Claverton Pumping Station

Claverton Pumping Station
Claverton Pumping Station with the pump house on the left, the wheelhouse to the right and the millpond in the foreground
Location: Claverton, Somerset, England
Coordinates:
Built: 1813
Governing body: Kennet and Avon Canal Trust
Listed Building – Grade II
Official name: Claverton Pumping Station
Designated: 14 August 1984[1]
Reference #: 399483
Location of Claverton Pumping Station in Somerset

Claverton Pumping Station in the village of Claverton, in the English county of Somerset, pumps water from the River Avon to the Kennet and Avon Canal using power from the flow of the River Avon. It is a grade II listed building.[1]

The pumping station was built by John Rennie between 1809 and 1813 to overcome water supply problems on the canal. It uses a 24-foot (7 m) wide wooden breastshot water wheel to drive two Boulton and Watt 18-foot (5 m) long cast iron rocking beams, which power lift pumps to raise water 48 feet (15 m) up to the canal. The pumping station has undergone several modifications since its initial construction, including revising the wheel into two sections each 12 feet (3.7 m) wide separated by a 9-inch (23 cm) gap. The station's operational life ended in 1952, by which time its maintenance and repair had become uneconomical in the light of falling traffic on the canal.

In the 1960s and '70s restoration was carried out by students from the University of Bath and the Kennet and Avon Canal Trust, who replaced and repaired the buildings and equipment and returned the pumping station to a functional state by 1978. It is now operated by volunteers from the Trust, open to the public as an industrial heritage museum.

Contents

Description

At Claverton, the Kennet and Avon Canal is cut into the side of the Avon valley 48 feet (15 m) above the River Avon. The pumping station is located in a pump house built of Bath Stone,[2] located at river level and separated from the canal by the Wessex Main Line. It was designed by John Rennie and built by Fox of Bristol. The pump house has a slate hipped roof. The wheelhouse projects to the west of the pump house and has weatherboard sides. The east gable wall has three doors allowing access to the wheel itself.[1]

Water is diverted from the river by Warleigh Weir, about 200 yards (183 m) upstream. The water flows to the pumping station down a 30-foot (9.1 m) wide leat, which is crossed by a single segmental arch bridge with a central keystone.[3] The water passes over depressing sluices which can be raised or lowered by hand cranking, and then powers a breastshot water wheel. The 24-foot (7 m) wide wheel is in two sections each 12 feet (3.7 m) wide and 17 feet (5 m) in diameter with a 9-inch (23 cm) gap between them.[4][5] The wheel has 48 wooden "starts", supporting 96 float boards each of which is 13 inches (33 cm) by 1 inch (2.5 cm) by 12 feet (3.7 m) and made of Iroko.[6] The breastshot wheel is vertically mounted, and falling water strikes the blades. Breastshot wheels are less efficient than overshot wheels,[7] more efficient than undershot wheels, and are not backshot.

At full power the wheel uses 2 tons (2 tonnes) of water per second and rotates five times a minute. The water wheel drives a flexible coupling to a pit wheel with a diameter of 16 feet 3 inches (4.95 m), which has 408 hand-fitted wooden teeth that mesh with a 5 feet 1 inch (1.55 m) cast iron gear, increasing the speed to 16 rpm. From there, cranks drive vertical connecting rods that transfer the energy to two 18-foot (5 m) long cast iron rocking beams made by Boulton and Watt. Each rocking beam drives an 18-inch (0.46 m) diameter lift pump, which also takes its supply from the mill leat. Each pump stroke raises 50 imperial gallons (230 l)  imperial gallons (230 litres) of water to the canal via 150 feet (46 m) of 19-inch (0.48 m) diameter cast iron pipe.[6]

History

Construction

Claverton Pumping Station
Legend
River Avon to Bristol
Railway to Bristol (GWML)
Bath Spa Railway Station
Pulteney Weir, Bath
Bath Locks (7 - 13)
Cleveland House Tunnel
Railway to London (GWML)
Pumping Station and feeder
Weir
Dundas Aqueduct
Kennet and Avon Canal
River Avon
Bath - Bradford-upon-Avon Rly
Somerset Coal Canal

The idea of an east to west waterway link across southern England was first mentioned in Elizabethan times, between 1558 and 1603,[8] to take advantage of the proximity of the rivers Avon and Thames, only 3 miles (4.8 km) apart at their closest. Plans for a waterway were shelved until the early 18th century. In 1723 the Kennet Navigation through Reading opened. The Avon navigation from Bristol to Bath was opened in 1727.[9] In 1788 the so-called "Western Canal" was proposed to improve trade and communication links to towns such as Hungerford, Marlborough, Wiltshire, Calne, Chippenham and Melksham. The following year the engineers Barns, Simcock and Weston submitted a proposed route for this canal, although there were doubts about the adequacy of the water supply. The name was changed from Western Canal to Kennet and Avon Canal to avoid confusion with the Grand Western Canal, which was being proposed at the same time.[10]

In 1793 a further survey was conducted by John Rennie, and the route of the canal was altered to take a more southerly course through Great Bedwyn, Devizes, Trowbridge and Newbury. The proposed route was accepted by the Kennet and Avon Canal Company. In July 1793 Rennie suggested further alterations to the route, including the construction of the Bruce Tunnel in the Savernake Forest.[10] On 17 April 1794 the Kennet and Avon Canal Act received the Royal Assent and construction began.

The new route added several locks to the canal, making water supply problems more severe. Because of the way the system of locks work, water is lost from the upper part of a canal each time a vessel passes through. This is a particular issue for the pound between Bradford Lock at Bradford on Avon and the Bath Locks, where a series of locks need to be opened each time the gates are opened. Most lock gates are not watertight, therefore some water leaks from the higher levels of the canal to those lower down. The water has to be replaced, or eventually the upper levels of the canal would not hold enough water to be navigable. Canals are usually fed by diverting water from streams and rivers into the upper parts of the canal, but if no suitable source is available or sufficient, a pumping station, such as the one at Claverton, can be used to maintain the water level.[11] Crofton Pumping Station was built to supply water to the summit pound of the canal, opening in 1810 but, unlike Claverton, was powered by steam.[12]

Protracted negotiations over water rights with the owners of Saltford Brass Mill and around 30 other mills on the river between Bath and Bristol,[13][14] delayed construction until 1809; the wheel was installed in March 1810. Further delays relating to obtaining specific items of machinery meant that the pumping station did not open until early 1813, and until then boats were prohibited from using Bath Locks during periods of low rainfall.[15]

Operation and decline

The pumping station operated continuously, providing water for the increasing traffic on the canal. Problems with the size of the water wheel, which was supported at either end, meant that the middle of the wheel sagged, putting strain on the bearings and stays. In the 1840s the trussing was changed from stays to tension rods to strengthen and lighten the wheel, along with improvements to the pumps. The changes to the wheel were unsuccessful, and in the 1850s a central bearing was added dividing the wheel in two.[16]

The opening of the Great Western Railway in 1841 led to a significant decline in the canal's traffic, even though the canal company lowered tariffs.[17] In 1852 the railway company took over the canal's operation. In 1877 the canal recorded a deficit of £1,920 and never subsequently made any profit.[18] The Somerset Coal Canal and Wilts and Berks Canal, which each supplied some of the trade to the Kennet and Avon, including freight from the Somerset coalfield, closed in 1904 and 1906 respectively.[19] At Claverton various minor repairs were needed to the wheel and pump, and the wheel had to be levelled at regular intervals during the later part of the 19th and early 20th centuries. The 408 "green oak" teeth on the pitwheel also had to be replaced several times.[16]

In 1926, following a loss of £18,041 the previous year,[20] the Great Western Railway sought to close the canal by obtaining a Ministry of Transport Order, but the move was resisted and the company charged with improving its maintenance of the canal.[17] After the Second World War the Transport Act of 1947 meant that control of the canal passed to the British Transport Commission, but by the 1950s large sections had been closed because of poor lock maintenance following a breach in the bank west of the Avoncliff Aqueduct.[10] Claverton Pumping Station ceased operation in 1952,[21] after the failure of a number of the pitwheel's oak teeth. The British Transport Commission installed a 6-inch (15 cm) centrifugal pump to maintain the statutory minimum water level.[22]

Restoration

After its closure the pumping station lay derelict until the late 1960s, when the Kennet and Avon Canal Trust proposed to the British Waterways Board that students from the University of Bath conduct a survey and report on the viability of returning the pumping station to working order. Work started in 1969 with engineering students from Bath providing the labour under the supervision of John Butt, and the Trust providing the funding. Within the building rotten woodwork was replaced and electric lighting installed. To work on the sluices and the waterwheel the leat was dammed. Specialist wood and metal work was undertaken by apprentices from the British Aircraft Corporation in Filton. By 1972 some progress had been made; John Butt retired and Derrick Dudden took over as restoration manager, with more volunteers from the Canal Trust helping to provide the labour. Silt was removed from the pond, hatches replaced and the waterwheel restored. The 408 oak teeth on the pitwheel were replaced and the pumps overhauled with new rope packing. By February 1976 all the machinery was working and water could be pumped from the river to the canal. The pumping station was formally re-opened in 1978.[23]

In 1981, British Waterways installed two 75-horsepower (56 kW) electric pumps and presented the old diesel pump to the Kennet and Avon Canal Trust for preservation.[24] Wessex Water Authority agreed to the extraction of 1,000,000 imperial gallons (4,500,000 l) per day from the Avon at Claverton to be pumped east; the costs of the pumps was £175,000.[25]

The pumping station is maintained by volunteers from the Trust and is open to the public every Wednesday, Saturday, Sunday and Bank Holiday except during the winter maintenance period, when opening is only on Saturdays.[26] There is a working model of the pumping station at the Kennet & Avon Canal Museum at Devizes. The restoration work received an Engineering Heritage Award from the Institution of Mechanical Engineers.[27]

References

  1. ^ a b c "Claverton Pumping Station". Images of England. English Heritage. http://www.imagesofengland.org.uk/details/default.aspx?id=399483. Retrieved 3 October 2011. 
  2. ^ Briggs, Jeanette. "The Kennet and Avon Canal". River Thames. http://www.riverthames.co.uk/thamescanals/5495.htm. Retrieved 4 October 2011. 
  3. ^ "Bridge over a Leat to south of Claverton Pumping Station". Images of England. English Heritage. http://www.imagesofengland.org.uk/Details/Default.aspx?id=399484. Retrieved 3 October 2011. 
  4. ^ "Claverton Pumping Station". Old Steamers. http://oldsteamers.com/claverton-pumping-station/. Retrieved 2 October 2011. 
  5. ^ "Claverton Pumping Station". Our Transport Heritage. http://www.transportheritage.com/find-heritage-locations.html?sobi2Task=sobi2Details&sobi2Id=531. Retrieved 4 October 2011. 
  6. ^ a b Danks, pages 53–62
  7. ^ "Archive for the 'Kennet & Avon Cycle Route' Category". Rants from the Hollow. http://www.heiserhollow.net/category/cycling/kennet-avon-cycle-route/. Retrieved 4 October 2011. 
  8. ^ Clew, pages 15–18
  9. ^ Allsop, page 4
  10. ^ a b c Russell, pages 7–10
  11. ^ Cumberlidge, page 26
  12. ^ "About Crofton Pumping Station". Crofton Beam Engines. http://www.croftonbeamengines.org/about.html. Retrieved 4 October 2011. 
  13. ^ "Places to visit". River Avon Trail. http://www.riveravontrail.org.uk/placestovisit.html. Retrieved 10 September 2011. 
  14. ^ "Saltford Brassmill Project". Saltford Brassmill Project. http://www.brassmill.com/. Retrieved 4 October 2011. 
  15. ^ Danks, pages 11–13
  16. ^ a b Danks, pages 13–16
  17. ^ a b Lindley-Jones, pages 9–10
  18. ^ Clew, page 107
  19. ^ Hadfield, page 92
  20. ^ Clew, page 136
  21. ^ "Claverton Pumping Station". Pastscape National Monument Record. English Heritage. http://www.pastscape.org.uk/hob.aspx?hob_id=204166. Retrieved 2 October 2011. 
  22. ^ Danks, pages 16–20
  23. ^ Danks, pages 23–51
  24. ^ Cragg, page 151
  25. ^ Lindley-Jones page 77
  26. ^ "Claverton Pumping Station — Opening times and prices". Visit Bath. http://visitbath.co.uk/things-to-do/attractions/claverton-pumping-station-p24591/opening-times-and-prices-t25064. Retrieved 9 October 2011. 
  27. ^ "Recognising Engineering Excellence Past, Present and Future." (PDF). Engineering Heritage Awards Second Edition. Institution of Mechanical Engineers. p. 65. http://www.imeche.org/Libraries/About_Us/IMechEHeritageBookletOnline.sflb.ashx. Retrieved 4 October 2011. 

Bibliography

External links