'Heavy crude oil' or 'Extra Heavy oil' is any type of
crude oil which does not flow easily. It is a relative term, compared to
light crude oil, but relates to specific technical issues of its own on production, transportation, and refining. Physical properties that distinguish heavy crudes from lighter ones include higher
viscosity and
specific gravity, as well as heavier molecular composition. Extra heavy oil from the area north of the
Orinoco river in
Venezula, which has by far the largest volume of the 30 or more countries with known reserves
[1], has a
viscosity of over 10,000
centipoise and 10°
API gravity.
[2] Generally a
diluent is added at regular distances in a pipeline carrying heavy crude to facilitate its flow.
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
refining costs and high sulfur content, heavy crudes are often priced at a discount to lighter ones. The increased viscosity and density also makes production more difficult (see:
reservoir engineering). 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
asphaltic. It is "heavy" (dense and viscous) due to the high presence of
napthenes and
paraffins. 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).
[1]
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.
[3] 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
1. Dusseault, M.B. (2001) "Comparing Venezuelan and Canadian Heavy Oil and Tar Sands", Paper 2001-061 of the ''Canadian International Petroleum Conference, Calgary, Alberta.
See also
★
Bitumen
★
Oil shale
★
Tar sands
★
Mazut
★
Steam injection (oil industry)
External links
★
OTS Heavy Oil Science Centre
★
Schlumberger map of global heavy oil resources
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