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Some Petroleum Geologists categorize Bitumen from Tar Sands as extra heavy oil although bitumen does not flow at Ambient conditions. ECONOMICS Heavy crude oils provide an interesting situation for the economics of petroleum development. On one hand, due to increased ). On the other hand, large quantities of heavy crudes have been discovered in the Americas including Canada , Venezuela and Northern California . The relatively shallow depth of heavy oil fields (often less than 3000 feet) contributes to low Drilling costs. CHEMICAL PROPERTIES Heavy oil is Asphalt ic. It is "heavy" (dense and viscous) due to the high presence of Napthenes and Paraffin s. Heavy oil has over 60 carbon atoms and hence a high boiling point and molecular weight. For example, the Viscosity of Venezuela's Orinoco extra-heavy crude oil lies in the range 1000-5000 CP , while Canadian extra-heavy crude has a viscosity in the range 5000-10,000 cP, about the same as molasses, and higher (up to 100,000 cP for the most viscous commercially exploitable deposits).Dusseault, M.B. (2001) "Comparing Venezuelan and Canadian Heavy Oil and Tar Sands", Paper 2001-061 of the ''Canadian International Petroleum Conference, Calgary, Alberta. ENVIRONMENTAL IMPACT As a rule, heavy crudes have a more severe environmental impact than light ones. With more difficult production comes the employment of a variety of Enhanced Oil Recovery techniques, including steam flooding and tighter well spacing, often as close as one well per acre. Heavy crudes also carry contaminants. For example, Orinoco extra heavy oil contains 3.5% Sulfur as well as Vanadium and Nickel . {Link without Title} Heavy crude oils contain more carbon in relation to hydrogen, thus releasing more carbon dioxide (believed to be responsible for climate change) per amount of usable energy when burned. Advanced technologies are mitigating the environmental impact via horizontal wells and increased energy efficiency, but barrel per barrel, heavy crudes will likely always be more environmentally damaging than light crudes. ORIGIN Most geologists agree that crude becomes "heavy" as a result of Biodegradation , in which lighter ends are preferentially consumed by bacteria in the reservoir, leaving heavier hydrocarbons behind. This hypothesis leans heavily on the techniques of Petroleum Geochemistry . REFERENCES SEE ALSO EXTERNAL LINKS |
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