obtained,
In the output step, the output means outputs the emission rights for all the individual items.
It is preferable.

  In addition, the other problems disclosed in the present application and the means for solving the same will become apparent from the description of the mode for carrying out the invention described below and the drawings.

  According to the present invention, since the difference between the standard emission amount and the actual emission amount is presented as an emission right for each individual product, the acquisition of the surplus of the greenhouse gas emission amount or the surplus amount for each individual product. It is possible to grasp disappearances and improve incentives for reducing greenhouse gases.

It is a block diagram of the management system of the greenhouse gas as one Embodiment which concerns on this invention. It is explanatory drawing which shows the data structure of the individual goods master table as one Embodiment which concerns on this invention. It is explanatory drawing which shows the data structure of traceability DB as one Embodiment which concerns on this invention. It is explanatory drawing which shows the data structure of discharge | emission information DB as one Embodiment which concerns on this invention. It is explanatory drawing which shows the data structure of individual goods gas management DB as one Embodiment which concerns on this invention. It is a flowchart which shows the processing content in the individual goods gas management program as one Embodiment which concerns on this invention. It is explanatory drawing which shows the display content of the individual item gas information and individual item total gas information as one Embodiment which concerns on this invention.

  Hereinafter, a greenhouse gas management system according to an embodiment of the present invention will be described with reference to the drawings.

  As shown in FIG. 1, the management system of the present embodiment includes an exhaust gas management device 100 and at least one or more site management devices 200. The exhaust gas management device 100 and each site management device 200 are connected by a communication path N.

  The communication path N is, for example, a standard communication path such as a wired LAN (Local Area Network) or a wireless LAN, a mobile phone network, or the like.

  The on-site management apparatus 200 is an apparatus in which a reader (bar code reader, two-dimensional code reader, RFID reader, etc.) is incorporated in or externally attached to, for example, a PC (Personal Computer), a notebook PC, a PDA (Personal Digital Assistants), or a mobile phone. In the field work such as loading, unloading, loading, unloading, unloading, display, and sales of individual items, the individual item ID is read from the tag 10 attached to the individual item, and business data is added for traceability. Data is generated and the traceability data is notified to the exhaust gas management apparatus 100.

  The tag 10 attached to the individual item indicates at least an individual item ID that uniquely identifies the individual item to which the tag 10 is attached, such as a barcode, a two-dimensional code, and an RFID (Radio Frequency Identification) tag. It is a medium. Moreover, an individual item means the object in which the goods of the same kind were distinguished one by one here.

  The site management apparatus 200 includes at least a CPU 201 that executes various arithmetic processes, a memory 202 that serves as a work area of the CPU 201, an auxiliary storage device 205, a communication interface 206, and a reader 207. The communication interface 206 is, for example, an interface such as a wired LAN card or a wireless LAN card, or a communication circuit of a mobile phone, and communicates with the exhaust gas management apparatus 100 via the communication path N. The reader 205 is, for example, a bar code reader, a two-dimensional code reader, an RFID reader, or the like, and is a device that reads the description content or stored content of the tag 10. The auxiliary storage device 205 is a device that stores programs and data, such as a hard disk drive device or a flash memory. The auxiliary storage device 205 stores at least a site management program 210 as a program. Furthermore, the auxiliary storage device 205 is provided with a traceability database 270 in which traceability data is stored in the course of execution of the on-site management program 210 by the CPU 201.

  The on-site management program 210 reads the individual product ID from the tag 10 via the reader 207 and adds the business data when performing on-site operations such as loading, unloading, warehousing, unloading, unloading, display, and sales of individual items. This is a program for generating traceability data and notifying the exhaust gas management apparatus 100 of the traceability data via the communication interface 206. The program 210 is expanded on the memory 202 by the CPU 201 and executed by the CPU 201.

  The exhaust gas management device 100 is a device such as a PC, for example, individual product master data including standard discharge amount and weight per unit time defined in advance for each product code, transportation means and storage location of individual products, etc. Emission information (emission start date / time, emission end date / time, emission amount) of each emission source and traceability data of each individual item at each emission source are managed, and emission rights for each individual item are calculated from the above data. To do.

  The exhaust gas management device 100 includes at least a CPU 101, a memory 102, an input device 103 such as a keyboard and a mouse, a display 104, an auxiliary storage device 105, and a communication interface 106. The communication interface 106 is an interface such as a wired LAN card or a wireless LAN card, and communicates with the field management apparatus 200 via the communication path N. The auxiliary storage device 105 is a device that stores programs and data, such as a hard disk drive device or a flash memory. The auxiliary storage device 105 stores at least an individual product master management program 110, a traceability data registration program 120, an exhaust information registration program 130, and an individual exhaust gas management program 140 as programs. The auxiliary storage device 105 further includes an individual product master table 160 in which at least master data for each product is registered, a traceability DB 170 in which traceability data from each field management device 100 is registered, and transportation means for individual products. A discharge information DB 180 for registering discharge information (discharge start date / time, discharge end date / time, discharge amount) of each discharge source such as a storage location, and an individual gas management DB 190 for registering individual product emission rights, etc. Is provided.

  The individual item master management program 110 registers individual item master data (individual item ID, individual item weight, etc.) input from the input device 103 or the like in the individual item master table 160, and the data in the individual item master table 160 This is a program for changing to data input from the input device 103 or the like.

  The traceability data registration program 120 is a program for registering traceability data from the site management apparatus 200 in the traceability DB 370.

  The discharge information program 130 is a program for registering discharge information (discharge start date / time, discharge end date / time, discharge amount) of the discharge source input from the input device 103 or the like in the discharge information DB 180.

  The individual exhaust gas management program 140 uses the data registered in the individual product master table 160, the traceability DB 170, and the emission information DB 180 to calculate the emission rights and the like for each individual product, and the results are used as the individual gas management DB 190. It is a program to register with. The processing by the individual exhaust gas management program 140 will be described in detail later with reference to FIG.

  Each of these programs 110, 120, 130, and 140 is developed on the memory 102 by the CPU 101 and executed by the CPU 101.

  The individual product master table 160 is a table that manages the product code of each product and manages the weight for each product code and the standard unit discharge amount described later.

  As shown in FIG. 2, the individual product master table 160 includes an individual product ID field 161 in which an individual product ID for uniquely identifying an individual product is registered as a record field, and a product code of the individual product. A product code field 162, a weight 163 in which the weight of the product indicated by the product code is registered, and a standard unit discharge amount field 164 in which the standard unit discharge amount is stored.

  The standard unit emission is a standard emission amount of greenhouse gas per unit time (unit operation) emitted by a virtual emission source. This standard unit emission amount is a constant value, here it is a value determined in advance by the manager of the product, regardless of whether the actual emission source is different if the product is the same. In ISO (International Organization for Standardization), there is a movement to determine the standard unit emissions. If standard unit emissions are determined by ISO in the future, as standard unit emissions, It is preferable to use a value determined by ISO or a value obtained by multiplying this value by a certain coefficient.

  The traceability DB 170 is a database for collectively managing traceability data generated in each site management apparatus 200.

  As shown in FIG. 3, the traceability DB 170 includes, as record fields, an individual item ID field 171 in which an individual item ID for uniquely identifying an individual item is registered, a date and time field 172 in which date and time are registered, and the individual items. It includes a discharge source ID field 173 in which a discharge source ID for uniquely specifying a discharge source related to the product is registered, and an input / output direction field 174 in which IN or OUT which is the input / output direction is registered. Data in each record is generated by each on-site management device 200, then sent to the exhaust gas management device 100, and registered in the traceability DB 170 by executing the traceability data registration program 120.

  The date and time field 172 stores the date and time when the individual item has started a relationship with the discharge source or has ended the relationship. Here, “beginning of relationship” means that the individual item is placed under the control of the discharge source, for example, the individual item is loaded in the transportation means, or the individual item is received in the warehouse. , “Ended the relationship” means that the individual item was removed from the control of the discharge source, for example, the individual item was unloaded from the means of transportation, the individual item was released from the warehouse, or sold to the consumer That means. Also, in the entry / exit direction field 174, as described above, IN or OUT which is the entry / exit direction is registered. Here, “IN” indicates that “the relationship has started”, and “OUT” indicates that “the relationship has ended”.

  Note that the traceability DB 270 provided in each site management apparatus 200 has the same data configuration as the traceability DB 170 provided in the exhaust gas management apparatus 100 described above. However, unlike the traceability DB 170 of the exhaust gas management device 100, the traceability DB 270 of each site management device 200 stores only the traceability data of individual items for the discharge sources related to the site management device 200.

  The discharge information DB 180 is a database for managing discharge information (discharge start date / time, discharge end date / time, discharge amount) from each discharge source such as transportation means and storage location related to individual items.

  As shown in FIG. 4, the emission information DB 180 includes an emission source ID field 182 in which an emission source ID for uniquely identifying an emission source is registered as a record field, and the emission source starts emission of greenhouse gases. The emission start date / time field 183 in which the date and time when the emission source is registered, the emission end date / time field 184 in which the date and time when the emission source has ended the emission of the greenhouse gas are registered, An emission field 185 in which the emission amount of the greenhouse gas emitted is registered, and an emission ID field 181 in which an emission ID for uniquely specifying the emission information including the emission start date, the emission end date, and the emission amount is registered. Including.

  As described above, the discharge ID is an ID for uniquely specifying the discharge information, in other words, an ID for uniquely specifying each record of the discharge information DB 180. The discharge ID is automatically executed by executing the discharge information registration program 130. Number etc. are set. In addition, in the record of the discharge information DB 180, data excluding the discharge ID, that is, discharge information is input from the input device 103 and registered in the discharge information DB 180 by executing the discharge information registration program 130.

  Note that the discharge ID may uniquely identify the discharge information in combination with the discharge source ID. In this case, the discharge start date and time or the discharge end date may be combined with the discharge source ID. In addition, if the emission source is a transportation means (truck, etc.), the emission amount in the emission information is calculated by multiplying the gasoline consumption by a predetermined coefficient. It can be calculated by multiplying another predetermined coefficient. For this reason, when the administrator of the exhaust gas management apparatus 100 receives gasoline consumption, electricity usage, etc. from the emission source, the value of the emission source is multiplied by a predetermined coefficient. The emission amount may be input with the input device 103, or the gasoline consumption amount or the electricity usage amount from the discharge source is input with the input device 103 as they are. The emission amount may be calculated from the value.

  The individual product gas management DB 190 is a database for managing the calculation results and the like by the individual product gas management program 140 as described above.

  As shown in FIG. 5, the individual gas management DB 190 includes an individual item ID field 191 in which an individual item ID is registered as a record field, and an emission source in which an ID of an emission source related to the individual item is registered. An ID field 192, a discharge ID field 193 in which a discharge ID of discharge information used for calculation of emission rights to be described later is registered, a related time field 194 in which the time related to the discharge source is registered, Of the discharge amount of the discharge source related to the individual item, a weight field 195 for registering the degree of weight assigned as the discharge amount for the individual item and the discharge amount of the discharge source related to the individual item The emission amount field 196 in which the emission amount allocated to the individual item is registered, and the actual unit emission amount which is the emission amount per unit time (unit operation rate) of the emission amount for the individual item. Including the actual unit emissions field 197 the amount is registered, the emission rights field 198 emission credits is an emission to which the individual-item led to the acquisition or loss or purchase is registered, the. All the data in each record is registered by executing the individual gas management program 140.

  Next, the operation of the management system of this embodiment will be described. In the following description, for convenience, the program may be described as an operation subject, but actually, the operation subject is the CPU 101 or the CPU 201 that executes the program.

  At the site where loading, unloading, warehousing, unloading, unloading, display, sales, etc. of individual items, when associating individual items with exhaust sources, or when terminating the relationship between individual items and exhaust sources, Using the input device (not shown) of the site management device 200, the site management device 200 is caused to input the entry / exit direction “IN” or “OUT” of the individual product and the ID of the exhaust source. Subsequently, the reader 207 causes the reader 207 to read the ID of the individual item from the tag 10 attached to the individual item, and inputs it to the site management apparatus 200. Specifically, when loading a plurality of individual items on a transportation means such as a truck, or when receiving them in a warehouse, the field worker first uses an input device (not shown) to input the individual items. “IN” and the ID of the truck or warehouse as the exhaust source are input to the site management apparatus 200. Then, in the process of loading a plurality of individual items on a truck or in the process of receiving a plurality of individual items in a warehouse, the reader 207 reads the ID of the individual item from the tag 10 attached to each individual item.

  The site management program 210 of the site management device 200 receives the input / output direction “IN” or “OUT” and the discharge source ID from the input device, and then sequentially receives a plurality of individual product IDs from the reader 207. Is received in the traceability DB 270. The individual ID, the date and time at that time, the input / output direction “IN” or “OUT” received from the input device, and the discharge source ID are stored in the traceability DB 270.

  Upon completion of loading of a plurality of individual items on a truck or warehousing into a warehouse, the site worker inputs “end” of loading or warehousing to the site management device 200 using the input device. When the field management program 210 of the field management device 200 receives “end” from the input device, the record data newly stored in the traceability DB 270, that is, the traceability data for each individual product is sent to the exhaust gas management via the communication path N. Send to device 100. In this case, new traceability data is sent to the exhaust gas management apparatus 100 when a series of processing (loading or warehousing) to the discharge source is completed. However, new traceability data is periodically updated. May be sent, or new traceability data may be sent on condition that a traceability data transmission request is received from the individual gas management program 140 of the exhaust gas management device 100.

  When the traceability data from the field management device 200 is received by the communication interface of the exhaust gas management device 100, the traceability data registration program 120 of the exhaust gas management device 100 converts the sent traceability data into the traceability DB 170 (FIG. 3). Register with.

  The individual product master management program 110 of the exhaust gas management device 100 is the master data of the individual product input from the input device 103, specifically the traceability data registration process for each product by the traceability data registration program 120, specifically, The individual product ID, the product code of the product, and the weight of the product indicated by the product code are received and registered in the product master table 160 (FIG. 2). Here, the individual product master management program 110 accepts the individual product master data input by the administrator of the discharge management device 100 using the input device 103. However, the individual product master data is stored in the individual product master data. Since the data is created at the production base to be produced, the individual article master management program 110 may accept the individual article master data from the production base via the communication path N.

  The emission information registration program 180 of the exhaust gas management apparatus 100 is configured so that the emission information input from the input device 103, specifically, the emission source ID, the emission start date and time and the emission end date and time at the emission source, The greenhouse gas emission amount from the emission start date and time to the emission end date is accepted, and these are registered in the emission information DB 180 (FIG. 4). Further, a discharge ID for this discharge information is set, and this discharge ID is also registered in the discharge information DB 180. Here, although the discharge information registration program 130 accepts the discharge information input by the administrator of the discharge management apparatus 100 using the input device 103, the discharge source does not move like a warehouse. In this case, the discharge information registration program 130 may receive the discharge information from the device such as the site management device 200 of the discharge source via the communication path N.

  As described above, the individual gas management program 140 of the exhaust gas management apparatus 100 uses the data registered in the individual item master table 160, the traceability DB 170, and the emission information DB to calculate the emission right of the individual item. .

  Here, the processing contents of the individual gas management program 140 will be described in detail with reference to FIG.

  This individual gas management program 140 starts processing when it receives an instruction to start processing from the input device 103 or when a predetermined period of time elapses.

  First, the individual gas management program 140 acquires a record newly registered in the emission information DB 180 (FIG. 4), that is, new emission information (S141). The individual gas management program 140 executes the following process for each of the acquired one or more pieces of emission information. In the following, it is assumed that the individual gas management program 140 has acquired a record (emission information) in which “003” is stored in the emission ID field 181 from the emission information DB 180, and a specific example in the following processing is performed. explain.

  Next, the individual gas management program 140 acquires traceability data related to the emission information acquired in step 141 from the traceability DB 170 (FIG. 3) (S142). That is, in the traceability data registered in the traceability DB 170, all traceability whose emission source ID matches the emission source ID of the emission information and whose date / time is between the emission start date / time and the emission end date / time of the emission information. Get the data.

  Specifically, when the individual gas management program 140 obtains the record (discharge information) of the discharge ID “003” from the discharge information management DB 180 in step 141, among the traceability data registered in the traceability DB 170, The discharge source ID matches the discharge source ID “c501” of the discharge information (discharge ID “003”), the date and time are the discharge start date and time “2009/02/11 08:00” of the discharge information, and the discharge end date and time “2009/02” / 11 17:00 ”, traceability data 175 (FIG. 3) is acquired.

  Next, the individual item gas management program 140 acquires individual item master data associated with each of the traceability data 175 acquired in step 142 from the individual item master table 160 (FIG. 2) (S143). That is, a record in which the individual item ID matches the individual item ID of the traceability data is acquired from the individual item master table 160.

  Specifically, when the individual gas management program 140 acquires a record (discharge information) with the discharge ID “003” from the discharge amount management DB 180 in step 141, the individual item master table registered in the individual item master table 160. Among the data, the individual product master data 165 whose individual product ID matches the individual product IDs “111001”, “111002”,..., “123004” of the traceability data 175 (FIG. 3) is acquired.

  Next, the individual gas management program 140 indicates the discharge source of the discharge source ID “c501” of the discharge information (discharge ID “003”) acquired in step 141 and the individual item ID of the traceability data acquired in step 142. The relationship time with each individual product is obtained (S144). That is, for each individual item indicated by the individual item ID of the traceability data acquired in step 142, the date and time when the entry / exit direction of the individual item is “IN” and the entry / exit direction of the individual item following this in time series are “OUT”. ”Is determined, and a value obtained by subtracting the date and time of“ IN ”from the date and time of“ OUT ”as shown in the following formula is used as the related time.

Relation time = ("OUT" date and time)-("IN" date and time)
Specifically, the individual gas management program 140 includes the discharge source of the discharge source ID “c501” of the discharge information (discharge ID “003”) acquired in step 141 and the individual item ID of the traceability data 175 acquired in step 142. Of the "11101", "111002" ... "123004", when obtaining the relationship time with the individual item with the individual item ID "111001", the date and time when the entry / exit direction of the individual item "111001" is "IN" Then, the traceability data set in which the input / output direction of the individual item “111001” following this in time series is “OUT” is determined, and the date of “OUT” from “2009/02/11 15:50” to “IN” The value “5.5 (h)” obtained by subtracting the date and time “2009/02/11 10:20” is the relevant time. Similarly, regarding the individual products with individual product IDs “111002”... “123004”, the relationship times “5.5 (h)” and “4.5 (h)” with the discharge source of the discharge source ID “c501” are obtained.

  For example, when carrying a plurality of individual items into a warehouse, the individual item is once taken out of the warehouse after being brought in due to mishandling of the individual item, and then again. In some cases. Therefore, in practice, the plurality of traceability data acquired in step 142 is classified for each individual item ID, and each classification (a group of traceability data with a common individual item ID, hereinafter the same individual item ID traceability data group). Each)) one or more combinations of traceability data (IN traceability data) with an input / output direction of “IN” and traceability data (OUT traceability data) with an input / output direction of “OUT” following in time series. The total sum of the date and time differences between the IN traceability data and the OUT traceability data for each combination is calculated as the discharge time of the individual product.

  In addition, the same individual product ID traceability data group may start from OUT traceability data in time series for some reason such as registration mistakes. In this case, the date and time of IN traceability data is set as the date and time of OUT traceability data, and the related time of this individual product is handled as “0 (h)”.

  Next, the individual gas management program 140 obtains at step 143 the relation time of the individual item obtained at step 144 for each individual item ID of the traceability data obtained at step 142 as shown in the following equation. The weight included in the master data of the individual product is multiplied to determine the weight of the individual product (S145). As will be described later, this weighting degree is used as a value indicating the ratio of the individual item in the discharge amount when assigning the discharge amount of the discharge source related to the individual item.

Weight of individual product = (related time of the individual product) x (weight of the individual product)
Specifically, the individual gas management program 140 obtains the weight of the individual item “111001” among the individual item IDs in the traceability data 175 acquired in step 142, and obtained in step 143. Multiply the relevant time “5.5 (h)” of “111001” by the weight “500 (g)” of the individual product “111001” to obtain “2750”, and this value is the weight of the individual product “111001”. Degree. Similarly, the weights “2750” and “3375” are also obtained for the individual products with individual product IDs “111002” to “123004”.

  Next, the individual gas management program 140 apportions the discharge amount of the discharge source included in the discharge information acquired in step 141 by the ratio of the weight of each individual item obtained in step 145, and the discharge source The amount assigned to each individual product, that is, the individual product discharge amount is obtained (S146). That is, as shown in the following formula, the value of the individual product divided by the total value of the weights of all the individual products related to the discharge source is multiplied by the discharge amount of the discharge source. The amount of individual items discharged is calculated.

Individual product emissions = (source emissions) x
(Weight of the product) / (Total value of weight of all products related to the discharge source)
Specifically, when the individual product gas management program 140 obtains the individual product discharge amount of the individual product “111001” among the individual product IDs obtained in step 142 and in the traceability data 175, the emission source “c501”. When all the individual items related to the item ID are “111001”, “111002”, and “123004”, the weight “2750” of the individual item “111001” is all related to the discharge source “c501” Total value of individual product weight "8875 (= weight" 2750 "for individual product" 111001 "+ weight value" 2750 "for individual product" 111002 "+ weight value" 3375 "for individual product" 123004 ")" Multiply the value “0.31” divided by the emission amount “100 (m ³ )” of the emission source “c501” included in the emission information acquired in Step 141, and release the individual product “111001” The quantity “31 (m ³ )” is calculated. Similarly, the individual product discharge amounts “31 (m ³ )” and “38 (m ³ )” are obtained for the individual products with the individual product IDs “111002” and “123004”.

  Here, it is assumed that a plurality of individual items are related to one discharge source. However, for example, the size of an individual item is large, and only one individual item can be related to one discharge source. In the case of, or accidentally, only one individual item is related to one discharge source, the discharge amount of the discharge source is used as the individual item discharge amount as it is. However, in some cases, a value obtained by dividing the related time of the individual product by the discharge time of the discharge source and multiplying the discharge amount of the discharge source may be used as the individual product discharge amount.

  Next, as shown by the following equation, the individual gas management program 140 divides the individual product discharge amount for each individual item obtained in step 145 by the related time of the individual item obtained in step 144, and The actual unit discharge amount for each individual product is obtained (S147).

Actual unit discharge of individual product = (Discharge of individual product) / (Related time of the individual product)
Specifically, when the individual gas management program 140 obtains the actual unit emission amount of the individual item “111001”, the individual item emission amount “31 (m ³ )” of the individual item is calculated as the related time “5.5”. Divide by “(h)” to find the actual unit emission “5.6 (m ³ / h)” of the individual product “111001”. Similarly, with regard individual commodity ID "111002" individual article of "123004", obtains the actual unit emissions "5.6 (m ³ /H)'`8.4(M ³ / h)."

  Next, the individual gas management program 140, for each individual product for which the actual unit emission amount was obtained in step 147, is calculated for the individual product included in the individual product master data acquired in step 143, as shown in the following equation. The value obtained by subtracting the actual unit discharge amount of the individual product from the standard unit discharge amount is multiplied by the related time of the individual product to obtain the emission right of the individual product (S148).

Emission right of individual product = {(Standard unit emission of the individual product)-(Actual unit emission of the individual product)}
× (Relationship time of the item)
Specifically, when the individual gas management program 140 requests the emission right of the individual item “111001”, the actual unit emission amount of the individual item from the standard unit emission amount “6 (m ³ / h)” of the individual item. to "5.6 (m ³ / h)" value obtained by subtracting "0.4 (m ³ / h)", the relationship time of the individual product is multiplied by "5.5 (h)", emission credits of the "111001", "2.2 ( m ³ ) ”. Similarly, emission credits “2.2 (m ³ )” and “1.8 (m ³ )” are also obtained for individual products with individual product IDs “111002” and “123004”.

  As described above, the emission credits for an individual product can be understood from the above calculation formula for the emission credits, and the standard product emissions (not standard unit emissions) and the actual product emissions (actual emissions). It is a deviation from the unit discharge amount). Therefore, the emission credit indicates that the emission credit is acquired when the emission credit is positive, and that the emission credit is lost or purchased when the emission credit is negative.

  Next, the individual gas management program 140 registers the individual gas information for each individual ID and for each discharge source ID obtained in the above in the individual gas management DB 190 (FIG. 5) (S149). That is, the individual product ID and the discharge source ID acquired in step 142 are registered in the individual product ID field 191 and the discharge source ID field 192 of the individual product gas management DB 190 (FIG. 5), respectively, and the discharge ID acquired in step 141. Is registered in the discharge ID field 193 of the individual gas management DB 190. Further, the relation time obtained in step 144, the weight degree obtained in step 145, the individual product discharge amount obtained in step 146, the actual unit discharge amount obtained in step 147, and the emission right obtained in step 148, respectively. The information is registered in the related time field 194, weight degree field 195, emission amount field 196, actual unit emission amount field 197, and emission right field 198 of the product gas management DB.

  Next, the individual gas management program 140 obtains the total emission amount and the total emission right for each individual item (S150). That is, in step 149, among the individual gas data registered in the individual gas management DB 190 (FIG. 5), all the individual gas data of the same individual item ID is acquired, and in the individual gas data of the same individual item ID. The total emission amount is obtained as the total emission amount, and the total emission right in the individual gas data of the same individual item ID is obtained as the total emission right.

  Next, as shown in FIG. 7, the individual gas management program 140 creates display data 105 for individual gas information and display data 105a for individual gas total gas information, and displays them on the display 104 (S151). ), A series of processing ends.

  Here, the display data 105 of the individual gas information includes the individual ID field 191, the discharge source ID field 192, and the related time field 194 among the plurality of fields provided in the individual gas management DB 190 shown in FIG. 5. The emission amount field 196, the actual unit emission amount field 197, and the emission right field 198 are data in which data of corresponding fields of the individual gas management DB 190 are stored in these fields.

  Further, the display data 105a of the individual product total gas information includes an individual product ID field 191a in which an individual product ID is indicated, an emission source ID field 192a in which an emission source ID is indicated, a total emission amount field 196a, and a total emission right field. 198a. Unlike the individual item ID field 191 of the individual item gas management DB 190 shown in FIG. 5, only one record is given to this individual item ID field 191a. The discharge source ID field 192a stores the IDs of all discharge sources related to the corresponding individual item. The total emission amount field 196a stores the total emission amount of the corresponding individual item obtained in step 150, and the total emission right field 198a stores the total emission amount of the corresponding individual item obtained in step 150. It is done. In FIG. 7, for the sake of simplification, the discharge sources related to the individual products are only the discharge sources with IDs “c501” and “r911”, and the discharge source ID field 191a of the display data 105a of the total gas information for individual products. Contains only “c501” and “r911”, and the total emission amount field 196a contains the total value of the emission amount only for the emission source “c501” and “r911” for each individual item, and the total emission right field In 198a, the total value of the emission rights for only the discharge sources “c501” and “r911” for each individual product is stored.

  Here, after registering the individual gas information (S149), the total emission amount and the total emission right for each individual item are obtained (S150). First, the total emission amount and the total emission amount for each individual item are obtained. After obtaining the emission rights, these values may be registered in the individual gas management DB together with the individual gas information. Further, in the above, when the individual gas management program 140 acquires newly registered emission information (S141), the individual gas management program 140 executes up to the output process (S151) of the individual gas information and the individual total gas information. The process may be temporarily terminated in the registration process of individual gas information (S149), and after receiving an output instruction separately, the processes of steps 150 and 151 may be executed. Further, here, the display 104 is illustrated as an example of the individual gas information and the total individual gas information as output means. However, this output means may be a printer even if it is a storage / reproduction device for a portable storage medium. Or a communication apparatus may be sufficient.

  As described above, in this embodiment, the difference between the standard emission amount and the actual emission amount is presented as the emission right for each individual product, so that the excess amount of greenhouse gas emissions is obtained for each individual product. And disappearance of surpluses, etc., and incentives for reducing greenhouse gases can be improved.

  The embodiment according to the present invention has been specifically described above, but the present invention is not limited to this, and various modifications can be made without departing from the scope of the present invention.

  For example, in the above embodiment, time (related time) is adopted as the operation degree of the discharge source, but a travel distance (an index having a high degree of correlation with the discharge amount in the physical distribution field) may be adopted instead of time. In this case, the standard unit emission field 164 (FIG. 2) of the individual product master table 160 and the actual unit emission amount 197 of the individual gas management DB 190 are per unit distance, not per unit time, and the travel distance between the points is determined. Based on the calculation of the weight for each individual item, the emission amount and emission right for each individual item are calculated.

  Moreover, although the said embodiment calculates | requires the discharge | emission right of the individual goods in a distribution process, you may make it ask | require the discharge | emission right of the individual goods of a manufacturing process, and the individual product emission rights of a manufacturing process and a distribution process. May be requested. In this case, as a weighting factor for apportioning the amount of gas discharged from the processing device or manufacturing device that is the discharge source, when processing a plurality of individual items at once with a processing device or the like, it is a component of the individual item When a plurality of parts are manufactured at a time, a value obtained by dividing the related time by the number of related individual items or the number of related parts may be employed.

  10: tag, 100: exhaust gas management device, 101, 201: CPU, 102, 202: memory, 103: input device, 104: display, 105, 205: auxiliary storage device, 106, 206: communication interface, 110: piece Product master management program, 120: Traceability data registration program, 130: Emission information registration program, 140: Individual product gas management program, 160: Individual product master table, 170, 270: Traceability DB, 180: Emission information DB, 190: Individual Product gas management DB, 200: field management device, 207: reader, 210: field management program

Claims (11)

In the emission management program for greenhouse gases emitted in the process of dealing with individual products that represent individual products,
The amount of greenhouse gas emission at the emission source that emits the greenhouse gas in the treatment process, the data indicating the operation degree related to the individual product of the emission source, and the unit operation degree of the virtual emission source An acquisition step of acquiring a standard unit emission amount that is a predetermined standard emission amount for the product to which the individual item belongs;
Using the amount of greenhouse gas emissions at the source and data indicating the degree of operation associated with the individual item at the source, the greenhouse gas actual at the source for the individual item is used. A step of calculating actual unit emissions to obtain unit emissions;
A value obtained by multiplying the difference between the standard unit discharge amount of the individual product and the actual unit discharge amount of the individual product by the operation degree related to the individual product of the discharge source is the individual at the discharge source. Emission credit calculation step required as an emission credit for goods,
An output step of causing the output means of the computer to output the emission right of the individual product obtained in the emission right calculation step;
Is executed by a processor of the computer. In the exhaust gas management program according to claim 1,
The operating rate of the emission source is the time involved in the emission of the greenhouse gas at the emission source,
The unit operation rate is unit time.
An exhaust gas management program characterized by that. In the exhaust gas management program according to claim 2,
When multiple items are involved with the discharge source,
In the obtaining step, the emission start time and emission end time of the greenhouse gas at the emission source and the emission amount between the emission start time and the emission end time are obtained, and the emission source As the data indicating the degree of operation related to the individual item, the relationship start time and the relationship end time for the individual discharge sources for all individual items related to the discharge source between the discharge start time and the discharge end time To obtain traceability data
In the actual unit emission calculating step,
Using the traceability data for all the individual items, a relationship time calculating step for obtaining a relationship time with the discharge source for all the individual items;
For each of the individual items, a weight degree calculation step for obtaining a weight degree indicating the degree of the relationship between the individual item and the discharge source using the relation time of the individual item;
By dividing the discharge amount for all the individual items by the ratio of the weight degree for all the individual items, an individual amount that is the discharge amount for each individual item of the discharge source for each of the individual items. Individual product discharge calculation step to determine product discharge,
Dividing the individual product discharge amount for all the individual products by the related time of the individual product to obtain the actual unit discharge amount calculating step for obtaining the actual unit discharge amount for each individual product;
Run
In the emission credit calculation step, the emission credits for all the individual items are obtained,
In the output step, the output means outputs the emission rights for all the individual items.
An exhaust gas management program characterized by that. In the exhaust gas management program according to claim 3,
In the acquisition step, the weight of the individual item is acquired,
In the weight calculation step, the weight of the individual product is obtained by multiplying the related time of the individual product by the weight of the individual product.
An exhaust gas management program characterized by that. In the exhaust gas management program according to any one of claims 3 and 4,
If each of multiple items involves multiple sources,
For each of the plurality of emission sources, the processor executes the acquisition step, the actual unit emission amount calculation step, and the emission right calculation step,
Total emission for each of the plurality of individual products obtained in the emission credit calculation step and for each of the plurality of discharge sources is totaled for the same individual product to obtain a total emission credit for each of the plurality of individual products. Causing the processor to execute a right calculating step;
In the output step, a total emission right for each of a plurality of individual items is output to the output means.
An exhaust gas management program characterized by that. In the exhaust gas management program according to any one of claims 1 to 5,
In the output step, together with the emission right, the output unit outputs the actual unit emission amount.
An exhaust gas management program characterized by that. In the exhaust gas management method for greenhouse gases emitted in the process of treating individual products that represent each product,
The amount of greenhouse gas emission at the emission source that emits the greenhouse gas in the treatment process, the data indicating the operation degree related to the individual product of the emission source, and the unit operation degree of the virtual emission source An acquisition step of acquiring a standard unit emission amount that is a predetermined standard emission amount for the product to which the individual item belongs;
Using the amount of greenhouse gas emissions at the source and data indicating the degree of operation associated with the individual item at the source, the greenhouse gas at the source relative to the individual item is used. A step of calculating actual unit emissions to determine actual unit emissions;
A value obtained by multiplying the difference between the standard unit discharge amount of the individual item and the actual unit discharge amount of the individual item by the operation degree related to the individual item of the discharge source is the discharge source of the individual item. Emission credit calculation steps required as emission credits in Japan,
An output step in which the output means of the computer outputs the emission right of the individual item obtained in the emission right calculation step;
Is executed by the processor of the computer. In the exhaust gas management system for greenhouse gases emitted during the treatment process for individual products that represent each product,
The amount of greenhouse gas emission at the emission source that emits the greenhouse gas in the treatment process, the data indicating the operation degree related to the individual product of the emission source, and the unit operation degree of the virtual emission source Storage means for storing a standard unit discharge amount that is a predetermined standard discharge amount for the product to which the individual item belongs;
Using the amount of greenhouse gas emissions at the source and data indicating the degree of operation associated with the individual item at the source, the greenhouse gas at the source relative to the individual item is used. An actual unit emission calculating means for obtaining an actual unit emission;
A value obtained by multiplying the difference between the standard unit discharge amount of the individual item and the actual unit discharge amount of the individual item by the operation degree related to the individual item of the discharge source is the discharge source of the individual item. Emission credit calculation means required as emission credits in Japan,
Output means for outputting the emission right calculated by the emission right calculation means;
An exhaust gas management device comprising: The exhaust gas management device according to claim 8,
The operating rate of the emission source is the time involved in the emission of the greenhouse gas at the emission source,
The unit operation rate is unit time.
An exhaust gas management device characterized by that. The exhaust gas management device according to claim 9,
When multiple items are involved with the discharge source,
The storage means stores the emission start time and emission end time of the greenhouse gas at the emission source, the emission amount between the emission start time and the emission end time, and the individual product of the emission source. Traceability data that is the relationship start time and the relationship end time with respect to the discharge source for each individual product related to the discharge source between the discharge start time and the discharge end time as data indicating the degree of operation involved And remember
The actual unit emission calculating means is:
Using the traceability data for all the individual items, obtain the relation time with the discharge source for all the individual items,
For each of the individual items, using the relationship time of the individual item, obtain a weight indicating the degree of the relationship between the individual item and the discharge source,
By dividing the discharge amount for all the individual items by the ratio of the weight degree for all the individual items, an individual amount that is the discharge amount for each individual item of the discharge source for each of the individual items. Product discharge amount,
Divide the individual product discharge amount for all the individual products by the related time of the individual product to obtain the actual unit discharge amount for each individual product,
The emission credit calculation means obtains the emission credit for each of the individual items,
The output means outputs the emission credits for all the individual items;
An exhaust gas management device characterized by that. The exhaust gas management device according to claim 10;
A discharge source management device for acquiring the traceability data of the individual product with respect to the discharge source;
With
The emission source management device has a communication means for sending the traceability data of the individual goods for the emission source to the greenhouse gas management device,
The exhaust gas management device includes communication means for receiving the traceability data from the emission source management device, and traceability data registration means for registering the traceability data received by the communication means in the storage means.
Greenhouse gas management system characterized by that.

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