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1.A.3.b vii - Road Transport: Automobile Road Abrasion
Short description
In sub-category 1.A.3.b vii - Road Transport: Automobile Road Abrasion emissions from road abrasion in Road Transport are reported. Therefore, this sub-category is an important source for a) particle emissions and b) emissions of heavy metals, POPs etc. included in these particles.
Category Code | Method | AD | EF | ||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
1.A.3.b.vii | T1, T3 | NS, M | CS | ||||||||||||
Key Category | SO₂ | NOₓ | NH₃ | NMVOC | CO | BC | Pb | Hg | Cd | Diox | PAH | HCB | TSP | PM₁₀ | PM₂ ₅ |
1.A.3.b.vii | - | - | - | - | - | - | -/- | - | -/- | - | - | - | L/- | L/- | L/- |
Methodology
Activity data
Abrasive emissions from tyre and brake wear are estimated based on vehicle-type specific mileage data.
For detailed mileage data, please see superordinate chapter on abrasive emissions from road vehicles.
Emission factors
Table 1: Default tier1 emission factors applied
~ Vehicle Type | = PCs | = LDVs | = HDVs | = Buses | = MTWs | 1 | |||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
< Particulate Matter, in [mg/km] | |||||||||||||||||||||
< BC | > 0.00 | > 0.00 | > 0.00 | > 0.00 | > 0.000 | ||||||||||||||||
< PM,,2.5,, | > 4.05 | > 4.05 | > 20.5 | > 20.5 | > 1.62 | ||||||||||||||||
< PM,,10,, | > 7.50 | > 7.50 | > 38.0 | > 34.2 | > 3.00 | ||||||||||||||||
< TSP | > 15.0 | > 15.0 | > 76.0 | > 76.0 | > 6.00 | ||||||||||||||||
< Priority Heavy Metals, in [µg/km] | |||||||||||||||||||||
< Pb | > 0.062 | > 0.062 | > 0.312 | > 0.062 | > 0.025 | ||||||||||||||||
< Hg | > 0 | > 0 | > 0 | > 0 | > 0 | ||||||||||||||||
< Cd | > 0.003 | > 0.003 | > 0.016 | > 0.003 | > 0.001 | ||||||||||||||||
< Other Heavy Metals, in [µg/km] | |||||||||||||||||||||
< As | > 0.0390 | > 0.0390 | > 0.198 | > 0.039 | > 0.016 | ||||||||||||||||
< Cr | > 1.08 | > 1.08 | > 5.47 | > 1.08 | > 0.432 | ||||||||||||||||
< Cu | > 0.037 | > 0.037 | > 0.186 | > 0.037 | > 0.015 | ||||||||||||||||
< Ni | > 0.570 | > 0.570 | > 2.89 | > 0.570 | > 0.228 | ||||||||||||||||
< Se | > 0 | > 0 | > 0 | > 0 | > 0 | ||||||||||||||||
< Zn | > 1.29 | > 1.29 | > 6.54 | > 1.29 | > 0.516 |
Discussion of emission trends
Table 2: Outcome of Key Category Analysis
fo: | TSP | PM₁₀ | PM₂ ₅ |
---|---|---|---|
by: | L/- | L/- | L/- |
Particulate Matter
(from wear/abrasion only; no fuel combustion included)
Emissions from road abrasion are directly linked to driven mileage. Thus, the overall trend of emissions from road abrasion is similar to the trend for total driven mileage.
Recalculations
Activity data (mileage) have been revised due to the regular revision of the TREMOD model. (see superordinate chapter]).
However, the biggest changes occur in the tier1 emission factors that have been revised fundamentally in order to be in line with the tier1 default values provided in the EMEP/EEA Guidebook 2019. Unfortunately, the variety of old and revised emission factors cannot be compared here in a comprehendible way.
For more information on recalculated emission estimates for Base Year and 2018, please see the pollutant-specific recalculation tables following chapter 8.1 - Recalculations].
Planned improvements
Besides a routine revision of the underlying model, no specific improvements are planned.
FAQs
bibliography : 1 : EMEP/EEA, 2019: EMEP/EEA air pollutant emission inventory guidebook 2019; https://www.eea.europa.eu/publications/emep-eea-guidebook-2019; Copenhagen, 2019. bibliography