id,name,unit,description,createdAt,updatedAt,code,coverage,timespan,datasetId,sourceId,shortUnit,display,columnOrder,originalMetadata,grapherConfigAdmin,shortName,catalogPath,dimensions,schemaVersion,processingLevel,processingLog,titlePublic,titleVariant,attributionShort,attribution,descriptionShort,descriptionFromProducer,descriptionKey,descriptionProcessing,licenses,license,grapherConfigETL,type,sort,dataChecksum,metadataChecksum
737649,Solar and wind per capita (kWh - equivalent),kilowatt-hours,,2023-07-17 14:30:19,2023-12-19 13:30:26,,,1965-2022,6130,29203,kWh,"{""name"": ""Solar and wind per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,solar_and_wind_per_capita__kwh__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#solar_and_wind_per_capita__kwh__equivalent,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737648,Solar and wind per capita (kWh - direct),kilowatt-hours,,2023-07-17 14:30:18,2023-12-19 13:30:26,,,1965-2022,6130,29203,kWh,"{""name"": ""Solar and wind per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,solar_and_wind_per_capita__kwh__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#solar_and_wind_per_capita__kwh__direct,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737647,Wind per capita (kWh - equivalent),kilowatt-hours,,2023-07-17 14:30:18,2023-12-19 13:30:26,,,1965-2022,6130,29203,kWh,"{""name"": ""Wind per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,wind_per_capita__kwh__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#wind_per_capita__kwh__equivalent,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737646,Wind per capita (kWh - direct),kilowatt-hours,,2023-07-17 14:30:17,2023-12-19 13:30:26,,,1965-2022,6130,29203,kWh,"{""name"": ""Wind per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,wind_per_capita__kwh__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#wind_per_capita__kwh__direct,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737645,Solar per capita (kWh - equivalent),kilowatt-hours,,2023-07-17 14:30:16,2023-12-19 13:30:26,,,1965-2022,6130,29203,kWh,"{""name"": ""Solar per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,solar_per_capita__kwh__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#solar_per_capita__kwh__equivalent,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737644,Solar per capita (kWh - direct),kilowatt-hours,,2023-07-17 14:30:16,2023-12-19 13:30:26,,,1965-2022,6130,29203,kWh,"{""name"": ""Solar per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,solar_per_capita__kwh__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#solar_per_capita__kwh__direct,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737643,Renewables per capita (kWh - equivalent),kilowatt-hours,,2023-07-17 14:30:15,2023-12-19 13:30:25,,,1965-2022,6130,29203,kWh,"{""name"": ""Renewables per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,renewables_per_capita__kwh__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#renewables_per_capita__kwh__equivalent,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737642,Renewables per capita (kWh - direct),kilowatt-hours,,2023-07-17 14:30:15,2023-12-19 13:30:25,,,1965-2022,6130,29203,kWh,"{""name"": ""Renewables per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,renewables_per_capita__kwh__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#renewables_per_capita__kwh__direct,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737641,Other renewables per capita (kWh - equivalent),kilowatt-hours,,2023-07-17 14:30:14,2023-12-19 13:30:25,,,1965-2022,6130,29203,kWh,"{""name"": ""Other renewables per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,other_renewables_per_capita__kwh__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#other_renewables_per_capita__kwh__equivalent,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737640,Other renewables per capita (kWh - direct),kilowatt-hours,,2023-07-17 14:30:13,2023-12-19 13:30:25,,,1965-2022,6130,29203,kWh,"{""name"": ""Other renewables per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,other_renewables_per_capita__kwh__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#other_renewables_per_capita__kwh__direct,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737639,Nuclear per capita (kWh - equivalent),kilowatt-hours,,2023-07-17 14:30:13,2023-12-19 13:30:25,,,1965-2022,6130,29203,kWh,"{""name"": ""Nuclear per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,nuclear_per_capita__kwh__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#nuclear_per_capita__kwh__equivalent,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737638,Nuclear per capita (kWh - direct),kilowatt-hours,,2023-07-17 14:30:12,2023-12-19 13:30:25,,,1965-2022,6130,29203,kWh,"{""name"": ""Nuclear per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,nuclear_per_capita__kwh__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#nuclear_per_capita__kwh__direct,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737637,Low-carbon energy per capita (kWh - equivalent),kilowatt-hours,,2023-07-17 14:30:12,2023-12-19 13:30:25,,,1965-2022,6130,29203,kWh,"{""name"": ""Low-carbon energy per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,low_carbon_energy_per_capita__kwh__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#low_carbon_energy_per_capita__kwh__equivalent,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737636,Low-carbon energy per capita (kWh - direct),kilowatt-hours,,2023-07-17 14:30:11,2023-12-19 13:30:24,,,1965-2022,6130,29203,kWh,"{""name"": ""Low-carbon energy per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,low_carbon_energy_per_capita__kwh__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#low_carbon_energy_per_capita__kwh__direct,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737635,Hydro per capita (kWh - equivalent),kilowatt-hours,,2023-07-17 14:30:10,2023-12-19 13:30:24,,,1965-2022,6130,29203,kWh,"{""name"": ""Hydro per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,hydro_per_capita__kwh__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#hydro_per_capita__kwh__equivalent,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737634,Hydro per capita (kWh - direct),kilowatt-hours,,2023-07-17 14:30:10,2023-12-19 13:30:24,,,1965-2022,6130,29203,kWh,"{""name"": ""Hydro per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,hydro_per_capita__kwh__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#hydro_per_capita__kwh__direct,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737633,Biofuels per capita (kWh),kilowatt-hours,,2023-07-17 14:30:09,2023-12-19 13:30:24,,,1965-2022,6130,29203,kWh,"{""name"": ""Biofuels per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,biofuels_per_capita__kwh,grapher/energy/2023-07-10/energy_mix/energy_mix#biofuels_per_capita__kwh,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737632,Gas per capita (kWh),kilowatt-hours,,2023-07-17 14:30:09,2023-12-19 13:30:24,,,1965-2022,6130,29203,kWh,"{""name"": ""Gas per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,gas_per_capita__kwh,grapher/energy/2023-07-10/energy_mix/energy_mix#gas_per_capita__kwh,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737631,Oil per capita (kWh),kilowatt-hours,,2023-07-17 14:30:08,2023-12-19 13:30:24,,,1965-2022,6130,29203,kWh,"{""name"": ""Oil per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,oil_per_capita__kwh,grapher/energy/2023-07-10/energy_mix/energy_mix#oil_per_capita__kwh,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737630,Fossil fuels per capita (kWh),kilowatt-hours,,2023-07-17 14:30:07,2023-12-19 13:30:24,,,1965-2022,6130,29203,kWh,"{""name"": ""Fossil fuels per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,fossil_fuels_per_capita__kwh,grapher/energy/2023-07-10/energy_mix/energy_mix#fossil_fuels_per_capita__kwh,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737629,Coal per capita (kWh),kilowatt-hours,,2023-07-17 14:30:07,2023-12-19 13:30:23,,,1965-2022,6130,29203,kWh,"{""name"": ""Coal per capita"", ""unit"": ""kilowatt-hours"", ""shortUnit"": ""kWh"", ""numDecimalPlaces"": 0}",0,,,coal_per_capita__kwh,grapher/energy/2023-07-10/energy_mix/energy_mix#coal_per_capita__kwh,,2,major,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}, {""url"": ""https://docs.google.com/document/d/1-RmthhS2EPMK_HIpnPctcXpB0n7ADSWnXa5Hb3PxNq4/edit?usp=sharing"", ""name"": ""Creative Commons BY 4.0""}, {""url"": ""https://dataportaal.pbl.nl/downloads/HYDE/HYDE3.2/readme_release_HYDE3.2.1.txt"", ""name"": ""CC BY 3.0""}, {""url"": ""http://creativecommons.org/licenses/by/3.0/igo/"", ""name"": ""CC BY 3.0 IGO""}]",,,,,,
737628,Solar and wind (TWh growth - equivalent),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:07,2023-12-19 13:30:23,,,1966-2022,6130,29203,TWh,"{""name"": ""Solar and wind"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,solar_and_wind__twh_growth__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#solar_and_wind__twh_growth__equivalent,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737627,Solar and wind (% growth),%,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:07,2023-12-19 13:30:23,,,1979-2022,6130,29203,%,"{""name"": ""Solar and wind"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,solar_and_wind__pct_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#solar_and_wind__pct_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737626,Solar and wind (TWh growth - direct),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:07,2023-12-19 13:30:23,,,1966-2022,6130,29203,TWh,"{""name"": ""Solar and wind"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,solar_and_wind__twh_growth__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#solar_and_wind__twh_growth__direct,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737625,Wind (TWh growth - equivalent),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:07,2023-12-19 13:30:23,,,1966-2022,6130,29203,TWh,"{""name"": ""Wind"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,wind__twh_growth__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#wind__twh_growth__equivalent,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737624,Wind (TWh growth - direct),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:06,2023-12-19 13:30:22,,,1966-2022,6130,29203,TWh,"{""name"": ""Wind"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,wind__twh_growth__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#wind__twh_growth__direct,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737623,Solar (TWh growth - direct),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:06,2023-12-19 13:30:22,,,1966-2022,6130,29203,TWh,"{""name"": ""Solar"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,solar__twh_growth__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#solar__twh_growth__direct,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737622,Solar (TWh growth - equivalent),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:06,2023-12-19 13:30:22,,,1966-2022,6130,29203,TWh,"{""name"": ""Solar"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,solar__twh_growth__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#solar__twh_growth__equivalent,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737621,Wind (% growth),%,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:06,2023-12-19 13:30:22,,,1979-2022,6130,29203,%,"{""name"": ""Wind"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,wind__pct_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#wind__pct_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737620,Renewables (TWh growth - equivalent),terawatt-hours,,2023-07-17 14:30:06,2023-12-19 13:30:22,,,1966-2022,6130,29203,TWh,"{""name"": ""Renewables"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,renewables__twh_growth__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#renewables__twh_growth__equivalent,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737619,Solar (% growth),%,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:06,2023-12-19 13:30:22,,,1984-2022,6130,29203,%,"{""name"": ""Solar"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,solar__pct_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#solar__pct_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737618,Renewables (TWh growth - direct),terawatt-hours,,2023-07-17 14:30:06,2023-12-19 13:30:22,,,1966-2022,6130,29203,TWh,"{""name"": ""Renewables"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,renewables__twh_growth__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#renewables__twh_growth__direct,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737617,Renewables (% growth),%,,2023-07-17 14:30:06,2023-12-19 13:30:22,,,1966-2022,6130,29203,%,"{""name"": ""Renewables"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,renewables__pct_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#renewables__pct_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737616,Other renewables (TWh growth - direct),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:06,2023-12-19 13:30:21,,,1966-2022,6130,29203,TWh,"{""name"": ""Other renewables"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,other_renewables__twh_growth__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#other_renewables__twh_growth__direct,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737615,Other renewables (TWh growth - equivalent),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:06,2023-12-19 13:30:21,,,1966-2022,6130,29203,TWh,"{""name"": ""Other renewables"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,other_renewables__twh_growth__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#other_renewables__twh_growth__equivalent,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737614,Other renewables (% growth),%,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:06,2023-12-19 13:30:21,,,1966-2022,6130,29203,%,"{""name"": ""Other renewables"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,other_renewables__pct_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#other_renewables__pct_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737613,Nuclear (TWh growth - equivalent),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:06,2023-12-19 13:30:21,,,1966-2022,6130,29203,TWh,"{""name"": ""Nuclear"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,nuclear__twh_growth__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#nuclear__twh_growth__equivalent,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737612,Nuclear (TWh growth - direct),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:05,2023-12-19 13:30:21,,,1966-2022,6130,29203,TWh,"{""name"": ""Nuclear"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,nuclear__twh_growth__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#nuclear__twh_growth__direct,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737611,Hydro (% growth),%,"Figures are based on gross primary hydroelectric generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:05,2023-12-19 13:30:20,,,1966-2022,6130,29203,%,"{""name"": ""Hydro"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,hydro__pct_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#hydro__pct_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737610,Nuclear (% growth),%,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:05,2023-12-19 13:30:21,,,1966-2022,6130,29203,%,"{""name"": ""Nuclear"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,nuclear__pct_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#nuclear__pct_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737609,Hydro (TWh growth - direct),terawatt-hours,"Figures are based on gross primary hydroelectric generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:05,2023-12-19 13:30:20,,,1966-2022,6130,29203,TWh,"{""name"": ""Hydro"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,hydro__twh_growth__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#hydro__twh_growth__direct,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737608,Low-carbon energy (TWh growth - equivalent),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:05,2023-12-19 13:30:21,,,1966-2022,6130,29203,TWh,"{""name"": ""Low-carbon energy"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,low_carbon_energy__twh_growth__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#low_carbon_energy__twh_growth__equivalent,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737607,Low-carbon energy (TWh growth - direct),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:05,2023-12-19 13:30:20,,,1966-2022,6130,29203,TWh,"{""name"": ""Low-carbon energy"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,low_carbon_energy__twh_growth__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#low_carbon_energy__twh_growth__direct,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737606,Hydro (TWh growth - equivalent),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:05,2023-12-19 13:30:20,,,1966-2022,6130,29203,TWh,"{""name"": ""Hydro"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,hydro__twh_growth__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#hydro__twh_growth__equivalent,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737605,Low-carbon energy (% growth),%,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:05,2023-12-19 13:30:20,,,1966-2022,6130,29203,%,"{""name"": ""Low-carbon energy"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,low_carbon_energy__pct_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#low_carbon_energy__pct_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737604,Biofuels (TWh growth),terawatt-hours,"Includes biogasoline (such as ethanol) and biodiesel. Volumes have been adjusted for energy content.
",2023-07-17 14:30:05,2023-12-19 13:30:20,,,1966-2022,6130,29203,TWh,"{""name"": ""Biofuels"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,biofuels__twh_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#biofuels__twh_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737603,Oil (TWh growth),terawatt-hours,"Includes inland demand plus international aviation and marine bunkers and refinery fuel and loss. Consumption of biogasoline (such as ethanol) and biodiesel are excluded while derivatives of coal and natural gas are included. Differences between the world consumption figures and world production statistics are accounted for by stock changes, consumption of non-petroleum additives and substitute fuels and unavoidable disparities in the definition, measurement or conversion of oil supply and demand data.
",2023-07-17 14:30:05,2023-12-19 13:30:19,,,1966-2022,6130,29203,TWh,"{""name"": ""Oil"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,oil__twh_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#oil__twh_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737602,Biofuels (% growth),%,"Includes biogasoline (such as ethanol) and biodiesel. Volumes have been adjusted for energy content.
",2023-07-17 14:30:05,2023-12-19 13:30:20,,,1966-2022,6130,29203,%,"{""name"": ""Biofuels"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,biofuels__pct_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#biofuels__pct_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737601,Gas (TWh growth),terawatt-hours,"Excludes natural gas converted to liquid fuels but includes derivatives of coal as well as natural gas consumed in Gas-to-Liquids transformation. The difference between the world consumption figures and the world production statistics is due to variations in stocks at storage facilities and liquefaction plants, together with unavoidable disparities in the definition, measurement or conversion of gas supply and demand data.
",2023-07-17 14:30:05,2023-12-19 13:30:19,,,1966-2022,6130,29203,TWh,"{""name"": ""Gas"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,gas__twh_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#gas__twh_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737600,Gas (% growth),%,"Excludes natural gas converted to liquid fuels but includes derivatives of coal as well as natural gas consumed in Gas-to-Liquids transformation. The difference between the world consumption figures and the world production statistics is due to variations in stocks at storage facilities and liquefaction plants, together with unavoidable disparities in the definition, measurement or conversion of gas supply and demand data.
",2023-07-17 14:30:05,2023-12-19 13:30:19,,,1966-2022,6130,29203,%,"{""name"": ""Gas"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,gas__pct_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#gas__pct_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737599,Fossil fuels (TWh growth),terawatt-hours,"Excludes natural gas converted to liquid fuels but includes derivatives of coal as well as natural gas consumed in Gas-to-Liquids transformation. The difference between the world consumption figures and the world production statistics is due to variations in stocks at storage facilities and liquefaction plants, together with unavoidable disparities in the definition, measurement or conversion of gas supply and demand data.
",2023-07-17 14:30:05,2023-12-19 13:30:19,,,1966-2022,6130,29203,TWh,"{""name"": ""Fossil fuels"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,fossil_fuels__twh_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#fossil_fuels__twh_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737598,Oil (% growth),%,"Includes inland demand plus international aviation and marine bunkers and refinery fuel and loss. Consumption of biogasoline (such as ethanol) and biodiesel are excluded while derivatives of coal and natural gas are included. Differences between the world consumption figures and world production statistics are accounted for by stock changes, consumption of non-petroleum additives and substitute fuels and unavoidable disparities in the definition, measurement or conversion of oil supply and demand data.
",2023-07-17 14:30:05,2023-12-19 13:30:19,,,1966-2022,6130,29203,%,"{""name"": ""Oil"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,oil__pct_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#oil__pct_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737597,Coal (TWh growth),terawatt-hours,"Includes commercial solid fuels only, i.e. bituminous coal and anthracite (hard coal), and lignite and brown (sub-bituminous) coal, and other commercial solid fuels. Excludes coal converted to liquid or gaseous fuels, but includes coal consumed in transformation processes. Differences between the consumption figures and the world production statistics are accounted for by stock changes, and unavoidable disparities in the definition, measurement or conversion of coal supply and demand data.
",2023-07-17 14:30:05,2023-12-19 13:30:19,,,1966-2022,6130,29203,TWh,"{""name"": ""Coal"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,coal__twh_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#coal__twh_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737596,Fossil fuels (% growth),%,"Excludes natural gas converted to liquid fuels but includes derivatives of coal as well as natural gas consumed in Gas-to-Liquids transformation. The difference between the world consumption figures and the world production statistics is due to variations in stocks at storage facilities and liquefaction plants, together with unavoidable disparities in the definition, measurement or conversion of gas supply and demand data.
",2023-07-17 14:30:05,2023-12-19 13:30:19,,,1966-2022,6130,29203,%,"{""name"": ""Fossil fuels"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,fossil_fuels__pct_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#fossil_fuels__pct_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737595,Coal (% growth),%,"Includes commercial solid fuels only, i.e. bituminous coal and anthracite (hard coal), and lignite and brown (sub-bituminous) coal, and other commercial solid fuels. Excludes coal converted to liquid or gaseous fuels, but includes coal consumed in transformation processes. Differences between the consumption figures and the world production statistics are accounted for by stock changes, and unavoidable disparities in the definition, measurement or conversion of coal supply and demand data.
",2023-07-17 14:30:05,2023-12-19 13:30:18,,,1966-2022,6130,29203,%,"{""name"": ""Coal"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,coal__pct_growth,grapher/energy/2023-07-10/energy_mix/energy_mix#coal__pct_growth,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737594,Solar and wind (% direct primary energy),%,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:05,2023-12-19 13:30:18,,,1965-2022,6130,29203,%,"{""name"": ""Solar and wind"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,solar_and_wind__pct_direct_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#solar_and_wind__pct_direct_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737593,Solar and wind (% equivalent primary energy),%,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:05,2023-12-19 13:30:18,,,1965-2022,6130,29203,%,"{""name"": ""Solar and wind"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,solar_and_wind__pct_equivalent_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#solar_and_wind__pct_equivalent_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737592,Wind (% direct primary energy),%,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:04,2023-12-19 13:30:18,,,1965-2022,6130,29203,%,"{""name"": ""Wind"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,wind__pct_direct_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#wind__pct_direct_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737591,Wind (% equivalent primary energy),%,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:04,2023-12-19 13:30:18,,,1965-2022,6130,29203,%,"{""name"": ""Wind"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,wind__pct_equivalent_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#wind__pct_equivalent_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737590,Solar (% equivalent primary energy),%,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:04,2023-12-19 13:30:18,,,1965-2022,6130,29203,%,"{""name"": ""Solar"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,solar__pct_equivalent_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#solar__pct_equivalent_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737589,Solar (% direct primary energy),%,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:04,2023-12-19 13:30:18,,,1965-2022,6130,29203,%,"{""name"": ""Solar"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,solar__pct_direct_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#solar__pct_direct_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737588,Renewables (% direct primary energy),%,,2023-07-17 14:30:04,2023-12-19 13:30:17,,,1965-2022,6130,29203,%,"{""name"": ""Renewables"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,renewables__pct_direct_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#renewables__pct_direct_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737587,Renewables (% equivalent primary energy),%,,2023-07-17 14:30:04,2023-12-19 13:30:17,,,1965-2022,6130,29203,%,"{""name"": ""Renewables"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,renewables__pct_equivalent_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#renewables__pct_equivalent_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737586,Other renewables (% equivalent primary energy),%,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:04,2023-12-19 13:30:17,,,1965-2022,6130,29203,%,"{""name"": ""Other renewables"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,other_renewables__pct_equivalent_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#other_renewables__pct_equivalent_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737585,Nuclear (% equivalent primary energy),%,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:03,2023-12-19 13:30:17,,,1965-2022,6130,29203,%,"{""name"": ""Nuclear"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,nuclear__pct_equivalent_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#nuclear__pct_equivalent_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737584,Other renewables (% direct primary energy),%,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:03,2023-12-19 13:30:17,,,1965-2022,6130,29203,%,"{""name"": ""Other renewables"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,other_renewables__pct_direct_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#other_renewables__pct_direct_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737583,Nuclear (% direct primary energy),%,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:03,2023-12-19 13:30:17,,,1965-2022,6130,29203,%,"{""name"": ""Nuclear"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,nuclear__pct_direct_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#nuclear__pct_direct_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737582,Low-carbon energy (% direct primary energy),%,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:02,2023-12-19 13:30:16,,,1965-2022,6130,29203,%,"{""name"": ""Low-carbon energy"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,low_carbon_energy__pct_direct_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#low_carbon_energy__pct_direct_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737581,Low-carbon energy (% equivalent primary energy),%,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:02,2023-12-19 13:30:17,,,1965-2022,6130,29203,%,"{""name"": ""Low-carbon energy"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,low_carbon_energy__pct_equivalent_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#low_carbon_energy__pct_equivalent_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737580,Hydro (% direct primary energy),%,"Figures are based on gross primary hydroelectric generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:02,2023-12-19 13:30:16,,,1965-2022,6130,29203,%,"{""name"": ""Hydro"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,hydro__pct_direct_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#hydro__pct_direct_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737579,Hydro (% equivalent primary energy),%,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:02,2023-12-19 13:30:16,,,1965-2022,6130,29203,%,"{""name"": ""Hydro"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,hydro__pct_equivalent_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#hydro__pct_equivalent_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737578,Biofuels (% direct primary energy),%,"Includes biogasoline (such as ethanol) and biodiesel. Volumes have been adjusted for energy content.
",2023-07-17 14:30:02,2023-12-19 13:30:16,,,1965-2022,6130,29203,%,"{""name"": ""Biofuels"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,biofuels__pct_direct_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#biofuels__pct_direct_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737577,Biofuels (% equivalent primary energy),%,"Includes biogasoline (such as ethanol) and biodiesel. Volumes have been adjusted for energy content.
",2023-07-17 14:30:02,2023-12-19 13:30:16,,,1965-2022,6130,29203,%,"{""name"": ""Biofuels"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,biofuels__pct_equivalent_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#biofuels__pct_equivalent_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737576,Oil (% equivalent primary energy),%,"Includes inland demand plus international aviation and marine bunkers and refinery fuel and loss. Consumption of biogasoline (such as ethanol) and biodiesel are excluded while derivatives of coal and natural gas are included. Differences between the world consumption figures and world production statistics are accounted for by stock changes, consumption of non-petroleum additives and substitute fuels and unavoidable disparities in the definition, measurement or conversion of oil supply and demand data.
",2023-07-17 14:30:02,2023-12-19 13:30:16,,,1965-2022,6130,29203,%,"{""name"": ""Oil"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,oil__pct_equivalent_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#oil__pct_equivalent_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737575,Gas (% equivalent primary energy),%,"Excludes natural gas converted to liquid fuels but includes derivatives of coal as well as natural gas consumed in Gas-to-Liquids transformation. The difference between the world consumption figures and the world production statistics is due to variations in stocks at storage facilities and liquefaction plants, together with unavoidable disparities in the definition, measurement or conversion of gas supply and demand data.
",2023-07-17 14:30:02,2023-12-19 13:30:15,,,1965-2022,6130,29203,%,"{""name"": ""Gas"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,gas__pct_equivalent_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#gas__pct_equivalent_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737574,Gas (% direct primary energy),%,"Excludes natural gas converted to liquid fuels but includes derivatives of coal as well as natural gas consumed in Gas-to-Liquids transformation. The difference between the world consumption figures and the world production statistics is due to variations in stocks at storage facilities and liquefaction plants, together with unavoidable disparities in the definition, measurement or conversion of gas supply and demand data.
",2023-07-17 14:30:02,2023-12-19 13:30:15,,,1965-2022,6130,29203,%,"{""name"": ""Gas"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,gas__pct_direct_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#gas__pct_direct_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737573,Oil (% direct primary energy),%,"Includes inland demand plus international aviation and marine bunkers and refinery fuel and loss. Consumption of biogasoline (such as ethanol) and biodiesel are excluded while derivatives of coal and natural gas are included. Differences between the world consumption figures and world production statistics are accounted for by stock changes, consumption of non-petroleum additives and substitute fuels and unavoidable disparities in the definition, measurement or conversion of oil supply and demand data.
",2023-07-17 14:30:02,2023-12-19 13:30:16,,,1965-2022,6130,29203,%,"{""name"": ""Oil"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,oil__pct_direct_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#oil__pct_direct_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737572,Fossil fuels (% equivalent primary energy),%,"Excludes natural gas converted to liquid fuels but includes derivatives of coal as well as natural gas consumed in Gas-to-Liquids transformation. The difference between the world consumption figures and the world production statistics is due to variations in stocks at storage facilities and liquefaction plants, together with unavoidable disparities in the definition, measurement or conversion of gas supply and demand data.
",2023-07-17 14:30:02,2023-12-19 13:30:15,,,1965-2022,6130,29203,%,"{""name"": ""Fossil fuels"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,fossil_fuels__pct_equivalent_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#fossil_fuels__pct_equivalent_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737571,Fossil fuels (% direct primary energy),%,"Excludes natural gas converted to liquid fuels but includes derivatives of coal as well as natural gas consumed in Gas-to-Liquids transformation. The difference between the world consumption figures and the world production statistics is due to variations in stocks at storage facilities and liquefaction plants, together with unavoidable disparities in the definition, measurement or conversion of gas supply and demand data.
",2023-07-17 14:30:02,2023-12-19 13:30:15,,,1965-2022,6130,29203,%,"{""name"": ""Fossil fuels"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,fossil_fuels__pct_direct_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#fossil_fuels__pct_direct_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737570,Coal (% equivalent primary energy),%,"Includes commercial solid fuels only, i.e. bituminous coal and anthracite (hard coal), and lignite and brown (sub-bituminous) coal, and other commercial solid fuels. Excludes coal converted to liquid or gaseous fuels, but includes coal consumed in transformation processes. Differences between the consumption figures and the world production statistics are accounted for by stock changes, and unavoidable disparities in the definition, measurement or conversion of coal supply and demand data.
",2023-07-17 14:30:02,2023-12-19 13:30:15,,,1965-2022,6130,29203,%,"{""name"": ""Coal"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,coal__pct_equivalent_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#coal__pct_equivalent_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737569,Coal (% direct primary energy),%,"Includes commercial solid fuels only, i.e. bituminous coal and anthracite (hard coal), and lignite and brown (sub-bituminous) coal, and other commercial solid fuels. Excludes coal converted to liquid or gaseous fuels, but includes coal consumed in transformation processes. Differences between the consumption figures and the world production statistics are accounted for by stock changes, and unavoidable disparities in the definition, measurement or conversion of coal supply and demand data.
",2023-07-17 14:30:02,2023-12-19 13:30:15,,,1965-2022,6130,29203,%,"{""name"": ""Coal"", ""unit"": ""%"", ""shortUnit"": ""%""}",0,,,coal__pct_direct_primary_energy,grapher/energy/2023-07-10/energy_mix/energy_mix#coal__pct_direct_primary_energy,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737568,Solar and wind (TWh - equivalent),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:02,2023-12-19 13:30:14,,,1965-2022,6130,29203,TWh,"{""name"": ""Solar and wind"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,solar_and_wind__twh__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#solar_and_wind__twh__equivalent,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737567,Primary energy (TWh - equivalent),terawatt-hours,,2023-07-17 14:30:02,2023-12-19 13:30:15,,,1965-2022,6130,29203,TWh,"{""name"": ""Primary energy"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,primary_energy__twh__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#primary_energy__twh__equivalent,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737566,Renewables (TWh - equivalent),terawatt-hours,,2023-07-17 14:30:02,2023-12-19 13:30:14,,,1965-2022,6130,29203,TWh,"{""name"": ""Renewables"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,renewables__twh__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#renewables__twh__equivalent,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737565,Low-carbon energy (TWh - equivalent),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:02,2023-12-19 13:30:14,,,1965-2022,6130,29203,TWh,"{""name"": ""Low-carbon energy"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,low_carbon_energy__twh__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#low_carbon_energy__twh__equivalent,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737564,Primary energy (TWh - direct),terawatt-hours,,2023-07-17 14:30:02,2023-12-19 13:30:14,,,1965-2022,6130,29203,TWh,"{""name"": ""Primary energy"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,primary_energy__twh__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#primary_energy__twh__direct,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737563,Low-carbon energy (TWh - direct),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:02,2023-12-19 13:30:13,,,1965-2022,6130,29203,TWh,"{""name"": ""Low-carbon energy"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,low_carbon_energy__twh__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#low_carbon_energy__twh__direct,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737562,Solar and wind (TWh - direct),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:02,2023-12-19 13:30:13,,,1965-2022,6130,29203,TWh,"{""name"": ""Solar and wind"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,solar_and_wind__twh__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#solar_and_wind__twh__direct,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737561,Renewables (TWh - direct),terawatt-hours,,2023-07-17 14:30:02,2023-12-19 13:30:13,,,1965-2022,6130,29203,TWh,"{""name"": ""Renewables"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,renewables__twh__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#renewables__twh__direct,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737560,Biofuels (TWh),terawatt-hours,"Includes biogasoline (such as ethanol) and biodiesel. Volumes have been adjusted for energy content.
",2023-07-17 14:30:02,2023-12-19 13:30:13,,,1965-2022,6130,29203,TWh,"{""name"": ""Biofuels"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,biofuels__twh,grapher/energy/2023-07-10/energy_mix/energy_mix#biofuels__twh,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737559,Fossil fuels (TWh),terawatt-hours,"Excludes natural gas converted to liquid fuels but includes derivatives of coal as well as natural gas consumed in Gas-to-Liquids transformation. The difference between the world consumption figures and the world production statistics is due to variations in stocks at storage facilities and liquefaction plants, together with unavoidable disparities in the definition, measurement or conversion of gas supply and demand data.
",2023-07-17 14:30:02,2023-12-19 13:30:13,,,1965-2022,6130,29203,TWh,"{""name"": ""Fossil fuels"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,fossil_fuels__twh,grapher/energy/2023-07-10/energy_mix/energy_mix#fossil_fuels__twh,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737558,Other renewables (TWh - equivalent),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:02,2023-12-19 13:30:13,,,1965-2022,6130,29203,TWh,"{""name"": ""Other renewables"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,other_renewables__twh__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#other_renewables__twh__equivalent,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737557,Solar (TWh - equivalent),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:02,2023-12-19 13:30:12,,,1965-2022,6130,29203,TWh,"{""name"": ""Solar"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,solar__twh__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#solar__twh__equivalent,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737556,Wind (TWh - equivalent),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:02,2023-12-19 13:30:12,,,1965-2022,6130,29203,TWh,"{""name"": ""Wind"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,wind__twh__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#wind__twh__equivalent,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737555,Nuclear (TWh - equivalent),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:02,2023-12-19 13:30:12,,,1965-2022,6130,29203,TWh,"{""name"": ""Nuclear"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,nuclear__twh__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#nuclear__twh__equivalent,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737554,Hydro (TWh - equivalent),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply. ""Input-equivalent"" energy is the amount of fuel that would be required by thermal power stations to generate the reported electricity output.
",2023-07-17 14:30:02,2023-12-19 13:30:12,,,1965-2022,6130,29203,TWh,"{""name"": ""Hydro"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,hydro__twh__equivalent,grapher/energy/2023-07-10/energy_mix/energy_mix#hydro__twh__equivalent,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737553,Other renewables (TWh - direct),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:02,2023-12-19 13:30:12,,,1965-2022,6130,29203,TWh,"{""name"": ""Other renewables"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,other_renewables__twh__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#other_renewables__twh__direct,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737552,Wind (TWh - direct),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:02,2023-12-19 13:30:12,,,1965-2022,6130,29203,TWh,"{""name"": ""Wind"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,wind__twh__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#wind__twh__direct,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737551,Solar (TWh - direct),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:02,2023-12-19 13:30:11,,,1965-2022,6130,29203,TWh,"{""name"": ""Solar"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,solar__twh__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#solar__twh__direct,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,
737550,Nuclear (TWh - direct),terawatt-hours,"Figures are based on gross generation and do not account for cross-border electricity supply.
",2023-07-17 14:30:02,2023-12-19 13:30:11,,,1965-2022,6130,29203,TWh,"{""name"": ""Nuclear"", ""unit"": ""terawatt-hours"", ""shortUnit"": ""TWh"", ""numDecimalPlaces"": 0}",0,,,nuclear__twh__direct,grapher/energy/2023-07-10/energy_mix/energy_mix#nuclear__twh__direct,,1,,,,,,,,,[],,"[{""url"": ""https://web.archive.org/web/20230626200231/https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single-2.pdf"", ""name"": ""© Energy Institute 2023""}]",,,,,,