variables: 817730
Data license: CC-BY
This data as json
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 |
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817730 | Solar and wind (TWh - equivalent) | terawatt-hours | 2023-12-15 09:19:28 | 2024-05-05 19:22:41 | 1965-2022 | 6323 | TWh | { "name": "Solar and wind", "unit": "terawatt-hours", "shortUnit": "TWh" } |
0 | solar_and_wind__twh__equivalent | grapher/energy/2023-12-12/energy_mix/energy_mix#solar_and_wind__twh__equivalent | 2 | major | Primary energy consumption from solar and wind power | Using the substitution method | Measured in terawatt-hours, using the substitution method. | [ "Figures are based on gross generation and do not account for cross-border electricity supply.", "Primary energy is measured using the \"substitution method\" (also called \"input-equivalent\" primary energy). This method is used for non-fossil sources of electricity (namely renewables and nuclear), and measures the amount of fossil fuels that would be required by thermal power stations to generate the same amount of non-fossil electricity.\nFor example, if a country's nuclear power generated 100 TWh of electricity, and assuming that the efficiency of a standard thermal power plant is 38%, the input-equivalent primary energy for this country would be 100 TWh / 0.38 = 263 TWh = 0.95 EJ. This input-equivalent primary energy takes account of the inefficiencies in energy production from fossil fuels and provides a better approximation of each source's share of energy consumption. You can find more details in [the Statistical Review of World Energy's methodology document](https://www.energyinst.org/__data/assets/pdf_file/0003/1055541/Methodology.pdf)." ] |
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