Hauser Dam

Hauser Dam (also known as Hauser Lake Dam) is a hydroelectric straight gravity dam on the Missouri River about 14 mi northeast of Helena, Montana, in the United States. The original dam, built between 1905 and 1907, failed in 1908 and caused severe flooding and damage downstream. A second dam was built on the site in 1908 and opened in 1911 and comprises the present structure. The current Hauser Dam is 700 ft long and 80 ft high. The reservoir formed by the dam, Hauser Lake (also known as Hauser Reservoir), is 25 mi long, has a surface area of 3800 acre, and has a storage capacity of 98000 acre.ft of water when full.

The dam is a "run-of-the-river" dam because it can generate electricity without needing to store additional water supplies behind the dam. The powerhouse contains six generators, bringing Hauser dam's generating capacity to 17 MW.

Construction of first dam
The first Hauser Dam was built by the Missouri River Power Company and its successor, the United Missouri River Power Company. Samuel Thomas Hauser, a former Territorial Governor of Montana from 1885 to 1887, enjoyed a lengthy career in banking, mining, railroads, ranching, and smelting, but encountered a series of financial setbacks after the Panic of 1893 which nearly ruined him financially. In his early 60s, Hauser began to rebuild his finances by branching out into the relatively new industry of hydroelectric power generation. In 1894, he formed the Missouri River Power Company, and won the approval of the United States Congress to build a dam (Hauser Dam) 2 mi below Stubbs' Ferry. In 1905, Hauser and other directors of the Missouri River Power Company formed the Helena Power Transmission Company (also known as the "Helena Power and Transmission Company"). The two companies merged on February 16, 1906, to form the United Missouri River Power Company.

The dam was named for Samuel T. Hauser. Hauser Dam was a steel dam built on masonry footings on top of gravel, with the ends of the dam anchored in bedrock on either side of the river. The Wisconsin Bridge and Iron Company constructed the dam for the power company. J.F. Jackson, a Wisconsin Bridge and Iron engineer, designed the structure. Martin Gerry supervised the construction for the power company. Gerry and Wisconsin Bridge engineer James McKittrick argued several times over the dam's design, and Gerry ordered a number of changes to the dam to strengthen it. Jackson's design had to overcome a significant engineering problem: bedrock lay out of reach under the riverbed, covered by a thick layer of gravel. To overcome the fact that 300 ft of the center section of the dam was built on a gravel riverbed and the rest on bedrock, sheet pilings (supplied by the L. P. Friestedt Company of Chicago, which had a patented steel sheet piling system) were driven 35 ft into the riverbed and the steel of the dam attached to the pilings. The pilings were set at an angle of 1.5:1 to discourage sliding, and a triangular masonry footing capped with concrete on the upstream side set against the pilings in the riverbed to support the dam. The upstream face of the dam was covered in concrete, and a 20 ft deep layer of volcanic ash laid down on the upstream riverbed extending 300 ft from the dam to discourage seeping. Volcanic ash is very fine, and Jackson trusted that the weight of the water above the ash blanket would compact it to the point of being impenetrable, thus preventing water from eroding the gravel around the pilings. The dam was 630 ft long and 75 ft high. The spillway was 500 ft wide and 13 ft deep. The 10 horizontal turbines in the powerhouse delivered 14,000 kilowatts of power. The total cost of the dam at that time was $1.5 million. The United Missouri Power declared Hauser Dam operational on February 12, 1907.

Collapse of first dam
On April 14, 1908, at about 2:30 p.m., Hauser Dam failed after water pressure undermined the masonry footings (the steel dam itself being structurally sound). The first sign of trouble was when silt-heavy water began gushing from the base of the dam near the powerhouse. A power company employee, spotting the problem, ran into the powerhouse and told everyone to flee for their lives. About 15 minutes later, the masonry footings gave way, causing the upstream section of the dam to settle and a 30 ft breach to open in the dam. The water pouring through the breach further undermined the dam's footing, and six minutes later a 300 ft section of the dam tore loose. The powerhouse was only slightly damaged. A surge of water 25 to 30 ft high swept downstream. The remaining sections of the dam, anchored to bedrock, helped hold back some of the water for a time, reducing the destructiveness of the flood. In the state capital of Helena at the time, Gerry received a telephone call from the dam operators alerting him to the dam's destruction. He immediately sent telegrams to all towns and cities downstream, warning them of the coming flood. A Great Northern Railway locomotive was dispatched to the city of Great Falls, 70 mi downstream, warning stations along the way about the dam break.

The warnings and the geology of the Missouri River below Hauser Dam helped save numerous lives. The construction camp at Holter Dam (then being built) was swept away. Future motion picture actor Gary Cooper and his family, living at the Seven Bar Nine Ranch, were notified in time and evacuated before the floodwaters tore across a portion of their property. The flood reached the small town of Craig, Montana, around 7:00 p.m., but the narrow canyons of the Missouri River above the town helped hold back part of the floodwaters and dissipated much of their energy. The residents of the town received plenty of warning, and were evacuated. At first, the press reported that the town had been swept away, but this proved inaccurate as only a few shacks and the railroad station were uprooted. The famous iron Craig Bridge (normally 25 ft above water) had more than 2 ft of water over its deck and was feared doomed, but it held. The Great Northern Railway tracks from Craig to Ulm, Montana, were under water. Workers at the Boston and Montana Smelter in Great Falls improvised a wing dam to deflect the floodwaters away from the smelter site and dynamited a portion of Black Eagle Dam to allow the floodwaters to go downstream. Their efforts were not needed, as the Missouri River only rose 7 ft by the time it reached that city. Nonetheless, damages were estimated at more than $1 million. At the end of the 20th century, pieces of the steel dam could still be found on the banks of the Missouri River.

The collapse of the dam affected the way engineers design dams. The first Hauser Dam was one of only three steel dams in the world (the others being Ashfork-Bainbridge Steel Dam and Redridge Steel Dam). At the turn of the twentieth century, many engineers argued for the use of steel as a primary dam-building material. Steel had many advantages: it was not only cheaper, but also lighter, more easily transported, and more watertight than traditional materials like concrete, timber, stone, or earth. Furthermore, the use of steel simplified design calculations because standards and tolerances could be monitored at the steel mill. However, because steel dams appeared fragile to the eye, many opposed them in spite of the advantages. After Hauser Dam's collapse, opponents of steel won out. Even though the washout was the fault of too-short pilings—not the fault of steel—engineers rejected steel as a dam-building material, and no other steel dam has ever been built.

Second dam
United Missouri River Power began reconstruction of Hauser Dam in July 1908, completing it in the spring of 1911. The Foundation Company of New York rebuilt the dam. Jesse Baker Snow, a noted engineer from New York, was the engineer and assistant superintendent for the dam's reconstruction.

The current Hauser Dam has four sections: An overflow spillway, abutments on either side of the overflow spillway, a non-spillover section east of the left abutment (below which is the powerhouse), and a 32 ft deep forebay which impounds water behind the powerhouse. The spillway is 493 ft long. Five hydraulic sliding gates and 17 manually operated flashboards allow water to overflow the dam. Hauser Dam can only generate 17 megawatts of power, and so requires little water to function.

In 2015 NorthWestern began removing and refurbishing the original 1911 turbines. They expect to refurbish one of the six pairs of turbines each year.

Hauser Lake
The reservoir formed by Hauser Dam is 15.5 mi in length and only 0.1 mi to 1.1 mi in width. The lake has a surface area of 3800 acre, and has a storage capacity of 98000 acre.ft of water when full. Hauser Lake has a mean depth of 26 ft and a maximum depth of 70 ft.

The creation of Hauser Lake led to the creation of nearby Lake Helena. The water impounded by Hauser Dam inundated the lower portion of Prickly Pear Creek, causing the formation of Lake Helena. A narrow canyon 3.9 mi in length filled with deep water (known as the Causeway Arm) connects Hauser Lake with Lake Helena. Lake Helena is extremely shallow and develops dense amounts of aquatic vegetation, making it an important nesting, stopover, and feeding area for birds.

The distance from Hauser Dam to Holter Reservoir, the next lake downstream, is 4.6 mi. There are several recreation areas along the lake, such as White Sandy Recreation area and Black Sandy State Park.

Fishing
The lake commonly yields rainbow and brown trout, walleye and perch. It is an extremely popular weekend fishing spot. The lake is regularly stocked with fish.

Dam ownership and access
Cost overruns on downstream Holter Dam, waning investor enthusiasm, and the liability associated with the collapse of the first Hauser Dam nearly drove Samuel Hauser (United Missouri's largest shareholder) into bankruptcy. Hauser sold his interest in United Missouri River Power to John D. Ryan, who on October 25, 1912, merged United Missouri River Power with the Butte Electric and Power Company, Billings and Eastern Montana Power Company, and Madison River Power Company to form the Montana Power Company. Montana Power took over not only United Missouri's Canyon Ferry Dam and Hauser Dam but the partially built Holter Dam as well.

On November 2, 1999, Montana Power announced it was selling all of its dams and other electric power generating plants to PPL Corporation for $1.6 billion. The sale was expected to generate $30 million in taxes for the state of Montana (although MPC said the total would be lower). In November 2001, citizens of Montana upset with energy price increases announced by PPL sought passage of a ballot initiative that would require the state of Montana to buy all of PPL's hydroelectric dams, including Hauser Dam. Montana voters rejected the initiative in November 2002.

In September 2013, NorthWestern Energy, an energy company based in Sioux Falls, South Dakota and operating in South Dakota, Nebraska, and Montana, announced that it would purchase from PPL Montana 11 hydroelectric facilities in Montana, including Hauser Dam. The Montana Public Service Commission approved the deal in September 2014 and the two companies completed the $890 million purchase in November 2014.