Crude Oil Production in the United States increased to 13468 BBL/D/1K in April from 13450 BBL/D/1K in March of 2025. This dataset provides the latest reported value for - United States Crude Oil Production - plus previous releases, historical high and low, short-term forecast and long-term prediction, economic calendar, survey consensus and news.

Key information about United States Crude Oil: Production

• United States Crude Oil: Production was reported at 12,927.088 Barrel/Day th in Dec 2023
• This records an increase from the previous number of 11,910.573 Barrel/Day th for Dec 2022
• US Crude Oil: Production data is updated yearly, averaging 8,135.663 Barrel/Day th from Dec 1960 to 2023, with 64 observations
• The data reached an all-time high of 12,927.088 Barrel/Day th in 2023 and a record low of 4,999.727 Barrel/Day th in 2008
• US Crude Oil: Production data remains active status in CEIC and is reported by Organization of the Petroleum Exporting Countries
• The data is categorized under World Trend Plus’s Association: Energy Sector – Table RB.OPEC.CO: Crude Oil Production: Yearly

Oil production in the United States amounted to around 857.9 million metric tons in 2024, an increase when compared to the previous year and the highest figure recorded within the period of consideration. Between 1998 and 2024, figures increased by 490 million metric tons.

Weekly Crude Oil Production in the United States decreased to 13385 Thousand Barrels Per Day in July 4 from 13433 Thousand Barrels Per Day in the previous week. This dataset includes a chart with historical data for the United States Weekly Crude Oil Production.

In 2023, oil production in the United States reached 19.4 million barrels per day, the highest value within the period of consideration. The United States currently produces more oil than any other country in the world. Why has U.S. oil production increased? As U.S. oil production has more than doubled since the 2008 recession, imports of crude oil to the United States have decreased. An upsurge in foreign oil prices during the financial crisis, particularly from OPEC countries located mainly in the Middle East, motivated the U.S. energy industry to find ways to increase production domestically. Developments in extraction technology During the recession, investors took advantage of low-interest rates to develop costly oil extraction processes such as hydraulic fracturing. Also known as “fracking,” this extraction method made it possible to access shale oil deep underground that was once out of reach. Texas and New Mexico are major sites of shale reserves and have thus become the two largest oil-producing states in the country.

North America's oil production amounted to 27.1 million barrels per day in 2023, up from some 25.4 million barrels daily in the prior year. Between 1998 and 2022, figures increased by nearly 12.9 thousand barrels per day.

Crude Oil rose to 68.75 USD/Bbl on July 11, 2025, up 3.27% from the previous day. Over the past month, Crude Oil's price has risen 1.04%, but it is still 16.37% lower than a year ago, according to trading on a contract for difference (CFD) that tracks the benchmark market for this commodity. Crude Oil - values, historical data, forecasts and news - updated on July of 2025.

This data release contains several datasets that provide an overview of oil and gas well history and production of the United States, from 1817 to September 1, 2022. Well history data is aggregated into 1-mile and 10-mile squares indicating the total number of wells and counts of wells classified as oil, gas, dry, injection, hydraulically fractured, and/or horizontal wells. Well history is also separated into layers binned on 1-year increments from a well's spud date (date drilling commenced). Production data is aggregated in 2-mile and 10-mile squares that sum the total production of oil, gas, and water volumes. Production data is also separated into layers binned on 1-year increments to reflect the year of production. These aggregations are compiled from data from IHS Markit, which is a proprietary, commercial database. No proprietary data is contained in this release. This data release was updated May 2023 to reflect an offset of 1 year on the original release.

Key information about United States Oil Consumption

• United States Oil Consumption was reported at 18,983.557 Barrel/Day th in Dec 2023
• This records an increase from the previous number of 18,862.210 Barrel/Day th for Dec 2022
• US Oil Consumption data is updated yearly, averaging 17,634.400 Barrel/Day th from Dec 1965 to 2023, with 59 observations
• The data reached an all-time high of 20,531.482 Barrel/Day th in 2005 and a record low of 11,512.436 Barrel/Day th in 1965
• US Oil Consumption data remains active status in CEIC and is reported by BP PLC
• The data is categorized under World Trend Plus’s Association: Energy Sector – Table RB.BP.OIL: Oil: Consumption

Texas is by far the largest oil-producing state in the United States. In 2024, Texas produced a total of over two billion barrels. In a distant second place is New Mexico, which produced 744.6 million barrels in the same year. Virginia is the smallest producing state in the country, at three thousand barrels. Macro perspective of U.S. oil production The U.S. oil production totaled some 19.4 million barrels of oil per day, or a total annual oil production of 827 million metric tons in 2023. As the largest oil producer in the U.S., it is not surprising that Texas is home to the most productive U.S. oil basin, the Permian. The Permian has routinely accounted for at least 50 percent of total onshore production. Regional distribution of U.S. oil production A total of 32 of the 50 U.S. states produce oil. There are five regional divisions for oil production in the U.S., known as the Petroleum Administration for Defense Districts (PADD). These five regional divisions of the allocation of fuels derived from petroleum products were established in the U.S. during the Second World War and they are still used today for data collection purposes. In line with the fact that Texas is by far the largest U.S. oil producing state, PADD 3 (Gulf Coast) is also the largest oil producing PADD, as it also includes the federal offshore region in the Gulf of Mexico. There are around 590 operational oil and gas rigs in the country as of February 2025.

This dataset provides values for CRUDE OIL PRODUCTION reported in several countries. The data includes current values, previous releases, historical highs and record lows, release frequency, reported unit and currency.

This digital dataset contains historical geochemical and other information for 200 samples of produced water from 182 sites in 25 oil fields in Los Angeles and Orange Counties, southern California. Produced water is a term used in the oil industry to describe water that is produced as a byproduct along with the oil and gas. The locations from which these historical samples have been collected include 152 wells. Well depth and (or) perforation depths are available for 114 of these wells. Sample depths are available for two additional wells in lieu of well or perforation depths. Additional sample sites include four storage tanks, and two unidentifiable sample sources. One of the storage tank samples (Dataset ID 57) is associated with a single identifiable well. Historical samples from other storage tanks and unidentifiable sample sources may also represent pre- or post-treated composite samples of produced water from single or multiple wells. Historical sample descriptions provide further insight about the site type associated with some of the samples. Twenty-four sites, including 21 wells, are classified as "injectate" based on the sample description combined with the designated well use at the time of sample collection (WD, water disposal or WF, water flood). Historical samples associated with these sites may represent water that originated from sources other than the wells from which they were collected. For example, samples collected from two wells (Dataset IDs 86 and 98) include as part of their description “blended and treated produced water from across the field”. Historical samples described as formation water (45 samples), including 38 wells with a well type designation of OG (oil/gas), are probably produced water, representing a mixture of formation water and water injected for enhanced recovery. A possible exception may be samples collected from OG wells prior to the onset of production. Historical samples from four wells, including three with a sample description of "formation water", were from wells identified as water source wells which access groundwater for use in the production of oil. The numerical water chemistry data were compiled by the U.S. Geological Survey (USGS) from scanned laboratory analysis reports available from the California Geologic Energy Management Division (CalGEM). Sample site characteristics, such as well construction details, were attributed using a combination of information provided with the scanned laboratory analysis reports and well history files from CalGEM Well Finder. The compiled data are divided into two separate data files described as follows: 1) a summary data file identifying each site by name, the site location, basic construction information, and American petroleum Institute (API) number (for wells), the number of chemistry samples, period of record, sample description, and the geologic formation associated with the origin of the sampled water, or intended destination (formation into which water was to intended to be injected for samples labeled as injectate) of the sample; and 2) a data file of geochemistry analyses for selected water-quality indicators, major and minor ions, nutrients, and trace elements, parameter code and (or) method, reporting level, reporting level type, and supplemental notes. A data dictionary was created to describe the geochemistry data file and is provided with this data release.

Graph and download economic data for All Employees, Oil and Gas Extraction (CES1021100001) from Jan 1972 to Jun 2025 about extraction, logging, oil, mining, gas, establishment survey, employment, and USA.

Global oil production amounted to ************ barrels per day in 2024. The level of oil production reached an all-time high in 2024. However, the coronavirus pandemic and its impact on transportation fuel demand led to a notable decline in 2020. Rising production and consumption Apart from events surrounding global economic crisis as in the late 2000's and 2020, oil production consistently increased every year for the past two decades. Similarly, global oil consumption only decreased in 2008, 2009, and 2020, but has otherwise increased to a higher level year after year. Oil and oil products remain invaluable commodities as most transportation fuels are petroleum-based and oil is a major raw material for the chemicals industry. Production by region and country While total production is rising, regional distribution has shifted, with the share of production declining the most in Europe and the Commonwealth of Independent States (CIS) since 2008, and rising the most in North America. Even though as a region the Middle East still produces the largest share of oil worldwide, the United States is currently the worl'ds largest producer of oil, followed by Saudi Arabia and Russia.

The U.S. has consistently been the largest oil market in the world for over a century, and the vast majority of oil produced has been for its domestic market. However, the domestic supply has rarely been able to meet domestic demand, and foreign oil prices are often lower (even after taxes and shipping), therefore large quantities of oil have had to be imported from overseas. Apart from the period surrounding the World Wars and Great Depression, the U.S., has been a net importer of oil for over a century, even prohibiting the majority of its crude oil from being exported between 1975 and 2015. However, thanks to the discovery of new oil reserves, new technologies, and developments in the unconventional oil industry (such as fracking, horizontal drilling, or shale refinement), the U.S. may be on course to become a net exporter of oil in the 2020s, the decade after it lifted its export ban.

Graph and download economic data for Gross Domestic Product: Oil and Gas Extraction (211) in the United States (USOILGASNGSP) from 1997 to 2023 about extraction, oil, mining, gas, GSP, private industries, private, industry, GDP, and USA.

This digital dataset contains historical geochemical and other information for 271 samples of produced water from 143 sites in or near the San Ardo Oil Field in Monterey County, central California. Produced water is a term used in the oil industry to describe water that is produced from oil wells as a byproduct along with the oil and gas. The locations from which these historical samples have been collected include 101 wells; three wells (DataSet_ID 118 ,125, and 130) are located outside of the administrative boundary, but closer to San Ardo (within 3 miles) than any other oil field, and therefore they were included in this dataset. Well depth, perforation depths, and (or) depths referred to on geochemistry reports as interval of zone produced, are available for 97 of these wells. Additional sample sites include 11 storage tanks, and 31 unidentifiable sample sources. Designated well use and sample descriptions provide further insight about what the samples represent. The well use designation of most of the wells (79) is OG (oil/gas) and the samples (188) associated with these wells represent produced water. Samples from two wells (Dataset ID 28 and 130) are described as formation water. One well (Dataset ID 30) was drilled as a water-source well (WS) and used to supply groundwater in support of oil production at the time it was sampled, but later converted to an injection well. Another well (Dataset ID 103) was originally drilled as an oil well, but later abandoned and converted to an irrigation well prior to sampling. Eighteen wells have a site type designation of "injectate" based on the sample description combined with the designated well use at the time of sample collection (SF, steam flood; WD, water disposal; or WF, water flood). Most of the historical samples associated with injectate sites may represent water that originated from sources other than the wells at which they were collected. However, samples from two of these wells (Dataset ID 16 and 76) likely represent produced water as they were sampled prior to the wells being used for injection. Limited information is available about historical samples from storage tanks and unidentifiable sample sources, but these may represent pre- or post-treated composite samples of produced water from single or multiple wells. The numerical water chemistry data were compiled by the U.S. Geological Survey (USGS) from scanned laboratory analysis reports available from the California Geologic Energy Management Division (CalGEM). Sample site characteristics, such as well construction details, were attributed using a combination of information provided with the scanned laboratory analysis reports and well history files from CalGEM Well Finder. The compiled data are divided into two separate data files described as follows: 1) a summary data file identifying each site by name, the site location, basic construction information, and American petroleum Institute (API) number (for wells), the number of chemistry samples, period of record, sample description, and the geologic formation associated with the origin of the sampled water, or intended destination (formation into which water was to intended to be injected for samples labeled as injectate) of the sample; and 2) a data file of geochemistry analyses for selected water-quality indicators, major and minor ions, nutrients, and trace elements, parameter code and (or) method, reporting level, reporting level type, and supplemental notes. A data dictionary was created to describe the geochemistry data file and is provided with this data release.

This dataset contains historical monthly production disposition volumes from ONRR’s OGOR-B form. These volumes come from the production of oil and gas. Natural resources are extracted from federal lands, federal waters, and Native American lands. Federal production volumes are available by state, county, and offshore area. Location data is withheld for Native American data. The dataset is tracked and managed by the Department of the Interior’s Office of Natural Resources Revenue. It contains monthly production disposition data from January 2003 - December 2013.

In 2024, Dubai Fateh had an average price of 79.61 U.S. dollars per barrel, down from the 82.09 U.S. dollars per barrel compared to the previous year. Dubai Crude (Fateh) oil price Dubai Crude (Fateh) is the most important crude oil benchmark for Asia. Dubai Crude originated in Dubai in the Persian Gulf. Another name for this crude oil is Fateh. The name Fateh comes from an offshore oil field, located some 60 miles from Dubai, and is, therefore, part of the United Arab Emirates. One of the advantages of Dubai Crude compared to other Persian Gulf crude oils, and a main reason why it is used as an oil marker, is its instant availability. Dubai Crude, behind West Texas Intermediate (WTI) and UK Brent, is one of the lighter crude oils. On the other hand, Dubai Crude contains some two percent of sulphur, and thus is part of the so-called sour crude oils. In comparison, UK Brent contains 0.37 percent of sulphur, which means it is a so-called sweet crude oil. The refining of sour and heavier oils is always more expensive than it is for sweeter and lighter oils. Dubai Crude, the same as OPEC oils, is mostly refined and traded in the Asian region. The other two crucial oil benchmarks are West Texas Intermediate (WTI), which is especially important for North America, and UK Brent (Brent Crude), which dominates the European oil market. Such benchmarks are essential for referencing the many types and grades of oil on the worldwide market.With the exception of the years 2009 and 2010, there was a stable increase in the price for one barrel of Dubai-Fateh crude oil in the last ten years, until 2015, when the price dropped by half. The mean price per barrel stood at approximately 24 U.S. dollars in 2002. By 2012, this price had increased to more than 109 U.S. dollars, but dropped to 51.20 U.S. dollars per barrel 2015.