CO2 emissions from liquid fuel consumption (kt) - Country Ranking - Africa

Definition: Carbon dioxide emissions from liquid fuel consumption refer mainly to emissions from use of petroleum-derived fuels as an energy source.

Source: Carbon Dioxide Information Analysis Center, Environmental Sciences Division, Oak Ridge National Laboratory, Tennessee, United States.

See also: Thematic map, Time series comparison

Find indicator:
Rank Country Value Year
1 Egypt 114,876.10 2016
2 Nigeria 61,664.27 2016
3 South Africa 60,424.82 2016
4 Algeria 53,519.86 2016
5 Morocco 34,682.48 2016
6 Libya 29,864.05 2016
7 Sudan 17,997.64 2016
8 Angola 17,931.63 2016
9 Kenya 13,263.54 2016
10 Ghana 13,256.21 2016
11 Tunisia 13,193.87 2016
12 Ethiopia 9,556.20 2016
13 Tanzania 8,045.40 2016
14 Senegal 6,831.62 2016
15 Cameroon 5,969.88 2016
16 Mozambique 5,625.18 2016
17 Benin 5,258.48 2016
18 Uganda 4,437.07 2016
19 Namibia 3,689.00 2016
20 Côte d'Ivoire 3,560.66 2016
21 Burkina Faso 3,267.30 2016
22 Zimbabwe 3,164.62 2016
23 Zambia 2,940.93 2016
24 Mali 2,863.93 2016
25 Botswana 2,757.58 2016
26 Guinea 2,746.58 2016
27 Madagascar 2,731.92 2016
28 Mauritius 2,632.91 2016
29 Gabon 2,460.56 2016
30 Congo 2,321.21 2016
31 Mauritania 2,299.21 2016
32 Togo 2,236.87 2016
33 Dem. Rep. Congo 1,914.17 2016
34 Niger 1,631.82 2016
35 Liberia 1,265.12 2016
36 Malawi 931.42 2016
36 Sierra Leone 931.42 2016
38 Chad 916.75 2016
39 Rwanda 861.75 2016
40 Eswatini 836.08 2016
41 Lesotho 803.07 2016
42 Equatorial Guinea 729.73 2016
43 Somalia 645.39 2016
44 Eritrea 612.39 2016
45 Seychelles 605.06 2016
46 Cabo Verde 542.72 2016
47 Djibouti 531.72 2016
48 The Gambia 524.38 2016
49 Burundi 429.04 2016
50 Central African Republic 297.03 2016
51 Guinea-Bissau 293.36 2016
52 Comoros 201.69 2016
53 São Tomé and Principe 121.01 2016

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Development Relevance: Carbon dioxide (CO2) is naturally occurring gas fixed by photosynthesis into organic matter. A byproduct of fossil fuel combustion and biomass burning, it is also emitted from land use changes and other industrial processes. It is the principal anthropogenic greenhouse gas that affects the Earth's radiative balance. It is the reference gas against which other greenhouse gases are measured, thus having a Global Warming Potential of 1. An emission intensity is the average emission rate of a given pollutant from a given source relative to the intensity of a specific activity. Emission intensities are also used to compare the environmental impact of different fuels or activities. The related terms - emission factor and carbon intensity - are often used interchangeably. Burning of carbon-based fuels since the industrial revolution has rapidly increased concentrations of atmospheric carbon dioxide, increasing the rate of global warming and causing anthropogenic climate change. It is also a major source of ocean acidification since it dissolves in water to form carbonic acid. The addition of man-made greenhouse gases to the Atmosphere disturbs the earth's radiative balance. This is leading to an increase in the earth's surface temperature and to related effects on climate, sea level rise and world agriculture. Emissions of CO2 are from burning oil, coal and gas for energy use, burning wood and waste materials, and from industrial processes such as cement production. The carbon dioxide emissions of a country are only an indicator of one greenhouse gas. For a more complete idea of how a country influences climate change, gases such as methane and nitrous oxide should be taken into account. This is particularly important in agricultural economies. The environmental effects of carbon dioxide are of significant interest. Carbon dioxide (CO2) makes up the largest share of the greenhouse gases contributing to global warming and climate change. Converting all other greenhouse gases (methane (CH4), nitrous oxide (N2O), hydrofluorocarbons (HFCs), perfluorocarbons (PFCs), sulphur hexafluoride (SF6)) to carbon dioxide (or CO2) equivalents makes it possible to compare them and to determine their individual and total contributions to global warming. The Kyoto Protocol, an environmental agreement adopted in 1997 by many of the parties to the United Nations Framework Convention on Climate Change (UNFCCC), is working towards curbing CO2 emissions globally.

Limitations and Exceptions: The U.S. Department of Energy's Carbon Dioxide Information Analysis Center (CDIAC) calculates annual anthropogenic emissions from data on fossil fuel consumption (from the United Nations Statistics Division's World Energy Data Set) and world cement manufacturing (from the U.S. Department of Interior's Geological Survey, USGS 2011). Although estimates of global carbon dioxide emissions are probably accurate within 10 percent (as calculated from global average fuel chemistry and use), country estimates may have larger error bounds. Trends estimated from a consistent time series tend to be more accurate than individual values. Each year the CDIAC recalculates the entire time series since 1949, incorporating recent findings and corrections. Estimates exclude fuels supplied to ships and aircraft in international transport because of the difficulty of apportioning the fuels among benefiting countries.

Statistical Concept and Methodology: Carbon dioxide emissions, largely by-products of energy production and use, account for the largest share of greenhouse gases, which are associated with global warming. Anthropogenic carbon dioxide emissions result primarily from fossil fuel combustion and cement manufacturing. In combustion different fossil fuels release different amounts of carbon dioxide for the same level of energy use: oil releases about 50 percent more carbon dioxide than natural gas, and coal releases about twice as much. Cement manufacturing releases about half a metric ton of carbon dioxide for each metric ton of cement produced. Data for carbon dioxide emissions include gases from the burning of fossil fuels and cement manufacture, but excludes emissions from land use such as deforestation. Carbon dioxide emissions are often calculated and reported as elemental carbon. The values were converted to actual carbon dioxide mass by multiplying them by 3.667 (the ratio of the mass of carbon to that of carbon dioxide).

Aggregation method: Gap-filled total

Periodicity: Annual