Loughor Viaduct

Last updated

Railway viaduct of 2013, left, alongside the road bridge across the Loughor Estuary Loughor Bridges looking west, oct 2013.JPG
Railway viaduct of 2013, left, alongside the road bridge across the Loughor Estuary

The Loughor railway viaduct carries the West Wales Line across the River Loughor. It is adjacent, and runs parallel to, the Loughor road bridge. The 1880 viaduct was granted Grade II listed building status. [1] Before it was demolished in early 2013, the viaduct was the last remaining timber viaduct designed by Isambard Kingdom Brunel. [2]

Contents

The Loughor viaduct was constructed to carry the broad gauge South Wales Railway (SWR) west of Swansea to Carmarthen. It was opened to traffic (broad gauge and standard gauge) in 1852. [3] The viaduct was rebuilt several times; modifications made include the removal of its swing bridge and broad gauge tracks, replacement of the timber deck with an iron structure, and additional piles. In 1986, due to structural concerns, the track was singled and speed restrictions were imposed adding to journey times.

In the early 2010s, Network Rail commissioned a new-build replacement. Work by contractor Carillion, took place during March and April 2013. The railway was closed for 16 days to allow for the removal of the old viaduct and the installation of the new bridge. On 8 April 2013, the new bridge with its doubled track line was opened to traffic. A section of the original viaduct was preserved alongside the new structure.

History

Original construction

The South Wales Railway (Chepstow to Fishguard) Act of 1845 received royal assent and the South Wales Railway (SWR) began construction of the line. [2] It required the construction of a viaduct over the River Loughor which was designed by Isambard Kingdom Brunel. [2] Lavington Evans Fletcher, Brunel's assistant and the resident engineer, designed the movement mechanism for the swing bridge. [2]

According to Isambard Brunel Junior, the viaduct was typical of his father's numerous viaducts, especially those that were built on coastal lines for the SWR. [4] It had seventeen fixed spans of similar size and was built of timber. It was 750 ft long. To prevent river traffic being obstructed, the viaduct had a 40 ft opening swing bridge at the Swansea (east) end. [3] [4] As constructed, it was supported on timber piles driven 14 feet into the sand and clay bed of the river. [2] The piles were arranged in groups of three, across the width of the viaduct. Above them, a timber deck was laid to carry a double track; the deck rested on timber baulks. [2]

On 17 September 1852, the first train crossed the viaduct; regular services commenced on 11 October 1852. [2] The delay in its opening has been attributed to a shortage of Barlow rails for the permanent way. The tracks on the viaduct were laid as mixed-gauge track, broad gauge for use by the SWR and standard gauge for the Llanelly Railway. [2] During May 1872, the SWR transitioned to standard gauge, and the broad gauge tracks were redundant. [2]

1880 rebuilding

Loughor railway viaduct, the pre-2013 bridge Loughor Viaduct.JPG
Loughor railway viaduct, the pre-2013 bridge

During 1880, the viaduct was rebuilt. The original piles were either retained or strengthened using wrought iron fixtures. [2] A new iron deck replaced the timber deck. To support it, three longitudinal wrought iron H-girders were laid along viaduct. The deck was constructed of surplus Barlow rails, which were laid widthways. [2] As the SWR having had converted to standard gauge during 1872, the tracks were re-laid as a standard gauge baulk road.

Barlow rail was widely used for civil engineering tasks, including Clevedon Pier but it became apparent that lightweight bridge rail was too light for prolonged use and tended to spread, leading to inaccurate gauge and risk of derailments. Large quantities were available cheaply. The SWR offered 400 tons of Barlow rail for sale in 1857, with free delivery anywhere along the line. [5]

1909 rebuilding

Between 1908 and 1909, a major rebuild was carried out. The original piers were replaced, cut off at the lower waling level and new timber piles driven alongside. [2] The configuration of piers was changed from a three-pile arrangement to four-pile. [3] The deck supports were changed, longitudinal wrought iron girders were replaced with deeper steel plate. [2] The swing bridge, which was last used during 1887 was removed and replaced by a fixed girder. [3] [2]

1979–1981 refurbishment

An Arriva Trains Wales British Rail Class 175 crossing over the Loughor viaduct Loughor Viaduct - Arriva 175108.jpg
An Arriva Trains Wales British Rail Class 175 crossing over the Loughor viaduct

Between 1979 and 1981, the viaduct underwent an extensive refurbishment programme. [6] It was overseen by the civil engineer Christopher Loudon Wallis and described as being 'sympathetic' to the original structure, retaining a large proportion of its original timber. [3] [2]

It was discovered that the river bed beneath the viaduct had been severely eroded necessitating the addition of tipping stones to protect the timber. [2] In 1986 the viaduct was limited to single-track operation as a consequence of concerns over its structural safety by British Rail. Freight and passenger trains were subject to speed restrictions, which led to delays and longer journey times. [2]

In October 1998, the Loughor Viaduct was listed and awarded Grade II status. [2] The 1880 viaduct was the only remaining viaduct designed by Brunel that relied upon timber for a substantial proportion of its structure until its replacement during 2013. [7]

2013 replacement

The viaduct is on a five-mile section of railway between Cockett and Duffryn, which was reduced from double to single track operation during 1986. During 2012 and 2013, work to re-double the section allowed an increase in train services over this stretch of line. [2] [8] Network Rail also commissioned a replacement for the Loughor Viaduct by a new bridge. [2] By this point, the viaduct was unable to take the weight of two trains at once limiting its operational use. [9]

Foundations being piled for the new bridge, July 2012 Loughor piling for new viaduct.JPG
Foundations being piled for the new bridge, July 2012

Carillion was awarded the contract for the new bridge, and consulting engineers, Tony Gee & Partners designed it. [9] The bridge is a 235 meters long, seven-span steel and concrete structure. The deck is a shallow slab, supported by deeper main girders, allowing the level to match its predecessor. [9] The completed deck has a topping of reinforced concrete, waterproofing measures and ballast. During construction the track was temporarily covered with rubber mats so that construction vehicles did not damage the track. [9]

The replacement bridge had to address operational, heritage and environmental concerns which influenced the methods of construction and other decisions. [2] The bridge was built adjacent to the viaduct which remained in use. Once completed, the new bridge was slid sideways into position using hydraulic jacks over 14 hours after the viaduct had been speedily demolished. [2] This meant that the railway was closed for just 16 days. [9] Work started on the bridge on 24 March 2013 and it was officially completed in early April 2013. [10] [11] On 8 April 2013, the new viaduct doubled tracks was opened to traffic. [9]

As the old viaduct had been Grade II listed, efforts to preserve it for historical reasons were integrated into the replacement plan. A section of the old structure were relocated onto adjacent railway land to the west of the new viaduct. [12] [13] A few elements were incorporated into the new bridge such as a single span of the original substructure at the Llanelli (west) end, and the original abutments were reused. On 13 June 2013, the Loughor Rail Viaduct replacement programme was commended at the CIHT Sustainability Awards. On 1 July 2014, industry publication New Civil Engineer announced that the new bridge had been awarded the Institute of Civil Engineers Wales Cymru George Gibby Award. [9]

See also

Related Research Articles

<span class="mw-page-title-main">William Henry Barlow</span> British civil engineer

William Henry Barlow FRS FRSE FICE MIMechE was an English civil engineer of the 19th century, particularly associated with railway engineering projects. Barlow was involved in many engineering enterprises. He was engineer for the Midland Railway on its London extension and designed the company's London terminus at St Pancras.

<span class="mw-page-title-main">Barmouth Bridge</span> Railway bridge across the Mawddach estuary

Barmouth Bridge, or Barmouth Viaduct is a Grade II* listed single-track wooden railway viaduct across the estuary of the Afon Mawddach near Barmouth, Wales. It is 820 metres (900 yd) long and carries the Cambrian Line. It is the longest timber viaduct in Wales and one of the oldest in regular use in Britain.

<span class="mw-page-title-main">Chepstow Railway Bridge</span> Bridge spanning the River Wye between England and Wales

Chepstow Railway Bridge was built to the instructions of Isambard Kingdom Brunel in 1852. The "Great Tubular Bridge" over the River Wye at Chepstow, which at that point forms the boundary between Wales and England, is considered one of Brunel's major achievements, despite its appearance. It was economical in its use of materials, and would prove to be the design prototype for Brunel's Royal Albert Bridge at Saltash. Although the superstructure has since been replaced, Brunel's tubular iron supports are still in place. It is a Grade II listed structure.

<span class="mw-page-title-main">Dee Bridge disaster</span> Railway accident

The Dee Bridge disaster was a rail accident that occurred on 24 May 1847 in Chester, England, that resulted in five fatalities. It revealed the weakness of cast iron beam bridges reinforced by wrought iron tie bars, and brought criticism of its designer, Robert Stephenson, the son of George Stephenson.

<span class="mw-page-title-main">Cornwall Railway viaducts</span>

The Cornwall Railway company constructed a railway line between Plymouth and Truro in the United Kingdom, opening in 1859, and extended it to Falmouth in 1863. The topography of Cornwall is such that the route, which is generally east–west, cuts across numerous deep river valleys that generally run north–south. At the time of construction of the line, money was in short supply due to the collapse in confidence following the railway mania, and the company sought ways of reducing expenditure.

<span class="mw-page-title-main">Landore Viaduct</span>

The Landore viaduct is a railway viaduct over the Swansea valley and the River Tawe at Landore in south Wales. It provides a link between Swansea city center and the West Wales Line to the South Wales Main Line. The valley crossing provides a panoramic view of Landore, Kilvey Hill, the Liberty Stadium and the Swansea Enterprise Park.

<span class="mw-page-title-main">Usk Railway Bridge</span> Bridge in Newport

The Usk Railway Bridge is a railway viaduct in Newport city centre, Wales. It crosses the River Usk in an east—west direction, carrying the Great Western Main Line.

<span class="mw-page-title-main">Windsor Railway Bridge</span> Bridge in Windsor

Windsor Railway Bridge is a wrought iron 'bow and string' bridge in Windsor, Berkshire, crossing the River Thames on the reach between Romney Lock and Boveney Lock. It carries the branch line between Slough and Windsor.

The Vale of Neath Railway (VoNR) was a broad gauge railway company, that built a line from Merthyr Tydfil and Aberdare to Neath, in Wales, chiefly to transport the products of the Merthyr iron industries to ports on Swansea Bay.

The South Wales Railway was a main line railway which opened in stages from 1850, connecting the Great Western Railway from Gloucester to South Wales. It was constructed on the broad gauge. An original aspiration was to reach Fishguard to engender an Irish ferry transit and transatlantic trade, but the latter did not materialise for many years, and never became an important sector of the business. Neyland was the western terminus of the line until 1906.

<span class="mw-page-title-main">Barlow rail</span>

Barlow rail was a rolled rail section used on early railways. It has wide flaring feet and was designed to be laid direct on the ballast, without requiring sleepers. It was widely adopted on lightly trafficked railways, but was ultimately unsuccessful because of maintenance difficulties.

<span class="mw-page-title-main">Baulk road</span> Railway track on undergirding timber bearings

Baulk road is the name given to a type of railway track or 'rail road' that is formed using rails carried on continuous timber bearings, as opposed to the more familiar 'cross-sleeper' track that uses closely spaced sleepers or ties to give intermittent support to stronger rails.

<span class="mw-page-title-main">Cockett railway station</span> Former railway station in Wales

Cockett railway station was a former station on the West Wales Line from Swansea to Gowerton and onwards to Llanelli.

<span class="mw-page-title-main">Macquarie River railway bridge, Dubbo</span> Bridge in New South Wales, Australia

The Dubbo rail bridge over Macquarie River - Wambuul is a heritage-listed railway bridge on the Main Western line across the Macquarie River, located west of the Dubbo central business district in New South Wales, Australia. It was designed by John Whitton as the Engineer-in-Chief for the New South Wales Government Railways. The bridge was built during 1884 by Benjamin Barnes, with ironwork by Cochrane & Co, Middlesborough, England. The railway bridge is also known as the Dubbo Lattice Railway Bridge. The property is owned by RailCorp, an agency of the Government of New South Wales. The bridge was added to the New South Wales State Heritage Register on 2 April 1999 and was listed on the Register of the National Estate on 18 April 1989.

<span class="mw-page-title-main">Ingalara Creek railway bridge, Colinton</span> Bridge in New South Wales, Australia

The Ingalara Creek railway bridge is a heritage-listed former railway bridge that carried the Bombala railway line across Ingalara Creek at Michelago in the Snowy Monaro Regional Council local government area of New South Wales, Australia. It was designed by John Whitton in his capacity as Engineer-in-Chief for Railways and built in 1889. It is also known as the Michelago Rail Bridge over Ingalara Creek and the Ingalara Creek Railway Viaduct. The property is owned by RailCorp, an agency of the Government of New South Wales. It was added to the New South Wales State Heritage Register on 2 April 1999. On 1 December 2020, changes were made to exemptions relating to the bridge's heritage status.

<span class="mw-page-title-main">Bredbo River railway bridge</span> Former bridge in New South Wales, Australia

The Bredbo River railway bridge is a heritage-listed former railway bridge carrying the Bombala railway line over the Bredbo River at Bredbo in the Snowy Monaro Regional Council local government area of New South Wales, Australia. It was designed by John Whitton in his capacity as Engineer-in-Chief for Railways and built from 1881 to 1889. It is also known as the Bredbo Rail Bridge and the Bredbo River Railway Viaduct. The property is owned by RailCorp, an agency of the Government of New South Wales. It was added to the New South Wales State Heritage Register on 2 April 1999. On 1 December 2020, changes were made to exemptions relating to the bridge's heritage status.

<span class="mw-page-title-main">Tenterfield Creek railway bridge, Sunnyside</span> Bridge in New South Wales, Australia

The Tenterfield Creek railway bridge is a heritage-listed former railway bridge that carried the Main North line across the Tenterfield Creek from Sunnyside to Jennings, both in the Tenterfield Shire local government area of New South Wales, Australia. It was designed by John Whitton and Engineer-in-Chief for NSW Government Railways and built in 1888. The bridge is also known as the Sunnyside rail bridge over Tenterfield Creek. The property is owned by RailCorp, an agency of the Government of New South Wales and was added to the New South Wales State Heritage Register on 2 April 1999.

<span class="mw-page-title-main">Yarraford Rail Bridge over Beardy Waters</span> Bridge in New South Wales, Australia

The Yarraford Rail Bridge is a heritage-listed closed railway bridge that carried the Main Northern line across Beardy Waters, situated 694.371 kilometres (431.462 mi) from Central station, near Glen Innes, in the Glen Innes Severn local government area of New South Wales, Australia. The bridge was designed by John Whitton in his capacity as Engineer-in-Chief for Railways and built in 1886. It is also known as Beardy River Railway Viaduct. The property is owned by RailCorp, an agency of the Government of New South Wales. It was added to the New South Wales State Heritage Register on 2 April 1999.

<span class="mw-page-title-main">Severn River railway bridge, Dundee</span> Bridge in New South Wales, Australia

The Severn River railway bridge is a heritage-listed railway bridge that carries the Main Northern line across the Severn River at Dundee, Glen Innes Severn, New South Wales, Australia. It was designed by John Whitton in his capacity as Engineer-in-Chief for Railways and built in 1886. It is also known as Severn River Railway Viaduct. The property is owned by RailCorp, an agency of the Government of New South Wales. It was added to the New South Wales State Heritage Register on 2 April 1999.

Loughor railway station was on the South Wales Railway, now the West Wales Line, from Swansea to Llanelli. The station was located on the west side of Swansea in the residential area of Loughor.

References

  1. "Loughor Railway Viaduct (partly in Llwchwr community), Llwchwr". British Listed Buildings.
  2. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 “Loughor trestle viaduct, site of.” ‘’ engineering-timelines.com’’, Retrieved: 8 June 2018.
  3. 1 2 3 4 5 Jones, Stephen K. (2006). Brunel in South Wales. Vol. II: Communications and Coal. Tempus. pp. 154–159. ISBN   0-7524-3918-9.
  4. 1 2 Isambard Brunel (2006) [1870]. The Life of Isambard Kingdom Brunel, Civil Engineer. STEAM / Nonsuch Publishing. pp. 148–149. ISBN   1-84588-031-5.
  5. Jones, II (2006), p. 159.
  6. "Loughor Viaduct". Railwest (7): 7. March 1981.
  7. Jones, II (2006), pp. plate 31, pp. 128–129.
  8. “NAW – Inquiry into the Future Rail Infrastructure in Wales.” ‘’Welsh Assembly’’, 27 November 2009.
  9. 1 2 3 4 5 6 7 “Loughor Rail Viaduct (2013).” ‘’engineering-timelines.com’’, Retrieved: 8 June 2018.
  10. “Work to replace the Loughor Viaduct near Swansea is complete.” ‘’Network Rail’’, April 2013.
  11. “Surveys point plans new viaduct river mouth.” ‘’thisissouthwales.co.uk’’, Retrieved: 30 April 2012.
  12. "Loughor viaduct plans given go ahead." rail.co, 1 June 2012.
  13. Robert Dalling (12 July 2019). "Why there's a railway bridge from nowhere to nowhere in part of Swansea". WalesOnline.

Coordinates: 51°39′45″N4°04′58″W / 51.6624°N 4.0827°W / 51.6624; -4.0827

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.