TWI833597B - Carbon disclosure management system - Google Patents
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- OKTJSMMVPCPJKN-UHFFFAOYSA-N Carbon Chemical compound [C] OKTJSMMVPCPJKN-UHFFFAOYSA-N 0.000 title claims abstract description 123
- 229910052799 carbon Inorganic materials 0.000 title claims abstract description 123
- 238000012545 processing Methods 0.000 claims abstract description 76
- 230000007613 environmental effect Effects 0.000 claims abstract description 21
- 230000002747 voluntary effect Effects 0.000 claims description 13
- 238000010586 diagram Methods 0.000 claims description 9
- 238000012806 monitoring device Methods 0.000 claims description 4
- 238000012795 verification Methods 0.000 description 24
- 238000000034 method Methods 0.000 description 16
- 238000004519 manufacturing process Methods 0.000 description 13
- 238000011144 upstream manufacturing Methods 0.000 description 8
- 238000004364 calculation method Methods 0.000 description 4
- 230000000694 effects Effects 0.000 description 4
- 239000005431 greenhouse gas Substances 0.000 description 4
- 238000007726 management method Methods 0.000 description 4
- ATJFFYVFTNAWJD-UHFFFAOYSA-N Tin Chemical compound [Sn] ATJFFYVFTNAWJD-UHFFFAOYSA-N 0.000 description 3
- 238000012790 confirmation Methods 0.000 description 3
- 239000000463 material Substances 0.000 description 3
- 238000004064 recycling Methods 0.000 description 3
- CURLTUGMZLYLDI-UHFFFAOYSA-N Carbon dioxide Chemical compound O=C=O CURLTUGMZLYLDI-UHFFFAOYSA-N 0.000 description 2
- 238000012550 audit Methods 0.000 description 2
- 230000005611 electricity Effects 0.000 description 2
- 238000012544 monitoring process Methods 0.000 description 2
- 238000010792 warming Methods 0.000 description 2
- 239000002699 waste material Substances 0.000 description 2
- 235000013361 beverage Nutrition 0.000 description 1
- 229910002092 carbon dioxide Inorganic materials 0.000 description 1
- 239000001569 carbon dioxide Substances 0.000 description 1
- 239000004568 cement Substances 0.000 description 1
- 238000002485 combustion reaction Methods 0.000 description 1
- 238000009776 industrial production Methods 0.000 description 1
- 238000007689 inspection Methods 0.000 description 1
- 238000011835 investigation Methods 0.000 description 1
- 239000007788 liquid Substances 0.000 description 1
- 238000005259 measurement Methods 0.000 description 1
- 230000008520 organization Effects 0.000 description 1
- 238000004806 packaging method and process Methods 0.000 description 1
- 230000001105 regulatory effect Effects 0.000 description 1
- 238000012958 reprocessing Methods 0.000 description 1
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Abstract
Description
一種碳揭露管理系統。A carbon disclosure management system.
牛津辭典2019年的年度關鍵字,由氣候緊急(Climate emergency)取得,代表全球暖化造成極端氣候已經被一般民眾認知是一個非常嚴重的問題。人類的經濟活動,是造成現在溫室氣體大增而導致溫室效應的元兇,因此巴黎協議、京都議定書等國際協議,都期望以約定時間內達到碳達鋒,使各國國內企業內的工業生產/經濟活動,都能夠達到碳中和。為了達到碳中和的目標以及避免如CBAM等歐盟碳稅問題而導致營運成本增加問題,許多企業都已經著手降低生產過程的碳排放。Oxford Dictionary's keyword of the year in 2019 is climate emergency, which means that the extreme climate caused by global warming has been recognized by the general public as a very serious problem. Human economic activities are the culprit of the current surge in greenhouse gases and the greenhouse effect. Therefore, international agreements such as the Paris Agreement and the Kyoto Protocol all hope to reach the carbon peak within an agreed time, so that the industrial production/economy of domestic enterprises in each country will reach a peak. activities can achieve carbon neutrality. In order to achieve the goal of carbon neutrality and avoid the increase in operating costs caused by EU carbon tax issues such as CBAM, many companies have begun to reduce carbon emissions in the production process.
許多企業雖然想要符合減少碳排,但最大的問題在於各企業各自努力,卻忽略了上下游之間的配合,對於完整的碳足跡、碳排放計算扮演至關重要的角色;因為現今世界的產品生產模式,已經少有一家企業可以一條龍式地負責所有的製程,必須配合大量的上下游服務商所提供的服務,才得以順利完成產品生產、製造、運輸或甚至回收。舉例而言,簡單如鐵罐包裝的流質飲料,飲料填充公司必須合作的企業如食材供應商、中央廚房、馬口鐵材料廠商、鐵罐製作廠商、鐵罐製作設備廠商、各供應商之間的運輸廠商、各供應商之間的服務廠商等等,都是必須完整盤查與計算碳排放,才能計算出總量,藉此確認企業是否真的達到碳中和。然而,上下游之間的數據揭露,通常不透明,甚至不願意揭露,使的目前的總體盤查勢必部分流於形式。Although many companies want to reduce carbon emissions, the biggest problem is that each company works independently, but ignores the cooperation between upstream and downstream, which plays a vital role in complete carbon footprint and carbon emission calculations; because in today’s world In the product production model, it is rare that one company can be responsible for all processes in a one-stop manner. It must cooperate with the services provided by a large number of upstream and downstream service providers to successfully complete product production, manufacturing, transportation or even recycling. For example, for liquid drinks as simple as tin can packaging, beverage filling companies must cooperate with companies such as food suppliers, central kitchens, tinplate material manufacturers, tin can manufacturers, tin can production equipment manufacturers, and transportation between suppliers. Manufacturers, service providers between suppliers, etc. must conduct a complete inventory and calculation of carbon emissions in order to calculate the total amount and confirm whether the company has truly achieved carbon neutrality. However, data disclosure between upstream and downstream is usually opaque or even unwilling to be disclosed, making the current overall investigation inevitably a mere formality.
為了解決碳資訊於供應商之間揭露不全導致盤查與稽核困難之技術問題,本發明提出一種碳排放單位之排放揭露系統,其包含:In order to solve the technical problem of incomplete disclosure of carbon information among suppliers, which leads to difficulties in interrogation and auditing, the present invention proposes an emission disclosure system for carbon emission units, which includes:
一個以上碳排放單位,每個該碳排放單位提供一種以上處理服務,每個該處理服務對應複數種處理設備與環境參數,每個碳排放單位包含複數種遠端監控裝置持續更新紀錄該複數種處理設備與環境參數;One or more carbon emission units. Each carbon emission unit provides more than one processing service. Each processing service corresponds to a plurality of processing equipment and environmental parameters. Each carbon emission unit contains a plurality of remote monitoring devices that continuously update and record the plurality of types. Processing equipment and environmental parameters;
一資料庫,該資料庫持續接收與紀錄每一該處理服務的該處理設備與環境參數成為一碳揭露資訊,並計算每一該處理服務之一單位平均排放量;A database that continuously receives and records the treatment equipment and environmental parameters of each treatment service to become carbon disclosure information, and calculates the average emissions per unit of each treatment service;
一使用者端,選擇對應的該處理服務後並由該資料庫提供相對較低之該單位平均排放量所對應的該處理服務。A user selects the corresponding processing service and the database provides the processing service corresponding to the relatively low average emission of the unit.
進一步地,該碳排放單位於一應用程式上顯示一邊界配置圖,該邊界配置圖包含複數個排放源紀錄該處理設備與該環境參數之碳排放數據,並於該邊界配置圖上對應顯示每個該排放源的位置以及一排放源即時資訊標籤;Further, the carbon emission unit displays a boundary configuration map on an application. The boundary configuration map includes a plurality of emission sources recording the carbon emission data of the treatment equipment and the environmental parameters, and each boundary configuration map is displayed correspondingly on the boundary configuration map. The location of the emission source and an emission source real-time information label;
進一步地,該邊界配置圖為三維立體空間圖;Further, the boundary configuration diagram is a three-dimensional spatial diagram;
進一步地,該碳排放單位執行一自願性碳抵銷,且計算該自願性碳抵銷而產生該單位平均排放量數據更新。Further, the carbon emission unit performs a voluntary carbon offset, and the voluntary carbon offset is calculated to generate an update of the average emission data of the unit.
藉由前述說明可知,本發明具有下列特點:As can be seen from the foregoing description, the present invention has the following characteristics:
1. 即時記錄各種處理服務的碳排放量,作為使用者選擇更為優質的處理服務;1. Real-time recording of the carbon emissions of various processing services, allowing users to choose better processing services;
2. 不同的服務提供者,可以即時地紀錄相關碳排資訊,徹底解決現有上下游供應鏈之間數據揭露問題;2. Different service providers can record relevant carbon emission information in real time, completely solving the problem of data disclosure between the existing upstream and downstream supply chains;
3. 可以同時將數據揭露給予該第三方查證系統、簽證系統,讓各供應鏈之間的數據正確性與信賴性大幅提昇。3. Data can be disclosed to the third-party verification system and visa system at the same time, greatly improving the accuracy and reliability of data between supply chains.
4. 提供立體圖面形式,讓資訊登入與盤查更為簡易清楚,有助於即時更新相關的碳揭露數據,提升公信力。4. Provide a three-dimensional graphic format to make information entry and inquiry easier and clearer, which helps to update relevant carbon disclosure data in real time and enhance credibility.
請參考圖1 ,其為本發明上下游碳揭露管理系統,其包含一資料庫10以及分別與該資料庫10透過網路訊號連接的一個以上排放單位系統20、一使用者端30、一官方系統40、一第三方查證系統50、一簽證系統60。Please refer to Figure 1 , which is an upstream and downstream carbon disclosure management system of the present invention. It includes a
該資料庫10分別接受各該排放單位系統20、該使用者端30、該官方系統40、該第三方查證系統50、該簽證系統60之資訊存取與寫入一碳揭露資訊。各該排放單位系統20、該使用者端30、該官方系統40、該第三方查證系統50、該簽證系統60存取該碳揭露資訊時,可以透過一應用程式即時讀取與輸入該碳揭露資訊;例如,該排放單位系統20、該使用者端30、該官方系統40、該第三方查證系統50、該簽證系統60可以透過該應用程式,依據權限設定而對該碳揭露資訊給予不同程度的讀寫。The
每個不同的該排放單位系統20具有自己的該碳揭露資訊檔案或資料結構,該資料庫10接受該第三方查證系統50、該簽證系統60之申請,輸出一報告書,提供該第三方查證系統50、該簽證系統60之外部查證之用。Each different
該排放單位系統20可以是一廢棄物處理業者、一運輸業者、一倉儲系統、一能源業者、一加工處理業者等之內部資訊系統或管理系統,其分別提供對應之一處理服務,可以理解的是,不同種類的該排放單位系統所提供的該處理服務可以是全部不同或者是部分不同,例如,同屬於該廢棄物處理業者的垃圾清運、燃燒、材料回收、材料再製等等,都提供其相應可能全然不同或者部分重疊的一種以上的該處理服務,其中,每個該排放單位系統20執行該處理服務時,產生輸出一碳排放量A1,每個該排放單位系統20可以接受輸入一碳配額A3及/或一自願性碳抵銷A2。該碳配額A3為該官方系統40發放給特定之該排放單位系統20之碳權,藉以抵銷某些高耗能、管制性高排放單位的碳排放總量,以協助該些排放單位系統20有機會能夠階段性達成碳中和的目標。該自願性碳抵銷A2可分為一減排措施以及一交易碳權,該減排措施例如降低使用灰電改用再生能源、降低耗能設備、回收廢熱等或其他所有有助於減少碳排放的措施,該排放單位系統20持續紀錄該自願性碳抵銷A2之數值、該碳配額A3以及碳排放量A1後,再基於該處理服務的工作內容,計算一單位平均排放量A,該單位平均排放量A為每個該處理服務之該碳排放量A1減去平均該自願性碳抵銷A2、平均該碳配額A3,藉此取得每次處理該處理服務之碳排放量,其對應公式可為:The
A ∝(A1-w2*A2-w3*A3)/W…公式(1),其中:A ∝(A1-w2*A2-w3*A3)/W...formula (1), where:
A 為單位平均排放量;A is the average emission per unit;
A1為碳排放量;A1 is carbon emissions;
A2為自願性碳抵銷;A2 is voluntary carbon offset;
A3為碳配額,為非必要之考量因素;A3 is carbon quota, which is an optional consideration;
w2為該自願性碳抵銷A2對不同的該處理服務之權重;w2 is the weight of voluntary carbon offset A2 to different processing services;
w3為該平均該碳配額A3對不同的該處理服務之權重,針對相同之處理服務之該排放單位系統20之間的比較,w3可為0;w3 is the average weight of the carbon quota A3 to different processing services. For comparison between the
W與特定該處理服務之工作總量正比參數;W is a parameter proportional to the total workload of a specific processing service;
由前述公式(1),可以將該排放單位系統20執行該處理服務過程予以詳實記錄並且計算該單位平均排放量A;所謂的該單位平均排放量A所代表的是指該排放單位系統20執行某種該處理服務之平均碳排放,因此,如果有一家以上的該排放單位系統20提供相同的該處理服務,則具有相對較低的該單位平均排放量A之該排放單位系統20為佳。該排放單位系統20持續與該資料庫10連接,且將該單位平均排放量A及相關參數更新儲存至該資料庫10。當然前述的排放量計算仍然依據學理上的規定執行換算為二氧化碳排放當量為準,亦即:According to the aforementioned formula (1), the processing service process performed by the
溫室氣體排放量(公噸CO2e)=Σ(活動數據 x 排放係數 x 全球暖化潛勢GWP);Greenhouse gas emissions (metric tons CO2e) = Σ (activity data x emission coefficient x global warming potential GWP);
進一步地,為了讓前述的該單位平均排放量A之計算更具有說服力與可信度,部分或全部使用下列方式,確保該單位平均排放量A之數據可以接受該第三方查證系統50、該簽證系統60即時查驗與簽證,並藉此作為產品生產過程上下游供應鏈之間的碳資訊分享:Furthermore, in order to make the aforementioned calculation of the average emission amount A of the unit more convincing and credible, some or all of the following methods are used to ensure that the data of the average emission amount A of the unit can be accepted by the third-
[ex1] 該排放單位系統20執行該處理服務產生的該碳排放量A1之一處理設備及環境參數受遠端的即時監控,將即時數據傳輸至該資料庫10,並記錄於該碳揭露資訊;其中,該處理設備及環境參數得依據ISO14064-1之規定,分類對直接排放及間接排放溫室氣體排放源予以監控。所謂的監控指以自動化或者半自動化的形式,紀錄與溫室氣體排放有關的該處理設備及環境參數,例如,該處理設備及環境參數以複數種遠端監控裝置予以分別記錄,並設定數據定時上傳至該排放單位系統20。[ex1] One of the processing equipment and environmental parameters of the carbon emissions A1 generated by the execution of the processing service by the
[ex2]該排放單位系統20之設備可以即時或者定時拍照的相機或攝影機,將該處理設備及環境參數即時回傳至該資料庫10;[ex2] The equipment of the
[ex3]該排放單位系統20執行該處理服務過程,均依照規範紀錄數據,並且持續將記錄數據上傳;[ex3] The
[ex4] 該排放單位系統20執行該處理服務過程所產生的一外部查證認單據,直接輸出至該資料庫10,例如電費等;[ex4] An external verification document generated by the
該使用者端30為該處理服務的需求提出者,可以是公營或民營單位,如一般小型工廠、控排企業或大型企業等,其由該資料庫10之該碳揭露資訊取得不同該排放單位系統20執行該處理服務所產生的單位平均排放量A,選擇其欲執行的各種處理服務所對應的該排放單位系統20作為其供應鏈之上下游工廠,藉以完成一生產流程;例如,該資料庫10可以提供其一製程選擇介面,讓該使用者端30由該製程選擇介面選擇最佳/最適合的該排放單位系統20之該處理服務,由於該處理服務對應的該單位平均排放量A之數據已經經過驗證且明確列於該製程選擇介面,該使用者端30可以依據該生產流程之需求,於該製程選擇介面選定一系列的該處理服務,如此,該製程選擇介面同時可以計算出該生產流程之所對應的當下可能一碳排放預估。The
進一步地,請參考圖2,為了便於評估與即時更新該處理服務的該碳排放量A1,可以對該處理單位之一組織邊界並依據該組織邊界產生一邊界配置圖B,該邊界配置圖可為2維或者3維立體空間之數位地圖,該邊界配置圖內包含複數個排放源C(例如該處理設備及環境參數),每個該排放源包含數種屬性,予以分類與鑑別不同種類的該排放源,例如為直接/間接排放源、顯著/非顯著、所屬範疇(1~6)等。較佳地,該邊界配置圖為三維立體空間之配置,且每個排放源均於該三維立體空間之配置圖內實體標註;每個該排放源C即時或定時更新監測數據,並更新如下表。
該官方系統40與該資料庫10連結,並且將發給該排放單位系統20之該碳配額A3發配給符合規格的該排放單位系統20之碳配額發給各該排放單位系統20,使其將該碳配額之資訊傳輸給該碳揭露資訊中。一般而言,該碳配額通常給與控制排放企業(控排企業,例如水泥、電力等行業),本實施例係將發給該排放單位系統20之該碳配額A3以直接或間接方式傳輸給該碳揭露資訊予以記錄。該碳配額A3之目的在於因為不同等級但因為行業屬性導致其碳排放量很大的該排放單位系統20,該官方系統40為了讓該些高排放之單位得以取得比較多的改善時間而額發給予該碳配額A3,本實施例之碳配額A3係非因為減少排放措施而所產生的減碳行為,因此,針對未來提供相同該處理服務的該排放單位系統20之間的該單位平均排放量A ,可以依據需求將碳配額A3的影響選擇性地移除。The
該第三方查證系統50與該資料庫10連接,並可以定時或者即時地取得該排放單位系統20之各種該處理服務與該處理設備及環境參數,以及記錄於該資料庫10之該碳揭露資訊,該第三方查證系統50可選擇性地對所取得之該些碳揭露資訊、該處理設備及環境參數等給予一查證確認,藉此確認該些碳揭露資訊及/或該些處理設備與環境參數、該碳排放量A1、該碳配額A3、該自願性碳抵銷A2等參數是否符合紀錄標準。The third-
該簽證系統60由該資料庫10取得該碳揭露資訊,並藉此確認該碳揭露資訊及相關的參數是否符合金融管理方面的審計規定。The
以下說明各系統讀取該碳揭露資訊,可能的使用流程與操作方式。The following describes the possible usage processes and operations for each system to read the carbon disclosure information.
各排放單位系統20登入該應用程式後,執行下列流程,持續紀錄提供處理服務時,組織邊界內的該排放源之數據更新。After each
STEP1 以應用程式登入資料庫;STEP1 Log in to the database through the application;
STEP2 選擇處理服務;STEP2 Select processing service;
STEP3 建立或讀取組織邊界以及組織邊界內的排放源;較佳地,該組織邊界為三維立體空間地圖,各排放源於該三維立體空間地圖顯示一排放源即時資訊標籤,持續地更新該排放源的該碳排放量A1;為了能夠即時更新與紀錄該碳排放量A1,其可以利用IOT設備即時更新與監控該排放源的使用數據(處理設備及環境參數),IOT設備可能是紀錄輸入之電壓、電流、能源、使用時間、即時輸出狀況、即時碳排放狀況等相關電子資訊設備或者報表,如即時數據更新的報表、連線的攝影機、相機、具有數據連線之量測設備;較佳地,配合所選的該處理服務,在該三維立體空間地圖中也可對應標註該處理服務可能有關的該排放源,以及過往提供該處理服務的該單位平均排放量A,以及各處理設備及環境參數。STEP3 Establish or read the organizational boundary and the emission sources within the organizational boundary; preferably, the organizational boundary is a three-dimensional spatial map, each emission originates from the three-dimensional spatial map, displays a real-time information label of the emission source, and continuously updates the emission The carbon emission amount A1 of the source; in order to be able to update and record the carbon emission amount A1 in real time, it can use the IOT device to update and monitor the usage data (processing equipment and environmental parameters) of the emission source in real time. The IOT device may be the record input Electronic information equipment or reports related to voltage, current, energy, usage time, real-time output status, real-time carbon emission status, etc., such as real-time data update reports, connected cameras, cameras, and measurement equipment with data connections; preferably In conjunction with the selected treatment service, the three-dimensional space map can also be marked with the emission sources that may be related to the treatment service, as well as the average emission A of the unit that provided the treatment service in the past, as well as each treatment equipment and Environmental parameters.
STEP4 由官方系統選擇性地接受碳配額;STEP4 The official system selectively accepts carbon quotas;
STEP5 輸入自願性碳抵銷數據,並計算對應處理服務的單位平均排放量;STEP5 Enter voluntary carbon offset data and calculate the average unit emissions of the corresponding treatment service;
STEP6 接受第三方查證系統讀取各排放源之參數、自願性碳抵銷數據、碳配額數據,並取得查證確認;STEP6 Accept the third-party verification system to read the parameters of each emission source, voluntary carbon offset data, and carbon quota data, and obtain verification and confirmation;
STEP7 接受使用者端對特定處理服務對應的單位平均排放量之讀取請求,並於組織邊界之三維空間地圖產生與該處理服務對應之排放源即時資訊標籤。STEP7 accepts the user's request to read the average unit emissions corresponding to a specific processing service, and generates a real-time information label of the emission source corresponding to the processing service on the three-dimensional spatial map of the organizational boundary.
該第三方查證系統50透過應用程式登入後,執行下列流程完成電子化盤查流程:After logging in through the application, the third-
STEP1 接受資料庫之資訊更新通知;STEP1 Accept the information update notification of the database;
STEP2 載入處理服務與單位平均排放量;STEP2 Load processing services and unit average emissions;
STEP3 載入邊界配置圖或及排放源之碳排放量;STEP3 Load the boundary configuration map or the carbon emissions of the emission source;
STEP4-1 判斷實體位置與該邊界配置圖的對應關係,並顯示於該邊界配置圖後,逐一顯示各排放源之即時或定時更新資料;STEP4-1 Determine the corresponding relationship between the entity position and the boundary configuration map, and display the real-time or regularly updated data of each emission source one by one after the boundary configuration map;
STEP4-2 顯示各排放源之即時或定時更新資料;STEP4-2 Display real-time or regularly updated data of each emission source;
STEP 5 判斷各排放源之即時或定時更新資料之正確性可可信賴性,給予查證確認;STEP 5 Determine the accuracy and reliability of the real-time or regularly updated data of each emission source, and provide verification and confirmation;
STEP6 依據實體位置與該邊界配置圖的對應位置,顯示鄰近排放源之即時或定時更新資料,並產生指引路徑於該邊界配置圖;STEP6 Displays real-time or regularly updated data of nearby emission sources based on the corresponding position of the entity position and the boundary configuration map, and generates a guidance path on the boundary configuration map;
STEP7 更新查證確認至碳揭露資訊。STEP7 Update verification to carbon disclosure information.
進一步地,該簽證系統60可以與該第三方查證系統50資訊連接,由該資料庫10與該第三方查證系統50之數據結果比較,完成對各排放單位系統20之該處理服務的碳相關資訊審計簽證。Further, the
該使用者端30由該應用程式登入後,執行下列流程,選擇最佳的處理服務,並完成更新使用該處理服務時,該排放單位系統20之對應該碳揭露資訊。After logging in from the application, the
STEP1 讀取製程選擇介面,該製程選擇介面包含複數種生產流程,每個生產流程對應複數種處理服務;STEP1 Read the process selection interface, which contains multiple production processes, and each production process corresponds to multiple processing services;
STEP2 選擇特定生產流程;STEP2 Select a specific production process;
STEP3 接收與顯示生產流程對應的各處理服務之單位平均排放量;STEP3 Receive and display the average unit emissions of each processing service corresponding to the production process;
STEP4產生輸出碳排放預估,接受選擇特定處理服務。STEP4 generates an output carbon emission estimate and accepts the selection of specific processing services.
藉由前述說明可知,本發明具有下列特點:As can be seen from the foregoing description, the present invention has the following characteristics:
1. 即時記錄各種處理服務的碳排放量,作為使用者選擇更為優質的處理服務;1. Real-time recording of the carbon emissions of various processing services, allowing users to choose better processing services;
2. 不同的服務提供者,可以即時地紀錄相關碳排資訊,徹底解決現有上下游供應鏈之間數據揭露問題;2. Different service providers can record relevant carbon emission information in real time, completely solving the problem of data disclosure between the existing upstream and downstream supply chains;
3. 可以同時將數據揭露給予該第三方查證系統、簽證系統,讓各供應鏈之間的數據正確性與信賴性大幅提昇。3. Data can be disclosed to the third-party verification system and visa system at the same time, greatly improving the accuracy and reliability of data between supply chains.
4. 提供立體圖面形式,讓資訊登入與盤查更為簡易清楚,有助於即時更新相關的碳揭露數據,提升公信力。4. Provide a three-dimensional graphic format to make information entry and inquiry easier and clearer, which helps to update relevant carbon disclosure data in real time and enhance credibility.
10:資料庫10:Database
20:排放單位系統20: Emission unit system
30:使用者端30:User side
40:官方系統40:Official system
50:第三方查證系統50:Third party verification system
60:簽證系統60:Visa system
B:邊界配置圖B: Boundary configuration diagram
C:排放源C: Emission source
圖1為本發明較佳實施例之系統示意圖。 圖2為本發明較佳實施例之組織邊界示意圖。 Figure 1 is a system schematic diagram of a preferred embodiment of the present invention. Figure 2 is a schematic diagram of tissue boundaries according to a preferred embodiment of the present invention.
10:資料庫 10:Database
20:排放單位系統 20: Emission unit system
30:使用者端 30:User side
40:官方系統 40:Official system
50:第三方查證系統 50:Third party verification system
60:簽證系統 60:Visa system
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CN111898873A (en) * | 2020-07-10 | 2020-11-06 | 贵州万峰电力股份有限公司 | Group company carbon emission early warning information system and early warning method thereof |
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TW201931270A (en) * | 2017-12-28 | 2019-08-01 | 勤業眾信風險管理諮詢股份有限公司 | Carbon trading system and carbon trading platform |
CN111898873A (en) * | 2020-07-10 | 2020-11-06 | 贵州万峰电力股份有限公司 | Group company carbon emission early warning information system and early warning method thereof |
US20230020417A1 (en) * | 2021-07-12 | 2023-01-19 | Johnson Controls Tyco IP Holdings LLP | Control system with adaptive carbon emissions optimization |
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