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Environmental Protection and Natural Resources
Édition 29 (2018): Edition 3 (September 2018)
Accès libre
Share of road transport in greenhouse gas emissions in Poland in 1988–2015
Zdzisław Chłopek
Zdzisław Chłopek
,
Anna Olecka
Anna Olecka
,
Krystian Szczepański
Krystian Szczepański
et
Katarzyna Bebkiewicz
Katarzyna Bebkiewicz
| 01 sept. 2018
Environmental Protection and Natural Resources
Édition 29 (2018): Edition 3 (September 2018)
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Publié en ligne:
01 sept. 2018
Pages:
13 - 20
DOI:
https://doi.org/10.2478/oszn-2018-0014
Mots clés
greenhouse gases
,
motor vehicles
,
road transport
© 2018 Zdzisław Chłopek, Anna Olecka, Krystian Szczepański, Katarzyna Bebkiewicz, published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Figure 1
National annual emission of GHGs, including carbon dioxide (CO2), methane (CH4) and nitrous oxide (N2O) from the inventoried emission sources (Ea).
Figure 2
National annual emission of carbon dioxide equivalent of gases, including carbon dioxide (CO2), methane (CH4) and nitrous oxide (N2O) from the inventoried emission sources (Ea).
Figure 3
Share of the national annual emission of carbon dioxide equivalent for gases, including carbon dioxide (CO2), methane (CH4) and nitrous oxide (N2O) from the inventoried emission sources, in the national annual emission of carbon dioxide equivalent from the three components considered.
Figure 4
National annual emission of carbon dioxide equivalent (EaCO2eq): T, from the inventoried emission sources; TT, from transportation; RT, from road transport.
Figure 5
National annual emission of carbon dioxide equivalent from transportation [EaCO2eq(TT)] and from road transport [EaCO2eq(RT)] as well as the share of the national annual emission of carbon dioxide equivalent from road transport in the national annual emission of carbon dioxide equivalent from transportation [u(RT/TT)].
Figure 6
Linear trend of the relative national annual emission of carbon dioxide equivalent (EaCO2eqr): T, from the inventoried emission sources; TT, from transportation; RT, from road transport.
Figure 7
Share of the national annual emission of carbon dioxide equivalent from transportation in the national annual emission of carbon dioxide equivalent from the inventoried emission sources [u(TT/T)] and share of the national annual emission of carbon dioxide equivalent from road transport in the national annual emission of carbon dioxide equivalent from the inventoried emission sources [u(RT/T)].
Figure 8
National annual emission of carbon dioxide equivalent: RT, from road transport; PC, from passenger cars; LCV, from light commercial vehicles; HDT & B, from heavy duty trucks and buses; Mc & Mp, from motorcycles and mopeds.
Figure 9
Share of the national annual emission of carbon dioxide equivalent [u(x/RT)] from passenger cars (x = PC), light commercial vehicles (x = LCV), from heavy duty trucks and buses (x = HDT & B) as well as from motorcycles and mopeds (x = Mc & Mp) in the national annual emission of carbon dioxide equivalent from road transport.
Figure 10
Relative change (d) in the national annual emission of carbon dioxide equivalent in the years 1988–2015: T, from the inventoried emission sources; TT, from transportation; RT, from road transport.
Figure 11
The slope (dlr) of linear function approximating the dependence of the relative national annual emission of carbon dioxide equivalent on the years of emission balancing in the years 1988–2015: T, from the inventoried emission sources; TT, from transportation; RT, from road transport –.
Figure 12
Number of motor vehicles (N) and the average annual emission of carbon dioxide equivalent from a conventional car (EaCO2equ).
Global warming potential of gases with the largest share in carbon dioxide equivalent emission [Report of the Conference…2014].
Greenhouse gas
Chemical formula
GWP
Carbon dioxide
CO
2
1
Methane
CH
4
25
Nitrous oxide
N
2
O
298
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