explorers: energy-scenarios
This data as json
slug | isPublished | config | createdAt | updatedAt |
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energy-scenarios | 0 | { "blocks": [ { "args": [ "https://raw.githubusercontent.com/owid/owid-datasets/master/datasets/Energy%20land%20use%20scenario%20analysis%20(OWID%20based%20on%20UNECE%20%26%20EMBER)/Energy%20land%20use%20scenario%20analysis%20(OWID%20based%20on%20UNECE%20%26%20EMBER).csv", "energy" ], "type": "table", "block": null }, { "args": [], "type": "graphers", "block": [ { "tab": "map", "note": "Figures are used to provide a magnitude estimate, and come with significant uncertainty.", "type": "LineChart", "title": "Estimated share of land used for electricity production", "ySlugs": "land_actual_total_share", "subtitle": "Land use is based on life-cycle analysis, so includes land used by a power plant plus any used in fuel or material supply chains (e.g. mining).", "yAxisMin": "0", "hasMapTab": "true", "tableSlug": "energy", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Absolute or Share Radio": "Share of land area", "Electricity source Dropdown": "Actual electricity mix" }, { "tab": "map", "note": "Figures are used to provide a magnitude estimate, and come with significant uncertainty.", "type": "LineChart", "title": "Share of land needed for electricity production if all of of it came from coal", "ySlugs": "land_all_coal_share", "subtitle": "Hypothetical scenarios which assume that a country got all of its annual electricity consumption from a single source in any given year. Land use is based on life-cycle analysis, so includes land used by a power plant plus any used in fuel or material supply chains (e.g. mining). This is shown as the share of each country's land area.", "yAxisMin": "0", "hasMapTab": "true", "tableSlug": "energy", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Absolute or Share Radio": "Share of land area", "Electricity source Dropdown": "All from coal" }, { "tab": "map", "note": "Figures are used to provide a magnitude estimate, and come with significant uncertainty.", "type": "LineChart", "title": "Share of land needed for electricity production if all of of it came from gas", "ySlugs": "land_all_gas_share", "subtitle": "Hypothetical scenarios which assume that a country got all of its annual electricity consumption from a single source in any given year. Land use is based on life-cycle analysis, so includes land used by a power plant plus any used in fuel or material supply chains (e.g. mining). This is shown as the share of each country's land area.", "yAxisMin": "0", "hasMapTab": "true", "tableSlug": "energy", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Absolute or Share Radio": "Share of land area", "Electricity source Dropdown": "All from gas" }, { "tab": "map", "note": "Figures are used to provide a magnitude estimate, and come with significant uncertainty.", "type": "LineChart", "title": "Share of land needed for electricity production if all of of it came from nuclear", "ySlugs": "land_all_nuclear_share", "subtitle": "Hypothetical scenarios which assume that a country got all of its annual electricity consumption from a single source in any given year. Land use is based on life-cycle analysis, so includes land used by a power plant plus any used in fuel or material supply chains (e.g. mining). This is shown as the share of each country's land area.", "yAxisMin": "0", "hasMapTab": "true", "tableSlug": "energy", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Absolute or Share Radio": "Share of land area", "Electricity source Dropdown": "All from nuclear" }, { "tab": "map", "note": "Figures are used to provide a magnitude estimate, and come with significant uncertainty.", "type": "LineChart", "title": "Share of land needed for electricity production if all of of it came from hydropower", "ySlugs": "land_all_hydro_share", "subtitle": "Hypothetical scenarios which assume that a country got all of its annual electricity consumption from a single source in any given year. Land use is based on life-cycle analysis, so includes land used by a power plant plus any used in fuel or material supply chains (e.g. mining). This is shown as the share of each country's land area.", "yAxisMin": "0", "hasMapTab": "true", "tableSlug": "energy", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Absolute or Share Radio": "Share of land area", "Electricity source Dropdown": "All from hydropower" }, { "tab": "map", "note": "Figures are used to provide a magnitude estimate, and come with significant uncertainty.", "type": "LineChart", "title": "Share of land needed for electricity production if all of of it came from silicon solar", "ySlugs": "land_all_solar_silicon_share", "subtitle": "Hypothetical scenarios which assume that a country got all of its annual electricity consumption from a single source in any given year. Land use is based on life-cycle analysis, so includes land used by a power plant plus any used in fuel or material supply chains (e.g. mining). This is shown as the share of each country's land area.", "yAxisMin": "0", "hasMapTab": "true", "tableSlug": "energy", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Absolute or Share Radio": "Share of land area", "Electricity source Dropdown": "All from solar (silicon)" }, { "tab": "map", "note": "Figures are used to provide a magnitude estimate, and come with significant uncertainty.", "type": "LineChart", "title": "Share of land needed for electricity production if all of of it came from cadmium solar", "ySlugs": "land_all_solar_cadmium_share", "subtitle": "Hypothetical scenarios which assume that a country got all of its annual electricity consumption from a single source in any given year. Land use is based on life-cycle analysis, so includes land used by a power plant plus any used in fuel or material supply chains (e.g. mining). This is shown as the share of each country's land area.", "yAxisMin": "0", "hasMapTab": "true", "tableSlug": "energy", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Absolute or Share Radio": "Share of land area", "Electricity source Dropdown": "All from solar (cadmium)" }, { "tab": "map", "note": "Figures are used to provide a magnitude estimate, and come with significant uncertainty.", "type": "LineChart", "title": "Estimated land area used for electricity production", "ySlugs": "land_actual_total", "subtitle": "Land use is based on life-cycle analysis, so includes land used by a power plant plus any used in fuel or material supply chains (e.g. mining).", "yAxisMin": "0", "hasMapTab": "true", "tableSlug": "energy", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Absolute or Share Radio": "Square kilometers (km\u00b2)", "Electricity source Dropdown": "Actual electricity mix" }, { "tab": "map", "note": "Figures are used to provide a magnitude estimate, and come with significant uncertainty.", "type": "LineChart", "title": "Land needed for electricity production if all of of it came from coal", "ySlugs": "land_all_coal", "subtitle": "Hypothetical scenarios which assume that a country got all of its annual electricity consumption from a single source in any given year. Land use is based on life-cycle analysis, so includes land used by a power plant plus any used in fuel or material supply chains (e.g. mining).", "yAxisMin": "0", "hasMapTab": "true", "tableSlug": "energy", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Absolute or Share Radio": "Square kilometers (km\u00b2)", "Electricity source Dropdown": "All from coal" }, { "tab": "map", "note": "Figures are used to provide a magnitude estimate, and come with significant uncertainty.", "type": "LineChart", "title": "Land needed for electricity production if all of of it came from gas", "ySlugs": "land_all_gas", "subtitle": "Hypothetical scenarios which assume that a country got all of its annual electricity consumption from a single source in any given year. Land use is based on life-cycle analysis, so includes land used by a power plant plus any used in fuel or material supply chains (e.g. mining).", "yAxisMin": "0", "hasMapTab": "true", "tableSlug": "energy", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Absolute or Share Radio": "Square kilometers (km\u00b2)", "Electricity source Dropdown": "All from gas" }, { "tab": "map", "note": "Figures are used to provide a magnitude estimate, and come with significant uncertainty.", "type": "LineChart", "title": "Land needed for electricity production if all of of it came from nuclear", "ySlugs": "land_all_nuclear", "subtitle": "Hypothetical scenarios which assume that a country got all of its annual electricity consumption from a single source in any given year. Land use is based on life-cycle analysis, so includes land used by a power plant plus any used in fuel or material supply chains (e.g. mining).", "yAxisMin": "0", "hasMapTab": "true", "tableSlug": "energy", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Absolute or Share Radio": "Square kilometers (km\u00b2)", "Electricity source Dropdown": "All from nuclear" }, { "tab": "map", "note": "Figures are used to provide a magnitude estimate, and come with significant uncertainty.", "type": "LineChart", "title": "Land needed for electricity production if all of of it came from hydropower", "ySlugs": "land_all_hydro", "subtitle": "Hypothetical scenarios which assume that a country got all of its annual electricity consumption from a single source in any given year. Land use is based on life-cycle analysis, so includes land used by a power plant plus any used in fuel or material supply chains (e.g. mining).", "yAxisMin": "0", "hasMapTab": "true", "tableSlug": "energy", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Absolute or Share Radio": "Square kilometers (km\u00b2)", "Electricity source Dropdown": "All from hydropower" }, { "tab": "map", "note": "Figures are used to provide a magnitude estimate, and come with significant uncertainty.", "type": "LineChart", "title": "Land needed for electricity production if all of of it came from silicon solar", "ySlugs": "land_all_solar_silicon", "subtitle": "Hypothetical scenarios which assume that a country got all of its annual electricity consumption from a single source in any given year. Land use is based on life-cycle analysis, so includes land used by a power plant plus any used in fuel or material supply chains (e.g. mining).", "yAxisMin": "0", "hasMapTab": "true", "tableSlug": "energy", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Absolute or Share Radio": "Square kilometers (km\u00b2)", "Electricity source Dropdown": "All from solar (silicon)" }, { "tab": "map", "note": "Figures are used to provide a magnitude estimate, and come with significant uncertainty.", "type": "LineChart", "title": "Land needed for electricity production if all of of it came from cadmium solar", "ySlugs": "land_all_solar_cadmium", "subtitle": "Hypothetical scenarios which assume that a country got all of its annual electricity consumption from a single source in any given year. Land use is based on life-cycle analysis, so includes land used by a power plant plus any used in fuel or material supply chains (e.g. mining).", "yAxisMin": "0", "hasMapTab": "true", "tableSlug": "energy", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Absolute or Share Radio": "Square kilometers (km\u00b2)", "Electricity source Dropdown": "All from solar (cadmium)" } ] }, { "args": [ "energy" ], "type": "columns", "block": [ { "slug": "land_all_coal", "type": "Numeric", "unit": "square kilometers", "shortUnit": "km\u00b2", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_gas", "type": "Numeric", "unit": "square kilometers", "shortUnit": "km\u00b2", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "Purples", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_coal_ccs", "type": "Numeric", "unit": "square kilometers", "shortUnit": "km\u00b2", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_gas_ccs", "type": "Numeric", "unit": "square kilometers", "shortUnit": "km\u00b2", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_hydro", "type": "Numeric", "unit": "square kilometers", "shortUnit": "km\u00b2", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "Blues", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_nuclear", "type": "Numeric", "unit": "square kilometers", "shortUnit": "km\u00b2", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_solar_silicon", "type": "Numeric", "unit": "square kilometers", "shortUnit": "km\u00b2", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrRd", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_solar_cadmium", "type": "Numeric", "unit": "square kilometers", "shortUnit": "km\u00b2", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrRd", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_concentrating_solar", "type": "Numeric", "unit": "square kilometers", "shortUnit": "km\u00b2", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_wind", "type": "Numeric", "unit": "square kilometers", "shortUnit": "km\u00b2", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "PuBuGn", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_coal_share", "type": "Percentage", "unit": "%", "shortUnit": "%", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20,,;100", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_gas_share", "type": "Percentage", "unit": "%", "shortUnit": "%", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "Purples", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_coal_ccs_share", "type": "Percentage", "unit": "%", "shortUnit": "%", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_gas_ccs_share", "type": "Percentage", "unit": "%", "shortUnit": "%", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20,,;100", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_hydro_share", "type": "Percentage", "unit": "%", "shortUnit": "%", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "Blues", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20,,;100", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_nuclear_share", "type": "Percentage", "unit": "%", "shortUnit": "%", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20,,;100", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_solar_silicon_share", "type": "Percentage", "unit": "%", "shortUnit": "%", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20,,;100", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_solar_cadmium_share", "type": "Percentage", "unit": "%", "shortUnit": "%", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20,,;100", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_concentrating_solar_share", "type": "Percentage", "unit": "%", "shortUnit": "%", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20,,;100", "colorScaleEqualSizeBins": "true" }, { "slug": "land_all_wind_share", "type": "Percentage", "unit": "%", "shortUnit": "%", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "PuBuGn", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20,,;100", "colorScaleEqualSizeBins": "true" }, { "slug": "land_actual_coal", "type": "Numeric", "unit": "square kilometers", "shortUnit": "km\u00b2", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleEqualSizeBins": "true" }, { "slug": "land_actual_gas", "type": "Numeric", "unit": "square kilometers", "shortUnit": "km\u00b2", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleEqualSizeBins": "true" }, { "slug": "land_actual_hydro", "type": "Numeric", "unit": "square kilometers", "shortUnit": "km\u00b2", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleEqualSizeBins": "true" }, { "slug": "land_actual_nuclear", "type": "Numeric", "unit": "square kilometers", "shortUnit": "km\u00b2", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleEqualSizeBins": "true" }, { "slug": "land_actual_solar", "type": "Numeric", "unit": "square kilometers", "shortUnit": "km\u00b2", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleEqualSizeBins": "true" }, { "slug": "land_actual_wind", "type": "Numeric", "unit": "square kilometers", "shortUnit": "km\u00b2", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleEqualSizeBins": "true" }, { "slug": "land_actual_total", "type": "Numeric", "unit": "square kilometers", "shortUnit": "km\u00b2", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleEqualSizeBins": "true" }, { "slug": "land_energy_intensity", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20", "colorScaleEqualSizeBins": "true" }, { "slug": "land_actual_coal_share", "type": "Percentage", "unit": "%", "shortUnit": "%", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20", "colorScaleEqualSizeBins": "true" }, { "slug": "land_actual_gas_share", "type": "Percentage", "unit": "%", "shortUnit": "%", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20", "colorScaleEqualSizeBins": "true" }, { "slug": "land_actual_hydro_share", "type": "Percentage", "unit": "%", "shortUnit": "%", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20", "colorScaleEqualSizeBins": "true" }, { "slug": "land_actual_nuclear_share", "type": "Percentage", "unit": "%", "shortUnit": "%", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20", "colorScaleEqualSizeBins": "true" }, { "slug": "land_actual_solar_share", "type": "Percentage", "unit": "%", "shortUnit": "%", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20", "colorScaleEqualSizeBins": "true" }, { "slug": "land_actual_wind_share", "type": "Percentage", "unit": "%", "shortUnit": "%", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20", "colorScaleEqualSizeBins": "true" }, { "slug": "land_actual_total_share", "type": "Percentage", "unit": "%", "shortUnit": "%", "sourceName": "Calculated by Our World in Data based on UNECE (2021). Lifecycle Assessment of Electricity Generation Options; and Ember Climate.", "additionalInfo": "This dataset was calculated by Our World in Data based on:<p>1. Land use intensity data sourced from the UNECE's Lifecycle Assessment of Electricity Generation Options assessment. This provides data on the amount of land needed to produce one unit of electricity across different energy sources. This is based on literature review of life-cycle assessments of electricity sources: these not only include the land used for individual power plants, but also include any land use upstream in supply chains, such as mining for fuel or raw materials.</p><p>2. Electricity consumption data sourced from Ember Climate.</p><p>By multiplying annual electricity consumption for each country by the average land use of different energy sources, we have calculated the amount of land that would be needed if a country got all of its electricity from a single source. This is an unrealistic and simplistic scenario, but serves to provide a magnitude estimate of how much would be needed for energy production under different circumstances.</p><p>References:</p><p>UNECE (2021). Lifecycle Assessment of Electricity Generation Options. United Nations Economic Commission for Europe. Available at: https://unece.org/sed/documents/2021/10/reports/life-cycle-assessment-electricity-generation-options.</p><p>Ember Climate. Available at: https://ember-climate.org</p>", "colorScaleScheme": "YlOrBr", "colorScaleNumericBins": "0.25,,;0.5,,;0.75,,;1,,;2,,;3,,;4,,;5,,;20", "colorScaleEqualSizeBins": "true" } ] } ], "_version": 1, "subNavId": null, "hasMapTab": "true", "selection": [ "United States", "United Kingdom", "World", "China", "India", "Japan", "Germany" ], "entityType": "source", "explorerTitle": "Energy Land Use Scenario Explorer", "hideAlertBanner": "true", "explorerSubtitle": null, "hideAnnotationFieldsInTitle": [ "true" ] } |
2023-06-01 19:11:26 | 2023-07-19 13:23:59 |