Grand Coulee Dam

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Grand Coulee Dam
Grand Coulee Dam
Creates Franklin Delano Roosevelt Lake
Banks Lake
Locale Grand Coulee, Washington
Maintained by U.S. Bureau of Reclamation
Length 5,223 ft (1592 m)[1]
Height 550 ft (168 m)
Opening date June 1, 1942
Geographical Data
Coordinates 47°57.4′N 118°59′WCoordinates: 47°57.4′N 118°59′W
For the town, see Coulee Dam, Washington.

Grand Coulee Dam is a hydroelectric gravity dam on the Columbia River in the U.S. state of Washington. In the United States, it is the largest electric power producing facility[2] and the largest concrete structure.[3] It is the fourth largest producer of hydroelectricity in the world. The top producing dams are the Three Gorges Dam in China, the Guri Dam in Venezuela, and the Itaipu Dam on the border of Paraguay and Brazil.

The reservoir is called Franklin Delano Roosevelt Lake, named after the United States President who presided over the completion of the dam. The foundation was built by the MWAK Company, a joint effort of several contractors united for this purpose. Consolidated Builders Incorporated, including industrialist Henry J. Kaiser, completed the dam. The United States Bureau of Reclamation supervised the contractors and operates the dam. Folk singer Woody Guthrie was commissioned by the Bonneville Power Administration to write songs about the Columbia Basin Project; the song Roll On Columbia is one of that series.

The Grand Coulee Dam is almost a mile long at 5223 feet (1586 m). The spillway is as long as 5.5 American football fields. At 550 feet (168 m), it is taller than the Great Pyramid of Giza[4]; all the pyramids at Giza could fit within its base. Its hydraulic height of 380 feet (115 m) is more than twice that of Niagara Falls. There is enough concrete to build a four-foot wide, four-inch deep sidewalk twice around the equator[5].

Contents

[edit] Background

The dam was built as part of the Columbia Basin Project for irrigation of desert areas of the Pacific Northwest and for the production of electricity.[6] The U.S. Bureau of Reclamation was created in 1902 to aid development of arid western states. Central Washington's Columbia Basin was a prime candidate -- a semi-desert with fertile loess soil and the Columbia River passing through.

Two main irrigation proposals emerged. A Spokane group wanted a 134-mile (216 km) gravity flow canal from the Pend Oreille River at Albeni Falls while an Ephrata/Wenatchee group wanted a large dam on the Columbia River, which would pump water to fill the adjacent Grand Coulee. After thirteen years of debate and several studies, President Franklin D. Roosevelt authorized the dam as a Public Works Administration project, and Congress appropriated funding.

[edit] Construction

Excavation of the site began on July 16, 1933 and finished in January 1942 soon after the U.S. entered WWII. The initial construction plan was for a shorter dam with one partial completed powerhouse with available expansion from 6 units to 18. During construction, the design was changed to the higher specification in order to employ more people, generate more electricity, and to enlarge the irrigation capacity. A total of 77 men died.[7] Its height is 1330 feet above sea level at the roadway, the reservoir height is measured when water reaches the top of the drumgates which is 1290 feet above sea level (10 feet below the roadway).[8] The dam was designed by John L. Savage[9] with Frank A. Banks as chief construction engineer.[10] For several years it was the largest producer of hydroelectricity in the world.

Construction of the original dam. The left section would be demolished in the late sixties to make way for powerhouse #3
Construction of the original dam. The left section would be demolished in the late sixties to make way for powerhouse #3
One of six new Francis turbines, rated at nearly one million hp, being installed in powerhouse #3.
One of six new Francis turbines, rated at nearly one million hp, being installed in powerhouse #3.

The primary goal of irrigation was postponed as the wartime need for electricity increased. Aluminum smelting was vital to the war effort, and to airplane construction in particular. The electricity was also used to power plutonium production reactors and reprocessing facilities at the Hanford Site, which was part of the then top-secret Manhattan Project.

The dam was instrumental in the industrial development of the Pacific Northwest.

[edit] Irrigation

The original goal of irrigation resumed after the war. A water distribution network was built using the adjacent Grand Coulee to hold the main reservoir now known as Banks Lake. Additional dams, siphons, and canals were constructed, creating a vast irrigation supply network called the Columbia Basin Project. Irrigation began in 1951.[8]

Water is pumped up 280 feet (85 m) from Lake Roosevelt to Banks Lake using twelve 14-foot-wide pipes. Pumped-storage hydroelectricity capability was incorporated into the final six pumps. During low-demand periods, water is pumped into Banks Lake, to be used later during high-demand periods. Water flow is reversed, powering generators as it falls back into Lake Roosevelt. This function is used regularly when irrigation water demand is low and electricity demand is high.

[edit] Expansion

The interior of powerhouse #3. Also pictured is a gantry crane, once the world's largest.
The interior of powerhouse #3. Also pictured is a gantry crane, once the world's largest.[11]

Between 1966 and 1974 the dam was expanded to add the Third Powerhouse. This involved demolishing the northeast side of the dam and building a new forebay section. The addition made the dam more than a mile long and accommodated six new generators. Original designs for the powerhouse had twelve smaller units but was changed to incorporate the largest units available. The new turbines and generators, three 600 MW and three 805 MW units, are today nearly the largest ever produced. The expansion was completed in the early eighties and made the Grand Coulee Dam once again one of the largest hydroelectric producers in the world.

The expansion of the dam also required the installation of over 20 km of oil-cooled cables. These 6" cables, made in Japan by Sumitomo Electric, are rated to a maximum potential of 525 kV and are connected to powerful pumps which circulate the oil through the cables during normal operation.

[edit] Environmental and cultural consequences

The dam had negative consequences for the local Native American tribes whose traditional way of life revolved around salmon. Grand Coulee Dam and nearby Chief Joseph Dam (built in 1953) permanently block anadromous fish,[12] removing over a thousand miles of their traditional spawning grounds. The various confederated tribes of the Colville Indian Reservation live along the Columbia River. Grand Coulee Dam flooded over 21,000 acres (85 km²) of prime bottom land where Indians had been living for thousands of years, forcing the relocation of settlements and graveyards.[13] The ancient and important salmon fishing site at Kettle Falls was inundated. The town of Kettle Falls, Washington was relocated. The environmental impact of the dam effectively ended the traditional way of life of the native inhabitants, who sued the government. The government eventually compensated the Colville Indians in the 1990s with a lump settlement of approximately $52 million, plus annual payments of approximately $15 million.[14]

The architects of the new [Columbia] river have been nearly constant in their protestations of concern for salmon, but they have quite consciously made a choice against the conditions that produce salmon. They have wanted the river and its watershed to say electricity, lumber, cattle, and fruit and together these have translated into carp, shad, and squawfish instead of salmon. If ever a death could be unintended and overdetermined, it is the death of the wild runs of the Columbia River salmon. - Richard White[8]

[edit] Touring the dam

The visitor center contains many historical photos, geological samples, turbine and dam models, and a well used theater. Since 1989, on summer evenings, The laser light show at Grand Coulee Dam is projected onto the dam's wall. The show includes full-size images of battleships and the Statue of Liberty, as well as some environmental comments. Tours of the new Third Powerhouse are available to the public but have been scaled back for security reasons. Visitors are able to ride a glass elevator, on top of the forebay penstocks, 400 feet down to view the generators.

Panoramic view of the dam, looking Southeast. Powerhouse number three, visible at the lower left of the dam, is large enough to hold five football fields end to end.
Panoramic view of the dam, looking Southeast. Powerhouse number three, visible at the lower left of the dam, is large enough to hold five football fields end to end.

[edit] Facts

A 193 lb. (87.5 kg) nut and bolt, one of sixteen used to join sections of the generator shaft of a 75000 kW generator at Grand Coulee Dam in 1942
A 193 lb. (87.5 kg) nut and bolt, one of sixteen used to join sections of the generator shaft of a 75000 kW generator at Grand Coulee Dam in 1942
  • Largest concrete dam and concrete structure in North America with 11,975,521 yd³ (9,155,942 m³) used]][15]
  • Total Length of Dam: 5,223 ft (1,592 m)
  • Length of Main Dam: 3,867 ft (1,178 m)
  • Length of Forebay Dam: 1,170 ft (356 m)
  • Length of Wing Dam: 186 ft (56 m)
  • Hydraulic Height: 380 ft (116 m)
  • Height of Dam from Bedrock: 550 ft (168 m)
  • Height above Original Streambed: 401 ft (122 m)
  • Reservoir Lake Roosevelt stretches for 151 mi (243 km)
  • Average release: 110,000 ft³/s (3,100 m³/s)
  • 4 power plants, 33 generators
  • Installed generating capacity: 6809 MW [16]

[edit] References

  1. ^ Grand Coulee Dam. U.S. Bureau of Reclamation. Retrieved on 2008-06-02.
  2. ^ Renewable Energy Sources: A Consumer's Guide. U.S. Department of Energy: Energy Information Administration. Retrieved on 2006-11-18.
  3. ^ Larsen, Jeff (2002-10-03). Short Trips: Take a step back to take in a concrete wonder. Seattle Post Intelligencer. Retrieved on 2006-11-19.
  4. ^ Cairo & Giza.. Egypt State Information Service. Retrieved on 2008-05-18.
  5. ^ Grand Coulee Dam Statistics and Facts. USBR. Retrieved on 2008-05-18.
  6. ^ Grand Coulee Dam and the Columbia Basin Project (PDF). The World Commission on Dams. Retrieved on 2006-11-19.
  7. ^ Saul, John B. (2005-08-05). Grand Coulee Dam: Still a Grand Experience?. Seattle Times. Retrieved on 2008-05-18.
  8. ^ a b c Lake Roosevelt, Administrative History. U.S. National Park Service: Department of the Interior. Retrieved on 2006-11-20.
  9. ^ US Expert Will Survey Site of Dam. Spokane press. Retrieved on 2008-05-18.
  10. ^ The United Press. Builder of Grand Coulee To Retire and Live Near It. The New York Times, September 12, 1950.
  11. ^ Columbia Basin Project: Research on Historic Reclamation Projects (Second Draft). Bureau of Reclamation History Program, Denver, Colorado (1998). Retrieved on 2008-03-09.
  12. ^ Gulick, Bill (1996). A Traveler's History of Washington. Caldwell, Idaho: Caxton Press, 388.
  13. ^ Harden, Blaine (1996). A River Lost: The Life and Death of the Columbia. New York: W.W. Norton and Company, 106-107. 
  14. ^ Grand Coulee Dam and the Columbia Basin Project USA. World Commission on Dams. Retrieved on 2008-05-19.
  15. ^ Grand Coulee Powerplant. U.S. Bureau of Reclamation. Retrieved on 2008-05-19.
  16. ^ Grand Coulee Powerplant. U.S. Department of the Interior, Bureau of Reclamation. Retrieved on 2007-01-15.

[edit] Bibliography

  • Ray Bottenberg: Grand Coulee Dam (Charleston, SC: Arcadia Publishing, 2008).
  • J. Harlen Brentz: The Grand Coulee (American Geographical Society, 1932).
  • L. Vaughn Downs: The Mightiest of Them All: Memories of Grand Coulee Dam (American Society of Civil Engineers, 1993).
  • Marcia S. Gresko: The Grand Coulee Dam (Blackbirch Press, 1999).
  • Paul C. Pitzer: Grand Coulee: Harnessing a Dream (Pullman: Washington State UP, 1994).
  • George Sundborg: Hail Columbia: The Thirty-year Struggle for Grand Coulee Dam (New York: Macmillan, 1954).
  • Richard White: The Organic Machine: The Remaking of the Columbia River (New York: Hill and Wang, 1995).

[edit] External links

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Hydroelectric dams on the Columbia River