Hoover Dam

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TECHNOLOGY

“ The Hoover Dam was the largest in the world requiring over 3.3 million cubic metres of concrete to build”

Diverting the Colorado River

blocking its natural course with rubble as well as detonating a hole in a cofferdam – a temporary enclosure that stopped the river draining into the diversion tunnels. This was only performed for the two tunnels on the Arizona side of the canyon. The two drainage tunnels on the Nevada side were held in reserve for the higher waters in spring and summer.

Constructing the Hoover Dam would have been impossible with the Colorado River still fl owing through Black Canyon. So, the builder endeavoured to divert the course of the river. Four tunnels with a combined length of over fi ve kilometres (three miles) were dug into the canyon walls and around the dam site. The river was diverted into these tunnels by

Hoover Dam construction

It was one of the most ambitious projects in the world, but how was the Hoover Dam constructed?

into them and fi lling cavities with more grout. Chief engineer John Savage had decided it would be an arch-gravity dam, which combines the main features of two different types of dam: the arch part is a concave face that leans towards the water, defl ecting some of the pressure onto the canyon walls, while the gravity part of the design is the enormous weight of the dam that thickens considerably from the top (13.7 metres/45 feet) to the bottom (201 metres/660 feet). This helps to resist the immense force that the Colorado River can generate with its 5.5 million-ton weight. To help dissipate the heat generated by all this concrete setting, around 950 kilometres (590 miles) of steel piping delivered water cooled by the dam’s dedicated ammonia refrigeration plant through the 230 concrete blocks that make up the structure. Without this active cooling system in place, all that concrete would still be setting today!

In the early-20th century, the lower region of the Colorado River was considered as a site for fl ood control and potential source of hydroelectric power for the growing demands of western US states. What would be known as the Hoover Dam was authorised by President Calvin Coolidge in 1928 and construction began by building conglomerate Six Companies in March 1931. At the time the Hoover Dam was the largest in the world requiring over 3.3 million cubic metres (118 million cubic feet) of concrete to build, including the power station. Before the dam could be built, foundations had to be laid and over 1.3 million cubic metres (48 million cubic feet) of loose rock and sediment were removed from the bottom of the Colorado River to reach stable bedrock. The foundation was reinforced with a grout curtain and the canyon walls were similarly stabilised by drilling holes up to 46 metres (150 feet) deep

Spillway inlet

Overfl ow from Lake Mead drains downstream via these inlets. They’ve been used only twice since the dam was built.

Hoover Dam structure

How It Works explores one of the world’s greatest engineering feats Lake Mead

At maximum capacity, the lake on the upstream side of the dam can yield 219,700kg/m 2 (45,000lb/ ft 2 ) of force at its base.

The 1983 floods see the Hoover Dam use its spillways for only the second time (the first being a 1941 test).

DID YOU KNOW?

The Hoover Dam was initially called Boulder Dam, as Boulder Canyon was the original site location

Water drains into these towers to supply the power station.

Penstocks

The pipes that deliver water to the power plant are known as penstocks. The water in these pipes is under high pressure from the lake behind the dam.

Power house

Originally rated at a 1.344GW capacity, the dam’s current installed power capacity is 2.078GW.

The statistics…

Hoover Dam

Height: 221m (726ft) Crest: 379m (1,244ft) Weight: 6.6 million tons

Max upstream depth:

180m (589ft)

Max water pressure:

219,700kg/m 2 (45,000lb/ft 2 )

Total material excavated:

4.2 million m 3 (148.5 million ft 3 )

Average annual power:

4 billion kWh

Highway

For many years the top of the Hoover Dam served as a public highway between Nevada and Arizona until the Hoover Dam Bypass was opened in 2010.

Elevator

An elevator takes tourists down a 152m (500ft) shaft to the base of the dam to the power plant.

Learn more

Go to www.howitworksdaily. com for some fascinating facts on megastructures, a look at fi ve of the most impressive structures built on Earth by humankind, including: the Great Wall of China, the Mirny Mine in Russia and the Three Gorges Dam, China. Generating power

The Hoover Dam’s hydroelectric power plant is located on the downstream side at the bottom of the dam. Excavating the area for the station was fi nished in 1933, after the dam itself. Concrete began to be poured for the plant at the end of the same year and continued for the next two years, even overlapping with the fi lling of Lake Mead behind the dam in 1935. With war brewing in Europe and the vulnerability of the plant considered, 1.1 metres (3.6 feet) of concrete, rock and steel topped with tar formed a robust ceiling. Three Francis turbine generators were installed in 1937 when the power plant went on line, with 14 more added over the decades. Its average power generation in nearly 80 years has been around four terawatt-hours, helping to fulfi l the huge power requirements of Las Vegas among other west coast communities.