meta data for this page
  •  

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revisionPrevious revision
Next revision
Previous revision
Last revisionBoth sides next revision
sector:energy:fuel_combustion:industry:other:start [2023/04/20 09:29] – [Activity data] kludtsector:energy:fuel_combustion:industry:other:start [2023/05/02 08:36] – [Activity data] kludt
Line 30: Line 30:
  
 === Waste === === Waste ===
-With regard to determination of activity data from waste incineration and co-combustion of waste in combustion system in source category 1.A.2 Energy Balance and energy statistics show smaller waste quantities than the waste statistics of the Federal Statistical Office (Statistisches Bundesamt, Fachserie 19, Reihe 1) [(Statistisches Bundesamt, Fachserie 19, Reihe 1: Abfallentsorgung - URL: http://www.destatis.de/DE/Themen/Gesellschaft-Umwelt/Umwelt/Abfallwirtschaft/_inhalt.html#sprg238672)]. For that reason activity data were taken from waste statistics.+With regard to determination of activity data from waste incineration and co-combustion of waste in combustion system in source category 1.A.2 Energy Balance and energy statistics show smaller waste quantities than the waste statistics of the Federal Statistical Office (Statistisches Bundesamt, Fachserie 19, Reihe 1) [(Statistisches Bundesamt, Fachserie 19, Reihe 1: Abfallentsorgung (now data on waste management are available from the GENESIS-Online database) - URL: http://www.destatis.de/DE/Themen/Gesellschaft-Umwelt/Umwelt/Abfallwirtschaft/_inhalt.html#sprg238672)]. For that reason activity data were taken from waste statistics.
  
 ==== Emission factors ==== ==== Emission factors ====
Line 60: Line 60:
 Like already discussed in source category 1.A.1.c, SO<sub>x</sub> emission trend is very much influenced by emissions from lignite fired plants. The strong decline of lignite use in the East German industry and the installation of flue gas desulfurisation plants in the remaining heat and power stations are the main reasons for decreasing SO<sub>x</sub> emissions. Like already discussed in source category 1.A.1.c, SO<sub>x</sub> emission trend is very much influenced by emissions from lignite fired plants. The strong decline of lignite use in the East German industry and the installation of flue gas desulfurisation plants in the remaining heat and power stations are the main reasons for decreasing SO<sub>x</sub> emissions.
  
-{{:sector:energy:fuel_combustion:industry:1a2gviii_em_sox.png?600| Annual emissions of SOx from stationary plants in 1.A.2.g.vii}} +{{:sector:energy:fuel_combustion:industry:1a2gviii_em_sox.png?700| Annual emissions of SOx from stationary plants in 1.A.2.g.vii}} 
-{{:sector:energy:fuel_combustion:industry:1a2gviii_em_nox.png?600| Annual emissions of NOx from stationary plants in 1.A.2.g.vii}}+{{:sector:energy:fuel_combustion:industry:1a2gviii_em_nox.png?700| Annual emissions of NOx from stationary plants in 1.A.2.g.vii}}
  
  
  
-==== Total Suspended Matter - TSP Priority Heavy Metal - Hg & Cd ====+==== Total Suspended Matter - TSP, PM10 and Priority Heavy Metals - Hg & Cd ====
  
 The main driver of TSP and Heavy Metal emission trends is the declining lignite combustion due to the closure of industrial plants in the East German industry especially from 1990 to 1994.  The main driver of TSP and Heavy Metal emission trends is the declining lignite combustion due to the closure of industrial plants in the East German industry especially from 1990 to 1994. 
Line 72: Line 72:
 In recent years the use of biomass gains influence.  In recent years the use of biomass gains influence. 
  
-{{:sector:energy:fuel_combustion:industry:1a2gviii_em_tsp.png?600 | Annual emissions of TSP from stationary plants in 1.A.2.g.vii}} +{{:sector:energy:fuel_combustion:industry:1a2gviii_em_tsp.png?700 | Annual emissions of TSP from stationary plants in 1.A.2.g.vii}} 
-{{:sector:energy:fuel_combustion:industry:1a2gviii_em_tsp_2000.png?600 | Annual emissions of TSP from stationary plants in 1.A.2.g.vii, details 2000-2019}} +{{:sector:energy:fuel_combustion:industry:1a2gviii_em_tsp_2000.png?700 | Annual emissions of TSP from stationary plants in 1.A.2.g.vii, details 2000-2019}} 
-{{:sector:energy:fuel_combustion:industry:1a2gviii_em_hg.png?600 | Annual emissions of Hg from stationary plants in 1.A.2.g.vii}} +{{:sector:energy:fuel_combustion:industry:1a2gviii_em_pm10.png?700 | Annual emissions of PM10 from stationary plants in 1.A.2.g.vii}} 
-{{:sector:energy:fuel_combustion:industry:1a2gviii_em_cd.png?600 | Annual emissions of Cd from stationary plants in 1.A.2.g.vii}}+{{:sector:energy:fuel_combustion:industry:1a2gviii_em_hg.png?700 | Annual emissions of Hg from stationary plants in 1.A.2.g.vii}} 
 +{{:sector:energy:fuel_combustion:industry:1a2gviii_em_cd.png?700 | Annual emissions of Cd from stationary plants in 1.A.2.g.vii}}
  
  
Line 83: Line 84:
 PCDD and PCDF emissions show a falling trend over the whole timeseries due to decreasing fuel consumption in the industry sector. PCDD and PCDF emissions show a falling trend over the whole timeseries due to decreasing fuel consumption in the industry sector.
  
-{{:sector:energy:fuel_combustion:industry:1a2gviii_em_pcddf.png?600 | Annual emissions of PCDDF from stationary plants in 1.A.2.g.vii}}+{{:sector:energy:fuel_combustion:industry:1a2gviii_em_pcddf.png?700 | Annual emissions of PCDDF from stationary plants in 1.A.2.g.vii}}