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1.A.4.c ii (a) - Off-road Vehicles and other Machinery: Agriculture
Short description
Under sub-category 1.A.4.c ii (a) fuel combustion activities and resulting emissions from agricultural off-road vehicles and mobile machinery are reported.
NFR-Code | Source category | Method | AD | EF | Key Category Analysis |
---|---|---|---|---|---|
1.A.4.c ii (a) | Off-road Vehicles and Other Machinery: Agriculture | T1, T2 | NS, M | CS, D, M | see superordinate chapter |
Methodology
Activity data
Subsector-specific consumption data is included in the primary fuel-delivery data are available from NEB line 67: 'Commercial, trade, services and other consumers' (AGEB, 2019) 1).
Table 1: Sources for primary fuel-delivery data
through 1994 | AGEB - National Energy Balance, line 79: 'Haushalte und Kleinverbraucher insgesamt' | ||
as of 1995 | AGEB - National Energy Balance, line 67: 'Gewerbe, Handel, Dienstleistungen u. übrige Verbraucher' |
Following the deduction of energy inputs for military vehicles as provided in (BAFA, 2019) 2), the remaining amounts of gasoline and diesel oil are apportioned onto off-road construction vehicles (NFR 1.A.2.g vii) and off-road vehicles in commercial/institutional use (1.A.4. ii) as well as agriculture and forestry (NFR 1.A.4.c ii) based upon annual shares derived from TREMOD-MM (Knörr et al. (2019b)) (cf. NFR 1.A.4 - mobile ]).
Table 2: Annual contribution of agricultural vehicles and mobile machinery to the primary diesel1 fuels delivery data provided in NEB line 67
1990 | 1995 | 2000 | 2005 | 2010 | 2011 | 2012 | 2013 | 2014 | 2015 | 2016 | 2017 | 2018 | 2019 |
47,6% | 45,6% | 43,9% | 46,2% | 47,5% | 47,2% | 47,3% | 48,0% | 47,8% | 48,3% | 48,5% | 48,5% | 48,4% | 48,4% |
1no gasoline used in agricultural vehicles and mobile machinery
Table 3: Annual mobile fuel consumption in agriculture, in terajoules
1990 | 1995 | 2000 | 2005 | 2010 | 2011 | 2012 | 2013 | 2014 | 2015 | 2016 | 2017 | 2018 | 2019 | |
Diesel Oil | 53.263 | 44.622 | 41.696 | 37.942 | 42.024 | 42.864 | 42.137 | 44.531 | 46.259 | 48.905 | 51.027 | 52.561 | 49.009 | 49.591 |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Biodiesel | 0 | 0 | 0 | 2.424 | 3.222 | 2.991 | 2.974 | 2.641 | 2.843 | 2.675 | 2.705 | 2.806 | 2.849 | 2.824 |
Ʃ 1.A.4.c ii (i) | 53.263 | 44.622 | 41.696 | 40.366 | 45.246 | 45.855 | 45.111 | 47.172 | 49.102 | 51.580 | 53.732 | 55.367 | 51.858 | 52.415 |
Emission factors
The emission factors applied here are of rather different quality: For all main pollutants, carbon monoxide and particulate matter, annual IEF modelled within TREMOD MM 3) are used, representing the sector's vehicle-fleet composition, the development of mitigation technologies and the effect of fuel-quality legislation.
Table 3: Annual country-specific emission factors1, in kg/TJ
1990 | 1995 | 2000 | 2005 | 2010 | 2011 | 2012 | 2013 | 2014 | 2015 | 2016 | 2017 | 2018 | 2019 | |
NH3 | 0,153 | 0,156 | 0,159 | 0,162 | 0,163 | 0,164 | 0,164 | 0,164 | 0,164 | 0,164 | 0,164 | 0,164 | 0,165 | 0,165 |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
NMVOC | 258 | 232 | 205 | 165 | 124 | 118 | 112 | 106 | 100 | 93,8 | 88,6 | 83,8 | 79,1 | 74,8 |
NOx | 874 | 886 | 916 | 832 | 682 | 655 | 629 | 605 | 581 | 560 | 541 | 523 | 506 | 490 |
SOx | 79,6 | 60,5 | 14,0 | 0,37 | 0,37 | 0,37 | 0,37 | 0,37 | 0,37 | 0,37 | 0,37 | 0,37 | 0,37 | 0,37 |
BC3 | 125,1 | 109,4 | 93,1 | 74,7 | 57,4 | 54,8 | 52,4 | 50,1 | 47,4 | 44,8 | 42,2 | 39,8 | 37,5 | 35,3 |
PM2 | 229 | 201 | 171 | 134 | 97,1 | 91,5 | 86,2 | 81,5 | 76,3 | 71,4 | 66,9 | 62,7 | 58,6 | 54,9 |
CO | 882 | 834 | 779 | 674 | 555 | 536 | 518 | 502 | 484 | 468 | 453 | 441 | 428 | 416 |
1 due to lack of better information: similar EF are applied for fossil and biofuels
2 EF(PM2.5) also applied for PM10 and TSP (assumption: > 99% of TSP consists of PM2.5)
3 estimated via a f-BCs as provided in 4), Chapter 1.A.2.g vii, 1.A.4.a ii, b ii, c ii, 1.A.5.b i - Non-road, note to Table 3-1: Tier 1 emission factors for off-road machinery
NOTE: With respect to the country-specific emission factors applied for particulate matter, given the circumstances during test-bench measurements, condensables are most likely included at least partly.footnote During test-bench measurements, temperatures are likely to be significantly higher than under real-world conditions, thus reducing condensation. On the contrary, smaller dillution (higher number of primary particles acting as condensation germs) together with higher pressures increase the likeliness of condensation. So over-all condensables are very likely to occur but different to real-world conditions. footnote
For information on the emission factors for heavy-metal and POP exhaust emissions, please refer to Appendix 2.3 - Heavy Metal (HM) exhaust emissions from mobile sources] and Appendix 2.4 - Persistent Organic Pollutant (POP) exhaust emissions from mobile sources ].
Recalculations
Revisions in activity data result from slightly adapted EBZ67 shares as well as the implementation of primary activity data from the now finalised NEB 2019.
Table 5: Revised annual contribution of 1.A.2.g vii to fuel-specific over-all fuel deliveries provided in NEB line 67
1990 | 1995 | 2000 | 2005 | 2010 | 2011 | 2012 | 2013 | 2014 | 2015 | 2016 | 2017 | 2018 | |
Submission 2021 | 0,476 | 0,456 | 0,439 | 0,462 | 0,475 | 0,472 | 0,473 | 0,480 | 0,478 | 0,483 | 0,485 | 0,485 | 0,484 |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Submission 2020 | 0,484 | 0,467 | 0,468 | 0,501 | 0,509 | 0,506 | 0,506 | 0,505 | 0,503 | 0,507 | 0,510 | 0,511 | 0,512 |
absolute change | -0,008 | -0,011 | -0,030 | -0,038 | -0,034 | -0,034 | -0,033 | -0,024 | -0,025 | -0,025 | -0,025 | -0,025 | -0,028 |
relative change | -1,62% | -2,30% | -6,33% | -7,66% | -6,75% | -6,65% | -6,47% | -4,80% | -4,98% | -4,87% | -5,00% | -4,97% | -5,52% |
Table 6: Resulting revised activity data, in terajoules
1990 | 1995 | 2000 | 2005 | 2010 | 2011 | 2012 | 2013 | 2014 | 2015 | 2016 | 2017 | 2018 | |
Submission 2021 | 53.263 | 44.622 | 41.696 | 40.366 | 45.246 | 45.855 | 45.111 | 47.172 | 49.102 | 51.580 | 53.732 | 55.367 | 51.858 |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Submission 2020 | 54.142 | 45.674 | 44.513 | 41.905 | 47.980 | 48.928 | 47.989 | 49.482 | 51.634 | 54.190 | 56.531 | 58.245 | 54.553 |
absolute change | -878 | -1.053 | -2.817 | -1.538 | -2.734 | -3.073 | -2.878 | -2.311 | -2.533 | -2.610 | -2.799 | -2.878 | -2.695 |
relative change | -1,62% | -2,30% | -6,33% | -3,67% | -5,70% | -6,28% | -6,00% | -4,67% | -4,91% | -4,82% | -4,95% | -4,94% | -4,94% |
In addition, all emission factors remain unrevised compared to last year's susbmission, emission estimates for the years as of 2015 change in accordance with the underlying activity data.
1990 | 1995 | 2000 | 2005 | 2010 | 2011 | 2012 | 2013 | 2014 | 2015 | 2016 | 2017 | 2018 | |
Submission 2021 | 53.263 | 44.622 | 41.696 | 40.366 | 45.246 | 45.855 | 45.111 | 47.172 | 49.102 | 51.580 | 53.732 | 55.367 | 51.858 |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Submission 2020 | 54.142 | 45.674 | 44.513 | 41.905 | 47.980 | 48.928 | 47.989 | 49.482 | 51.634 | 54.190 | 56.531 | 58.245 | 54.553 |
absolute change | -878 | -1.053 | -2.817 | -1.538 | -2.734 | -3.073 | -2.878 | -2.311 | -2.533 | -2.610 | -2.799 | -2.878 | -2.695 |
relative change | -1,62% | -2,30% | -6,33% | -3,67% | -5,70% | -6,28% | -6,00% | -4,67% | -4,91% | -4,82% | -4,95% | -4,94% | -4,94% |
Submission 2021 | 53.263 | 44.622 | 41.696 | 40.366 | 45.246 | 45.855 | 45.111 | 47.172 | 49.102 | 51.580 | 53.732 | 55.367 | 51.858 |
Submission 2020 | 54.142 | 45.674 | 44.513 | 41.905 | 47.980 | 48.928 | 47.989 | 49.482 | 51.634 | 54.190 | 56.531 | 58.245 | 54.553 |
absolute change | -878 | -1.053 | -2.817 | -1.538 | -2.734 | -3.073 | -2.878 | -2.311 | -2.533 | -2.610 | -2.799 | -2.878 | -2.695 |
relative change | -1,62% | -2,30% | -6,33% | -3,67% | -5,70% | -6,28% | -6,00% | -4,67% | -4,91% | -4,82% | -4,95% | -4,94% | -4,94% |
Submission 2021 | 53.263 | 44.622 | 41.696 | 40.366 | 45.246 | 45.855 | 45.111 | 47.172 | 49.102 | 51.580 | 53.732 | 55.367 | 51.858 |
Submission 2020 | 54.142 | 45.674 | 44.513 | 41.905 | 47.980 | 48.928 | 47.989 | 49.482 | 51.634 | 54.190 | 56.531 | 58.245 | 54.553 |
absolute change | -878 | -1.053 | -2.817 | -1.538 | -2.734 | -3.073 | -2.878 | -2.311 | -2.533 | -2.610 | -2.799 | -2.878 | -2.695 |
relative change | -1,62% | -2,30% | -6,33% | -3,67% | -5,70% | -6,28% | -6,00% | -4,67% | -4,91% | -4,82% | -4,95% | -4,94% | -4,94% |
Submission 2021 | 53.263 | 44.622 | 41.696 | 40.366 | 45.246 | 45.855 | 45.111 | 47.172 | 49.102 | 51.580 | 53.732 | 55.367 | 51.858 |
Submission 2020 | 54.142 | 45.674 | 44.513 | 41.905 | 47.980 | 48.928 | 47.989 | 49.482 | 51.634 | 54.190 | 56.531 | 58.245 | 54.553 |
absolute change | -878 | -1.053 | -2.817 | -1.538 | -2.734 | -3.073 | -2.878 | -2.311 | -2.533 | -2.610 | -2.799 | -2.878 | -2.695 |
relative change | -1,62% | -2,30% | -6,33% | -3,67% | -5,70% | -6,28% | -6,00% | -4,67% | -4,91% | -4,82% | -4,95% | -4,94% | -4,94% |
Submission 2021 | 53.263 | 44.622 | 41.696 | 40.366 | 45.246 | 45.855 | 45.111 | 47.172 | 49.102 | 51.580 | 53.732 | 55.367 | 51.858 |
Submission 2020 | 54.142 | 45.674 | 44.513 | 41.905 | 47.980 | 48.928 | 47.989 | 49.482 | 51.634 | 54.190 | 56.531 | 58.245 | 54.553 |
absolute change | -878 | -1.053 | -2.817 | -1.538 | -2.734 | -3.073 | -2.878 | -2.311 | -2.533 | -2.610 | -2.799 | -2.878 | -2.695 |
relative change | -1,62% | -2,30% | -6,33% | -3,67% | -5,70% | -6,28% | -6,00% | -4,67% | -4,91% | -4,82% | -4,95% | -4,94% | -4,94% |
Submission 2021 | 53.263 | 44.622 | 41.696 | 40.366 | 45.246 | 45.855 | 45.111 | 47.172 | 49.102 | 51.580 | 53.732 | 55.367 | 51.858 |
Submission 2020 | 54.142 | 45.674 | 44.513 | 41.905 | 47.980 | 48.928 | 47.989 | 49.482 | 51.634 | 54.190 | 56.531 | 58.245 | 54.553 |
absolute change | -878 | -1.053 | -2.817 | -1.538 | -2.734 | -3.073 | -2.878 | -2.311 | -2.533 | -2.610 | -2.799 | -2.878 | -2.695 |
relative change | -1,62% | -2,30% | -6,33% | -3,67% | -5,70% | -6,28% | -6,00% | -4,67% | -4,91% | -4,82% | -4,95% | -4,94% | -4,94% |
Submission 2021 | 53.263 | 44.622 | 41.696 | 40.366 | 45.246 | 45.855 | 45.111 | 47.172 | 49.102 | 51.580 | 53.732 | 55.367 | 51.858 |
Submission 2020 | 54.142 | 45.674 | 44.513 | 41.905 | 47.980 | 48.928 | 47.989 | 49.482 | 51.634 | 54.190 | 56.531 | 58.245 | 54.553 |
absolute change | -878 | -1.053 | -2.817 | -1.538 | -2.734 | -3.073 | -2.878 | -2.311 | -2.533 | -2.610 | -2.799 | -2.878 | -2.695 |
relative change | -1,62% | -2,30% | -6,33% | -3,67% | -5,70% | -6,28% | -6,00% | -4,67% | -4,91% | -4,82% | -4,95% | -4,94% | -4,94% |
Submission 2021 | 53.263 | 44.622 | 41.696 | 40.366 | 45.246 | 45.855 | 45.111 | 47.172 | 49.102 | 51.580 | 53.732 | 55.367 | 51.858 |
Submission 2020 | 54.142 | 45.674 | 44.513 | 41.905 | 47.980 | 48.928 | 47.989 | 49.482 | 51.634 | 54.190 | 56.531 | 58.245 | 54.553 |
absolute change | -878 | -1.053 | -2.817 | -1.538 | -2.734 | -3.073 | -2.878 | -2.311 | -2.533 | -2.610 | -2.799 | -2.878 | -2.695 |
relative change | -1,62% | -2,30% | -6,33% | -3,67% | -5,70% | -6,28% | -6,00% | -4,67% | -4,91% | -4,82% | -4,95% | -4,94% | -4,94% |
Submission 2021 | 53.263 | 44.622 | 41.696 | 40.366 | 45.246 | 45.855 | 45.111 | 47.172 | 49.102 | 51.580 | 53.732 | 55.367 | 51.858 |
Submission 2020 | 54.142 | 45.674 | 44.513 | 41.905 | 47.980 | 48.928 | 47.989 | 49.482 | 51.634 | 54.190 | 56.531 | 58.245 | 54.553 |
absolute change | -878 | -1.053 | -2.817 | -1.538 | -2.734 | -3.073 | -2.878 | -2.311 | -2.533 | -2.610 | -2.799 | -2.878 | -2.695 |
relative change | -1,62% | -2,30% | -6,33% | -3,67% | -5,70% | -6,28% | -6,00% | -4,67% | -4,91% | -4,82% | -4,95% | -4,94% | -4,94% |
> For information on the impacts on emission estimates for Base Year and 2017, please see the pollutant specific recalculation tables following chapter 8.1 - Recalculations].
bibliography : 1 : AGEB, 2019: Working Group on Energy Balances (Arbeitsgemeinschaft Energiebilanzen (Hrsg.), AGEB): Energiebilanz für die Bundesrepublik Deutschland; URL: https://ag-energiebilanzen.de/7-0-Bilanzen-1990-2017.html, (Aufruf: 29.11.2019), Köln & Berlin, 2019. : 2 : BAFA, 2019: Federal Office of Economics and Export Control (Bundesamt für Wirtschaft und Ausfuhrkontrolle, BAFA): Amtliche Mineralöldaten für die Bundesrepublik Deutschland; URL: https://www.bafa.de/SharedDocs/Downloads/DE/Energie/Mineraloel/moel_amtliche_daten_2017_dezember.html, Eschborn, 2019. : 3 : Knörr et al. (2018b): Knörr, W., Heidt, C., Gores, S., & Bergk, F. (2019b): ifeu Institute for Energy and Environmental Research (Institut für Energie- und Umweltforschung Heidelberg gGmbH, ifeu): Aktualisierung des Modells TREMOD-Mobile Machinery (TREMOD MM) 2018, Heidelberg, 2019. : 4 : EMEP/EEA, 2019: EMEP/EEA air pollutant emission inventory guidebook – 2019, Copenhagen, 2019. : 5 : Rentz et al., 2008: Nationaler Durchführungsplan unter dem Stockholmer Abkommen zu persistenten organischen Schadstoffen (POPs), im Auftrag des Umweltbundesamtes, FKZ 205 67 444, UBA Texte | 01/2008, January 2008 - URL: http://www.umweltbundesamt.de/en/publikationen/nationaler-durchfuehrungsplan-unter-stockholmer bibliography