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sector:energy:fuel_combustion:industry:other [2021/01/14 12:42] kotzullasector:energy:fuel_combustion:industry:other [2021/01/16 20:07] kotzulla
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-=== Short description ===+====== 1.A.2.g viii - Stationary Combustion in Manufacturing Industries and Construction: Other ====== 
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 +===== Short description =====
 Sachtleben_Chemie.png Sachtleben_Chemie.png
  
 Source category //1.A.2.g viii - Stationary Combustion in Manufacturing Industries and Construction: Other// comprises stationary combustion systems for heat and power production of industrial power plants and industrial boiler systems. Source category //1.A.2.g viii - Stationary Combustion in Manufacturing Industries and Construction: Other// comprises stationary combustion systems for heat and power production of industrial power plants and industrial boiler systems.
  
-^  NFR-Code          ^  Name of Category                                                                          ^  Method  ^  AD  ^  EF  ^  Key Category                                     | +^  Method  ^  AD  ^  EF  ^  Key Category                                                                                 ^ 
-|  **1.A.2.g viii**  |  **Stationary Combustion in Manufacturing Industries and Construction: Other Production**  |  T2      |  NS  |  CS  |  L & T: SOx, TSP, Hg, PCDD/F; L: PM2.5,NOx; T: Cd  |+|  T2      |  NS  |  CS  |  **L&T:** SO<sub>x</sub>, TSP, Hg, PCDD/F; **L:** PM<sub>2.5</sub>,NO<sub>x</sub>**T:** Cd  | 
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 +{{page>general:Misc:LegendEIT:start}} 
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 +{{ :sector:energy:fuel_combustion:industry:Sachtleben_chemie.png | }} 
  
-=== Method ===+===== Method =====
  
 Generally, the calculation method is based on a Tier 2 approach. This means the use of country-specific data at a more detailed level. Emission factors and activity data are available for different fuel types, different technologies, plant size, etc. The use of plant-specific data for a bottom-up approach is not possible. Emissions from industrial power plants cannot be allocated clearly to source category 1.A.2, since reality does not follow the definition of the Guidebook. In real life an industrial power plant generates electricity and heat for the industry but also electricity for the public network. Therefore the borderline between these two categories is not fixed. The market is not static. Frequent changes in the cooperate structure of industrial enterprises including the separation of the energy supply via spin-off from the parent company lead to frequent changes between sector 1.A.1.a, 1.A.1.c and 1.A.2. Therefore it was necessary to develop a flexible calculation system, based on robust emission factors, which can be used for all sectors. Generally, the calculation method is based on a Tier 2 approach. This means the use of country-specific data at a more detailed level. Emission factors and activity data are available for different fuel types, different technologies, plant size, etc. The use of plant-specific data for a bottom-up approach is not possible. Emissions from industrial power plants cannot be allocated clearly to source category 1.A.2, since reality does not follow the definition of the Guidebook. In real life an industrial power plant generates electricity and heat for the industry but also electricity for the public network. Therefore the borderline between these two categories is not fixed. The market is not static. Frequent changes in the cooperate structure of industrial enterprises including the separation of the energy supply via spin-off from the parent company lead to frequent changes between sector 1.A.1.a, 1.A.1.c and 1.A.2. Therefore it was necessary to develop a flexible calculation system, based on robust emission factors, which can be used for all sectors.