meta data for this page
  •  

Differences

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

Link to this comparison view

sector:agriculture:agricultural_other:start [2024/04/16 14:25] – [Recalculations] kotzullasector:agriculture:agricultural_other:start [2024/11/06 13:54] (current) – external edit 127.0.0.1
Line 3: Line 3:
  
  
-NFR-Code                                          ^  Name of Category                        Method                              ^  AD    ^  EF                                  ^ + Category Code                                    ^  Name of Category                        Method                              ^  AD    ^  EF                                  ^ 
-| 3.I                                               | Agriculture: other                      |                                      |        |                                      |+ 3.I                                               Agriculture: other                     |                                      |        |                                      |
 | //consisting of / including source categories://                                                                                                                               ||||| | //consisting of / including source categories://                                                                                                                               |||||
-| 3.I                                               | Storage of digestate from energy crops  | T2 (NH<sub>3</sub>, NO<sub>x</sub> | Q, PS  | CS (NH<sub>3</sub>, NO<sub>x</sub> |+ 3.I                                              | Storage of digestate from energy crops  | T2 (NH<sub>3</sub>, NO<sub>x</sub> | Q, PS  | CS (NH<sub>3</sub>, NO<sub>x</sub> |
 |  {{page>general:Misc:LegendEIT:start}}                                                                                                                                         ||||| |  {{page>general:Misc:LegendEIT:start}}                                                                                                                                         |||||
  
Line 24: Line 24:
  
  
-//Table 1: N amount in energy crops fed into anaerobic digestion// +__Table 1: N amount in energy crops fed into anaerobic digestionin [kt N]__ 
-^  N amount in energy crops in Gg                                                                                                  ||||||||||||| +^  1990   ^  1995  ^  2000  ^  2005  ^  2010  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^  2020  ^  2021  ^  2022  ^ 
-^  1990                              ^  1995  ^  2000  ^  2005  ^  2010  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^  2020  ^  2021  ^  2022  ^ +  0.0 |    0.6 |    5.3 |   45.1 |  163.0 |  293.7 |  292.2 |  287.4 |  283.2 |  283.2 |  289.3 |  283.8 |  283.8 | 
-                               0.0 |    0.6 |    5.3 |   45.1 |  163.0 |  293.7 |  292.2 |  287.4 |  283.2 |  283.2 |  289.3 |  283.8 |  283.8 |+\\
  
  
- +__Table 2: Distribution of gastight storage and storage in open tank of energy crop digestates, in [%]__ 
-//Table 2: Distribution of gastight storage and storage in open tank of energy crop digestates// +              ^  1990  ^  1995  ^  2000  ^  2005  ^  2010  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^  2020  ^  2021  ^  2022  ^ 
-^  Distribution of gastight storage and non-gastight storage, in %                                                                                                          |||||||||||||| +| gastight      |    0.0 |    4.7 |    9.4 |   15.8 |   42.2 |   64.0 |   65.6 |   67.1 |   68.7 |   70.2 |   71.8 |   73.3 |   73.3 | 
-                                                                  ^  1990  ^  1995  ^  2000  ^  2005  ^  2010  ^  2015  ^  2016  ^  2017  ^  2018  ^  2019  ^  2020  ^  2021  ^  2022  ^ +| non-gastight     100 |   95.3 |   90.6 |   84.2 |   57.8 |   36.0 |   34.4 |   32.9 |   31.3 |   29.8 |   28.2 |   26.7 |   26.7 |
-| gastight                                                          |    0.0 |    4.7 |    9.4 |   15.8 |   42.2 |   64.0 |   65.6 |   67.1 |   68.7 |   70.2 |   71.8 |   73.3 |   73.3 | +
-| non-gastight                                                       100.0 |   95.3 |   90.6 |   84.2 |   57.8 |   36.0 |   34.4 |   32.9 |   31.3 |   29.8 |   28.2 |   26.7 |   26.7 |+
  
 ==== Methodology ==== ==== Methodology ====
Line 43: Line 41:
 ==== Emission factors ==== ==== Emission factors ====
  
 +As no specific emission factor is known for the storage of digestion residues in open tanks, the NH<sub>3</sub> emission factor for storage of cattle slurry with crust in open tanks was adopted (0.045 kg NH<sub>3</sub> -N per kg TAN). This choice of emission factor is based on the fact that energy crops are, in general, co-fermented with animal manures (i. e. mostly slurry) and that a natural crust forms on the liquid digestates due to the relatively high dry matter content of the energy crops. 
  
-As no specific emission factor is known for the storage of digestion residues in open tanks, the NH<sub>3</sub>  emission factor for storage of cattle slurry with crust in open tanks was adopted (0.045 kg NH<sub>3</sub> -N per kg TAN). This choice of emission factor is based on the fact that energy crops are, in general, co-fermented with animal manures (i. e. mostly slurry) and that a natural crust forms on the liquid digestates due to the relatively high dry matter content of the energy crops. The TAN content after the digestion process is 0.56 kg TAN per kg N. The NO emission factor for storage of digestion residues in open tanks was set to 0.0005 kg NO-N per kg N. Table 3 shows the resulting implied emission factors for NH<sub>3</sub> -N and NO-N. NO<sub>x</sub>  emissions are related to NO-N emissions by the ratio of 46/14. This relationship also holds for NO-N and NO<sub>x</sub>  emission factors.+The TAN content after the digestion process is 0.56 kg TAN per kg N. The NO emission factor for storage of digestion residues in open tanks was set to 0.0005 kg NO-N per kg N. 
  
 +The following table shows the resulting implied emission factors for NH<sub>3</sub> -N and NO-N. NO<sub>x</sub> emissions are related to NO-N emissions by the ratio of 46/14. This relationship also holds for NO-N and NO<sub>x</sub> emission factors.
  
-//Table 3: IEF for NH<sub>3</sub> -N and NO-N emissions from storage of digested energy crops//+__Table 3: IEF for NH<sub>3</sub> -N and NO-N emissions from storage of digested energy crops__
 ^  1990                                                            1995    ^  2000    ^  2005    ^  2010    ^  2015    ^  2016    ^  2017    ^  2018    ^  2019    ^  2020    ^  2021    ^  2022    ^ ^  1990                                                            1995    ^  2000    ^  2005    ^  2010    ^  2015    ^  2016    ^  2017    ^  2018    ^  2019    ^  2020    ^  2021    ^  2022    ^
 |  IEF in kg NH<sub>3</sub>-N per kg N in digested energy crops                                                                                                                           ||||||||||||| |  IEF in kg NH<sub>3</sub>-N per kg N in digested energy crops                                                                                                                           |||||||||||||
Line 63: Line 63:
 ==== Recalculations ==== ==== Recalculations ====
  
-All time series of the emission inventory have completely been recalculated since 1990. Table REC-1 shows the effects of recalculations on NH<sub>3</sub> and NO<sub>x</sub> emissions from storage of anaerobically digested energy crops. Differences to last year’s submission occur in all years and are due to the update of activity data (see [[sector:agriculture:start|main page of the agricultural sector]], Chapter 5 - NFR 3 - Agriculture (OVERVIEW), **recalculation No. 13**). For further details on recalculations see Vos et al. (2024), Chapter 1.3. +All time series of the emission inventory have completely been recalculated since 1990.  
 + 
 +The following table shows the effects of recalculations on NH<sub>3</sub> and NO<sub>x</sub> emissions from storage of anaerobically digested energy crops.  
 + 
 +Differences to last year’s submission occur in all years and due to the update of activity data (see [[sector:agriculture:start|main page of the agricultural sector]], Chapter 5 - NFR 3 - Agriculture (OVERVIEW), **recalculation No. 13**). For further details on recalculations see Vos et al. (2024), Chapter 1.3. 
  
-__Table REC-1: Revised NH<sub>3</sub> and NO<sub>x</sub> emissions, in kilotonnes__+__Table 4 - REC-1: Revised NH<sub>3</sub> and NO<sub>x</sub> emissions, in kilotonnes__
 |                      ^  1990    1995    2000    2005    2014    2015    2016    2017    2018    2019    2020    2021    2022   ^ |                      ^  1990    1995    2000    2005    2014    2015    2016    2017    2018    2019    2020    2021    2022   ^
 | **Ammonia**          |                                                                                                         | | **Ammonia**          |                                                                                                         |
Line 78: Line 82:
 ^ relative change [%]  |   -5.19 |   -5.19 |   -5.19 |   -5.24 |   -1.62 |   -3.90 |   -7.35 |  -11.93 |  -15.32 |  -17.81 |  -21.11 |  -27.20 |         | ^ relative change [%]  |   -5.19 |   -5.19 |   -5.19 |   -5.24 |   -1.62 |   -3.90 |   -7.35 |  -11.93 |  -15.32 |  -17.81 |  -21.11 |  -27.20 |         |
  
-<WRAP center round info 60%>+<WRAP center round info 65%>
 For **pollutant-specific information on recalculated emission estimates for Base Year and 2021**, please see the tables following [[general:recalculations:start|chapter 8.1 - Recalculations]]. For **pollutant-specific information on recalculated emission estimates for Base Year and 2021**, please see the tables following [[general:recalculations:start|chapter 8.1 - Recalculations]].
 </WRAP> </WRAP>