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Uzbekistan - CO2 emissions

CO2 emissions from gaseous fuel consumption (kt)

The value for CO2 emissions from gaseous fuel consumption (kt) in Uzbekistan was 75,012 as of 2016. As the graph below shows, over the past 24 years this indicator reached a maximum value of 102,654 in 2008 and a minimum value of 75,012 in 2016.

Definition: Carbon dioxide emissions from liquid fuel consumption refer mainly to emissions from use of natural gas as an energy source.

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

See also:

Year	Value
1992	76,908
1993	81,616
1994	78,217
1995	78,349
1996	81,323
1997	82,574
1998	94,433
1999	97,014
2000	95,445
2001	96,919
2002	102,137
2003	100,377
2004	99,878
2005	95,533
2006	98,012
2007	98,606
2008	102,654
2009	86,200
2010	85,269
2011	95,210
2012	98,323
2013	86,050
2014	87,748
2015	86,017
2016	75,012

CO2 emissions from gaseous fuel consumption (% of total)

CO2 emissions from gaseous fuel consumption (% of total) in Uzbekistan was 69.88 as of 2016. Its highest value over the past 24 years was 88.35 in 2012, while its lowest value was 68.02 in 1992.

Definition: Carbon dioxide emissions from liquid fuel consumption refer mainly to emissions from use of natural gas as an energy source.

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

See also:

Year	Value
1992	68.02
1993	71.76
1994	72.98
1995	81.50
1996	83.75
1997	83.87
1998	83.03
1999	84.40
2000	78.43
2001	78.96
2002	81.46
2003	84.84
2004	82.25
2005	83.21
2006	80.38
2007	83.32
2008	82.65
2009	75.38
2010	69.57
2011	76.14
2012	88.35
2013	76.06
2014	83.24
2015	84.72
2016	69.88

CO2 emissions (kg per 2010 US$ of GDP)

The latest value for CO2 emissions (kg per 2010 US$ of GDP) in Uzbekistan was 1.17 as of 2018. Over the past 28 years, the value for this indicator has fluctuated between 4.38 in 1993 and 1.17 in 2018.

Definition: Carbon dioxide emissions are those stemming from the burning of fossil fuels and the manufacture of cement. They include carbon dioxide produced during consumption of solid, liquid, and gas fuels and gas flaring.

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

See also:

Year	Value
1990	3.91
1991	3.96
1992	4.25
1993	4.38
1994	4.35
1995	3.94
1996	3.91
1997	3.77
1998	4.17
1999	4.04
2000	4.12
2001	3.99
2002	3.92
2003	3.55
2004	3.39
2005	3.00
2006	2.96
2007	2.63
2008	2.53
2009	2.16
2010	2.15
2011	2.03
2012	1.68
2013	1.59
2014	1.38
2015	1.24
2016	1.24
2017	1.23
2018	1.17

CO2 emissions (kt)

The value for CO2 emissions (kt) in Uzbekistan was 112,090 as of 2018. As the graph below shows, over the past 28 years this indicator reached a maximum value of 125,390 in 2002 and a minimum value of 96,130 in 1995.

Definition: Carbon dioxide emissions are those stemming from the burning of fossil fuels and the manufacture of cement. They include carbon dioxide produced during consumption of solid, liquid, and gas fuels and gas flaring.

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

See also:

Year	Value
1990	117,770
1991	118,590
1992	113,070
1993	113,740
1994	107,170
1995	96,130
1996	97,100
1997	98,450
1998	113,730
1999	114,940
2000	121,690
2001	122,740
2002	125,390
2003	118,310
2004	121,430
2005	114,810
2006	121,930
2007	118,350
2008	124,200
2009	114,360
2010	122,560
2011	125,040
2012	111,290
2013	113,130
2014	105,410
2015	101,530
2016	107,350
2017	111,380
2018	112,090

CO2 emissions from liquid fuel consumption (kt)

The value for CO2 emissions from liquid fuel consumption (kt) in Uzbekistan was 6,560 as of 2016. As the graph below shows, over the past 24 years this indicator reached a maximum value of 24,419 in 1993 and a minimum value of 6,560 in 2016.

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:

Year	Value
1992	22,101
1993	24,419
1994	20,403
1995	19,120
1996	18,625
1997	19,175
1998	18,955
1999	19,750
2000	19,695
2001	19,475
2002	19,164
2003	20,469
2004	19,083
2005	14,741
2006	14,683
2007	13,315
2008	13,025
2009	12,204
2010	10,315
2011	9,714
2012	8,625
2013	8,126
2014	7,649
2015	7,440
2016	6,560

CO2 emissions from liquid fuel consumption (% of total)

CO2 emissions from liquid fuel consumption (% of total) in Uzbekistan was 6.11 as of 2016. Its highest value over the past 24 years was 21.47 in 1993, while its lowest value was 6.11 in 2016.

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:

Year	Value
1992	19.55
1993	21.47
1994	19.04
1995	19.89
1996	19.18
1997	19.48
1998	16.67
1999	17.18
2000	16.18
2001	15.87
2002	15.28
2003	17.30
2004	15.72
2005	12.84
2006	12.04
2007	11.25
2008	10.49
2009	10.67
2010	8.42
2011	7.77
2012	7.75
2013	7.18
2014	7.26
2015	7.33
2016	6.11

CO2 emissions (metric tons per capita)

The value for CO2 emissions (metric tons per capita) in Uzbekistan was 3.40 as of 2018. As the graph below shows, over the past 28 years this indicator reached a maximum value of 5.74 in 1990 and a minimum value of 3.24 in 2015.

Definition: Carbon dioxide emissions are those stemming from the burning of fossil fuels and the manufacture of cement. They include carbon dioxide produced during consumption of solid, liquid, and gas fuels and gas flaring.

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

See also:

Year	Value
1990	5.74
1991	5.66
1992	5.27
1993	5.18
1994	4.79
1995	4.22
1996	4.18
1997	4.16
1998	4.73
1999	4.73
2000	4.94
2001	4.92
2002	4.96
2003	4.63
2004	4.69
2005	4.39
2006	4.60
2007	4.40
2008	4.55
2009	4.12
2010	4.29
2011	4.26
2012	3.74
2013	3.74
2014	3.43
2015	3.24
2016	3.37
2017	3.44
2018	3.40

CO2 emissions (kg per PPP $ of GDP)

The latest value for CO2 emissions (kg per PPP $ of GDP) in Uzbekistan was 0.47 as of 2018. Over the past 28 years, the value for this indicator has fluctuated between 2.23 in 1993 and 0.47 in 2018.

Definition: Carbon dioxide emissions are those stemming from the burning of fossil fuels and the manufacture of cement. They include carbon dioxide produced during consumption of solid, liquid, and gas fuels and gas flaring.

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

See also:

Year	Value
1990	2.16
1991	2.11
1992	2.22
1993	2.23
1994	2.17
1995	1.92
1996	1.88
1997	1.78
1998	1.95
1999	1.86
2000	1.85
2001	1.76
2002	1.70
2003	1.51
2004	1.41
2005	1.20
2006	1.16
2007	1.00
2008	0.94
2009	0.80
2010	0.78
2011	0.73
2012	0.62
2013	0.59
2014	0.53
2015	0.49
2016	0.50
2017	0.50
2018	0.47

CO2 emissions (kg per 2011 PPP $ of GDP)

The latest value for CO2 emissions (kg per 2011 PPP $ of GDP) in Uzbekistan was 0.48 as of 2018. Over the past 28 years, the value for this indicator has fluctuated between 1.77 in 1993 and 0.48 in 2018.

Definition: Carbon dioxide emissions are those stemming from the burning of fossil fuels and the manufacture of cement. They include carbon dioxide produced during consumption of solid, liquid, and gas fuels and gas flaring.

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

See also:

Year	Value
1990	1.58
1991	1.60
1992	1.71
1993	1.77
1994	1.75
1995	1.59
1996	1.58
1997	1.52
1998	1.68
1999	1.63
2000	1.66
2001	1.61
2002	1.58
2003	1.43
2004	1.37
2005	1.21
2006	1.20
2007	1.06
2008	1.02
2009	0.87
2010	0.87
2011	0.82
2012	0.68
2013	0.65
2014	0.56
2015	0.51
2016	0.51
2017	0.50
2018	0.48

CO2 emissions from solid fuel consumption (kt)

The value for CO2 emissions from solid fuel consumption (kt) in Uzbekistan was 6,095 as of 2016. As the graph below shows, over the past 24 years this indicator reached a maximum value of 9,699 in 1992 and a minimum value of 3,880 in 2003.

Definition: Carbon dioxide emissions from solid fuel consumption refer mainly to emissions from use of coal as an energy source.

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

See also:

Year	Value
1992	9,699
1993	7,393
1994	7,484
1995	4,213
1996	4,727
1997	3,887
1998	4,059
1999	4,030
2000	4,921
2001	5,053
2002	5,046
2003	3,880
2004	4,587
2005	4,430
2006	4,756
2007	5,038
2008	4,928
2009	5,310
2010	5,156
2011	5,420
2012	5,475
2013	5,691
2014	6,150
2015	5,534
2016	6,095

CO2 emissions from solid fuel consumption (% of total)

CO2 emissions from solid fuel consumption (% of total) in Uzbekistan was 5.68 as of 2016. Its highest value over the past 24 years was 8.58 in 1992, while its lowest value was 3.28 in 2003.

Definition: Carbon dioxide emissions from solid fuel consumption refer mainly to emissions from use of coal as an energy source.

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

See also:

Year	Value
1992	8.58
1993	6.50
1994	6.98
1995	4.38
1996	4.87
1997	3.95
1998	3.57
1999	3.51
2000	4.04
2001	4.12
2002	4.02
2003	3.28
2004	3.78
2005	3.86
2006	3.90
2007	4.26
2008	3.97
2009	4.64
2010	4.21
2011	4.33
2012	4.92
2013	5.03
2014	5.83
2015	5.45
2016	5.68

GHG net emissions/removals by LUCF (Mt of CO2 equivalent)

Definition: GHG net emissions/removals by LUCF refers to changes in atmospheric levels of all greenhouse gases attributable to forest and land-use change activities, including but not limited to (1) emissions and removals of CO2 from decreases or increases in biomass stocks due to forest management, logging, fuelwood collection, etc.; (2) conversion of existing forests and natural grasslands to other land uses; (3) removal of CO2 from the abandonment of formerly managed lands (e.g. croplands and pastures); and (4) emissions and removals of CO2 in soil associated with land-use change and management. For Annex-I countries under the UNFCCC, these data are drawn from the annual GHG inventories submitted to the UNFCCC by each country; for non-Annex-I countries, data are drawn from the most recently submitted National Communication where available. Because of differences in reporting years and methodologies, these data are not generally considered comparable across countries. Data are in million metric tons.

Source: United Nations Framework Convention on Climate Change.

See also:

Year	Value
2005	0.418

CO2 emissions from residential buildings and commercial and public services (% of total fuel combustion)

CO2 emissions from residential buildings and commercial and public services (% of total fuel combustion) in Uzbekistan was 33.50 as of 2014. Its highest value over the past 24 years was 38.15 in 2008, while its lowest value was 0.00 in 1990.

Definition: CO2 emissions from residential buildings and commercial and public services contains all emissions from fuel combustion in households. This corresponds to IPCC Source/Sink Category 1 A 4 b. Commercial and public services includes emissions from all activities of ISIC Divisions 41, 50-52, 55, 63-67, 70-75, 80, 85, 90-93 and 99.

Source: IEA Statistics © OECD/IEA 2014 (http://www.iea.org/stats/index.asp), subject to https://www.iea.org/t&c/termsandconditions/

See also:

Year	Value
1990	0.00
1991	0.00
1992	0.00
1993	0.00
1994	0.00
1995	31.05
1996	33.63
1997	37.35
1998	35.60
1999	36.25
2000	35.73
2001	35.82
2002	36.59
2003	36.09
2004	35.93
2005	36.37
2006	36.37
2007	36.41
2008	38.15
2009	33.95
2010	34.20
2011	36.34
2012	37.29
2013	33.49
2014	33.50

CO2 emissions from electricity and heat production, total (% of total fuel combustion)

CO2 emissions from electricity and heat production, total (% of total fuel combustion) in Uzbekistan was 42.45 as of 2014. Its highest value over the past 24 years was 43.41 in 1992, while its lowest value was 35.11 in 2008.

Definition: CO2 emissions from electricity and heat production is the sum of three IEA categories of CO2 emissions: (1) Main Activity Producer Electricity and Heat which contains the sum of emissions from main activity producer electricity generation, combined heat and power generation and heat plants. Main activity producers (formerly known as public utilities) are defined as those undertakings whose primary activity is to supply the public. They may be publicly or privately owned. This corresponds to IPCC Source/Sink Category 1 A 1 a. For the CO2 emissions from fuel combustion (summary) file, emissions from own on-site use of fuel in power plants (EPOWERPLT) are also included. (2) Unallocated Autoproducers which contains the emissions from the generation of electricity and/or heat by autoproducers. Autoproducers are defined as undertakings that generate electricity and/or heat, wholly or partly for their own use as an activity which supports their primary activity. They may be privately or publicly owned. In the 1996 IPCC Guidelines, these emissions would normally be distributed between industry, transport and "other" sectors. (3) Other Energy Industries contains emissions from fuel combusted in petroleum refineries, for the manufacture of solid fuels, coal mining, oil and gas extraction and other energy-producing industries. This corresponds to the IPCC Source/Sink Categories 1 A 1 b and 1 A 1 c. According to the 1996 IPCC Guidelines, emissions from coke inputs to blast furnaces can either be counted here or in the Industrial Processes source/sink category. Within detailed sectoral calculations, certain non-energy processes can be distinguished. In the reduction of iron in a blast furnace through the combustion of coke, the primary purpose of the coke oxidation is to produce pig iron and the emissions can be considered as an industrial process. Care must be taken not to double count these emissions in both Energy and Industrial Processes. In the IEA estimations, these emissions have been included in this category.

Source: IEA Statistics © OECD/IEA 2014 (http://www.iea.org/stats/index.asp), subject to https://www.iea.org/t&c/termsandconditions/

See also:

Year	Value
1990	41.10
1991	39.76
1992	43.41
1993	42.00
1994	39.24
1995	37.83
1996	39.71
1997	39.48
1998	36.64
1999	35.70
2000	36.37
2001	36.58
2002	36.20
2003	36.61
2004	36.93
2005	37.83
2006	37.92
2007	37.73
2008	35.11
2009	39.57
2010	40.59
2011	38.68
2012	37.60
2013	42.31
2014	42.45

CO2 emissions from manufacturing industries and construction (% of total fuel combustion)

CO2 emissions from manufacturing industries and construction (% of total fuel combustion) in Uzbekistan was 13.68 as of 2014. Its highest value over the past 24 years was 15.12 in 2008, while its lowest value was 0.00 in 1990.

Definition: CO2 emissions from manufacturing industries and construction contains the emissions from combustion of fuels in industry. The IPCC Source/Sink Category 1 A 2 includes these emissions. However, in the 1996 IPCC Guidelines, the IPCC category also includes emissions from industry autoproducers that generate electricity and/or heat. The IEA data are not collected in a way that allows the energy consumption to be split by specific end-use and therefore, autoproducers are shown as a separate item (Unallocated Autoproducers). Manufacturing industries and construction also includes emissions from coke inputs into blast furnaces, which may be reported either in the transformation sector, the industry sector or the separate IPCC Source/Sink Category 2, Industrial Processes.

Source: IEA Statistics © OECD/IEA 2014 (http://www.iea.org/stats/index.asp), subject to https://www.iea.org/t&c/termsandconditions/

See also:

Year	Value
1990	0.00
1991	0.00
1992	0.00
1993	0.00
1994	0.00
1995	14.13
1996	10.99
1997	8.06
1998	14.12
1999	14.34
2000	14.08
2001	14.07
2002	14.23
2003	14.16
2004	14.25
2005	14.24
2006	14.30
2007	14.39
2008	15.12
2009	13.42
2010	13.27
2011	13.94
2012	14.40
2013	13.33
2014	13.68

CO2 emissions from other sectors, excluding residential buildings and commercial and public services (% of total fuel combustion)

CO2 emissions from other sectors, excluding residential buildings and commercial and public services (% of total fuel combustion) in Uzbekistan was 3.52 as of 2014. Its highest value over the past 24 years was 55.08 in 1994, while its lowest value was 3.38 in 2008.

Definition: CO2 emissions from other sectors, less residential buildings and commercial and public services, contains the emissions from commercial/institutional activities, residential, agriculture/forestry, fishing and other emissions not specified elsewhere that are included in the IPCC Source/Sink Categories 1 A 4 and 1 A 5. In the 1996 IPCC Guidelines, the category also includes emissions from autoproducers in the commercial/residential/agricultural sectors that generate electricity and/or heat. The IEA data are not collected in a way that allows the energy consumption to be split by specific end-use and therefore, autoproducers are shown as a separate item (Unallocated Autoproducers).

Source: IEA Statistics © OECD/IEA 2014 (http://www.iea.org/stats/index.asp), subject to https://www.iea.org/t&c/termsandconditions/

See also:

Year	Value
1990	53.93
1991	53.52
1992	50.60
1993	52.57
1994	55.08
1995	9.34
1996	5.88
1997	5.33
1998	4.56
1999	4.53
2000	4.74
2001	4.65
2002	4.36
2003	3.78
2004	4.37
2005	3.41
2006	3.46
2007	3.54
2008	3.38
2009	4.21
2010	3.71
2011	3.52
2012	3.44
2013	3.69
2014	3.52

CO2 emissions from transport (% of total fuel combustion)

CO2 emissions from transport (% of total fuel combustion) in Uzbekistan was 6.84 as of 2014. Its highest value over the past 24 years was 9.79 in 1997, while its lowest value was 4.98 in 1990.

Definition: CO2 emissions from transport contains emissions from the combustion of fuel for all transport activity, regardless of the sector, except for international marine bunkers and international aviation. This includes domestic aviation, domestic navigation, road, rail and pipeline transport, and corresponds to IPCC Source/Sink Category 1 A 3. In addition, the IEA data are not collected in a way that allows the autoproducer consumption to be split by specific end-use and therefore, autoproducers are shown as a separate item (Unallocated Autoproducers).

Source: IEA Statistics © OECD/IEA 2014 (http://www.iea.org/stats/index.asp), subject to https://www.iea.org/t&c/termsandconditions/

See also:

Year	Value
1990	4.98
1991	6.72
1992	5.99
1993	5.42
1994	5.67
1995	7.68
1996	9.79
1997	9.79
1998	9.08
1999	9.17
2000	9.07
2001	8.89
2002	8.62
2003	9.36
2004	8.50
2005	8.15
2006	7.97
2007	7.92
2008	8.25
2009	8.83
2010	8.23
2011	7.53
2012	7.28
2013	7.17
2014	6.84

Classification

Topic: Environment Indicators

Sub-Topic: Emissions