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- Hungry Horse Project
Hungry Horse Project
State: Montana
Region: Pacific Northwest
Related Documents
Hungry Horse Project History (48 KB)
Hungry Horse Project Brochure (1.92 MB)
Related Facilities
Related Links
Flathead National Forest
Glacier National Park
Hungry Horse Reservoir
South Fork Flathead River near Columbia Falls, Montana (USGS)
Flathead River near Columbia Falls, Montana (USGS)
Spring and Summer (NRCS)
Columbia River Snowpack Summary
Palmer Drought Index Map
South Fork Flathead
General
Hungry Horse Dam is on the South Fork of the Flathead River, 15 miles south of the west entrance to Glacier National Park and 20 miles northeast of Kalispell, Montana. The damsite is in a deep, narrow canyon, approximately 5 miles southeast of the South Fork`s confluence with the main stem of the Flathead River. Hungry Horse Project is in the Flathead National Forest, Flathead County, Montana. The project includes a dam and appurtenant works, reservoir, powerplant, and switchyard. At the time of its completion, the dam was the third largest dam, and the second highest concrete dam, in the world. The project plays an important role in the program for meeting the growing need for power in the Pacific Northwest and in the plans for providing a storage system for control of devastating floods. It also contributes to irrigation, navigation, and other uses.
History
The Flathead Valley was entered in the early 1800`s by the Northwest Fur Company and the Hudson`s Bay Company, which established trading posts north of Flathead Lake. The first permanent settler in the valley arrived in 1860. Individual farmers irrigated the Ashley Creek area of the Flathead River Valley as early as 1885. The Ashley Irrigation District was formed in 1897 to serve 1,637 acres. In 1909, the Montana legislature passed a revised State irrigation district law and the Ashley Irrigation District was formed.
Construction
The prime contract for the construction of Hungry Horse Dam and Powerplant was awarded April 21, 1948, and the work was completed July 18, 1953. Hungry Horse Reservoir is located high in the Rocky Mountains, less than 30 miles from the Continental Divide, and is surrounded by more than 25 mountain peaks. The reservoir is about 34 miles long and offers excellent opportunities for fishing, boating, water skiing, and swimming. The surrounding mountains are popular big game hunting areas and several of the small tributaries to the reservoir have their headwaters in nearby alpine lakes. The reservoir area is located entirely within the boundaries of the Flathead National Forest, and the Forest Service administers recreational use of the reservoir. Facilities have been constructed for camping, picnicking, and boat launching. For specific information about any of these recreation sites, click on the name below: http://www.recreation.gov/detail.cfm?ID=1016 http://www.recreation.gov/detail.cfm?ID=805 http://www.recreation.gov/detail.cfm?ID=135 Hungry Horse Project creates power benefits that extend from the Continental Divide westward to the Pacific Ocean. At-site production averages about a billion kilowatt-hours annually. The principal power benefit from the project arises from its ability to store water through the spring flood season for later release when needed. In an average year, this water will generate about 4.6 billion kilowatt-hours of power as it passes through a series of downstream powerplants. Following the disastrous floods in the Columbia River Basin during the spring of 1948, which caused damage estimated at $100 million, the Hungry Horse Project was included in a main control plan system of reservoirs for control of floods in the basin. Hungry Horse Dam now contributes materially toward controlling floods on the Columbia River. The dam helped minimize floods in Flathead Valley and reduced peak discharges between the valley and Grand Coulee Dam by 10 to 25 percent, and at Portland, Oregon, by about 5 percent. The Hungry Horse Reservoir has 2,982,000 acre feet of capacity assigned to flood control. The Hungry Horse Project has provided an accumulated $136,473,000 in flood control benefits from 1950 to 1998. The United States` entry into World War II put great pressure on the country and its resources. Wartime industry exploded in a flurry of activity as manufacturers raced to produce greater amounts of materiel for the war effort. Electrical power was one resource necessary for all wartime manufacturers. Increasing need for emergency water storage for wartime electricity influenced serious consideration for the Hungry Horse multi-purpose dam, with hydro-electric power as one of its main functions.(1) In apparent contradiction to the professed urgency for electrical power, Congress authorized the project June 5, 1944, to begin as soon as war conditions permitted the diversion of materials and manpower for the work.(2) Reclamation planned to use Hungry Horse Dam to regulate the release of water to Grand Coulee and Bonneville Dams on the Columbia River to increase their power production. Hungry Horse would also generate its own hydro-electric power for residents in the immediate vicinity. Reclamation planned for Hungry Horse Dam to protect agricultural lands in the Flathead Lake area against floods.(3) The Hungry Horse Project is located in Flathead County, in the extreme northwest of Montana. Hungry Horse Dam lies south of Glacier National Park. To the southwest lies Kalispell, and to the west, Whitefish and Columbia Falls. They comprise the three major communities near the project. The Canadian Border lies 44 miles directly north of Hungry Horse. The Flathead National Forest surrounds the project in heavily timbered wilderness.(4) The northerly location of Hungry Horse often results in extreme variations of temperatures between the seasons. Kalispell recorded temperatures up to 101 degrees in July 1934 and as low as -34 degrees in January 1909.(5) First explored for the United States by the Lewis and Clark expedition of 1804-05, Montana became an example of the popular ideal of the west. The state boasted a significant cattle ranching industry during early settlement. Later the Great Northern Railway brought Montana civilized transportation. Flathead County experienced an oil rush at the turn of the century. Montana continues to exemplify the ideal of western history with its assortment of cowboys, cattle, ghost towns, and the Little Big Horn battlefield, where George Armstrong Custer made his famous, or infamous, last stand.(6) Meriwether Lewis and William Clark led the first known expedition of European-Americans through Montana in 1804-05. The expedition gave the United States a taste of what to expect in the newly acquired Louisiana Purchase. Later the booming fur trade of the early nineteenth century brought more Americans to the Flathead Valley. They were trappers from the Hudson`s Bay Company and the Northwest Fur Company. Except for the trappers, however, northwest Montana remained isolated from European influenced civilization until the first permanent settler arrived in 1860.(7) The Flathead Valley became closely linked to the Great Northern Railway. Three Montana towns, including Columbia Falls, the oldest town in Flathead Valley, were considered for a division point on the rail line. Two proved unsuitable, and the land barons in Columbia Falls wanted too much for the property. In desperation, Jim Hill, the railway`s builder, convinced a friend to purchase the necessary amount of land in another suitable location. Hill then built the Great Northern line to that point, giving birth to Kalispell, Montana.(8) Hungry Horse received its name from an incident that occurred in the winter of 1900-01. During the Montana oil rush at the turn of the century David and William Prindiville hauled drilling equipment to a spot on the north fork of the Flathead River. One day after crossing the south fork of the river they noticed two of their horses missing, Jerry and Tex. A month later the horses were found belly deep in snow and `nothing but skin and bones`. (9) The men cleared a trail to the horses and fed them until the horses had the strength to walk out. Jerry later pulled a fire wagon in Kalispell, and Tex did similar duty on a wagon for the Kalispell Mercantile Company.(10) During the early twentieth century, Montana citizens in the area discussed the possibility of a project to use the Flathead River for irrigation and power generation, and to provide flood control. The U.S. Geological Survey began studies of the Hungry Horse Dam site in 1921. The analyses continued periodically for twenty years. The Army Corps of Engineers conducted its own investigations of the area for dam sites. The Corps reported on the studies in 1934, but did not immediately proceed farther.(11) Organized support for the project materialized in 1943 when the Corps of Engineers returned to investigate possible storage sites for the Columbia River power system. The Corps of Engineers initially proposed one million acre-feet of storage by raising Flathead Lake. Local opposition to this plan influenced a closer look at Hungry Horse Dam as an alternative. Favorable engineering and geologic findings led to selection of the Hungry Horse Dam site by Reclamation in 1944.(12) Congress authorized the Hungry Horse Project June 5, 1944, as a result of the promising reports. Afterwards Reclamation began detailed investigations to determine the exact dam size and location. Congress approved the project on the condition that work should proceed when war conditions permitted the diversion of resources to the project. Committee reports stressed urgency in providing flood control for Flathead Lake agricultural lands and regulation of Columbia River waters to increase power production at Grand Coulee and Bonneville Dams. The proposed site for Hungry Horse Reservoir would flood many U.S. Forest Service facilities. Reclamation and the Forest Service reached an agreement on February 25, 1947, providing that Reclamation would rebuild or relocate affected facilities. These included a road around the northeast side of the proposed reservoir and several structures.(13) The war effort and expenditure of resources in World War II delayed construction on the project until 1945. Reclamation appointed Paul A. Jones as Project Engineer, January 16, 1945. Pre-construction work on Hungry Horse commenced in August 1945 as workers started on the access trail up the Flathead River`s south fork to the dam site. In 1947 Reclamation transferred Paul Jones to Denver and C.H. Spencer became the project`s Construction Engineer.(14) Guy F. Atkinson Co. excavated the diversion tunnel in the right abutment of the dam site from November 3, 1947, until Reclamation accepted the work June 30, 1948 to divert the south fork of the Flathead River around the dam sit for construction. Atkinson pushed excavation harder through the winter to finish, starting three work shifts in February. Work originated from both sides of the tunnel, but the upstream portal collapsed due to fractured rock. From then on work continued from the downstream portal only.(15) Clearing of the reservoir site signalled the beginning of main construction work on Hungry Horse Project in 1947. The clearing process overlapped the construction time of the dam. Wixson & Crowe and J.H. Trisdale, Inc. of Redding, California; and J.J. Reese of Columbia Falls, Montana, received the contracts to clear parts of the reservoir site in May 1947. Reese began work on his section June 23, 1947, but moved very slowly. He completed only a quarter of the scheduled work in more than half the time allowed by the contract. In August 1948, Reclamation terminated Reese`s contract and Seaboard Surety Co assumed the work under bond. Seaboard completed the work by the end of 1949, shortly behind schedule.(16) Wixson & Crowe and J.H. Trisdale started clearing September 7, 1948. The outfit achieved better results and moved much faster than Reese. The area cleared by the firm totaled approximately 6,200 acres, mostly burned over areas with dead timber. Reclamation made the contract deadline December 20, 1950, but the company completed the job early, August 18, 1950. Wixson & Crowe and J.H. Trisdale dissolved their partnership into Wixson & Crowe, Inc. and J.H. Trisdale, Inc., in 1949 to give each more latitude in estimating and bidding on the clearing contracts. Both received contracts for clearing further sections on the Hungry Horse Reservoir site.(17) The two contractors started their new sections in May 1950. They used tractors to pull eight foot diameter steel balls attached by cables through the trees and brush. Workers used the balls to keep the cables clear of stumps left from logging operations. The balls also prevented the cable from sliding up and over small, more flexible trees. Workers soon nicknamed the process Operation Highball . The two firms` combined acreage to clear a total of 14,695 acres. Both firms continued clearing operations through 1951, closing down in October for the coming winter with approximately 15 percent of the work left to accomplish. Wixson & Crowe finished the work September 25, 1952, and Trisdale completed his section September 30.(18) Coleman H. Dykes of Knoxville, Tennessee, received a contract to clear just over 1,000 acres of the dam site on October 18, 1949. Dykes` efforts proved unsatisfactory in the eyes of Reclamation officials. Dykes began the contract with low financial capital and no equipment for clearing work. Consequently he got off to a slow start. Dykes let subcontracts (placed in quotations in the Project History apparently questioning their validity) to several locals. By doing so Dykes thought he ended his obligations under the Davis-Bacon Act of 1931 that regulated wages on government contracts including, the requirements to file weekly wage affidavits, pay employees on a weekly basis, and to pay minimum wage.(19) Evidently Dykes` maneuvering did not clear him with Reclamation, because he finally let a subcontract to Robert E. Lee, Inc. of Manning, South Carolina, on January 25, 1950, to take over all of Dykes` schedules and subcontracts. The situation with Dykes` contract did not resolve for several months until Robert E. Lee started work on the contract. Lee showed greater proficiency for the work, completing nearly 90 percent of the work in 52 percent of the time allotted. The firm resumed work after the winter shutdown, in April 1951. The remaining job was primarily hand picking and clearing of steep slopes. Lee developed a four point iron drag, shaped similar to an umbrella, to pull cut trees to a central pile for burning. Lee completed the work September 24, 1951, and Reclamation accepted it in October.(20) General-Shea-Morrison of Seattle received the contract for construction of Hungry Horse Dam and Powerplant in April 1948, by Secretary of the Interior Julius A. Krug. In a ceremony on July 10, 1948, attended by Assistant Secretary of the Interior William E. Warne; Governor Sam Ford of Montana, set off the first dynamite blast to start construction of Hungry Horse Dam.(21) General-Shea-Morrison began their work the next day. The company erected a construction camp south of the government camp. They equipped it with houses, dormitories, warehouses, and a schoolhouse, and established a mercantile, grocery store, hospital, and a first aid station. General-Shea-Morrison built an eighty ton capacity bridge across the river and built a machine shop, compressor house, and a blacksmith shop at the dam site. The contractor strung floodlights across the canyon to permit night operations. General-Shea-Morrison considered building a conveyor from the aggregate pit to the dam, a distance of five miles. They dropped the plan because the breakdown of one drive unit could have stopped the entire system, so trucks were used to haul the aggregate.(22) Boyle Brothers subcontracted to build the morning glory spillway, a short distance upstreamin the right abutment of the dam. Excavation of the spillway tunnel began at the same time as dam construction. Work on the spillway tunnel carried over into 1949. Boyle Brothers broke through to the diversion tunnel on January 19, 1949. Reclamation increased diameter specifications of the lower end of the spillway from 55 feet to 120 feet. They finished excavating the spillway to its full diameter in early April 1949. Boyle Brothers started lining the lower twenty feet of the spillway in October 1949.(23) Boyle Brothers continued lining the spillway in 1950 and 1951, halting during the winter months. When lining the spillway commenced June 1, 1951, Boyle Brothers used a twenty foot steel form for setting the concrete. Workers had to expand the steel form to correspond to the taper of the spillway tunnel`s inclined portion. The company utilized wooden forms to connect the new lining and the lining at the foot of the spillway. In the course of the year, workers closed the upstream portal of the diversion tunnel and drained it, permitting excavation for the spillway`s outlet structure to be completed.(24) General-Shea-Morrison continued excavation and stripping of excess rock from the abutments and river channel above the low water line. Workers raised an upstream cofferdam of concrete cutoff walls and rock-filled timber cribs from each abutment to divert the river. The company completed diverting the river through the diversion tunnel April 11, 1949. High water overflowed the cofferdam in early June. The overflow delayed the expulsion of water from the river channel portion of the dam foundation until June 23, in turn postponing foundation excavation.(25) General-Shea-Morrison placed the first concrete in the dam September 7, 1949. The contractor used fly-ash as a pozzolan(26) mixture. Reclamation instituted the fly-ash mixture to replace about 35 percent of the portland cement, because it was a waste product from burning coal dust, required no processing, and cheap, abundant amounts were available. One negative aspect of using the material, was the fly-ash constituted a health hazard in the mixing plant because of the constant presence of dust in the air. Winter shutdown of concrete placement in Hungry Horse Dam occurred November 16, 1949 after 59,554 cubic yards of concrete had been laid.(27) Operations proceeded in the Spring of 1950, with the raising of the upstream cofferdam by twenty-four feet to protect against expected high water. Concrete placement operations resumed April 8, 1950, and shut down on November 19, for the winter. General-Shea-Morrison placed the penstock pipes and started laying concrete for the powerplant in April. Lining the foundation tunnels began in May. May 18 inaugurated the major placing of concrete for the dam structure. Between June 26 and July 7, 1950, a railroad switchman`s strike halted rail shipments of cement. The strike forced the company to ship cement by truck, adding an estimated $75,000 to the project`s cost. During the construction months General-Shea-Morrison laid roughly one million cubic yards of concrete.(28) After the winter shutdown, work on the dam continued April 2, 1951. During the year General-Shea-Morrison started construction of the trashrack structures and installing the steel trashracks. The four penstock pipes were enclosed in concrete. Workers laid 1.3 million cubic yards of concrete on the dam during the year. The company finished the steel work in the powerplant, and all but five pours of the concrete for the powerplant structure before the year`s end.(29) Concrete placement on Hungry Horse Dam resumed April 7, 1952. At the beginning of the work year the concrete blocks were at an elevation of 3,413 feet. By September 15 the contractor had raised all blocks but one to a 3,565 foot elevation. Workers waited as long as possible to raise the final block in order to continue using the full length of concrete transfer track which ran through the block`s position. They finished the final block October 4, 1952. Workers used a collapsible rubber form to fashion the five inch drain holes in the dam. They filled the form with water to keep the required diameter, then emptied it for removal. General-Shea-Morrison completed most of the parapets and the trashrack structures in late 1952. The company finished concreting the powerplant control bay superstructure in May 1952. They completed final work on the powerplant in July, while elevator shaft work concluded in August. Boyle Brothers continued lining the spillway tunnel and concreting the outlet structure. They placed the ring gate in August 1952. Workers finished the concrete plug in the upstream portal of the diversion tunnel in April 1952.(30) On October 1, 1952, at 11:35 a.m., President Harry S. Truman threw the switch to start power generation in the Hungry Horse Powerplant. President Truman then attended the dedication ceremony for Hungry Horse Dam at Flathead County High School in Kalispell. Work still remained after the dedication. In early 1953 inclement weather shut down virtually all construction on the Hungry Horse Project, but the end of February marked final cooling of the dam. Workers completed grinding, patching, and finishing of the spillway. They also accomplished final drilling of drain and pressure uplift holes in the dam.(31) Hungry Horse Dam is a concrete thick arch structure 564 feet high. The top width is 39 feet, while the bottom is up to 330 feet wide. The crest is 2,115 feet long. Hungry Horse Dam has a morning glory spillway controlled by a 64 x 12 foot ring gate. Three 96 inch diameter conduits provide outlets for the river. Four 162 inch penstock pipes supply water to the powerplants four generators with a total capacity of 285,000 kilowatts. Total storage of Hungry Horse Reservoir is almost 3.5 million acre-feet.(32) Construction of Hungry Horse Dam required replacement of some U.S. Forest Service structures and roads. Relocation of the Forest Service road proved the more complex procedure. For the operation, Reclamation divided the road into two sections and awarded contracts for each. F.R. Hewett Co. of Spokane, Washington received the contract for the first section of road in August 1947 and started in September. Gordon Construction Co. of Denver subcontracted with Hewett to move Margaret Creek and Tiger Creek bridges. Weather conditions limited Hewett`s construction time in 1948 to six months. At the end of the year 53 percent of the allowable time had elapsed with 42 percent of the work completed. By working two shifts in 1949, Hewett succeeded in finishing the work on September 24, 1949, with only 89 percent of the contract time elapsed.(33) Reclamation awarded McLaughlin, Inc., of Great Falls, Montana, the contract for section two of the Forest Service road relocation. McLaughlin`s section consisted of 16.7 miles around the northeast shore of Hungry Horse Reservoir. McLaughlin started work in May 1949 and closed down for the winter in November with 55 percent of the job completed. Work slowed down in 1950, due to weather conditions on the project. Saturation of the ground caused repeated mud slides on the roadway at Felix Creek. Cribbing the soil proved necessary to support the road. After completion of the cribbed section, an October slide covered the road. Rain in the days between October 15 and 21, 1950, prevented McLaughlin from finishing and grading the road, and burning nearby brush. By the contract deadline, McLaughlin had completed 91 percent of the road relocation.(34) McLaughlin continued operations on the Forest Service road May 24, 1951, after the winter shutdown in 1950. Completion of the task concentrated around roadway finishing, slide removal, cleanup, and brush burning. McLaughlin concluded the work July 21, 1951, 202 days past the deadline. Reclamation launched a fact finding investigation into the overrun, but determined McLaughlin was not responsible for the delays.(35) Other road work included the relocation of three bridges on the new road, west of the reservoir. Hansen & Parr Construction Co. of Spokane fulfilled the contract for the bridges. Valley Construction of St. Ingnatius, Montana, built a new fire lookout tower to replace one inundated by Hungry Horse Reservoir. Flathead Building Service of Whitefish constructed the West Side Work Center to replace facilities lost to reservoir waters. The new work center consisted of housing for Forest Service employees, garage and shop facilities for vehicles, a communications center, stable, corral, and storage space. The Betty Creek Work Center, finished in 1952 by Merritt Cass of Polson, Montana, was the same design.(36)
Plan
Hungry Horse is a key project in the Department of the Interior`s long-range program for multiple- purpose development of the water resources of the vast Columbia River drainage basin. The dam creates a large reservoir by withholding water in times of heavy runoff to minimize downstream flooding. This stored water is released for power generation when the natural flow of the river is low. Downstream power benefits are of major importance since more than five times as much power can be produced from water releases downstream than is produced at Hungry Horse Powerplant. The 564-foot-high dam is a variable-thickness concrete arch structure with a crest length of 2,115 ft. The dam and appurtenant works contain 3,086,200 cubic yards of concrete. The spillway is the highest morning-glory structure in the world. Water cascading over the spillway rim drops a maximum distance of 490 feet. The capacity of the spillway is 50,000 cubic feet per second, and the reservoir has a total capacity of 3,468,000 acre-feet. Power generating facilities are housed in a building with a structural steel framework surmounting a reinforced concrete substructure 394 feet long, 76 feet wide, and 157 feet high, constructed across the river channel at the downstream toe of the dam. The original design included four 71,250-kilowatt generators-a total of 285,000 kilowatts installed capacity. The generator capacity was uprated in the 1990`s to 107,000 kilowatts each for a total plant capacity of 428,000 kilowatts. In 1995, a selective withdrawal system was installed on all four unit penstock intakes. This selective withdrawal system is used from the first of June to the end of October to increase the water discharge temperature to reduce the thermal shock for downstream fisheries and increasing aquatic insect communities for Bull Trout growth and reproduction. The project is maintained and operated by the Bureau of Reclamation.
Other
Beattie, Will, and Joel Tohtz, Biologists; and Bob Bukantis and Steve Miller, Research Assistants. Effect of the Operation of Kerr and Hungry Horse Dams on the Reproductive Success of Kokanee in the Flathead System: Prepared for the U.S. Department of Energy, Bonneville Power Administration, Division of Fish and Wildlife. Montana Department of Fish, Wildlife, and Parks: March 1990. Parker, Sybil B., ed. McGraw-Hill Dictionary of Scientific and Technical Terms, Fourth Edition. New York: 1989.
Contact
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