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Terminus Dam

Coordinates: 36°25′01″N 119°00′14″W / 36.41694°N 119.00389°W / 36.41694; -119.00389
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Terminus Dam
The dam and Lake Kaweah as seen from the visitor center along Route 198
LocationThree Rivers, Tulare County, California, United States
Coordinates36°25′01″N 119°00′14″W / 36.41694°N 119.00389°W / 36.41694; -119.00389
Opening date1962; 62 years ago (1962)
Construction cost$24 million[1]
Owner(s) U.S. Army Corps of Engineers, Sacramento District
Dam and spillways
Type of damEarthfill
ImpoundsKaweah River
Height255 ft (78 m)[2]
Length2,375 ft (724 m)[2]
Elevation at crest750 ft (230 m)[2]
Dam volume7,000,000 cu yd (5,400,000 m3)[2]
Reservoir
CreatesLake Kaweah
Total capacity185,600 acre⋅ft (0.2289 km3)[2]
Catchment area561 sq mi (1,450 km2)[2]
Surface area1,945 acres (787 ha)[2]
Power Station
Commission date1992
Installed capacity20.09 MW[3]
Annual generation40,894,000 KWh (2001–2012)[4]
Website
U.S. Army Corps of Engineers - Lake Kaweah / Terminus Dam

Terminus Dam is a dam on the Kaweah River in Tulare County, California in the United States, located near Three Rivers about 15 mi (24 km) from the western boundary of Sequoia National Park and 20 mi (32 km) east of Visalia. The dam forms Lake Kaweah for flood control and irrigation water supply. Completed by the U.S. Army Corps of Engineers (USACE) in 1962, Terminus is an earthfill dam 255 ft (78 m) high and 2,375 ft (724 m) long. The reservoir has a maximum capacity of 185,600 acre⋅ft (0.2289 km3) of water, although it usually sits at much lower levels.

History

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Terminus Dam is one of four dams built on the rivers of the Tulare Lake basin, located at the southern end of the San Joaquin Valley. In the 1920s, the USACE and the State of California first surveyed the area for suitable reservoir sites to provide irrigation water.[5] After devastating floods in the late 1930s, the Flood Control Act of 1944 authorized the USACE to build Terminus Dam as part of a system to provide flood protection for the Tulare basin.[6]

In 1948, with plans for the dam on the Kaweah River nearly complete, an archaeological survey of the future reservoir site revealed an unusually rich selection of Native American artifacts.[7] Many of these were removed by the U.S. National Park Service's Interagency Archaeological Salvage Program before the beginning of work on the dam.[8]

Construction of Terminus Dam started in the late 1950s and was completed in 1962. The dam was dedicated along with the Success Dam, further south on the Tule River, on May 18, 1962.[5] The reservoir filled for the first time in 1964[9] to its initial capacity of 150,000 acre⋅ft (0.19 km3).[10] Sedimentation had reduced this to 143,200 acre⋅ft (0.1766 km3) according to a study conducted in 1977.[11]

Together with the three other major dams in the Tulare basin, Terminus Dam contributed to the desiccation of Tulare Lake, once one of the largest wetland regions in the United States.[12]

Spillway expansion

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The fusegates at Terminus Dam are tested by high water in 2005

In the 1990s the USACE began studies for a project to increase the capacity of the dam's spillway, which was considered inadequate to pass the probable maximum flood on the Kaweah River. In 2001 work began to enlarge the spillway channel and between 2003 and 2004 six fusegates were installed in the spillway channel, raising the maximum elevation of the reservoir by 21 ft (6.4 m). The fusegates, invented and patented by François Lempérière[13] for Hydroplus, subsidiary of GTM Entrepose, are the largest in the world, and are designed to open automatically by water pressure when Lake Kaweah reaches dangerously high levels. The design was chosen because it would provide cost savings over conventional options such as a concrete or gated spillway.[14]

The project increased the storage capacity of Lake Kaweah by more than 40,000 acre⋅ft (0.049 km3), to its current capacity of 185,600 acre⋅ft (0.2289 km3), and ensured the capability of Terminus Dam to pass a flood of up to 300,000 cu ft/s (8,500 m3/s).[15] The dam is now capable of completely controlling a 70-year flood, as compared to a 46-year flood before the fusegates were installed.[16]

Functions

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View of the reservoir area, drawn down for flood control in September

As a dry dam, Terminus Dam's primary purpose is flood control; consequently, the reservoir is usually maintained at a very low level, except in late spring and early summer when it is used to store snowmelt runoff from the Sierra Nevada.[9] The dam provides flood protection for 500,000 acres (2,000 km2) of farmland and 300,000 people along the lower Kaweah River.[1] Shortly after its completion, the dam and reservoir were put to the test by record floods in December 1966, during which Terminus, Success and Isabella Dams prevented a collective $81.9 million of damages.[17] Between 1962 and 2012, Terminus Dam has prevented $373,225,000 of flood-related damages.[18]

Water releases from Terminus Dam are made based on agricultural demand when flood control releases are not required. Snowmelt runoff stored in Lake Kaweah are released at high rates between May and late July-early August during the peak of the irrigation season. The water serves multiple local water districts such as the Tulare Irrigation District (TID) and Kaweah Delta Water Conservation District (KDWCD), as well as urban areas including Visalia and Tulare.[19][20] The dam also generates hydroelectricity from a plant built in 1992 by the Kaweah River Power Authority (KRPA), which is jointly managed by TID and KDWCD.[21] Electricity generated here is distributed by Southern California Edison. The power plant currently has a capacity of 20.09 megawatts (MW),[3] upgraded from its original capacity of 17 MW, and generates roughly 40 million kilowatt hours (KWh) per year. The KRPA planned to expand this capacity by a further 9 MW, which would allow for the generation of an additional 9.2 million KWh,[3] but construction has not yet started as of March 2020.[22] In February 2020, the KRPA filed to transfer their operating license to Eagle Creek Renewable Energy, the US subsidiary of Ontario Power Generation.[23][22]

See also

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References

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  1. ^ a b "Recent District Projects". Kaweah Delta Water Conservation District. Archived from the original on 2011-04-09. Retrieved 2013-07-24.
  2. ^ a b c d e f g "Terminus Dam (TRM)". California Data Exchange Center. California Department of Water Resources. Retrieved 2013-07-23.
  3. ^ a b c "Kaweah River Power Authority; Notice of Preliminary Permit Application Accepted for Filing and Soliciting Comments, Motions To Intervene, and Competing Applications". Federal Energy Regulatory Commission Project No. 14436-000. U.S. Government Printing Office. 2012-08-28. Retrieved 2022-07-19.
  4. ^ "California Hydroelectric Statistics & Data". California Energy Commission. Archived from the original on 2018-02-26. Retrieved 2018-04-26.
  5. ^ a b Brewer, p. 55
  6. ^ Garone, p. 193
  7. ^ "Native Occupation of the Terminus Reservoir Region". Terminus Reservoir: Geology, Paleontology, Flora & Fauna, Archeology, History. U.S. National Park Service. Retrieved 2013-07-23.
  8. ^ "The Inter-Agency Archeological Salvage Program". Terminus Reservoir: Geology, Paleontology, Flora & Fauna, Archeology, History. U.S. National Park Service. Retrieved 2013-07-23.
  9. ^ a b "Terminus Dam (TRM) Reservoir Information". California Data Exchange Center. California Department of Water Resources. Retrieved 2013-07-23.
  10. ^ Kaweah River Basin Investigation, California, Tulare County and King County: Environmental Impact Statement. U.S. Army Corps of Engineers. 1996. p. 138.
  11. ^ Kaweah River Basin Investigation, California, Tulare County and King County: Environmental Impact Statement. U.S. Army Corps of Engineers. 1996. p. 243.
  12. ^ Garone, p. 194
  13. ^ "Patents by Inventor Francois Lemperiere". Justia Patents.
  14. ^ "They might be giants - Terminus dam's new Fusegates". Water Power & Dam Construction. 2004-02-16. Retrieved 2013-07-23.
  15. ^ Kocahan, Hasan T.; Suter, Norbert F. "The Fusegate System Reaches New Heights in California" (PDF). Hydroplus. Retrieved 2013-07-23.
  16. ^ Rosta, Paul B. (2004-01-19). "Lake Kaweah Adds Safety, Capacity with Big Fusegates". Engineering News-Record. Retrieved 2013-07-23.
  17. ^ Dean, Willard W.; Scott, Kevin M. "Floods of December 1966 in the Kern-Kaweah Area, Kern and Tulare Counties, California" (PDF). Geological Survey Water-Supply Paper 1870-C. U.S. Geological Survey. Retrieved 2013-07-23.
  18. ^ Ritchie, Ashley (2012-05-09). "Lake Kaweah Celebrates 50 Years". KMPH Visalia. Retrieved 2013-07-23.
  19. ^ "Case Study: Kaweah River Power Authority and Tulare ID" (PDF). California Energy Commission Agricultural Peak Load Reduction Program. California Polytechnic State University, San Luis Obispo. Retrieved 2013-07-23.
  20. ^ "About Us". Kaweah Delta Water Conservation District. Retrieved 2013-07-23.
  21. ^ "District Profile". Tulare Irrigation District. Retrieved 2013-07-23.
  22. ^ a b Lindt, John (March 11, 2020). "Kaweah River Power Authority selling hydro plant to Canadian operator". The Sun-Gazette. Exeter, CA: Mineral King Publishing. Archived from the original on March 14, 2020. Retrieved July 19, 2022.
  23. ^ "Kaweah River Power Authority, Terminus Hydroelectric, LLC; Notice of Application for Transfer of License and Soliciting Comments, Motions To Intervene, and Protests". Federal Register. National Archives and Records Administration. February 28, 2020. Archived from the original on July 19, 2022. Retrieved July 19, 2022.

Works cited

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  • Brewer, Chris (2004). Historic Tulare County: A Sesquicentennial History, 1852-2002. HPN Books. ISBN 1-89361-940-0.
  • Garone, Philip (2011). The Fall and Rise of the Wetlands of California's Great Central Valley. University of California Press. ISBN 978-0-52094-849-5.
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