Smallwood Reservoir Explained

Smallwood Reservoir
Pushpin Map:Canada Newfoundland and Labrador
Pushpin Map Caption:Location in Labrador
Location:Labrador, Newfoundland and Labrador, Canada
Coords:54.1°N -89°W
Type:Reservoir
Outflow:Churchill River
Basin Countries:Canada
Area:6527km2
Volume:32.64km3
Elevation:471m (1,545feet)
Reference:[1]

The Smallwood Reservoir is the reservoir created for the Churchill Falls Generating Station in the western part of Labrador, Canada. Unlike other reservoirs, water is contained not by a single large dam, but by a series of 88 dikes that total 64km (40miles) in length in the drainage area of the Churchill River.[2] It is named in honour of Joey Smallwood, the first premier of Newfoundland.

With an area of 6527km2, is the largest body of freshwater in the province and the fifth-largest reservoir in the world in terms of surface area.

History

The earliest evaluation of hydro potential of this vast reservoir was in 1942[3] when H.G. Acres Company carried out a study for the Aluminum Company of Canada (Alcan). Due to the remoteness of the site then, it was considered too expensive to build and deemed not viable.

With the development of technologies for transmission of electricity over long distances the project design to build the power development including the main dam and control structure and the many dykes began in July 1967 by Acres Canadian Bechtel of Churchill Falls, a joint venture formed by Canadian Bechtel and Acres Engineering, as part of the construction of the Churchill Falls Generating Station.

Geography

The reservoir is located on the Labrador Plateau, a saucer shaped plateau that ranged from 457to above sea level. Before construction, it was inundated with many bogs and small interconnected lakes. The three largest of these lakes were Ossokmanuan, Lobstick and Michikamau. Ossokmanuan became a reservoir for the Twin Falls power station.

The area was mostly drained by the Churchill River. At the edge of the plateau it dropped 66m (217feet) before the falls, a further 75m (246feet) at the falls and a further 158m (518feet) through the Bowdoin Canyon. It was named after Bowdoin College in Maine which sponsored an expedition in 1891 to visit the falls.

Construction

See main article: Churchill Falls Generating Station. The reservoir requires 88 dykes to prevent overflow outside of the reservoir. The highest of these dykes is 36m (118feet) and the longest is 6km (04miles). The two reservoirs require three control structures to regulate flow. The Gabbro Control Structure which regulated the Ossokmanuan reservoir, the Lobstick Control Structure that regulates the Smallwood reservoir and the Whitefish Control Structure for the forebay reservoirs. Both forebays are further regulated by spillways to prevent flooding.

The project took 9 years to complete from 1966 to 1974, with peak construction in 1970 when a total of 6,245 workers were stationed at the main camp and eleven satellite camps. The project was completed five months ahead of schedule.

See also

Notes and References

  1. Web site: Rivers in Canada. Atlas of Canada . Atlas of Canada . 2015-03-17. https://web.archive.org/web/20070410230512/http://atlas.nrcan.gc.ca/site/english/learningresources/facts/lakes.html#saskatchewan. 10 April 2007 . live.
  2. Web site: Churchill River . Canadian Geographic Education . 21 July 2019 . https://web.archive.org/web/20151201131139/https://cangeoeducation.ca/resources/rivers_of_canada/churchill_river/default.asp . 1 December 2015 . dead.
  3. Book: Encyclopedia of Newfoundland and Labrador . 1 . 761 - 762) . 0-920508-14-6. Smallwood . Joseph R. . Pitt . Robert D. W. . 1981 . Newfoundland Book Publishers .