Energy Resources Program
Thursday, November 19, 2015
USGS Publication: Fact Sheet 2015-3072
Using a geology-based assessment methodology, the U.S. Geological Survey estimated means of 459 million barrels of shale oil, 275 billion cubic feet of associated gas, and 23 million barrels of natural gas liquids in the Central Sumatra Basin, Indonesia.
Thursday, October 15, 2015
USGS Publication: Fact Sheet 2015-3053
Using a geology-based assessment methodology, the U.S. Geological Survey estimated a mean of 23.9 trillion cubic feet of technically recoverable shale gas resources in Paleozoic formations in the Sichuan Basin of China.
Friday, June 26, 2015
Tuesday, April 14, 2015
USGS Publication: FS 2015-3016
Using a geology-based assessment methodology, the U.S. Geological Survey estimated means of 222 million barrels of unconventional oil; 2,092 billion cubic feet of unconventional gas; 18 million barrels of conventional oil; and 47 billion cubic feet of conventional gas resources in the Paris Basin of France.
Monday, April 06, 2015
USGS Publication: Fact Sheet 2015-3015
The U.S. Geological Survey estimated mean volumes of undiscovered, technically recoverable resources of 282 million barrels of conventional oil, 576 billion cubic feet of conventional gas, 1.3 billion barrels of continuous oil, and 4.6 trillion cubic feet of shale gas in the Baltic Depression Province.
Tuesday, February 24, 2015
USGS Publication: Fact Sheet 2015-3006
The U.S. Geological Survey (USGS) quantitatively assessed the potential for unconventional (continuous) oil and gas resources within the Jurassic Sargelu Formation of Iraq. Organic-rich shales of the Jurassic Sargelu Formation are one of the main petroleum source rocks for conventional fields in the Arabian Peninsula.
Wednesday, October 01, 2014
Outside Publication: Geochimica et Cosmochimica Acta
In the Phuong Dong gas condensate field, Cuu Long Basin, Vietnam, hydrocarbon inclusions in quartz trapped a variety of petroleum fluids in the gas zone. Based on the attributes of the oil inclusion assemblages (fluorescence colour of the oil, bubble size, presence of bitumen), the presence of a palaeo-oil column is inferred prior to migration of gas into the reservoir. When a palaeo-oil column is displaced by gas, a residual volume fraction of oil remains in pores....
Wednesday, September 24, 2014
USGS Publication: Fact Sheet 2014–3082Using a geology-based assessment methodology, the U.S. Geological Survey estimated means of 11 million barrels of potential shale-oil and 320 billion cubic feet of shale-gas resources in Silurian shales of Jordan.
Friday, August 15, 2014
USGS Publication: Fact Sheet 2014–3047
Using a geology-based assessment methodology, the U.S. Geological Survey estimated means of 0.78 billion barrels of unconventional oil, 23.5 trillion cubic feet of unconventional gas, and 0.88 billion barrels of natural gas liquids in the Sabinas Basin, Burgos Basin, and Tampico-Misantla Basin provinces of northeast Mexico.
The USGS World Energy Project conducts geologic studies that provide an understanding of the quantity, quality, and geologic distribution of world oil and gas resources. Our geologic studies are conducted in an impartial manner and are performed in collaboration and partnership with energy experts within and outside government. Through synthesis and improved understanding of global oil and gas data, we shall establish a geologic basis for predicting energy production trends, we shall discuss logical implications and consequences of energy occurrence for public policy, and we shall provide for the education of society about energy issues.
Energy is critical to the health and vitality of U.S. and world societies. Historically, prosperity has been directly correlated with energy use. However, energy resources are unevenly distributed throughout the world, and exploration and development of those energy resources is risky. Some have argued that conflicting needs for sources of energy have been the principal causes for major world conflicts in the twentieth century. The World Energy Project provides geologic information and resource assessments which help reduce some of the risks and may directly impact public policy.
Credible scientific information on the abundance and geologic distribution of energy is critically needed for two ongoing national struggles. The first struggle has been for U.S. energy self sufficiency, particularly for petroleum. The U.S. is currently highly dependent upon other nations for the oil that constitutes approximately 50% of our energy use. The United States is an enormous producer of energy. We are currently the world's largest producer of oil, nuclear, and hydro power combined, and the second largest producer of natural gas and coal. However, the United States alone uses approximately one quarter of the world's supply of energy, but has only about 5% of the world’s population. As of early 2000, the U.S. consumes almost 12 million barrels daily more energy than we produce (in oil equivalent); the shortfall is made up by imported oil. Despite the most technologically advanced exploration and production systems in the world operating in a deregulated environment, U.S. oil and NGL reserves have decreased 30 percent from the high in 1970. The primary reason petroleum reserves have not fallen further is the technological advances in exploration and production that provide additional reserves through the phenomenon of reserve growth. According to the Energy Information Administration, over the past fifteen years an additional million barrels of oil per day has been required to meet world energy demands. Survival of the oil industry within the U.S. today is a story of increasing the life of old fields technologically or exploring in very expensive areas such as the deep Gulf of Mexico or the Arctic.
The second energy struggle is outside the U.S. This struggle is economic, political, and technological, and is waged on the field of uneven geologic distribution of energy resources. The ongoing struggle for energy has been manifested in a military conflict in the Middle East, political struggles in the Former Soviet Union, and financial struggles throughout the world. In order to maintain prosperity, the United States seeks to fill its growing demand for energy internationally. The risks in other energy-rich areas of the world are numerous. New political, financial, and technical risks are added to all the risks traditionally associated with exploration and production of energy. U.S. petroleum companies have increasingly chosen to take their risks internationally because they feel that the greater financial risk overseas is offset by the potential for greater financial rewards. The immense aggregate risks overseas compound the overall financial risk to the Nation of the increasing cost of importing oil. More dollars are spent on buying foreign oil than on buying foreign cars.
The USGS World Energy Project provides public information and analysis to companies, investors and policy makers alike. Basic information for petroleum resource assessment in foreign lands, if available, is difficult to obtain. In the past only large multinational companies have performed such surveys and then only for the benefit of the individual company. USGS products are available to the public; industry, private investors, and the government have already indicated considerable interest.
The essence of the argument for the study of petroleum resources worldwide was captured in the recent strategic plan for the USGS in the Year 2005, where it was determined that increasing emphasis on international mineral and energy studies will be matched by decreasing emphasis on domestic mineral and energy studies. Outside the USGS, as noted above, this change has already taken place. The USGS World Energy Project provides science-based, impartial, comprehensive information for decision makers, policy makers, and the scientific and industrial community to help ensure that the U.S. has a stable supply of energy for future economic and societal needs.
The World Petroleum Assessment Team has recently been updating assessments conducted during the comprehensive 2000 assessment as well as conducting new ones in areas around the world that were not examined previously. This work is being conducted using the latest assessment methodologies for both continuous as well as conventional resources.
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The U.S. Geological Survey (USGS) has completed an assessment of undiscovered conventional oil and gas resources in all areas north of the Arctic Circle. Using a geology based probabilistic methodology, the USGS estimated the occurrence of undiscovered oil and gas in 33 geologic provinces thought to be prospective for petroleum. The sum of the mean estimates for each province indicates that 90 billion barrels of oil, 1,669 trillion cubic feet of natural gas, and 44 billion barrels of natural gas liquids may remain to be found in the Arctic, of which approximately 84 percent is expected to occur in offshore areas.
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The USGS undertook this world petroleum assessment in order to provide impartial, scientifically based, societally relevant petroleum-resource information essential to the economic and strategic security of the United States. This assessment is based on extensive geologic studies as opposed to statistical analysis. A team of more than 40 geoscientists and additional supporting staff conducted the study over a five-year period from 1995 to 2000. The petroleum assessed occurs in fields exceeding a stated minimum size, which varies between 1 and 20 million barrels of oil equivalent in different areas, and in accumulation categories judged to be viable in a 30-year forecast span.
Tabular and spatial data in support of the 2012 World Assessment have been released and are available at: http://pubs.usgs.gov/dds/dds-069/dds-069-ff/
These data files are from the fourth CD-ROM of a four CD-ROM set documenting and supporting the USGS World Petroleum Assessment 2000–Description and Results report. The fourth CD-ROM contains archival data and supporting software permitting the user to query databases and perform further analysis. Access to these data can be found here.
Spatial Data [+]
Assessment Tables [+]
Data Tables from World Petroleum Assessment 2000 (DDS 60)
The following files contain the supporting data for the World Petroleum Assessment and are the source for the various plots, data tables, and summary tables used in this report.
Monte Carlo Simulation Programs [+]
Monte Carlo Simulation programs - from Chapter MC, World Petroleum Assessment 2000 (DDS 60)
README Files [+]
Readme Files - World Petroleum Assessment 2000 (DDS 60)
HP2 Plot Files from World Petroleum Assessment 2000 (DDS60)
In support of the 2000 World Petroleum Assessment (DDS60), a series of geologic maps were captured, resulting in near global coverage of coarse resolution surface geology. Each of these maps were published as Open-File Reports on CD but are available for use in a variety of formats.
Petroleum Resource Potential GIS of Northern Afghanistan -- http://pubs.usgs.gov/of/2006/1179/
Aeromagnetic and Gravity Surveys in Afghanistan: A Web Site for Distribution of Data -- http://pubs.usgs.gov/of/2006/1204
Aeromagnetic Survey in Western Afghanistan: A Web Site for Distribution of Data -- http://pubs.usgs.gov/of/2006/1325
Radiometric Survey in Western Afghanistan: A Website for Distribution of Data -- http://pubs.usgs.gov/of/2007/1042/index.html
Airborne Gravity Survey and Ground Gravity in Afghanistan: A Website for Distribution of Data -- http://pubs.usgs.gov/of/2008/1089
Aeromagnetic Survey in Afghanistan: A Website for Distribution of Data -- http://pubs.usgs.gov/of/2007/1247/html/afghan_mag.html
Aeromagnetic Surveys in Afghanistan: An Updated Website for Distribution of Data -- http://pubs.usgs.gov/of/2011/1055
Identification of Mineral Resources in Afghanistan - Detecting and Mapping Resource Anomalies in Prioritized Areas Using Geophysical and Remote Sensing (ASTER and HyMap) Data -- http://pubs.usgs.gov/of/2011/1229
Notes on Interpretation of Geophysical Data Over Areas of Mineralization in Afghanistan -- http://pubs.usgs.gov/of/2011/1258
USGS Projects In Afghanistan
Page Last Modified: Thursday, May 11, 2017