Clearwater Formation
Clearwater Formation | |
---|---|
Stratigraphic range: | |
Type | Grand Rapids Formation |
Overlies | McMurray Formation |
Thickness | up to 85 metres (280 ft)[1] |
Lithology | |
Primary | Shale |
Other | Sandstone, siltstone |
Location | |
Coordinates | 58°00′49″N 111°20′38″W / 58.01365°N 111.34377°W |
Region | northeastern and central Alberta |
Country | Canada |
Type section | |
Named for | Clearwater River |
Named by | R.G. McConnell, 1893 |
The Clearwater Formation is a stratigraphic unit of Early Cretaceous (Albian) age in the Western Canada Sedimentary Basin in northeastern Alberta, Canada.[2] It was first defined by R.G. McConnell in 1893 and takes its name from the Clearwater River near Fort McMurray.[3]
Impermeable marine
Nearly complete specimens of
Lithology
The Clearwater Formation consists of primarily of black and green shale, with some interbedded grey and green sandstone and siltstone, and ironstone concretions. To the southeast of Cold Lake it includes massive hydrocarbon-bearing, glauconitic salt-and-pepper sandstones with interbedded shales.[1]
Wabiskaw Member
The Wabiskaw Member forms the base of the Clearwater Formation. It consists of glauconitic sandstones with interbeds of black fissile shale, and it includes oilsand and heavy oil in some areas.[1] It was defined in well Barnsdall West Wabiskaw No. 1 (located between Wabasca River and Lesser Slave Lake in central Alberta) by P.C. Badgley in 1952.[5]
Distribution
The Clearwater Formation is present in the subsurface of northeastern and central Alberta, and is exposed on lower course of the
Relationship to other units
The Clearwater Formation is part of the
Paleontology
The Clearwater Formation was deposited in marine, near-shore and estuarine environments on the eastern side of the
All of the specimens now reside at the Royal Tyrrell Museum of Palaeontology.[4]
Oil/gas production
The formation contains oilsand in the
The oilsands of the Clearwater Formation are more difficult to tap than those of the McMurray Formation. Cenovus Inc.'s Tucker thermal oilsands project which opened in 2006 began to post a modest return in 2013.[7] Cenovus Inc. (CVE), with its head office in Calgary, Alberta, Canada is an integrated oil and natural gas producer.
Extraction
Cyclic Steam Stimulation (CSS)
Canadian Natural Resources use "employs cyclic steam or "huff and puff" technology to develop bitumen resources. This technology requires one well bore and the production consists of the injection and production phases. First steam is "injected for several weeks, mobilizing cold bitumen". Then the flow "on the injection well is reversed producing oil through the same injection well bore. The injection and production phases together comprise one cycle. "Steam is re-injected to begin a new cycle when oil production rates fall below a critical threshold due to the cooling of the reservoir."[8]
High pressure cyclic steam stimulation (HPCSS)
"Roughly 35 per cent of all in situ production in the Alberta oil sands uses a technique called High Pressure Cyclic Steam Stimulation (HPCSS), which cycles between two phases: first, steam is injected into an underground oilsands deposit to soften the bitumen; then, the resulting hot mixture of bitumen and steam (called a "bitumen emulsion") is pumped up to the surface. The process is then repeated multiple times."[9] An Alberta Energy Regulator (AER) news release explained the difference between high pressure cyclic steam stimulation (HPCSS) and steam assisted gravity drainage (SAGD). "HPCSS has been used in oil recovery in Alberta for more than 30 years. The method involves injecting high-pressure steam into a reservoir over a prolonged period of time. As heat softens the bitumen and water dilutes and separates the bitumen from the sand, the pressure creates cracks and openings through which the bitumen can flow back into the steam-injector wells. HPCSS differs from steam assisted gravity drainage (SAGD) operations where steam is injected at lower pressures without fracturing the reservoir and uses gravity drainage as the primary recovery mechanism."[10] Canadian Natural Resources Limited's (CNRL) Primrose and Wolf Lake in situ oil sands project near Cold Lake, Alberta in the Clearwater Formation, operated by CNRL subsidiary Horizon Oil Sands, use the high pressure cyclic steam stimulation (HPCSS).(AER 2013)
References
- ^ ISBN 0-920230-23-7.
- ^ Mossop, G.D. and Shetsen, I. (compilers), Canadian Society of Petroleum Geologists and Alberta Geological Survey (1994). "The Geological Atlas of the Western Canada Sedimentary Basin, Chapter 19: Cretaceous Mannville Group of the Western Canada Sedimentary Basin". Archived from the original on 2016-07-01. Retrieved 2016-06-20.
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: CS1 maint: multiple names: authors list (link) - ^ McConnell, R.G., 1893. Report on a portion of the district of Athabasca, comprising the country between Peace River and Athabasca River north of Lesser Slave Lake. Geological Survey of Canada, Annual Report (new series), 1890-91, v. 5, Part 1, p. 1-67.
- ^ a b c d Henderson, D. (2013). "A one-in-a-billion dinosaur find". The Guardian. Retrieved 2013-11-21.
- ^ Badgley, Peter C., 1952. Notes on the subsurface stratigraphy and oil and gas geology of the Lower Cretaceous series in central Alberta (Report and seven figures); Geological Survey of Canada, Paper No. 52-11, page 12
- ^ Syncrude Canada Ltd. (2012). "Another fossil unearthed at Syncrude's North Mine". Syncrude Canada Ltd. Archived from the original on 2013-12-03. Retrieved 2013-11-21.
- ^ Calgary Herald (January 8, 2013). "Tucker oilsands project posts rare return".
- ^ "Cyclic Steam Stimulation". Thermal in situ oil sands. CNRL. 2013. Archived from the original on 2015-10-16. Retrieved 2013-07-30.
- ^ Severson-Baker, Chris (29 July 2013). "Cold Lake bitumen blowout first test for new energy regulator".
- ^ "Alberta Energy Regulator orders enhanced monitoring and further steaming restrictions at Primrose and Wolf Lake projects due to bitumen emulsion releases". AER. 18 July 2013. Archived from the original on 30 July 2013. Retrieved 30 July 2013.