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--- sector:energy:fuel_combustion:small_combustion:stationary_small_combustion:residential [2021/12/15 19:07] – external edit 127.0.0.1
+++ sector:energy:fuel_combustion:small_combustion:stationary_small_combustion:residential [2023/04/17 13:46] (current) – [Trend Discussion for Key Sources] kludt
@@ Line 7: / Line 7: @@
 In source category //1.A.4.b.i. - Other: Residential// emissions from small residential combustion installations are reported.
-^ Category Code  ^  Method                                ||||^  AD                                ||||^  EF                                  |||||
+----
-| 1.A.4.b.i       |  T2, T3                                    |||||  NS                                |||||  CS, D                                  |||||
-^  Key Category  ^  SO₂     ^  NOₓ  ^  NH₃  ^  NMVOC  ^  CO   ^  BC   ^  Pb   ^  Hg   ^  Cd   ^  Diox  ^  PAH  ^  HCB  ^  TSP  ^  PM₁₀  ^  PM₂ ₅  ^
+^ Category Code  ^  Method                                                                           ||||^  AD                                           ||||^  EF                                  |||||
-| 1.A.4.b.i       |  L/T        |  L/-  |  -/-  |  L/T    |  L/T  |  L/-  |  -/-  |  L/-  |  -/-  |  L/-   |  L/T  |  L/-  |  L/T  |  L/T   |  L/T    |
+| 1.A.4.b.i      |  T2, T3                                                                           |||||  NS                                           |||||  CS, D                               |||||
+^                ^  NO<sub>x</sub>  ^  NMVOC  ^  SO<sub>2</sub>  ^  NH<sub>3</sub>  ^  PM<sub>2.5</sub>  ^  PM<sub>10</sub>  ^  TSP  ^  BC   ^  CO   ^  PB   ^  Cd     ^  Hg   ^  Diox  ^  PAH  ^  HCB  ^
+| Key Category:  |  L/-             |  L/-    |  L/T             |  -/-             |  L/T               |  L/T              |  L/T  |  L/-  |  L/T  |  -/-  |  -/-    |  -/-  |  L/-   |  L/T  |  L/-  |
 {{page>general:Misc:LegendEIT:start}}
 ===== Methodology =====
@@ Line 18: / Line 22: @@
 ==== Activity data ====
-For further information on activity data please refer to the [[sector:energy:fuel_combustion:small_combustion:stationary_small_combustion |superordinte chapter]] on small stationary combustion.
+For further information on activity data please refer to the [[sector:energy:fuel_combustion:small_combustion:stationary_small_combustion |superordinate chapter]] on small stationary combustion.
 ==== Emission factors ====
-For further information on the emission factors applied please refer to the [[sector:energy:fuel_combustion:small_combustion:stationary_small_combustion |superordinte chapter]] on small stationary combustion.
+For further information on the emission factors applied please refer to the [[sector:energy:fuel_combustion:small_combustion:stationary_small_combustion |superordinate chapter]] on small stationary combustion.
 __Table 1: Emission factors for domestic combustion installations__
-^ Pollutant              ^  NOx       ^  SOx    ^  CO     ^  NMVOC   ^  TSP    ^  PM<sub>10</sub>  ^  PM<sub>2.5</sub>  ^  PAH       ^  PCDD/F   ^
+|                       ^  NO<sub>x</sub>  ^  SO<sub>x</sub>  ^  CO     ^  NMVOC  ^  TSP    ^  PM<sub>10</sub>  ^  PM<sub>2.5</sub>  ^  PAH      ^  PCDD/F   ^
-^ Fuel                   ^  [kg/TJ]                                                                               ^^^^^^^  [mg/TJ]   ^  [µg/TJ]  ^
+|                       ^  [kg/TJ]                                                                                             ||||||^  [mg/TJ]  ^  [µg/TJ]  ^
-^ Hard Coal              |      61.1  |  385.5  |  3,422  |    67.0  |   18.5  |             17.6  |              15.7  |    60,000  |      20.8 |
+^ Hard Coal             |  61.1            |  385.5           |  3,422  |  67.0   |  18.5   |  17.6             |  15.7              |  19,215   |      20.8 |
-^ Hard Coal Coke         |      40.0  |  458.6  |  5,448  |    11.5  |   16.6  |             15.8  |              14.2  |   100,000  |      45.7 |
+^ Hard Coal Coke        |  40.0            |  458.6           |  5,448  |  11.5   |  16.6   |  15.8             |  14.2              |  32,700   |      45.7 |
-^ Hard Coal Briquettes   |      50.4  |  563.5  |  4,875  |   184.1  |  265.4  |            252.8  |             227.3  |   100,000  |      20.2 |
+^ Hard Coal Briquettes  |  50.4            |  563.5           |  4,875  |  184.1  |  265.4  |  252.8            |  227.3             |  165,858  |      20.2 |
-^ Lignite Briquettes     |      87.0  |  421.6  |  2,349  |   158.0  |   79.5  |             76.5  |              68.2  |    90,000  |      24.8 |
+^ Lignite Briquettes    |  87.0            |  421.6           |  2,349  |  158.0  |  79.5   |  76.5             |  68.2              |  148,329  |      24.8 |
-^ Natural Wood           |      69.9  |    8.1  |  1,632  |   126.6  |   75.9  |             74.3  |              70.7  |   600,000  |      45.2 |
+^ Natural Wood          |  69.9            |  8.1             |  1,632  |  126.6  |  75.9   |  74.3             |  70.7              |  202,265  |      45.2 |
-^ Light Fuel Oil         |      22.1  |    3.3  |   11.8  |     1.5  |    0.9  |              0.9  |               0.9  |     160.7  |       2.2 |
+^ Light Fuel Oil        |  22.1            |  3.3             |  11.8   |  1.5    |  0.9    |  0.9              |  0.9               |  310.0    |       2.2 |
-^ Natural Gas            |      20.5  |    0.1  |   13.2  |     0.6  |   0.03  |             0.03  |              0.03  |        40  |       2.1 |
+^ Natural Gas           |  20.5            |  0.1             |  13.2   |  0.6    |  0.03   |  0.03             |  0.03              |      3.08 |       2.1 |
 TSP and PM emission factors are to a large extend based on measurements without condensed compounds, according to CEN-TS 15883, annex I.
-PAH measurement data contain the following individual substances: Benzo(a)pyrene, Benzo(k)fluoranthene, Indeno(1,2,3-cd)pyrene, Benzo(b)fluoranthene, Benzo(j)fluoranthene, Benzo(ghi)perylene, Anthracene, Benzo(a)anthracene, Chrysene(+Trihenylene) and Dibenz(a,h)anthracene, as a specific part of US EPA.
 ===== Trend Discussion for Key Sources =====
 The following charts give an overview and assistance for explaining dominant emission trends of selected pollutants.
-{{:sector:energy:fuel_combustion:small_combustion:1a4bi_ar.png?400|}}
+{{:sector:energy:fuel_combustion:small_combustion:1a4bi_ar.png?700|}}
-Annual fluctuations of all fuel types in source category //1.A.4.b.i// depend on heat demand subject to winter temperatures. Between 1990 and 2002 the fuel use changed considerably from coal & lignite to natural gas. The consumption of light heating oil decreased as well. As the activity data for light heating oil is based on the sold amount, it fluctuates due to fuel prices and changing storage amounts. In 2010 and 2013 fuel consumption was particularly high due to the cold winter. From 2014 - 2017 fuel demand increased due to lower temperatures during the heating period.
+Annual fluctuations of all fuel types in source category //1.A.4.b.i// depend on heat demand subject to winter temperatures. Between 1990 and 2002 the fuel use changed considerably from coal & lignite to natural gas. The consumption of light heating oil decreased as well. As the activity data for light heating oil is based on the sold amount, it fluctuates due to fuel prices and changing storage amounts. In 2010 and 2013 fuel consumption was particularly high due to the cold winter. The higher fuel consumption in 2014 - 2017 is a result of lower temperatures during the heating period. In 2019 and 2020 the fuel demand increased due to decreasing oil prices, and therefore less in 2021.
 ==== Sulfur Oxides & Nitrogen Oxides   - SOx & NOx ====
-{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_so2.png?400|}}
+{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_so2.png?700|}}
-{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_so2_2000.png?400|}}
+{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_so2_2000.png?700|}}
-{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_nox.png?400|}}
+{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_nox.png?700|}}
 SO<sub>2</sub> emissions decrease due to the fuel switch from coal (especially lignite with a high emission factor) to natural gas with a lower emission factor. A further SO<sub>2</sub> reduction from 2008 onwards can be explained by the increasing use of low-sulfur fuel oil. Nowadays  almost exclusively low-sulfur fuel oil is used.
@@ Line 54: / Line 58: @@
 ==== Non-Methane Volatile Organic Compounds & Carbon Monoxide - NMVOC & CO ====
-{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_nmvoc.png?400|}}
+{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_nmvoc.png?700|}}
-{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_CO.png?400|}}
+{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_CO.png?700|}}
 Main driver of the NMVOC emission trend is the decreasing lignite consumption. In the residential sector the emission trend is also affected by the increasing use of firewood with high emission factors which levels off the emission reduction.
@@ Line 61: / Line 65: @@
 ==== Particulate Matter - PM2.5 & PM10 & TSP ====
-{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_pm2.5.png?400|}}
+{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_pm2.5.png?700|}}
-{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_pm10.png?400|}}
+{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_pm10.png?700|}}
-{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_tsp.png?400|}}
+{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_tsp.png?700|}}
 The emission trend for PM<sub>2.5</sub>, PM<sub>10</sub>, and TSP are also influenced severely by decreasing coal consumption in small combustion plants, particularly in the period from 1990 to 1994. Since 1995 the emission trend didn't change hardly. Increasing emissions in the last years are caused by the rising wood combustion in residential fire places and stoves.
 ==== Persistent Organic Pollutants ====
-{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_pcddf.png?400|}}
+{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_pcddf.png?700|}}
-{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_pah.png?400|}}
+{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_pah.png?700|}}
-{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_hcb.png?400|}}
+{{:sector:energy:fuel_combustion:small_combustion:1a4bi_em_hcb.png?700|}}
-The main driver of the POP emission trend are coal and fuelwood. PCDD/F emissions from coal fired furnaces are declining but the effect is retarded by increasing wood consumption. The same influencing variables apply accordingly to the PAH emission trends. The emission trend of HCB shows a high dominance of emissions from wood-burning. Data source for HCB emission factors is the EMEP/Corinair inventory guidebook 2006. Insofar, emission factors are constant from 1990 to 2016. Furthermore, the difference between the EFs for coal and fuelwood is very big. Therefore, the emission trend depends solely on the development of fuelwood consumption. Regarding HCB emissions the inventory is incomplete. This is one of the reasons for the importance of emissions from small combustion plants. In 2010, 2012 and 2013 emissions are particularly high because of the cold winter.
+The main driver of the POP emission trend are coal and fuelwood combustion. PCDD/F emissions from coal fired furnaces are declining but the effect is retarded by increasing wood consumption. The same influencing variables apply accordingly to the PAH emission trends. The emission trend of HCB shows a high dominance of emissions from wood-burning. Emission factors for HCB are constant from 1990 to 2020. Furthermore, the difference between the EFs for coal and fuelwood is very big. Therefore, the emission trend depends solely on the development of fuelwood consumption. Regarding HCB emissions the inventory is incomplete. This is one of the reasons for the importance of emissions from small combustion plants. In 2010, 2012 and 2013 emissions are particularly high because of the cold winter.
-It's known that in spite of the existing legislation, an unknown quantity of waste wood is illegally burnt. However, it's impossible to ascertain the fuel quantity, since the use of waste wood for heating purposes in small combustion plants it's illegal. Therefore all emission factors and emissions refer to the use of untreated wood.
+It's known that in spite of the existing legislation, an unknown quantity of waste wood is illegally burnt. However, it's impossible to ascertain the fuel quantity, since the use of waste wood for heating purposes in small combustion plants is illegal. Therefore all emission factors and emissions refer to the use of untreated wood.
 ===== Recalculations =====
-Recalculations were necessary for the latest reference year (2018) due to the availability of the National Energy Balance. Germany has a federal structure which causes a time lack of the National Energy Balance. Therefore recalculations are always necessary.
+Recalculations were necessary for 2020 due to the implementation of the now finalised National Energy Balance.
-Further recalculations due to a comprehensive revision of PAH Emission factors.
-<WRAP center round info 100%>
+<WRAP center round info 60%>
-For specific **information on recalculated emission estimates for Base Year and 2018**, please see the pollutant specific recalculation tables following chapter [[General:Recalculations:Start| 8.1 - Recalculations]].
+For **pollutant-specific information on recalculated emission estimates for Base Year and 2020**, please see the recalculation tables following [[general:recalculations:start|chapter 8.1 - Recalculations]].
 </WRAP>

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