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Tar sands (also called bituminous sands and oil sands) have, in general, been defined as reservoirs containing oil too [http://pubs.usgs.gov/fs/fs070-03/fs070-03.html viscous] to flow into a well in sufficient quantities for economic production or, in other words, oil essentially immobile in the reservoir. Several more specific definitions have been proposed, but none has been generally accepted. A United Nations Institute for Training and Research (UNITAR) Working Group on Definitions<ref name=Danyluketal_1984>Danyluk, M., B. Galbraith, and R. Omaña, 1984, Toward definitions for heavy crude oil and tar sands, ''in'' R. F. Meyer, J. C. Wynn, and J. C. Olson, eds., The future of heavy crude and tar sands: Second International United Nations Institute for Training and Research International Conference (Caracas, Venezuela, February 1982): New York, McGraw Hill, p. 3-6.</ref><ref name=Martinez_1984>Martinez, A. R., 1984, Report on Working Group on Definitions, ''in'' R. F. Meyer, J. C. Wynn, and J. C. Olson, eds., The future of heavy crude and tar sands: Second International United Nations Institute for Training and Research International Conference (Caracas, Venezuela, February 1982): New York, McGraw Hill, p. Ixvii-Ixviii.</ref> stated that, in determining the resource volumes of heavy oil and bitumen, viscosity of the oil should be used first to differentiate between crude oils, on one hand, and bitumens on the other. Density (specific gravity) should be considered next. Tar sands were therefore said to be characterized as containing bitumen, liquids, or semisolids with viscosities greater than 10,000 [http://www.merriam-webster.com/medical/centipoise centipoise] (cp) at original reservoir temperature, generally corresponding to a specific gravity of less than 10° [http://www.glossary.oilfield.slb.com/en/Terms.aspx?LookIn=term%20name&filter=API%20gravity API] at 60°F (16°C). Carrigy<ref name=Carrigy_1983>Carrigy, M. A., 1983, [https://www.onepetro.org/journal-paper/SPE-12556-PA Thermal recovery from tar sands]: Journal of Petroleum Technology, v. 35, no. 13, p. 18.</ref> was critical of this definition and preferred to define tar sands as "reservoirs that contain low-gravity oil (~10° API or less) and need a large thermal input to reduce the oil viscosity to a level that will allow it to be produced through a well at economic rates." Other authors have defined tar sands as reservoirs containing oil with a specific gravity of less than 10° API (bitumen) and immobile in the reservoir.
Tar sands (also called bituminous sands and oil sands) have, in general, been defined as reservoirs containing oil too [http://pubs.usgs.gov/fs/fs070-03/fs070-03.html viscous] to flow into a well in sufficient quantities for economic production or, in other words, oil essentially immobile in the reservoir. Several more specific definitions have been proposed, but none has been generally accepted. A United Nations Institute for Training and Research (UNITAR) Working Group on Definitions<ref name=Danyluketal_1984>Danyluk, M., B. Galbraith, and R. Omaña, 1984, Toward definitions for heavy crude oil and tar sands, ''in'' R. F. Meyer, J. C. Wynn, and J. C. Olson, eds., The future of heavy crude and tar sands: Second International United Nations Institute for Training and Research International Conference (Caracas, Venezuela, February 1982): New York, McGraw Hill, p. 3-6.</ref><ref name=Martinez_1984>Martinez, A. R., 1984, Report on Working Group on Definitions, ''in'' R. F. Meyer, J. C. Wynn, and J. C. Olson, eds., The future of heavy crude and tar sands: Second International United Nations Institute for Training and Research International Conference (Caracas, Venezuela, February 1982): New York, McGraw Hill, p. Ixvii-Ixviii.</ref> stated that, in determining the resource volumes of [[heavy oil]] and bitumen, [[viscosity]] of the oil should be used first to differentiate between [[crude oil]]s, on one hand, and bitumens on the other. Density (specific [[gravity]]) should be considered next. Tar sands were therefore said to be characterized as containing bitumen, liquids, or semisolids with viscosities greater than 10,000 [http://www.merriam-webster.com/medical/centipoise centipoise] (cp) at original reservoir temperature, generally corresponding to a specific gravity of less than 10° [[API gravity|API]] at 60°F (16°C). Carrigy<ref name=Carrigy_1983>Carrigy, M. A., 1983, [https://www.onepetro.org/journal-paper/SPE-12556-PA Thermal recovery from tar sands]: Journal of Petroleum Technology, v. 35, no. 13, p. 18.</ref> was critical of this definition and preferred to define tar sands as "reservoirs that contain low-gravity oil (~10° API or less) and need a large thermal input to reduce the oil viscosity to a level that will allow it to be produced through a well at economic rates." Other authors have defined tar sands as reservoirs containing oil with a specific gravity of less than 10° API (bitumen) and immobile in the reservoir.
The general term ''tar sands'' will be used in this article to include both bitumen and extra-heavy-oil [[accumulation]]s.
The general term ''tar sands'' will be used in this article to include both bitumen and extra-heavy-oil [[accumulation]]s.
This situation will no doubt change as concern for the potential exhaustion of conventional lighter oil deposits increases; as technology for extracting and upgrading the bitumen contained in the tar sands to an economical feedstock for refineries becomes available; and as new uses for the bitumen are developed, as, for example, the elaboration in Venezuela of the [[Orimulsion]], a direct combustion product, an emulsion composed of 70% extra-heavy oil suspended in 30% water with the help of a chemical surfactant to stabilize the emulsion.<ref name<PachecoandAlonso_1995>Pacheco, L. A., and J. Alonso, 1995, Orimulsion-The growing pain of an idea, ''in'' R. F. Meyer, ed., Heavy crude and tar sands-Fueling for a clean and safe environment: 6th United Nations Institute for Training and Research International Conference on Heavy Crude and Tar Sands (Houston, Texas, February 1995), v. 1, p. 203-211.</ref>
This situation will no doubt change as concern for the potential exhaustion of conventional lighter oil deposits increases; as technology for extracting and upgrading the bitumen contained in the tar sands to an economical feedstock for refineries becomes available; and as new uses for the bitumen are developed, as, for example, the elaboration in Venezuela of the [[Orimulsion]], a direct combustion product, an emulsion composed of 70% extra-heavy oil suspended in 30% water with the help of a chemical surfactant to stabilize the emulsion.<ref name<PachecoandAlonso_1995>Pacheco, L. A., and J. Alonso, 1995, Orimulsion-The growing pain of an idea, ''in'' R. F. Meyer, ed., Heavy crude and tar sands-Fueling for a clean and safe environment: 6th United Nations Institute for Training and Research International Conference on Heavy Crude and Tar Sands (Houston, Texas, February 1995), v. 1, p. 203-211.</ref>
Although problems of upgrading, transportation, and use need to be solved, the economics of producing bitumens and extra-heavy oils are improving, and attention is progressively being focused in the last few years on delineating and assessing the known bitumen and extra-heavy- and heavy-oil deposits and in searching for new ones. Many of the tar-sand deposits [https://en.wikipedia.org/wiki/Outcrop crop out] and were identified early in the exploration for oil throughout the world. Most of those that do not crop out are at shallow depths along the rims of [[sedimentary basins]]
Although problems of upgrading, transportation, and use need to be solved, the [[economics]] of producing bitumens and extra-heavy oils are improving, and attention is progressively being focused in the last few years on delineating and assessing the known bitumen and extra-heavy- and heavy-oil deposits and in searching for new ones. Many of the tar-sand deposits [https://en.wikipedia.org/wiki/Outcrop crop out] and were identified early in the exploration for oil throughout the world. Most of those that do not crop out are at shallow depths along the rims of [[sedimentary basins]]
and were discovered when drilling for deeper, lighter oil prospects. Not many of those that crop out have remained unknown, but some of those in the shallow subsurface may be still waiting to be discovered.
and were discovered when drilling for deeper, lighter oil prospects. Not many of those that crop out have remained unknown, but some of those in the shallow subsurface may be still waiting to be discovered.
==See also==
==See also==