Monthly data since January 1973 and annual data since 1949 on U.S. primary and total energy consumption by end-use sector (residential, commercial, industrial, transportation) and electric power sector.

United States Electricity Consumption data was reported at 10.243 kWh/Day bn in Mar 2025. This records a decrease from the previous number of 11.765 kWh/Day bn for Feb 2025. United States Electricity Consumption data is updated monthly, averaging 9.940 kWh/Day bn from Jan 1991 (Median) to Mar 2025, with 411 observations. The data reached an all-time high of 13.179 kWh/Day bn in Jul 2024 and a record low of 7.190 kWh/Day bn in Apr 1991. United States Electricity Consumption data remains active status in CEIC and is reported by U.S. Energy Information Administration. The data is categorized under Global Database’s United States – Table US.RB004: Electricity Supply and Consumption. [COVID-19-IMPACT]

The statistic represents the average annual electricity consumption of non-commercial customers in the United States between 1990 and 2017. In 2017, the average annual energy consumption per residential customer was 10,300 kilowatt hours.

Electricity usage varies significantly between U.S. cities. In 2017, Miami had the highest average monthly electricity usage with 1,125 kilowatt hours used on average. San Francisco had the lowest average usage with just 261 kilowatt hours.

Electricity in the U.S.

Electricity is used as a power source for a variety of things in the U.S. including cooling, technology, and some transportation. Electricity is generated from a variety of sources. Globally, coal/peat/oil shale accounts for the largest share of the world’s electricity production. The electricity generating capacity in the U.S. has grown significantly in recent years and is expected to continue to grow.

Energy Usage in the U.S.

Energy consumption in the U.S. shows distinct trends. Primary energy consumption in the U.S. has remained stable since 1998 with some decreases in recent years. However, some sectors consume more than others. In recent years, the electric power sector consumed the largest quantity of energy generated in the U.S.. Sources of energy are also used differently. As of 2018, petroleum and natural gas are the most commonly consumed energy sources in the United States.

Texas is the leading electricity-consuming state in the United States. In 2022, the state consumed roughly 475 terawatt-hours of electricity. California and Florida followed in second and third, each consuming approximately 250 terawatt-hours.

The City and County Energy Profiles lookup table provides modeled electricity and natural gas consumption and expenditures, on-road vehicle fuel consumption, vehicle miles traveled, and associated emissions for each U.S. city and county. Please note this data is modeled and more precise data may be available from regional, state, or other sources. The modeling approach for electricity and natural gas is described in Sector-Specific Methodologies for Subnational Energy Modeling: https://www.nrel.gov/docs/fy19osti/72748.pdf. This data is part of a suite of state and local energy profile data available at the "State and Local Energy Profile Data Suite" link below and complements the wealth of data, maps, and charts on the State and Local Planning for Energy (SLOPE) platform, available at the "Explore State and Local Energy Data on SLOPE" link below. Examples of how to use the data to inform energy planning can be found at the "Example Uses" link below.

United States Total Energy Consumption data was reported at 93.691 BTU qn in 2023. This records a decrease from the previous number of 94.812 BTU qn for 2022. United States Total Energy Consumption data is updated yearly, averaging 92.977 BTU qn from Dec 1980 (Median) to 2023, with 44 observations. The data reached an all-time high of 98.965 BTU qn in 2007 and a record low of 70.489 BTU qn in 1983. United States Total Energy Consumption data remains active status in CEIC and is reported by U.S. Energy Information Administration. The data is categorized under Global Database’s United States – Table US.EIA.IES: Energy Production and Consumption: Annual.

Annual data back to 2003 at the national level for electricity generation; capacity; consumption and cost of fossil fuels; sales, price and revenue; emissions; demand-side management; and operating revenues, expenses, and income. Based on Form EIA-860 and Form EIA-861 data.

In 2023, the residential sector consumed an estimated 1450 terawatt-hours of electricity in the United States, the largest consuming sector in the country. It was closely followed by the commercial sector. In contrast, the transportation sector was the least power demanding sector, with some 6.9 terawatt-hours consumed.

China Electricity Consumption: per Capita: Average data was reported at 6,257.000 kWh in 2022. This records an increase from the previous number of 6,032.000 kWh for 2021. China Electricity Consumption: per Capita: Average data is updated yearly, averaging 1,066.997 kWh from Dec 1978 (Median) to 2022, with 45 observations. The data reached an all-time high of 6,257.000 kWh in 2022 and a record low of 261.265 kWh in 1978. China Electricity Consumption: per Capita: Average data remains active status in CEIC and is reported by National Bureau of Statistics. The data is categorized under China Premium Database’s Utility Sector – Table CN.RCB: Electricity Summary.

The average for 2022 based on 20 countries was 72.54 billion kilowatthours. The highest value was in Brazil: 582.71 billion kilowatthours and the lowest value was in Haiti: 0.86 billion kilowatthours. The indicator is available from 1980 to 2023. Below is a chart for all countries where data are available.

Iceland is by far the largest per capita consumer of electricity worldwide, averaging 51.9 megawatt-hours per person in 2024. This results from a combination of factors, such as low-cost electricity production, increased heating demand, and the presence of energy-intensive industries in the country. Norway, Qatar, and Canada were also some of the world's largest electricity consumers per capita that year. China is the leading overall power consumer Power-intensive industries, the purchasing power of the average citizen, household size, and general power efficiency standards all contribute to the amount of electricity that is consumed per person every year. However, in terms of total electricity consumption, a country's size and population can also play an important role. In 2024, the three most populous countries in the world, namely China, the United States, and India, were also the three largest electricity consumers. Global electricity consumption on the rise In 2023, net electricity consumption worldwide amounted to over 27,000 terawatt-hours, an increase of 30 percent in comparison to a decade earlier. When compared to 1980, global electricity consumption more than tripled. On the generation side, the world is still strongly dependent on fossil fuels. Despite the world's renewable energy capacity quintupling in the last decade, coal and gas combined still accounted for almost 60 percent of global electricity generation in 2023.

The USA: Electricity consumption percent of world total: The latest value from 2023 is 15.163 percent, a decline from 15.575 percent in 2022. In comparison, the world average is 0.529 percent, based on data from 189 countries. Historically, the average for the USA from 1980 to 2023 is 25.395 percent. The minimum value, 15.163 percent, was reached in 2023 while the maximum of 37.585 percent was recorded in 1981.

United States US: Renewable Energy Consumption: % of Total Final Energy Consumption data was reported at 8.717 % in 2015. This records a decrease from the previous number of 8.754 % for 2014. United States US: Renewable Energy Consumption: % of Total Final Energy Consumption data is updated yearly, averaging 5.454 % from Dec 1990 (Median) to 2015, with 26 observations. The data reached an all-time high of 8.754 % in 2014 and a record low of 4.089 % in 1994. United States US: Renewable Energy Consumption: % of Total Final Energy Consumption data remains active status in CEIC and is reported by World Bank. The data is categorized under Global Database’s USA – Table US.World Bank: Energy Production and Consumption. Renewable energy consumption is the share of renewables energy in total final energy consumption.; ; World Bank, Sustainable Energy for All (SE4ALL) database from the SE4ALL Global Tracking Framework led jointly by the World Bank, International Energy Agency, and the Energy Sector Management Assistance Program.; Weighted Average;

US: Electric Power Consumption: per Capita data was reported at 12,984.333 kWh in 2014. This records a decrease from the previous number of 12,996.845 kWh for 2013. US: Electric Power Consumption: per Capita data is updated yearly, averaging 10,886.858 kWh from Dec 1960 (Median) to 2014, with 55 observations. The data reached an all-time high of 13,704.577 kWh in 2005 and a record low of 4,049.787 kWh in 1960. US: Electric Power Consumption: per Capita data remains active status in CEIC and is reported by World Bank. The data is categorized under Global Database’s United States – Table US.World Bank.WDI: Energy Production and Consumption. Electric power consumption measures the production of power plants and combined heat and power plants less transmission, distribution, and transformation losses and own use by heat and power plants.; ; IEA Statistics © OECD/IEA 2014 (http://www.iea.org/stats/index.asp), subject to https://www.iea.org/t&c/termsandconditions/; Weighted average; Restricted use: Please contact the International Energy Agency for third-party use of these data.

The USA: Primary energy consumption: The latest value from 2023 is 93.691 quadrillion Btu, a decline from 94.812 quadrillion Btu in 2022. In comparison, the world average is 3.088 quadrillion Btu, based on data from 190 countries. Historically, the average for the USA from 1980 to 2023 is 88.987 quadrillion Btu. The minimum value, 70.489 quadrillion Btu, was reached in 1983 while the maximum of 98.965 quadrillion Btu was recorded in 2007.

The average for 2023 based on 25 countries was 0.755 percent. The highest value was in the USA: 15.163 percent and the lowest value was in Montserrat: 0 percent. The indicator is available from 1980 to 2023. Below is a chart for all countries where data are available.

Note: This dataset has been superseded by the dataset found at "End-Use Load Profiles for the U.S. Building Stock" (submission 4520; linked in the submission resources), which is a comprehensive and validated representation of hourly load profiles in the U.S. commercial and residential building stock. The End-Use Load Profiles project website includes links to data viewers for this new dataset. For documentation of dataset validation, model calibration, and uncertainty quantification, see Wilson et al. (2022).

These data were first created around 2012 as a byproduct of various analyses of solar photovoltaics and solar water heating (see references below for are two examples). This dataset contains several errors and limitations. It is recommended that users of this dataset transition to the updated version of the dataset posted in the resources. This dataset contains weather data, commercial load profile data, and residential load profile data.

Weather The Typical Meteorological Year 3 (TMY3) provides one year of hourly data for around 1,000 locations. The TMY weather represents 30-year normals, which are typical weather conditions over a 30-year period.

Commercial The commercial load profiles included are the 16 ASHRAE 90.1-2004 DOE Commercial Prototype Models simulated in all TMY3 locations, with building insulation levels changing based on ASHRAE 90.1-2004 requirements in each climate zone. The folder names within each resource represent the weather station location of the profiles, whereas the file names represent the building type and the representative city for the ASHRAE climate zone that was used to determine code compliance insulation levels. As indicated by the file names, all building models represent construction that complied with the ASHRAE 90.1-2004 building energy code requirements. No older or newer vintages of buildings are represented.

Residential The BASE residential load profiles are five EnergyPlus models (one per climate region) representing 2009 IECC construction single-family detached homes simulated in all TMY3 locations. No older or newer vintages of buildings are represented. Each of the five climate regions include only one heating fuel type; electric heating is only found in the Hot-Humid climate. Air conditioning is not found in the Marine climate region.

One major issue with the residential profiles is that for each of the five climate zones, certain location-specific algorithms from one city were applied to entire climate zones. For example, in the Hot-Humid files, the heating season calculated for Tampa, FL (December 1 - March 31) was unknowingly applied to all other locations in the Hot-Humid zone, which restricts heating operation outside of those days (for example, heating is disabled in Dallas, TX during cold weather in November). This causes the heating energy to be artificially low in colder parts of that climate zone, and conversely the cooling season restriction leads to artificially low cooling energy use in hotter parts of each climate zone. Additionally, the ground temperatures for the representative city were used across the entire climate zone. This affects water heating energy use (because inlet cold water temperature depends on ground temperature) and heating/cooling energy use (because of ground heat transfer through foundation walls and floors). Representative cities were Tampa, FL (Hot-Humid), El Paso, TX (Mixed-Dry/Hot-Dry), Memphis, TN (Mixed-Humid), Arcata, CA (Marine), and Billings, MT (Cold/Very-Cold).

The residential dataset includes a HIGH building load profile that was intended to provide a rough approximation of older home vintages, but it combines poor thermal insulation with larger house size, tighter thermostat setpoints, and less efficient HVAC equipment. Conversely, the LOW building combines excellent thermal insulation with smaller house size, wider thermostat setpoints, and more efficient HVAC equipment. However, it is not known how well these HIGH and LOW permutations represent the range of energy use in the housing stock.

Note that on July 2nd, 2013, the Residential High and Low load files were updated from 366 days in a year for leap years to the more general 365 days in a normal year. The archived residential load data is included from prior to this date.