Greenhouse Gas Inventory Standard for Cities: a Case of Jakarta
This paper presents the results of a study on developing the GHG Emissions Inventory for Cities in Indonesia, in which Jakarta has become a case study. The inventory has measured and disclosed a comprehensive GHG emissions inventory and to total these emissions using an approach that categorizes all...
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| Veröffentlicht in: | IOP conference series. Earth and environmental science 2021-08, Vol.810 (1), p.12026 |
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| container_title | IOP conference series. Earth and environmental science |
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| creator | Dewi, RG Siagian, UWR Parinderati, R Sevie, GN Hendrawan, I Wati, D Rakhmana, R |
| description | This paper presents the results of a study on developing the GHG Emissions Inventory for Cities in Indonesia, in which Jakarta has become a case study. The inventory has measured and disclosed a comprehensive GHG emissions inventory and to total these emissions using an approach that categorizes all emissions into scopes, depending on where they physically occur, i.e., Scope 1 for direct emissions and Scope 2 for indirect emissions. The GHG emission level of Scope 1 is estimated based on the IPCC 2006 (Tier-1/2), while Scope 2 employs national/local emissions factor that refers to the grid-connected emission factor of JAMALI. Based on the latest inventory in 2018, the GHG emissions profile of Jakarta is summarized as follows, i.e., the GHG emissions of Scope 1 is from direct fuels combustion in transport, industry, commercial and residential sectors (33.5%), fuels combustion in two power generations located in Jakarta (13.8%), and the remaining 3.8% is from waste treatment activity. The GHG emission of Scope 2 (48.8%) comes from the use of electricity (supplied by JAMALI-grid) generated outside the boundary of Jakarta. In addition, this study also shows estimates result of local pollutants that are affecting air quality. |
| doi_str_mv | 10.1088/1755-1315/810/1/012026 |
| format | Article |
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The inventory has measured and disclosed a comprehensive GHG emissions inventory and to total these emissions using an approach that categorizes all emissions into scopes, depending on where they physically occur, i.e., Scope 1 for direct emissions and Scope 2 for indirect emissions. The GHG emission level of Scope 1 is estimated based on the IPCC 2006 (Tier-1/2), while Scope 2 employs national/local emissions factor that refers to the grid-connected emission factor of JAMALI. Based on the latest inventory in 2018, the GHG emissions profile of Jakarta is summarized as follows, i.e., the GHG emissions of Scope 1 is from direct fuels combustion in transport, industry, commercial and residential sectors (33.5%), fuels combustion in two power generations located in Jakarta (13.8%), and the remaining 3.8% is from waste treatment activity. The GHG emission of Scope 2 (48.8%) comes from the use of electricity (supplied by JAMALI-grid) generated outside the boundary of Jakarta. 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| subjects | Air quality Carbon footprint Combustion Emission inventories Emission measurements Emissions Fuels Greenhouse effect Greenhouse gases Intergovernmental Panel on Climate Change Pollutants Residential areas Transportation industry Waste treatment |
| title | Greenhouse Gas Inventory Standard for Cities: a Case of Jakarta |
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