Elan Valley Reservoirs


The Elan Valley Reservoirs are a chain of man-made lakes created from damming the Elan and Claerwen rivers within the Elan Valley in Mid Wales. The reservoirs, which were built by the Birmingham Corporation Water Department, provide clean drinking water for Birmingham in the West Midlands of England. The five lakes are known as the Claerwen, Craig-goch, Pen-y-garreg, Garreg-ddu, and Caban-coch.
Water from the reservoirs is carried by gravity to Frankley Reservoir in Birmingham via the Elan aqueduct. Pumping is not required because the network drops along its length from its source to Frankley. A gradient of 1:2300 maintains a flow of less than ; water takes two and a half to three days to reach Birmingham. The aqueduct, which was started in 1896 and opened in 1906, crosses several valleys and features numerous brick tunnels, pipelines, and valve houses.
Work to build the Elan Valley reservoirs was undertaken because the rapid growth of the industrial city of Birmingham in the late 19th century had led to a lack of available clean water. Numerous outbreaks of disease prompted Birmingham City Council to petition the British government which passed the Birmingham Corporation Water Act in 1892. It allowed the Corporation to acquire by compulsory purchase all the land within the water catchment area of the Elan Valleys. Thousands of navvies and their families lived in the purpose-built Elan Village during the construction of the first four dams at the turn of the 20th century. In 1952, the Claerwen dam was opened by Elizabeth II in one of her first official engagements as monarch.
Drinking water from the Elan Valley is noted for being exceptionally soft, contrasting with water from local supplies in the West Midlands, not served by the Elan aqueduct, which are noted for hardness.
The reservoirs are now owned and managed by Dŵr Cymru Welsh Water. The water filtration works further down the valley is run by Severn Trent Water.

Description

There are four main dams and reservoirs with a potential total capacity of nearly 100,000 megalitres. The dams and reservoirs are:
In addition to the four main dams, there are three other dams at the site:

Construction

The Elan dam scheme was developed in the 19th century following rapid growth of the population of Birmingham in England due to the Industrial Revolution. The city's expansion resulted in regular outbreaks of water-borne diseases and major epidemics such as typhoid, cholera and dysentery because of the lack of clean water.
Victorian politician, Joseph Chamberlain, the leader of Birmingham City Council began a campaign to get clean water from the Elan and Claerwen valleys in mid Wales. The area, which had been identified by civil engineer James Mansergh, would be ideal for water reservoirs because:
  1. it had an average annual rainfall of.
  2. dams could be easily built in the narrow valleys.
  3. the bedrock was impermeable to water.
  4. there was no need for pumping stations because the reservoirs in Wales would be above the water cisterns in Birmingham.
In 1892, the British government passed the Birmingham Corporation Water Act allowing the council to effect compulsory purchase of the total water catchment area of the Elan and Claerwen valleys, 18 farms, a school and a church. Only landowners were given compensation.
Work began to construct the reservoirs the following year in 1893. Construction was overseen by James Mansergh, on behalf of the City of Birmingham's Water Department. Due to the height above sea level of the Elan Valley, water would be fed to Birmingham along a pipeline that employed a gravity feed with a gradient of 1 in 2,300. The schedule for the project was to build the four lower Elan Valley dams first. The Claerwen would then be built later.

Mineral railway

The Elan Valley Railway, which was a standard-gauge line, was built by the Birmingham corporation especially for the project. It ran through the Elan Valley from a junction near Rhayader on the Mid-Wales Railway. The first section to be built was a branch from the main line at Rhayader to the main work site at the Caban-coch dam. This depot included a cement cooling shed, general stores, coal storage, workshops for carpenters, smiths, fitters and wagon builders, and sawmills. Further branches were eventually built to all the other dam sites. Engines and trucks reached the top of the dams on wooden trestle scaffolds supported by concrete parapets. The line went as far as the site where the foundations of the Dol-y-mynach dam were being built. At its height, the railway had a total length of with six locomotives transporting up to 1,000 tons of materials a day. Following the completion of the lower dams, the entire Elan Valley Railway had been entirely lifted by 1916.
Road transport was used when the Claerwen dam was built in the late 1940s and '50s.
The railway was required because the core of the Caban-coch, Pen-y-garreg and Craig-goch dams were built from large irregular stone blocks embedded in concrete. The rock was mined locally from Cigfran and Craig-cnwch quarries by the Elan River and the Aberdeuddwr quarry on Cerrig Gwynion, just to the south of Rhayader. The shaped stones were hauled by locomotive to the dam sites on flatbed trucks. They were then lowered into place by steam crane. The central cores of the dams were encased with a concrete lining. The outside walls were faced with cut stone brought from quarries at Llanelwedd near Builth Wells and Pontypridd. The cement, which was made near Chatham in Kent, was sent by sea to Aberystwyth and brought by railway to the Elan Valley.
The cost of the Elan valley scheme ran over budget because of the failure to find suitable building stone near any of the dams apart from Caban-coch, as well as the necessity of bringing in facing stone from other quarries in mid and south Wales.

Workers' village

During the ten-year project to build the Elan Valley dams, the navvies lived in a village of wooden huts near the site. This settlement, which was strictly controlled to keep order and health, would eventually become Elan Village. Guards controlled access in and out; this was done to reduce illness and to stop liquor smuggling. All new workers were deloused and examined for infectious diseases before being admitted. To keep order, a man and his wife shared a terrace house with eight single men. A school was provided for under-11-year-olds, who were expected to work on attaining that age. The camp also had a hospital for injuries, an isolation hospital for infectious cases, and a bath house. Men were allowed to drink beer at a pub, though women were not. Other facilities included a library, public hall, shop and canteen.

Hydro-electricity

Electric street lighting in the construction village was powered by hydroelectric generators. A century later, small-scale hydro-generation was again introduced as a by-product of some of the Elan Valley reservoirs., a renewable-energy firm, Infinis, is operating five water turbines in the district with a combined capacity of about 4 MW.

Opening and later progress

The project to supply water to Birmingham was officially opened by King Edward VII and Queen Alexandra on 21 July 1904. As the first four dams provided enough drinking water to meet Birmingham's needs in the early 20th century, it was proposed not to proceed with the damming of the River Claerwen at Dol-y-mynach, Ciloerwynt and Pant-y-beddau until the 1930s.
However, that phase of construction was postponed due to the outbreak of the Second World War. It was not until 1946 that work began on damming the Claerwen. Plans to build the Dol-y-mynach, Ciloerwynt and Pant-y-beddau dams were dropped because of improvements in civil engineering and materials. Instead, work began on a single, much larger, concrete dam higher up the valley. As its designers wanted the Claerwen dam to visually match the earlier dams in the Elan Valley, Italian stonemasons were contracted to decorate the facade in a mock Victorian ashlar. Queen Elizabeth II officially opened Claerwen Reservoir in 1952 in one of her first engagements as monarch.
A scale model of the reservoir network, in the form of ornamental ponds, is located in Cannon Hill Park in Birmingham.

Dam Busters

In 1942, the Nant-y-Gro dam, which had been originally built to provide water for the navvies' village, was used by Barnes Wallis to prove his theory that an underwater explosion could create sufficient hydrostatic pressure to collapse a dam wall. The test proved successful as a significant breach in the middle of the dam wall was caused by a charge placed at its base.
The lessons learned at Nant-y-Gro green lit the development of the "Upkeep" bouncing bombs. They were used in the 1943 Dam Busters raid when RAF Bomber Command breached and damaged several dams in the Ruhr Valley, Germany.
The remains of the breached Nant-y-Gro dam are in much the same state as it was left in 1942, although partly obscured by trees.
After the Dam Busters raid, steel cables were strung across the valley above the Caban-coch reservoir as a precautionary measure against German reprisals.

Aborted expansion scheme

In the early 1970s it was proposed that the Craig-goch reservoir should be substantially increased in size with a new and higher downstream dam together with another dam to the north-west, impounding water that would otherwise have flowed down the Ystwyth valley. This scheme would have created a huge reservoir dwarfing all others in Mid Wales, and flooding miles of wild upland valleys. The proposals were eventually abandoned in the face of reducing projections for industrial water demand and an increasing awareness of the environmental issues that such an expansion might create.

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