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Shoshone Project
State: Montana and Wyoming
Region: Great Plains
Related Documents
Shoshone Project History (74 KB)
Related Facilities
Related Links
Buffalo Bill Dam and Shoshone Powerplant
Heart Mountain Powerplant
Corbett Diversion Dam
Deaver Dam
Willwood Diversion Dam
Buffalo Bill Reservoir
Deaver Reservoir
Newton Lakes
Ralston Reservoir
Yellowstone National Park
Major Storage Reservoirs in the Bighorn River Basin
Cody, Wyoming
Greybull, Wyoming
Precipitation
Shoshone River below Buffalo Bill Reservoir, Wyoming (USGS)
Mountain Snowpack Maps for Missouri River Basin
Palmer Drought Index Map
Explanation of Palmer Drought Severity Index (Text)
North Fork Shoshone
Shoshone
South Fork Shoshone
Buffalo Bill Dam
Deaver Dam
Ralston Dam
Corbett Diversion Dam
Buffalo Bill Powerplant
Shoshone Powerplant
Spirit Mountain Powerplant
Wyoming Area Office
Buffalo Bill Reservoir current water level and releases
Spring and Summer (NRCS)
Willwood Diversion Dam
Heart Mountain Powerplant
General
The Shoshone Project is near Cody in northwestern Wyoming. Features of the project include Buffalo Bill Dam and Reservoir, Shoshone and . Heart Mountain Powerplants, associated transmission facilities, and a network of canals and laterals to deliver water to the project lands. A full irrigation water supply is available for 93,113 acres. Supplemental service is provided for 14,561 acres.
History
Col. William F. `Buffalo Bill` Cody made the area now occupied by the Shoshone Project famous in the early days of the West. Buffalo Bill and his companions were the first to perceive the possibilities of turning the sagebrush flats of Wyoming`s Bighorn Basin into a land of agricultural abundance through irrigation. In 1899, they acquired from the State of Wyoming, a right to appropriate waters from the Shoshone River for the irrigation of about 60,000 acres of public domain near Cody. As an initial step, they constructed a canal on the south side of the Shoshone River. In 1903, the Wyoming State Board of Land Commissioners, with Cody`s approval, urged the Reclamation Service to complete the proposed irrigation development.
Construction
Billings Construction Company contracted to build Corbett Dam, and the Coffin Valve Company received the contract for installation of the gates. Billings Construction Company began preliminary work at the dam site on September 6, 1906. Laborers started laying the concrete on December 7. High water in June 1907, forced work to stop until October. A 160 foot section of weir in the center of the structure remained incomplete. Billings Construction finished the concrete work on January 5, 1908. Coffin Valve finished installation of the gates on March 23. Corbett Dam was a 18 foot high concrete slab and buttress weir. The weir crest length was 400 feet and the total crest stretched 938 feet. Corbett Tunnel diverted water from Corbett Dam and through the surrounding hills to Garland Canal. The tunnel is 17,355 feet long.(17) Corbett Dam and Tunnel diverted water from the Shoshone River north into the Garland Canal system. During construction of the dam and tunnel, work progressed on the canal. While surveying for the location of Corbett Dam and Tunnel, engineers also staked the location of Garland Canal. By September 1904 they established a location for the canal, from the mouth of the proposed tunnel to the small town of Frannie Station, a distance of forty miles. Contour maps were made of the irrigable areas between Garland and Frannie totaling 30,000 acres. In 1905 a topographic map was made of the irrigable lands south of the Shoshone River. The State of Wyoming turned the 24,000 acres in the mapped section, formerly segregated under the Carey Act, over to Reclamation. In April 1905 the engineers began survey of the Garland Canal site. They completed the survey of Garland Canal`s location in 1906 to a point 12 miles from Garland. At the same time engineers surveyed the new Frannie Canal extension from the Garland Canal.(18) The principal irrigable land lay on Garland Flat north of the Shoshone River on both sides of the Chicago, Burlington and Quincy Railroad with Ralston, Wyoming, on its west edge, Powell in its center, and Garland on its eastern edge. In May 1906, Reclamation established Camp Colter, near the center of Garland Flat to be the base of operations for all the work on the flat, this eventually became the town of Powell.(19) Bidding for the first division of the canal progressed slowly at first. Billings Construction bid on sections two, three, and eight. Reclamation deemed the bid excessive and rejected it. Nels L. Olson of Butte, Montana, finally received the contract for all of division one and began work September 3, 1906. Scarcity of labor and delays in supply deliveries hindered work. Garland Canal flowed into a natural basin which was determined a good location for a storage reservoir. The project was made part of the Division One contract. Olson constructed a puddled earth dam to create Ralston Dam and Reservoir. A 2 x 3 foot culvert, controlled by a gate tower, transferred the canal water through the dam to the other divisions. Olson completed the contract on July 20, 1908. Various other firms received contracts for the Garland Canal and completed their work before the end of 1907. Johnson Brothers of Lovell, Wyoming, subcontracted most of their work to fellow Mormons.(20) Only the Billings Hardware Company entered a bid for building structures on Division One. The bid was rejected as too high and plans were made to complete the structures by force account. Before that could happen W.D. Lovell submitted an informal bid that Reclamation accepted. Lovell began work in May, 1907, and started laying concrete June 14. Lovell completed the contract on February 28, 1908. No bids were received for structures on the remaining divisions so work by force account was authorized and started in May of 1907. On this work a temporary wood flume across Alkali Creek was completed in April of 1908.(21) Garland Canal travels 18.5 miles from the end of Corbett Tunnel to a point near Garland. Ralston Dam was an earthfill dam 35 feet high and 2200 feet long at the crest. Ralston Reservoir is no longer used for irrigation storage. It only serves as an emergency waste route during storms and collects drainage water.(22) Grading for the Frannie Canal system started in 1910. Frost caused some difficulties, but labor and weather conditions proved favorable for completing the work. R.M. Lynn began schedule three October 18, 1910. Lynn finished on May 6, 1911, five days after the contract expired incurring a penalty of $20 per day past the expiration day. Other contractors finished their schedules well within the time constraints of the contracts.(24) Reclamation received bids for structure construction on the Frannie system in 1915, but considered all too high. The work was re-advertised and Reclamation received more bids in May, 1916. The Security Bridge Company of Minneapolis received the contract for schedule one structures on the first unit, but their proposal for the unit`s schedule two structures was considered too high. Work by force account was approved for schedule two. Labor scarcity hampered Reclamation`s work as much as it did the contractors throughout the project. Higher wages being paid elsewhere forced Reclamation to raise wages, and this did not guarantee keeping workers on the job. At one time construction halted because of a lack of labor. As a result, progress on the construction moved slowly.(25) Like contractors elsewhere, Reclamation encountered some bad luck on Frannie Canal. Severe winter weather shut down the Reclamation forces from November 10, 1916, to April 2, 1917. Then on June 16, 1917, at 6:15 P.M. a storehouse at Deaver burned with all its contents. The building loss cost Reclamation $900 while the lost supplies cost $5683.59. Peter Shirts began construction on his schedule, but unsatisfactory progress caused Reclamation to suspend his contract and take over the work by force account.(26) Work on Frannie Canal continued slowly in 1918. Hoyt Hayden completed the second unit of the canal on November 4. On October 8, Lynn Brothers completed backfilling the government built structures. Reclamation forces finished most of the canal structures to the Chicago, Burlington, and Quincy Railroad. The government built 114F siphon was used to fill the Deaver Reservoir. Deaver Dam was an earthfill structure 14 feet high with a 12 foot crest and an 80 foot base. The dam was 1300 feet long with a volume of 30,000 cubic feet. The only outlet work was a cast iron pipe through the dam. Inability to secure labor continued hampering the project during 1918. The Project History stated, `The outstanding features of the years`[sic] work were the same as those of last year, namely, slow progress and high costs due to insufficient and inefficient high priced labor and high priced materials.`(27) Construction and excavation of the first and second units of the Frannie Canal continued and was completed in 1919. Most contract work went smoothly. William Peterson completed the schedule one structures on Frannie Canal`s second unit, of Peter Shirt`s suspended contract. `Considerable difficulty was experienced in getting the contractor to finish the work,` proclaimed the year`s Project History.(28) Work began on Frannie`s third unit in August, 1919. Bad weather in the Fall forced the suspension of all work. Albert Gillis` schedule was given to Riley Brothers. Government forces handled unit three`s structural work. Through the years 1920-22 work on Frannie Canal continued progressing despite problems with contractors. The contractors finished most of this work in 1921, but some continued, along with force account structural construction, into 1922. Frannie canal extended 44 miles from Garland Canal to a point near Frannie. Deaver Canal travelled from Frannie Canal past Deaver Reservoir.(29) Force account work began on the Shoshone Powerplant under R.V. Sass, Superintendent of Construction, on November 10, 1920. The powerplant was located on the north side of the Shoshone River, 600 feet downstream from Shoshone Dam. It was constructed to supply power for various towns on the project and for construction of the project`s Willwood Diversion Dam. In preparation for construction, crews built three bunkhouses for 20 men each, a messhall for 80 men, and remodelled a bunkhouse remaining from previous Shoshone Dam construction. Excavation for the powerplant began on January 4, 1921. In the first weeks laborers removed loose rock by hand, later switching to two jackhammers. After reaching solid rock, work crews converted two `dreadnought` drills, left from tunnel drilling, into jackhammers and added them to the excavation.(30) At the beginning of June 1921, when some of the concrete forms were about ready to set, warm weather and rain raised water in Shoshone Reservoir over the spillway, threatening construction on the powerplant. By June 13 water reached 5.2 feet above the spillway, discharging of 12,000 second feet of water. The flooding delayed construction about seven weeks. Excavation resumed on July 8 and in less than a month excavation for the powerplant floor was complete. Solid rock constituted half the base for the floor while it proved necessary to dig ten more feet to find a solid footing for the other half. Workers filled this hole with boulders and concrete to the level of the bottom of the concrete flooring. A crushing plant was established on the site for concrete, and crews gathered rock for the crusher from the cliffside. Laborers poured the first concrete on August 5, 1921. By 1922 most of the powerplant was completed except for the concrete roof, and the bypass house was nearly complete. Preparations for installing the hydraulic and electrical equipment for the powerplant also began before the first of 1922.(31) Excavation of the powerplant tunnel`s east portal began February 19, 1921. Work continued without major problems until April when broken piston rods on the drills twice halted work early in the month. On April 13 workers completed 307 feet of the tunnel from the east portal. The next day work stopped on the east portal and began on the west. Work on the west portal started from a raft on the river. For a month the drills needed a large number of repairs. Changes in foremen resulted in less maintenance, leading to the conclusion that the drills were previously misused. Work progressed steadily resulting in completion of excavation and concrete lining of the 600 foot tunnel by the beginning of 1922.(32) Preliminary exploratory drilling on the Willwood Dam site, on the Shoshone River began using force account in 1921. Reclamation established a temporary camp in early July of 1922, and permanent structures began going up later that month. Workers built a foot bridge 400 feet downstream from the dam site. In addition they constructed a pipe bridge with a sawdust filled box holding the air, steam, and water pipes to prevent freezing. Foundation excavation began August 7, and laborers commenced laying concrete on December 1. To keep the concrete warm at night, crews kept it covered with boards and canvas with a steam hose underneath the covering. From December 4 to December 19 the temperature at the dam site never rose above zero. On the 19th a Chinook Wind warmed the weather to warm up considerably and new laborers brought the total to 153 permitting more rapid progress.(33) During the course of construction Reclamation twice changed to the dam design; the crest was raised five feet and engineers added an inspection gallery to check pressure on the foundation. The first concrete pour on the dam occurred January 1, 1923. Cold weather delayed work from January 28 to February 6 and from February 12 to 15, but few delays occurred due to breakdowns or lack of material. In spite of the fear that it could not be accomplished, construction of the dam`s south half finished on March 8 before the advent of high water. Laborers began laying the concrete on the north half of the dam March 15, before the north half of the concrete apron, necessary to protect the river bed below the dam against erosion. The concrete on the dam was laid before the apron in order to get the north side above high water, and because the excavation was not completed for the apron.(34) Construction began in early 1904. Ralston Dam and Corbett Dam were completed in 1908, making the first water available for irrigation. Buffalo Bill Dam began storing water in 1910. Deaver Dam was completed in 1918, and the Willwood Dam in 1924. The first lands open to settlement in the project were in the Garland Division in the vicinity of Powell, Wyoming. Development of the Garland Division was virtually complete in 1918. Between 1917 and 1920, the Frannie Division, comprising lands principally between the towns of Frannie and Cowley, Wyoming, was opened. The Willwood Division, lying south of the Shoshone River between Willwood Dam and Penrose, Wyoming, was settled under successive openings between 1927 and 1938. The Heart Mountain Division, completed in 1947, extends along the north side of the Shoshone River from the vicinity of Cody, Wyoming, to a point about 7 miles northwest of Ralston, Wyoming. The Shoshone Irrigation District, Garland Division, entered into a repayment contract with the United States on March 21, 1969, to repay the cost of the R&B Program. Construction work included lining of laterals with concrete or other materials; placing of canals, laterals, and drains in pipe; and replacement of minor structures. The R&B Program, authorized un the 1969 contract, was completed in 1982. Several other R&B contracts with the various divisions of the Shoshone Project have been initiated and completed. The current R&B contract was entered into in 1992 with the Shosone Irrigation Project Joint Powers Board representing all four divisions of the Shoshone Project. Work under the current contract is scheduled to be completed in 2000. Principal crops grown are beans, alfalfa, pasture, oats, corn, barley, and sugar beets. As these are largely feed crops, the project assists materially in stabilizing the livestock industry in the area. Buffalo Bill Dam and Reservoir are located in a rugged scenic canyon adjacent to a main highway which leads into Yellowstone National Park. The reservoir area provides camping, picnicking, swimming, boating, and good fishing for rainbow, brown, and Mackinaw trout. Winter fishing is popular. For specific information about any of these recreation sites, click on the name below. http://www.recreation.gov/detail.cfm?ID=1231 http://www.recreation.gov/detail.cfm?ID=1232 http://www.recreation.gov/detail.cfm?ID=1244 http://www.recreation.gov/detail.cfm?ID=1248 http://www.recreation.gov/detail.cfm?ID=963 Power produced on the project is fed into a grid system which serves an area extending into three States. Buffalo Bill Reservoir (http://www.usbr.gov/dataweb/dams/wy01300.htm) provides incidental flood control on the Shoshone River. Although there is no specific reservoir capacity assigned for flood control, the Shoshone Project has provided an accumulated $9,003,000 in flood control benefits from 1950 to 1999. The Shoshone Project, one of the earliest Bureau of Reclamation projects, is located near Yellowstone National Park. The major features of the project are the Buffalo Bill Dam and the Buffalo Bill Reservoir. It is appropriate for these features to be named after the famed Colonel William F. (Buffalo Bill) Cody because he was one of the originators of the project idea. The dam and reservoir are located near the city of Cody, Wyoming, also named after Buffalo Bill. The project was a long time in construction and saw many modifications to its structures even before final completion. The Shoshone Project covers large areas of Big Horn and Park Counties in northwestern Wyoming, and a small section of Carbon County in Montana. The largest feature of the project is Buffalo Bill Dam and Reservoir, formerly the Shoshone Dam and Reservoir. The project contains four irrigation divisions; Garland, with 35,853 irrigable acres, Frannie, 14,600, Willwood, 11,530, and Heart Mountain, 27,337. Other major structures on the project include, or have included, but are no longer in operation, Corbett and Willwood Diversion Dams, Shoshone and Heart Mountain Powerplants, the Shoshone Canyon Conduit, Corbett Tunnel, the Shoshone River Siphon, Deaver Dam and Reservoir, Ralston Dam and Reservoir, and Garland, Frannie, Willwood, Deaver, and Heart Mountain Canals.(1) Northwestern Wyoming just to the east of Yellowstone National Park and the Grand Teton Mountains is a dry and forbidding area. During the major migrations of settlers across the United States in the 1800s, few, if any, stopped in Wyoming. Most continued on to the lush green expanse of Western Oregon or to the lure of gold and California. Toward the end of the nineteenth century people began settling the barren lands of Wyoming hoping to turn it into productive farmland. To support this hope, productive farmland in the dry climate needed water. Dreams of irrigating the arid regions of northwest Wyoming began in the 1890s. In 1893 Frank Mondell, a civil engineer and later a U.S. Senator, filed for a permit, from the state of Wyoming, to acquire water from the Shoshone River for irrigation. Mondell`s plan never came to fruition, but later others took up the cause. In 1897 Colonel William F. (Buffalo Bill) Cody and Nate Salisbury received a permit to irrigate 120,000 acres of land with water from three canals diverted from the Shoshone River. The three canal system proved not feasible so Cody and Salisbury were forced to wait for their next opportunity.(2) On May 29, 1899, Cody and Salisbury tried again and acquired water rights from the Shoshone River to irrigate 60,000 acres around Cody, Wyoming. The state of Wyoming segregated the land under the provisions of the Carey Act. Cody and Salisbury investigated the feasibility of the project and received the investigation report on September 20, 1901. The size of the project made the cost prohibitive and beyond the financial reach of both men.(3) Early in 1903 the Wyoming State Board of Land Commissioners asked the Federal Government to undertake construction of a project. The Board expressed its willingness to relinquish the land known as the Cody-Salisbury tract to the United States. The Chief Engineer of Reclamation authorized preliminary investigation of the project on April 20, 1903. Fieldwork began in May and finished in November of the same year with 200 square miles mapped.(4) Secretary of the Interior Ethan A. Hitchcock allocated $2.25 million for construction provided that water and land rights were satisfactorily secured, and the consulting engineers reported ground conditions favorable for the project. On February 13, 1904, Cody, who had survived Salisbury, transferred the two men`s rights to Shoshone River water to the Secretary of the Interior. Reclamation filed an application to enlarge the Cody-Salisbury permit with the State Engineer of Wyoming on March 23, 1903. The Stated Engineer approved the project on February 10, 1904. The project began under Supervising Engineer H.N. Savage and the Project Engineer Charles P. Williams.(5) Preliminary drilling for the Shoshone Dam began in July 1904. Because of the hard granite bedrock of the Shoshone River, the cold temperatures encountered, and the rough topography of Shoshone Canyon, the drilling was not completed until ten months later. At the end of drilling, project engineers concluded the proposed dam site was a solid foundation. During the test drilling, Reclamation began construction of an access road from Cody to the dam site.(6) With preliminary drilling accomplished and the access road begun, the process of hiring a contractor started. Prendergast and Clarkson of Chicago received the contract for construction of the dam on September 23, 1905. On October 19 the firm began building the base camp on the west side of the construction site. The contractors started by building a temporary diversion dam. This dam channeled the river water into a wooden flume, through a tunnel in Cedar Mountain, into another flume which fed the water back into the river. Construction of these diversion works lasted until May 1906. The hazards of construction revealed themselves quickly when a premature explosion in the downstream portal of the diversion tunnel killed two men.(7) The progress of diversion works construction elicited a letter from Reclamation saying the work was too slow. Then during January work progressed more rapidly. By the end of March, construction once again slowed due to cold weather and snow. On May 13, 1906, a flood weakened the upper diversion flume and halted construction. When work resumed it proved slower than ever and a flood in June destroyed the flume and damaged the diversion dam. Prendergast and Clarkson requested an extension for the work in May 1906, instead Reclamation suspended their contract that August. Construction came to a standstill following the contract suspension. U.S. Fidelity and Guaranty Company took over the suspended contract to prevent the loss of the contractor`s bond.(8) Work resumed on October 1, 1906. However procrastination appeared to be U.S. Fidelity`s main contribution to the project as they failed to even clear debris from the river with any rapidity. In November the company proposed redesigning the dam, which Reclamation rejected. A severe winter in 1906-07 hindered work, but the weather improved by mid-February and the construction crew expanded to 275 men by March. In July 1907, a severe flood carried logs down from a sawmill and destroyed the southern half of the diversion dam. The flood set the construction timetable back and excavation for the dam foundation was set for late winter while repairs commenced on the diversion dam.(9) In August Reclamation decided to review U.S. Fidelity`s contract in the Spring of 1908 to determine if their contract should be suspended. Foremen proved inadequate during the coming months, and in November 1908, the laborers at the dam began Wyoming`s first labor strike. The workers demanded three dollars a day and U.S. Fidelity agreed. The work yielded little forward progress, except uncovering bedrock in the excavation in February, 1908.(10) Work progressed slowly and ground to a near standstill until U.S. Fidelity turned the contract over to Grant Smith and Company and Locher of Chicago March 8, 1908. The company assumed control of the work crews on March 17. Progress proceeded with greater speed with the change of contractors. Crews began pouring the concrete on April Fools Day, 1908. Spring came and with it, the high water that plagued the project from the beginning. The foundation pit flooded and forced crews to start over. Excavation continued over the summer and the laborers resumed work on the dam in late September.(11) Laborers placed granite rocks weighing from 25 to 200 pounds, called plumrock, into the concrete of the dam. These eventually constituted 25 percent of the concrete mixture of the dam. Freezing temperatures forced the work to halt in November 1908. During the winter crews worked on placing the 42 inch outlet pipes in the base of the dam. These were placed to make a powerplant downstream from the dam possible in the future. Even though the concrete pouring stopped for the winter, the contractor raised the dam high enough to protect the mixing plant and the bridge across the river against spring flooding.(12) Resumption of concrete pouring began in March 1909, and marked the last season of the task. In July the most severe flooding since construction began, raised the Shoshone River 17.3 feet above the completed portion of the dam. The structure nevertheless held and work resumed in September. Italian workers on the project threatened to strike, but unlike U.S. Fidelity, Smith and Locher would have none of it and replaced the Italians with Bulgarians from the granite quarries. Labor troubles continued as workers brought to Wyoming often left when faced with working conditions on the dam. Smith and Locher hired men to make sure laborers did not leave a short time after the contractor had paid their expenses to go to work in Wyoming. This alleviated the labor shortages and in October 1909, 450 men were working on the dam.(13) The same month saw crews pour 14,600 cubic feet of concrete -- the most productive month of construction. November brought freezing cold and slowed concrete placement considerably. Work continued through the cold periods, and workers heated the sand and gravel before mixing and pouring concrete. Pours were covered and heated constantly. This made the work expensive, but it did continue. Work stopped in December when the temperature stayed below zero for several days. However concrete placement resumed in late December. Laborers poured the last concrete on January 15, 1910, with the temperature at 15 below zero. The price tag of the Shoshone Dam was $1.4 million. Beyond the monetary cost seven men died during construction.(14) Upon completion the dam stood 325 feet high. The base of the dam is only 70 feet long with a maximum width of 108 feet. The crest measured 200 feet with a width of only 10 feet. The crest elevation stood at 5370. The total volume of concrete was 82,900 cubic feet. The spillway was an uncontrolled side channel weir with a crest length of 298 feet and an elevation of 5360. It fed the water through a tunnel in the left abutment. At the end of construction the reservoir capacity was 456,000 acre feet. Siltation dropped this figure considerably over the years.(15) In May 1904, an engineering party studied the location for the Corbett Tunnel and sites for a canal system. Reclamation`s site for the tunnel and diversion dam was 16 miles downstream from Shoshone Dam. Charles Spear of Billings, Montana, received the contract for constructing the Corbett Tunnel and began constructing the tunnel in 1905. During 1906 Spear went broke and defaulted on the contract: Reclamation then assumed responsibility and finished the work by force account in 1907. No extraordinary problems occurred during construction.(16) The concrete on the north side of the dam proved the easiest to place because of the short distance from the mixer to the site. This allowed the dam to be raised to elevation 4461, considered safe from high water, by March 28. Work on the apron began the next day and finished on April 5. Afterward construction continued on the dam finishing the concrete to the crest by May 23. The steel highway bridge built across the dam consisted of three 90 foot spans and was completed July 16.(35) Work on the tunnel for the eight foot diameter horseshoe diversion conduit began while excavation for the dam progressed. The conduit transferred water diverted by Willwood Dam to the Willwood Canal system. In 1923 the decision was made to increase the tunnel to nine feet. The first 25 feet of the tunnel remained eight feet high. Ten feet of the tunnel provided the transition from eight to nine feet, and the remaining section continued at nine feet high. Tunnel excavation finished before the end of 1922. The concrete lining was in place by the end of 1923. Willwood Dam was a concrete gravity weir that stood 70 feet high and with the embankment wings, the total crest measured 476 feet long.(36) Excavation of the Willwood Canal began August 28, 1922. Charles Pease of Garland and W.A. Bullard received contracts for sections of Willwood Canal. Heavy rains and extremely cold weather prevented completion of either contract. Slow progress by the contractors forced Reclamation to give them each two extensions, but they eventually completed the work. High bids for structural work on the canal resulted in Reclamation completing the work by force account. Pease received a contract for nine more sections. Pease started work on April 17, but lack of significant progress influenced Reclamation to suspend the contract. Reclamation awarded contracts to various companies who proved more reliable. The main canal and all lateral earthwork was completed in 1925. When finished the canal measured 24.8 miles in length.(37) To take advantage of unoccupied lands west of the Shoshone Project, Reclamation began construction of Heart Mountain Canal in 1937. The Shoshone Canyon Conduit became the first feature begun on the Heart Mountain Canal system. The Utah Construction Company of Ogden, Utah, contracted to build the conduit. Construction began February 21, 1937. Laborers consistently encountered sulphur during excavation, the fumes proving dangerous to workers. Fumes contributed to the deaths of two workers in 1937. Three men entered the tunnel too soon following an explosion. All three succumbed to the fumes and were run over by an incoming motor. The accident killed two of the men, but the third revived after being taken out of the tunnel.(38) Concrete placement on part of the conduit by Taggart Construction began March 16, 1937 and finished November 25. Placement of the concrete began on the next section two days later. A large cave in the path of the conduit excavation necessitated a concrete flume, consisting of two 70 foot spans, to cross. Because of gas in the cave and the confined working space, a different method of supporting the flume forms was devised. The two inch planking of the floor form was laid on top of a four inch bed of sand. The wall forms connected directly to the floor forms. When the forms were removed, workers sprayed the sand out with high pressure water jets allowing the flume to be free of the fill between the abutments and the pier.(39) Work continued until completion on July 3, 1938. Final cleanup took until September 30. On that date Reclamation formally accepted the work. When Utah Construction finished work on September 30 they were 77 days ahead of their contract schedule. The conduit was a 12 foot horseshoe tunnel spanning 2.8 miles.(40) Morrison-Knudsen Company of Boise, Idaho received the first contract for excavation of the Heart Mountain Canal. Work started February 23, 1937. Only two firms bid for construction of the Shoshone Canyon Conduit outlets, both deemed too high and the contract was scheduled for re-advertisement. Other contractors for the Heart Mountain Canal in 1938 included; Northwestern Engineering of Rapid City, South Dakota, J.A. Terteling and Sons of Boise, Taggart Construction, and Barnard-Curtiss, of Minneapolis. Northwestern Engineering experienced problems with concreting operations, so the firm subcontracted canal lining to James Crick in an effort to beat the winter weather. Crick began laying concrete on September 11.(41) Barnard-Curtiss completed construction in December 1939. The company encountered no significant difficulties in construction, and work proceeded steadily. Consolidated Steel Corporation contracted to build the Shoshone River Siphon and the Buck Springs Creek Siphon. Olson Manufacturing of Boise subcontracted to place the pipe for the two siphons. Consolidated manufactured the pipe in Los Angeles and shipped it to Wyoming. Qualified welders proved difficult to find, but enough were hired in time to prevent any major delay. Delays did occur when some sections of pipe arrived out of order. In spite of such occurrences workers placed the pipes quickly. The painting of the pipe, removal of wooden falsework, and cleanup proceeded rapidly as well. Reclamation accepted the work 102 days before the end of the contract. For a time, in 1939 work progressed swiftly under some contractors of Heart Mountain Canal. Utah Construction finished their section of the canal 99 days ahead of schedule. Barnard-Curtiss completed the earthwork and concrete work on the Buck Springs Siphon 100 days before the contract expired.(42) Ray Schweitzer received a contract for three laterals and associated sublaterals in 1940. Schweitzer subcontracted most of the work to Luther F. Fife and Company, M.J. Gilpatrick, and Spenser Tolley. Reclamation observed a lack of cooperation between Schweitzer and his subcontractors early in the construction. Schweitzer`s forces were to carry out excavation. Fife, who was to lay concrete, reinforcement, and pipe, arrived at the site with equipment in late April, 1941. Schweitzer`s excavation crew arrived nearly a month later. Schweitzer`s group proceeded with poor quality excavation which severely hampered Fife`s workers. This in turn slowed down the other subcontractors. Eventually cooperation, although never very good, improved and resulted in a better progress.(43) Camp BR-72 of the Civilian Conservation Corps (CCC) provided workers for part of Heart Mountain Canal System in 1941. CCC work consisted primarily of grading and graveling roads. The CCC completed most of the work by October 31 when the camp closed under orders from the Washington office. The CCC resumed work in February 1942, grading the canal for a bentonite lining.(44) During World War II the War Relocation Authority (WRA) Camp located at Heart Mountain provided Japanese and Japanese American labor for sections of the canal system. In 1942 internees from the camp constructed works originally slated for contract work. H.B. Berkey of Missoula, Montana, subcontracting concrete work on a section of canal received permission to employee Japanese internees from the Heart Mountain Camp. The Project History claimed the WRA forces needed better efficiency, because the work done was equivalent to that of half as many CCC employees.(45) In 1943 the WRA formulated a policy for using Japanese and Japanese American labor. In an agreement with Reclamation it was decided to use such labor on the section of canal directly supplying the agricultural needs of the relocation camp. Once again the Project History denounced the efficiency of the internee labor. This did not stop their use in any case. Barnard-Curtiss, faced with the labor shortage caused by World War II, used internee labor on their contracted section, though it was lamented `...their services were not as satisfactory as labor from the same source employed in the fall of 1942.`(46) During 1943 Reclamation forces did no work on the project. The following year no construction was accomplished. When 1944 arrived the WRA program for the internees used nearly all of them for work on the relocation camp and the agricultural program, because expansion of canal construction proved impossible. They continued working on small features in the system, but nothing more. No internees participated in canal construction after May, 1944. In spite of theProject Histories` lament regarding the internees` efficiency they seemed to have accomplished a fair amount in the first five months of 1944. The internees excavated 2816 cubic yards of canal, and 815 cubic yards of borrow pit, laid almost 3000 cubic yards of lining, laid over 4000 cubic yards of rock paving, graded 340 cubic yards of road, and placed 1640 cubic yards of gravel on roads. Reclamation did no work on the project in 1943 or 1944.(47) Construction of Heart Mountain Canal resumed following the war, and Wyoming Construction Company of Laramie and Otis Williams Company of Helena, Montana, received contracts for sections of it 1946. Labor and material shortages hindered work by both the contractors and Reclamation forces. The government was unable to buy reinforcing steel and bridge timber during the year. Reclamation`s pre-war stock steel provided enough for 35 percent of the requirements. Work on the canal finished in 1947. Heart Mountain added another 26.2 miles to the Shoshone Project`s canal system.(48) To supply more electrical power to the project, Reclamation decided to build a powerplant in the Heart Mountain Division. Samuels and Franklin, Gibbons and Reed Company began construction of the Heart Mountain Powerplant on September 9, 1946. Work progress proved slow, but steady. Construction proceeded under both contract and force account until 1948. The powerplant went into operation December 8, 1948, with some temporary installations. Samuel`s and Franklin completed all their contract work, but some of the government-installed equipment was not ready. At initial operation the powerplant still needed three transformers for the switchyard, louvers, fans, and ventilating equipment for the powerplant.(49)
Plan
Floodwaters of the Shoshone River are stored in Buffalo Bill Reservoir for later release for irrigation and power generation. The project comprises four irrigation divisions: Garland Division, with 35,863 irrigable acres; Frannie Division, 14,600; Willwood Division, 11,530; and Heart Mountain Division, 31,120. Power is developed at the Shoshone and Heart Mountain Powerplants. The system is interconnected with the West Division of the Pick-Sloan Missouri Basin Program. Transmission lines, under the Department of Energy, consist of 117.7 miles of 69-kilovolt and 14.0 miles of 34.5-kilovolt lines. The Shoshone Canyon Conduit, beginning at Buffalo Bill Dam, conveys water to the Heart Mountain Powerplant. Irrigation releases then cross the river through an inverted siphon into the Heart Mountain Canal for the Heart Mountain Division. Water for the Garland Division is diverted from the Shoshone River into the Garland Canal at Corbett Diversion Dam. The Frannie Canal serves the Frannie Division from the Garland Canal. Water for the Willwood Division is diverted into the Willwood Canal at Willwood Diversion Dam. Buffalo Bill Dam, on the Shoshone River about 6 miles upstream from Cody, Wyoming, is a concrete arch structure of constant radius. The structural height is 325 feet and the volume is 82,900 cubic yards. This was one of the first high concrete dams built in the United States. The reservoir impounds 423,970 acre-feet of water. Shoshone Powerplant is near the base of Buffalo Bill Dam and originally had a capacity of 6,012 kilowatts. Because of maintenance and safety problems, the powerplant was removed from service in March 1980. A new 3-megawatt unit was placed in service in 1991 (see Shoshone Powerplant history section in this website) as a portion of the Buffalo Bill Unit of the Pick-Sloan Missouri Basin Program. The Heart Mountain Powerplant is at the outlet of Shoshone Canyon Conduit about 4 miles southwest of Cody, Wyoming. The capacity of the plant is 5,000 kilowatts. The 26-mile-long Heart Mountain Canal begins at the outlet to Shoshone River Siphon, which spans the river below the Shoshone Canyon Conduit outlet. The initial capacity of the canal is 915 cubic feet per second. The siphon is part steel and part concrete, 1,640 feet long, and 10.25 feet in diameter. Corbett Diversion Dam is a reinforced concrete flat-slab and buttress weir with a short embankment wing. It is on the Shoshone River about 16 miles downstream from Buffalo Bill Dam. The hydraulic height is 12 feet. The outlet works is a concrete-lined horseshoe tunnel about 11 feet in diameter and 17,355 feet long. The Garland Canal supplies the Garland and Frannie Divisions through the Frannie and Deaver Canals. Garland Canal begins at Corbett Diversion Dam and extends northeast about 18 miles. Its initial capacity is 1,000 cubic feet per second. Frannie Canal begins at the Garland Canal and is 44 miles long. The initial capacity is 550 cubic feet per second. Deaver Canal begins at the Frannie Canal. It is 24 miles long and has an initial capacity of 194 cubic feet per second. Offstream storage of municipal water is provided by Deaver Reservoir. This reservoir is in the Frannie Division and has a capacity of 681 acre-feet. Ralston Reservoir on the Garland Canal is no longer used as an operational storage reservoir. It provides an emergency waste route during storms, and collects drainage water. Willwood Diversion Dam, on the Shoshone River about 8 miles downstream from Corbett Dam, is a concrete gravity structure with a hydraulic height of 41 feet. Willwood Canal begins at the diversion dam. The canal is about 28 miles long and the diversion capacity is 320 cubic feet per second The irrigation system for the Frannie Division is operated by the Deaver Irrigation District, the Garland Division by the Shoshone Irrigation District, the Willwood Division by the Willwood Irrigation District, and the Heart Mountain Division by the Heart Mountain Irrigation District. Buffalo Bill Dam and the powerplant are operated by the Bureau of Reclamation. The transmission system is operated by the Department of Energy.
Other
Department of the Interior. Bureau of Reclamation. Buffalo Bill Dam. Pamphlet.
Contact
Contact
Organization: Cody CanalAddress: 1226 - 11th St
City: Cody, WY 82414
Phone: 307-587-6216
Contact
Organization: Deaver Irrigation DistrictAddress: P.O. Pox 205
City: Deaver, WY 82421
Fax: 307-664-2548
Phone: 307-664-2351
Contact
Organization: Elk Water Users AssociationAddress: 204 Lane 10, Rt 2
City: Powell, WY 82435
Phone: 307-754-3064
Contact
Organization: Lakeview Irrigation DistrictAddress: 1309 Sheridan Ave
City: Cody, WY 82414
Phone: 307-587-2285
Contact
Organization: North Fork Valley Ditch Company, IncAddress: PO Box 158
City: Cody, WY 82414
Phone: 307-587-3620
Contact
Organization: Sidon Irrigation DistrictAddress: PO Box 202
City: Cowley, WY 82420
Phone: 307-548-7673
Contact
Organization: Willwood Irrigation DistrictAddress: 1306 Road 9
City: Powell, WY 82435
Fax: 307-754-3228
Phone: 307-754-3831
Contact
Title: Facility ManagerOrganization: Big Horn Basin Field Office
Address: #4 Reclamation Road
City: Cody, WY 82414
Phone: 307-527-6256-(ext.-260)
Contact
Title: Public Affairs OfficerOrganization: Great Plains Region
Address: 2021 4th Avenue North
City: Billings, MT 59101
Fax: 406-247-7604
Phone: 406-247-7610
Contact
Organization: Heart Mountain Irrigation DistrictAddress: 272 N. Hamilton
City: Powell, WY 82435
Fax: 307-754-7013
Phone: 307-754-4685
Contact
Organization: Shoshone Irrigation DistrictAddress: 337 E. First St.
City: Powell, WY 82435
Fax: 307-754-3135
Phone: 307-754-5741