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О Сланцевом газе. 7. Barnett Shale Still Has Lots of Life

June 27, 2011
Barnett Shale Still Has Lots of Life

Figure 1: Shale gas production in North America – A view in late 2009 presented at the Dallas Fed

Figure 2: Shale gas production in North America – A view in early 2011 presented to the AAPG

О сланцевом газе. 6

Shale gas and U.S. national security

Pdf

UsgsAssessment: Undiscovered PetroleumResources of the North and East Margins of the Siberian Craton

May 2008


http://pubs.usgs.gov/fs/2008/3020/
http://pubs.usgs.gov/fs/2008/3020/pdf/FS08-3020_508.pdf

Per Capita Oil

Peak Oil Per Capita

A reader asks to see a graph of global oil supply per capita — here it is. The global population data are from the US census bureau, and the oil supply data are from ASPO through 1979 and EIA total liquids after that (the two sources agree to within a percent or so in the overlap).
http://earlywarn.blogspot.com/2011/09/peak-oil-per-capita.html

Per Capita Oil Consumption Around the World

Following up on yesterday’s post of global oil production per capita, the above graph shows oil consumption per capita for an illustrative selection of countries around the world (along with the world line in black for comparison). You can see that the developed countries all had peak consumption in the 1970s, fell in the early 1980s, then were flat for a while and began declining again. In Europe, that second decline began in the mid 90s and has been gradual. In the US it started in 2005 and has been rather abrupt.


http://earlywarn.blogspot.com/2011/09/per-capita-oil-consumption-around-world.html

World Per Capita Oil Consumption 1965 — 2009

The per capita consumption of oil and total primary energy were calculated for the world using data derived from the BP Statistical Review of World Energy (Web: http://www.bp.com) and the CIA World Factbook. (Web: http://www.cia.gov/publications/the-world-factbook/index.htm).
The average value for the 27 years inclusive from 1983-2009 was 4.54 bbl/P/Y with a standard deviation of 0.10 bbl/P/Y.


http://pages.ca.inter.net/~jhwalsh/oilcapv3pages.pdf

17.09.2011
1 trillion — Number of barrels of oil produced since the start of the industry
1.4 trillion — Estimated number of barrels currently considered technically and economically accessible—out of 5 trillion total barrels of petroleum resources in the ground
30% — Increase in annual world oil production since 1978

http://online.wsj.com/article/SB10001424053111904060604576572552998674340.html

21.09.2011
There will be peak oil
http://www.energybulletin.net/stories/2011-09-21/there-will-be-peak-oil
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Реклама авто США 1939-1969
http://www.darkroastedblend.com/2007/01/cars-girls-american-vintage-ads.html

Usgs Assessment:Undiscovered Oil and Gas Resources of the West Siberian Basin Province, Russia, 2010


http://pubs.usgs.gov/fs/2011/3050/
http://pubs.usgs.gov/fs/2011/3050/pdf/fs2011-3050.pdf

Usgs Assessment: Undiscovered Oil and Gas Resources of Libya and Tunisia, 2010

Using a geology-based assessment methodology, the U.S. Geological Survey estimated means of 3.97 billion barrels of undiscovered oil, 38.5 trillion cubic feet of undiscovered natural gas, and 1.47 billion barrels of undiscovered natural gas liquids in two provinces of North Africa.

Introduction
The U.S. Geological Survey (USGS) assessed the potential for undiscovered conventional oil and gas fields within two geologic provinces of North Africa―Sirte Basin in Libya and Pelagian Basin in Tunisia and western Libya―as part of the USGS World Petroleum Resources Project (fig. 1). The Sirte Basin originated as a Cretaceous rift that evolved into a post-rift basin dominated by thermal subsidence; it is characterized by carbonate deposition on high blocks and fine-grained clastic deposition in troughs.

The Pelagian Basin was dominated by Mesozoic and Cenozoic subsidence related to tectonism along the northern margin of the African plate. One total petroleum system (TPS) was defined in the Sirte Basin Province, and two TPSs were defined in the Pelagian Basin Province. The Sirte Rachmat Composite TPS in the Sirte Basin Province contains the post-rift Coniacian−Campanian Sirte−Rachmat organic-rich shale/marl, which was deposited in troughs across the Sirte Basin during the early phase of thermal subsidence. Major reservoirs in the Sirte Basin Province include syn-rift continental sandstones and post-rift shallow-marine carbonates, with shales and evaporites acting as seals for hydrocarbon reservoirs. Two assessment units (AU) were defined within the Sirte−Rachmat Composite TPS: the Onshore Sirte Carbonate−Clastic AU and the Offshore Sirte Basin AU.

Within the Pelagian Basin, two TPSs were retained for this assessment.
The Jurassic−Cretaceous Composite TPS consists of fluids from Jurassic and Cretaceous deep-marine shales that migrated into Jurassic−Cretaceous shallow marine limestones and Upper Cretaceous fractured deepwater chalks. Seals include Jurassic and Cretaceous shales and evaporites. One AU was defined for this TPS, the Jurassic−Cretaceous Structural/Stratigraphic AU. The Bou Dabbous Cenozoic TPS contains the Eocene Bou Dabbous organic-rich shale, with hydrocarbons that migrated into lower and middle Eocene shallow-water limestones that are


Figure 1. Locations of the Sirte and Pelagian Basin Provinces, North Africa. AU, assessment unit

sealed by overlying shales and marls. This TPS contains the Bou Dabbous−Cenozoic Structural/Stratigraphic AU. The methodology for the assessment included a complete geologic framework description for each province, based mainly on published literature and the definition of petroleum systems and assessment units within these systems. Exploration and discovery history was a critical part of the methodology used to estimate sizes and numbers of undiscovered accumulations. In areas where there are few or no discoveries (for example, offshore Sirte Basin), geologic analogs were used as a basis for estimating volumes of undiscovered oil and gas resources. Each assessment unit was assessed for undiscovered oil and nonassociated gas accumulations, and coproduct ratios were used to calculate the volumes of associated gas (gas in oil fields) and natural gas liquids.

Resource Summary
The USGS assessed undiscovered conventional oil and gas resources within the three TPSs in the Sirte and Pelagian Basin Provinces (table 1). The mean total of undiscovered oil in these two provinces is 3,974 million barrels of oil (MMBO), with a range from 1,119 MMBO (95 percent probability) to 9,044 MMBO (5 percent probability); for undiscovered gas the mean total is 38,509 billion cubic feet of gas (BCFG), with a range from 11,520 to 84,347 BCFG; and the mean total for natural gas is 1,466 million barrels of natural gas liquids (MMBNGL), with a range from 405 to 3,384 MMBNGL.

About 90 percent of the mean total of undiscovered oil (3,545 MMBO), 85 percent of the mean total of undiscovered gas (32,451 BCFC), and 89 percent of the mean total of undiscovered natural gas liquids (1,298 MMBNGL) are estimated to be in the Sirte Basin Province. Of these volumes, 64 percent of the undiscovered oil (2,267 MMBO), 80 percent of the undiscovered gas (25,609 BCFG), and 78 percent of the undiscovered natural gas liquids (1,010 MMBNGL) are in the Offshore Sirte Basin AU, with the remaining percentages in the Onshore Sirte Carbonate−Clastic AU. The higher percentage of undiscovered oil and gas resources assessed in the Offshore Sirte Basin AU reflects the relatively underexplored history of this part of the Sirte Basin Province.
Overall, the assessment indicates that 80−90 percent of the undiscovered oil and gas resources are in the Sirte Basin Province, there is significantly more total undiscovered gas resource in both provinces (38,509 BCFG or 6,640 MMBOE) than total undiscovered oil resource (3,974 MMBO), and (3) there is almost twice as much undiscovered gas (25,609 BCFG or 4,415 MMBOE) in the Offshore Sirte Basin AU as there is undiscovered oil (2,267 MMBO).

http://pubs.usgs.gov/fs/2011/3105/
http://pubs.usgs.gov/fs/2011/3105/pdf/FS11-3105.pdf