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An analysis of coal consumption, CO2 emissions and economic growth in Slovenia

Aleš Budna

Aleš Budna

University of Ljubljana, Faculty of Natural Sciences and Engineering, Department of Geotechnology, Mining and EnvironmentLjubljana, Slovenia
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Budna, Aleš
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Goran Vižintin

Goran Vižintin

University of Ljubljana, Faculty of Natural Sciences and Engineering, Department of Geotechnology, Mining and EnvironmentLjubljana, Slovenia
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Vižintin, Goran
  
06. Aug. 2023
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Artikel-Kategorie: Original Scientific Article
Online veröffentlicht: 06. Aug. 2023
Seitenbereich: 29 - 39
Eingereicht: 01. Okt. 2021
Akzeptiert: 19. Okt. 2021
DOI: https://doi.org/10.2478/rmzmag-2021-0005
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© 2021 Aleš Budna et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Figure 1:

Worldwide coal consumption [1].
Worldwide coal consumption [1].

Figure 2:

Coal consumption in Slovenia [7].
Coal consumption in Slovenia [7].

Figure 3:

Amount of CO2 emissions [3].
Amount of CO2 emissions [3].

Figure 4:

Trends in GHG emissions from energy sources, gross domestic product and energy supply in the period 2000–2015 [3].
Trends in GHG emissions from energy sources, gross domestic product and energy supply in the period 2000–2015 [3].

Figure 5:

Emission productivity in Slovenia [3].
Emission productivity in Slovenia [3].

Figure 6:

Correlation coefficient strength [10].
Correlation coefficient strength [10].

Figure 7:

Removing the outlier [11].
Removing the outlier [11].

Figure 8:

Deviations of points from the line and deviation of the line from the mean [10].
Deviations of points from the line and deviation of the line from the mean [10].

Figure 9:

1st- and 2nd-order linear regressions [10].
1st- and 2nd-order linear regressions [10].

Figure 10:

Emissions of transmission depending on the use of coal.
Emissions of transmission depending on the use of coal.

Figure 11:

Total emissions depending on coal consumption.
Total emissions depending on coal consumption.

Figure 12:

Elimination of the outlier.
Elimination of the outlier.

Figure 13:

Emission productivity in relation to total emissions.
Emission productivity in relation to total emissions.

Figure 1:

Worldwide coal consumption [1].
Worldwide coal consumption [1].

Figure 2:

Coal consumption in Slovenia [7].
Coal consumption in Slovenia [7].

Figure 3:

Amount of CO2 emissions [3].
Amount of CO2 emissions [3].

Figure 4:

Trends in GHG emissions from energy sources, gross domestic product and energy supply in the period 2000–2015 [3].
Trends in GHG emissions from energy sources, gross domestic product and energy supply in the period 2000–2015 [3].

Figure 5:

Emission productivity in Slovenia [3].
Emission productivity in Slovenia [3].

Figure 6:

Correlation coefficient strength [10].
Correlation coefficient strength [10].

Figure 7:

Removing the outlier [11].
Removing the outlier [11].

Figure 8:

Deviations of points from the line and deviation of the line from the mean [10].
Deviations of points from the line and deviation of the line from the mean [10].

Figure 9:

1st- and 2nd-order linear regressions [10].
1st- and 2nd-order linear regressions [10].

Figure 10:

Emissions of transmission depending on the use of coal.
Emissions of transmission depending on the use of coal.

Figure 11:

Total emissions depending on coal consumption.
Total emissions depending on coal consumption.

Figure 12:

Elimination of the outlier.
Elimination of the outlier.

Figure 13:

Emission productivity in relation to total emissions.
Emission productivity in relation to total emissions.
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Englisch
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