Global primary energy consumption reached around 620 exajoules in 2023. This represented an increase of roughly two percent in comparison to 2022. In 2020, the coronavirus pandemic and its impact on transportation fuel demand and the overall economic performance resulted in primary energy consumption declining to 2016 levels. Nevertheless, worldwide energy consumption is projected to increase over the next few decades. Most common types of fuel Oil is the main primary energy fuel in the world, followed by other fossil fuels such as coal and natural gas. Each of these three sources had consumption levels of more than 140 exajoules in 2023, while other fuel types were consumed considerably less. However, in recent years, renewables have become more frequently used as worldwide investment in clean energy has more than double since 2014. Energy industry performance Energy use rose consistently every year over the last two decades except for 2009 and 2020, following the global financial crisis and the aforementioned coronavirus pandemic. As fossil fuels remain the largest source of energy consumption, the prices of these commodities serve as an indicator of overall energy industry performance.

Fossil fuels remain the greatest source of electricity generation worldwide. In 2023, coal accounted for roughly 35.5 percent of the global power mix, while natural gas followed with a 23 percent share. China, India, and the United States accounted for the largest share of coal used for electricity generation. The future of renewable energy Fossil fuel use notwithstanding, the share of renewables in global electricity has seen a more pronounced year-on-year growth in recent years, following increased efforts by governments to combat global warming and a decrease in levelized costs. Projections indicate that renewables will surpass fossil fuels as the main power source by 2040. Electricity consumption in the world China is the largest electricity consumer in the world, requiring more than 8,000 terawatt-hours of electricity every year. However, this economic power accounts for the largest population in the world and its electricity consumption per capita is almost tenfold smaller than the consumption of Iceland, although the power used in this country came almost completely from clean sources.

Global primary energy consumption has increased dramatically in recent years and is projected to continue to increase until 2045. Only hydropower and renewable energy consumption are expected to increase between 2045 and 2050 and reach 30 percent of the global energy consumption. Energy consumption by country The distribution of energy consumption globally is disproportionately high among some countries. China, the United States, and India were by far the largest consumers of primary energy globally. On a per capita basis, it was Qatar, Singapore, the United Arab Emirates, and Iceland to have the highest per capita energy consumption. Renewable energy consumption Over the last two decades, renewable energy consumption has increased to reach over 90 exajoules in 2023. Among all countries globally, China had the largest installed renewable energy capacity as of that year, followed by the United States.

Industrial activities, transportation, and buildings (including residential and commercial sector) each accounted for approximately 120 exajoules of energy consumed in 2022. The industrial sector had the largest final energy consumption that year.

This table expresses the use of renewable energy as gross final consumption of energy. Figures are presented in an absolute way, as well as related to the total energy use in the Netherlands. The total gross final energy consumption in the Netherlands (the denominator used to calculate the percentage of renewable energy per ‘Energy sources and techniques’) can be found in the table as ‘Total, including non-renewables’ and Energy application ‘Total’. The gross final energy consumption for the energy applications ‘Electricity’ and ‘Heat’ are also available. With these figures the percentages of the different energy sources and applications can be calculated; these values are not available in this table. The gross final energy consumption for ‘Transport’ is not available because of the complexity to calculate this. More information on this can be found in the yearly publication ‘Hernieuwbare energie in Nederland’.

Renewable energy is energy from wind, hydro power, the sun, the earth, heat from outdoor air and biomass. This is energy from natural processes that is replenished constantly.

The figures are broken down into energy source/technique and into energy application (electricity, heat and transport).

This table focuses on the share of renewable energy according to the EU Renewable Energy Directive. Under this directive, countries can apply an administrative transfer by purchasing renewable energy from countries that have consumed more renewable energy than the agreed target. For 2020, the Netherlands has implemented such a transfer by purchasing renewable energy from Denmark. This transfer has been made visible in this table as a separate energy source/technique and two totals are included; a total with statistical transfer and a total without statistical transfer.

Figures for 2020 and before were calculated based on RED I; in accordance with Eurostat these figures will not be modified anymore. Inconsistencies with other tables undergoing updates may occur.

Data available from: 1990

Status of the figures: This table contains definite figures up to and including 2022 and figures of 2023 are revised provisional figures.

Changes as of January 2025 Renewable cooling has been added as Energy source and technique from 2021 onwards, in accordance with RED II. Figures for 2020 and earlier follow RED I definitions, renewable cooling isn’t a part of these definitions.
The energy application “Heat” has been renamed to “Heating and cooling”, in accordance with RED II definitions. RED II is the current Renewable Energy Directive which entered into force in 2021

Changes as of November 15th 2024 Figures for 2021-2023 have been adjusted. 2022 is now definitive, 2023 stays revised provisional. Because of new insights for windmills regarding own electricity use and capacity, figures on 2021 have been revised.

Changes as of March 2024: Figures of the total energy applications of biogas, co-digestion of manure and other biogas have been restored for 2021 and 2022. The final energy consumption of non-compliant biogas (according to RED II) was wrongly included in the total final consumption of these types of biogas. Figures of total biogas, total biomass and total renewable energy were not influenced by this and therefore not adjusted.

When will new figures be published? Provisional figures on the gross final consumption of renewable energy in broad outlines for the previous year are published each year in June. Revised provisional figures for the previous year appear each year in June.

In November all figures on the consumption of renewable energy in the previous year will be published. These figures remain revised provisional, definite figures appear in November two years after the reporting year. Most important (expected) changes between revised provisional figures in November and definite figures a year later are the figures on solar photovoltaic energy. The figures on the share of total energy consumption in the Netherlands could also still be changed by the availability of adjusted figures on total energy consumption.

Coal has been the main source of electricity generation worldwide for the last three decades. In 2023, global coal power generation stood at almost 10,500 terawatt-hours. Overall, coal, natural gas, and other fossil fuels accounted for approximately 60 percent of the global electricity production that year. Renewable energy sources of electricity generation The production of renewable energy has been increasing steadily over the past decades, with solar and wind energy showing the largest year-over-year growth between 2022 and 2023. However, the contribution of renewables to the world’s electric power mix remains small when compared to fossil fuel sources. Electricity demand vs production The volume of electricity generated worldwide surpassed the global consumption of electricity by a small margin. This figure is directly affected by the fact that the number of people without access to electricity in the world has shrunk over the past decade and is continuously decreasing.

This table contains figures on the supply and consumption of energy broken down by sector and by energy commodity. The energy supply is equal to the indigenous production of energy plus the receipts minus the deliveries of energy plus the stock changes. Consumption of energy is equal to the sum of own use, distribution losses, final energy consumption, non-energy use and the total net energy transformation. For each sector, the supply of energy is equal to the consumption of energy.

For some energy commodities, the total of the observed domestic deliveries is not exactly equal to the sum of the observed domestic receipts. For these energy commodities, a statistical difference arises that can not be attributed to a sector.

The breakdown into sectors follows mainly the classification as is customary in international energy statistics. This classification is based on functions of various sectors in the energy system and for several break downs on the international Standard Industrial Classification (SIC). There are two main sectors: the energy sector (companies with main activity indigenous production or transformation of energy) and energy consumers (other companies, vehicles and dwellings). In addition to a breakdown by sector, there is also a breakdown by energy commodity, such as coal, various petroleum products, natural gas, renewable energy, electricity and heat and other energy commodities like non renewable waste.

The definitions used in this table are exactly in line with the definitions in the Energy Balance table; supply, transformation and consumption. That table does not contain a breakdown by sector (excluding final energy consumption), but it does provide information about imports, exports and bunkering and also provides more detail about the energy commodities.

Data available: From: 1990.

Status of the figures: Figures up to and including 2022 are definite. Figures for 2023 are revised provisional.

Changes as of November 15th 2024: The structure of the table has been adjusted. The adjustment concerns the division into sectors, with the aluminum industry now being distinguished separately within the non-ferrous metal sector. This table has also been revised for 2015 to 2021 as a result of new methods that have also been applied for 2022 and 2023. This concerns the following components: final energy consumption of LPG, distribution of final energy consumption of motor gasoline, sector classification of gas oil/diesel within the services and transfer of energy consumption of the nuclear industry from industry to the energy sector. The natural gas consumption of the wood and wood products industry has also been improved so that it is more comparable over time. This concerns changes of a maximum of a few PJ.

Changes as of June 7th 2024: Revised provisional figures of 2023 have been added.

Changes as of April 26th of 2024 The energy balance has been revised for 2015 and later on a limited number of points. The most important is the following: 1. For solid biomass and municipal waste, the most recent data have been included. Furthermore data were affected by integration with figures for a new, yet to be published StatLine table on the supply of solid biomass. As a result, there are some changes in receipts of energy, deliveries of energy and indigenous production of biomass of a maximum of a few PJ. 2. In the case of natural gas, an improvement has been made in the processing of data for stored LNG, which causes a shift between stock changes, receipts of energy and deliveries of energy of a maximum of a few PJ.

Changes as of March 25th of 2024: The energy balance has been revised and restructured. This concerns mainly the following: 1. Different way of dealing with biofuels that have been mixed with fossil fuels 2. A breakdown of the natural gas balance of agriculture into greenhouse horticulture and other agriculture. 3. Final consumption of electricity in services

1. Blended biofuels Previously, biofuels mixed with fossil fuels were counted as petroleum crude and products. In the new energy balance, blended biofuels count for renewable energy and petroleum crude and products and the underlying products (such as gasoline, diesel and kerosene) only count the fossil part of mixtures of fossil and biogenic fuels. To make this clear, the names of the energy commodities have been changed. The consequence of this adjustment is that part of the energy has been moved from petroleum to renewable. The energy balance remains the same for total energy commodities. The aim of this adjustment is to make the increasing role of blended biofuels in the Energy Balance visible and to better align with the Energy Balances published by Eurostat and the International Energy Agency. Within renewable energy, biomass, liquid biomass is now a separate energy commodity. This concerns both pure and blended biofuels.

2. Greenhouse horticulture separately The energy consumption of agriculture in the Netherlands largely takes place in greenhouse horticulture. There is therefore a lot of attention for this sector and the need for separate data on energy consumption in greenhouse horticulture. To meet this need, the agriculture sector has been divided into two subsectors: Greenhouse horticulture and other agriculture. For the time being, we only publish separate natural gas figures for greenhouse horticulture.

3. Higher final consumption of electricity in services in 2021 and 2022. The way in which electric road transport is treated has improved, resulting in an increase in the supply and final consumption of electricity in services by more than 2 PJ in 2021 and 2022. This also works through the supply of electricity in sector H (Transport and storage).

Changes as of November 14th 2023: Figures for 2021 and 2022 haven been adjusted. Figures for the Energy Balance for 2015 to 2020 have been revised regarding the following items: - For 2109 and 2020 final consumption of heat in agriculture is a few PJ lower and for services a few PJ higher. This is the result of improved interpretation of available data in supply of heat to agriculture. - During the production of geothermal heat by agriculture natural gas is produced as by-product. Now this is included in the energy balance. The amount increased from 0,2 PJ in 2015 to 0,7 PJ in 2020. - There are some improvements in the data for heat in industry with a magnitude of about 1 PJ or smaller. - There some other improvements, also about 1 PJ or smaller.

Changes as of June 15th 2023: Revised provisional figures of 2022 have been added.

Changes as of December 15th 2022: Figures for 1990 up to and including 2019 have been revised. The revision mainly concerns the consumption of gas- and diesel oil and energy commodities higher in the classification (total petroleum products, total crude and petroleum produtcs and total energy commodities). The revision is twofold: - New data for the consumption of diesel oil in mobile machine have been incorporated. Consequently, the final energy consumption of gas- and diesel oil in construction, services and agriculture increases. The biggest change is in construction (+10 PJ from 1990-2015, decreasing to 1 PJ in 2019. In agriculture the change is about 0.5-1.5 PJ from 2010 onwards and for services the change is between 0 and 3 PJ for the whole period. - The method for dealing with the statistical difference has been adapted. Earlier from 2013 onwards a difference of about 3 percent was assumed, matching old data (up to and including 2012) on final consumption of diesel for road transport based on the dedicated tax specifically for road that existed until 2012. In the new method the statistical difference is eliminated from 2015 onwards. Final consumption of road transport is calculated as the remainder of total supply to the market of diesel minus deliveries to users other than road transport. The first and second item affect both final consumption of road transport that decreases consequently about 5 percent from 2015 onwards. Before the adaption of the tax system for gas- and diesel oil in 2013 the statistical difference was positive (more supply than consumption). With the new data for mobile machines total consumption has been increased and the statistical difference has been reduced and is even negative for a few years.

Changes as of 1 March 2022: Figures for 1990 up to and including 2020 have been revised. The most important change is a different way of presenting own use of electricity of power-generating installations. Previously, this was regarded as electricity and CHP transformation input. From now on, this is seen as own use, as is customary in international energy statistics. As a result, the input and net energy transformation decrease and own use increases, on average about 15 PJ per year. Final consumers also have power generating installations. That's why final consumers now also have own use, previously this was not so. In the previous revision of 2021, the new sector blast furnaces was introduced for the years 2015 up to and including 2020, which describes the transformation of coke oven coke and coking coal into blast furnace gas that takes place in the production of pig iron from iron ore. This activity was previously part of the steel industry. With this revision, the change has been put back to 1990.

When will new figures be published? Revised provisional figures: June/July of the following year. Definite figures: December of the second following year.

China is the largest consumer of primary energy in the world, having used some 170.7 exajoules in 2023. This is a lot more than what the United States consumed, which comes in second place. The majority of primary energy fuels worldwide are still derived from fossil fuels, such as oil and coal. China's energy mix China’s primary energy mix has shifted from a dominant use of coal to an increase in natural gas and renewable sources. Since 2013, the renewables share in total energy consumption has grown by around eight percentage points. Overall, global primary energy consumption has increased over the last decade, and it is expected to experience the largest growth in emerging economies like the BRIC countries - Brazil, Russia, India, and China. What is primary energy? Primary energy is the energy inherent in natural resources such as crude oil, coal, and wind before further transformation. For example, crude oil can be refined into secondary fuels, such as gasoline or diesel, while wind is harnessed for electricity - itself a secondary energy source. A country’s total primary energy supply is a measure of the country’s primary energy sources. Meanwhile, end use energy is the energy directly consumed by the user and includes primary fuels such as natural gas, as well as secondary sources, like electricity and gasoline.

Almost 70 percent of the global primary energy demand was met by coal, natural gas, and oil in 2022. According to projections based on the current trend of the energy sector, fossil fuels will maintain a leading role in the primary energy sector until 2050. However, a significant effort to decrease carbon emissions would determine a shift to renewable energy.

Japan Primary Energy Consumption data was reported at 5,004.881 TWh in 2022. This records a decrease from the previous number of 5,037.481 TWh for 2021. Japan Primary Energy Consumption data is updated yearly, averaging 5,194.911 TWh from Dec 1965 (Median) to 2022, with 58 observations. The data reached an all-time high of 6,352.418 TWh in 2005 and a record low of 1,831.837 TWh in 1965. Japan Primary Energy Consumption data remains active status in CEIC and is reported by Our World in Data. The data is categorized under Global Database’s Japan – Table JP.OWID.ESG: Environmental: CO2 and Greenhouse Gas Emissions: Annual.

Oil accounted for the largest share of global final energy consumption in 2022, with a 30 percent share. Overall, fossil fuel sources dominated global final energy consumption that year, with gas and coal making up another 23 percent and 27 percent, respectively.

United States Primary Energy Consumption per Capita data was reported at 77,027.836 kWh/Person in 2023. This records a decrease from the previous number of 78,347.914 kWh/Person for 2022. United States Primary Energy Consumption per Capita data is updated yearly, averaging 89,404.797 kWh/Person from Dec 1965 (Median) to 2023, with 59 observations. The data reached an all-time high of 98,110.680 kWh/Person in 1973 and a record low of 73,294.336 kWh/Person in 2020. United States Primary Energy Consumption per Capita data remains active status in CEIC and is reported by Our World in Data. The data is categorized under Global Database’s United States – Table US.OWID.ESG: Environmental: CO2 and Greenhouse Gas Emissions: Annual.

Oman Primary Energy Consumption per Capita data was reported at 91,100.969 kWh/Person in 2022. This records an increase from the previous number of 87,023.781 kWh/Person for 2021. Oman Primary Energy Consumption per Capita data is updated yearly, averaging 29,501.011 kWh/Person from Dec 1965 (Median) to 2022, with 58 observations. The data reached an all-time high of 91,100.969 kWh/Person in 2022 and a record low of 163.991 kWh/Person in 1965. Oman Primary Energy Consumption per Capita data remains active status in CEIC and is reported by Our World in Data. The data is categorized under Global Database’s Oman – Table OM.OWID.ESG: Environmental: CO2 and Greenhouse Gas Emissions: Annual.

Renewable energy consumption (% of total final energy consumption) in American Samoa was reported at 0.4 % in 2022, according to the World Bank collection of development indicators, compiled from officially recognized sources. American Samoa - Renewable energy consumption (% of total final energy consumption) - actual values, historical data, forecasts and projections were sourced from the World Bank on March of 2025.

The average for 2022 based on 190 countries was 139.5 billion kilowatthours. The highest value was in China: 8349.31 billion kilowatthours and the lowest value was in Montserrat: 0.02 billion kilowatthours. The indicator is available from 1980 to 2023. Below is a chart for all countries where data are available.

This table shows the supply, transformation and the consumption of energy in a balance sheet. Energy is released - among other things - during the combustion of for example natural gas, petroleum, hard coal and biofuels. Energy can also be obtained from electricity or heat, or extracted from natural resources, e.g. wind or solar energy. In energy statistics all these sources of energy are known as energy commodities.

The supply side of the balance sheet includes indigenous production of energy, net imports and exports and net stock changes. This is mentioned primary energy supply, because this is the amount of energy available for transformation or consumption in the country.

For energy transformation, the table gives figures on the transformation input (amount of energy used to make other energy commodities), the transformation output (amount of energy made from other energy commodities) and net energy transformation. The latter is the amount of energy lost during the transformation of energy commodities.

Then the energy balance sheet shows the final consumption of energy. First, it refers to the own use and distribution losses. After deduction of these amounts remains the final consumption of energy customers. This comprises the final energy consumption and non-energy use. The final energy consumption is the energy consumers utilize for energy purposes. It is specified for successively industry, transport and other customers, broken down into various sub-sectors. The last form of energy is the non-energy use. This is the use of an energy commodity for a product that is not energy.

Data available: From 1946.

Status of the figures: All figures up to and including 2022 are definite. Figures for 2023 are revised provisional. Figures for 2024 are provisional.

Changes as of March 19th 2025: For all reporting years the underlying code for 'Total crudes, fossil fraction' is adjusted. Figures have not been changed.

Changes as of March 17th 2025: Provisional figures of 2024 have been added.

Changes as of November 15th 2024: The structure of the table has been adjusted. This concerns the classification into energy commodities, section 'other energy commodities'. The new classification ensures that it is now exactly in line with the classification used by Eurostat when publishing the Energy Balance Sheet. This table has also been revised for 2015 to 2021 as a result of new methods that have also been applied for 2022 and 2023. This concerns the following components: final energy consumption of LPG, distribution of final energy consumption of motor gasoline and transfer of energy consumption of the nuclear industry from industry to the energy sector. The natural gas consumption of the wood and wood products industry has also been improved so that it is more comparable over time. This concerns changes of a maximum of a few PJ.

Changes as of June 7th 2024: Revised provisional figures of 2023 have been added.

Changes as of April 26th 2024:

• Provisional figures of 2023 have been added.

The energy balance has been revised for 2015 and later on a limited number of points. The most important is the following: 1. For solid biomass and municipal waste, the most recent data have been included. Furthermore data were affected by integration with figures for a new, yet to be published StatLine table on the supply of solid biomass. As a result, there are some changes in imports, exports and indigenous production of biomass of a maximum of a few PJ. 2. In the case of natural gas, an improvement has been made in the processing of data for stored LNG, which causes a shift between stock changes, imports and exports of a maximum of a few PJ. 3. Data for final energy consumption of blended biofuels per subsector in transport were incorrectly excluded. These have now been made visible.

Changes as of March 25th 2024: The energy balance has been revised and restructured. It concerns mainly a different way of dealing with biofuels that are mixed with fossil fuels.

Previously, biofuels mixed with fossil fuels were counted as petroleum crude and products. In the new energy balance, blended biofuels count for renewable energy and petroleum crude and products and the underlying products (such as gasoline, diesel and kerosene) only count the fossil part of mixtures of fossil and biogenic fuels. To make this clear, the names of the energy commodities have been adjusted. The consequence of this adjustment is that part of the energy has been moved from petroleum to renewable. The energy balance remains the same for total energy commodities. The aim of this adjustment is to make the increasing role of blended biofuels in the Energy Balance visible and to better align with the Energy Balances published by Eurostat and the International Energy Agency. Within renewable energy and biomass, pure and blended biofuels are now visible as separate energy commodities.

Greece Primary Energy Consumption per Capita data was reported at 30,268.490 kWh/Person in 2022. This records an increase from the previous number of 28,963.670 kWh/Person for 2021. Greece Primary Energy Consumption per Capita data is updated yearly, averaging 28,326.285 kWh/Person from Dec 1965 (Median) to 2022, with 58 observations. The data reached an all-time high of 37,808.297 kWh/Person in 2007 and a record low of 9,282.632 kWh/Person in 1965. Greece Primary Energy Consumption per Capita data remains active status in CEIC and is reported by Our World in Data. The data is categorized under Global Database’s Greece – Table GR.OWID.ESG: Environmental: CO2 and Greenhouse Gas Emissions: Annual.

Fossil fuels were the main source of global energy in 2022. Out of a total energy supply of over 620 exajoules, around 30 percent of it was generated by oil and another 28 percent by coal. Biofuels and waste were the largest source of renewable energy in the world.

Renewable energy consumption (% of total final energy consumption) in Dominica was reported at 8.9 % in 2022, according to the World Bank collection of development indicators, compiled from officially recognized sources. Dominica - Renewable energy consumption (% of total final energy consumption) - actual values, historical data, forecasts and projections were sourced from the World Bank on March of 2025.

Canada Primary Energy Consumption per Unit of GDP data was reported at 2.255 kWh/Intl $ in 2022. This records a decrease from the previous number of 2.270 kWh/Intl $ for 2021. Canada Primary Energy Consumption per Unit of GDP data is updated yearly, averaging 3.686 kWh/Intl $ from Dec 1965 (Median) to 2022, with 58 observations. The data reached an all-time high of 4.527 kWh/Intl $ in 1973 and a record low of 2.255 kWh/Intl $ in 2022. Canada Primary Energy Consumption per Unit of GDP data remains active status in CEIC and is reported by Our World in Data. The data is categorized under Global Database’s Canada – Table CA.OWID.ESG: Environmental: CO2 and Greenhouse Gas Emissions: Annual.