Difference between revisions of "Solway Firth Viaduct"
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Today only the shore embankments remain, together with the remains of iron piers on the Cumbrian side. The shore embankments on the north shore is 154 yards long, and 440 yds on the south side. They are made of clay and faced with large sandstone blocks 15-18" thick. | Today only the shore embankments remain, together with the remains of iron piers on the Cumbrian side. The shore embankments on the north shore is 154 yards long, and 440 yds on the south side. They are made of clay and faced with large sandstone blocks 15-18" thick. | ||
'''PRESS REPORTS''' | |||
1881 'THE SOLWAY VIADUCT DISASTER. BOARD OF TRADE INQUIRY. <br>Yesterday, Major Marindrin, of the Board of Trade, made an inspection of the Solway Viaduct and held an inquiry into the cause of the disaster. Major Marindin inspected the Viaduct in the forenoon, accompanied by Mr. Brunlees, C.E., and Mr. Mc.Kerrow, C.E.. of the bridge; Mr. Tabourdin, secretary of the Solway Junction Railway Company; Mr. Brown, resident engineer, Annan ; and Mr. Geo. Graham, engineer of the Caledonian Railway. <br>At half-put two o'clock an inquiry was held in the Queensberry Arms Hotel, Annan, when the same gentlemen were present. <br>Mr. John Brown, engineer, Solway Junction Railway, said he had been in charge of the bridge since it was opened in 1870. There were always two men under and sometimes four as occasion required. He visited the bridge several times a week. No serious damage occurred to the bridge from the time it was opened till 1873 when thirty-two or thirty-three of the piles were cracked. At the time the frost was very severe. Eleven of these, which were bearing piles, were renewed. The remainder were rakers and were “clipped." It was considered that the cracks bad been caused by frost and water inside the tubes, and by the instructions of Mr. Brunlees, half-inch holes were bored in all the columns a little above high water mark. Since that time no columns have been cracked until the 19th January of this year, when a crack was observed in pier No. 115. The crack was hooped, and the pier is still standing. None of piers formerly cracked have fallen. The frost this year continued from the end of December to the latter part of January. The ice came down in small quantities before the 25th January without doing much damage. About the 25th the ice began to come down, but no damage was done until the 29th. At three o'clock of that day three of the east rakers and a bearing pile were found to be broken. High water on that day was about noon, and the broken piles were noticed about half-ebb. A great quantity of ice came down at the time. There was a large floe, measuring in thickness from six inches to eighteen inches. The ice struck the bridge with great force. Standing on the bridge blows could be felt plainly, and they could be heard a mile off. A train was about to pass across from Bowness at the time, and it was stopped until the extent of injury was ascertained. The bearing column was broken at the bottom flange. Of the rakers, one had gone altogether, the others were broken through the middle of the first length from the bottom. They were hanging from the top. They were chained down and the bearing pile was “clipped." The viaduct was examined from end to end and before the train was allowed to pass. Eventually, after between detained two hours it was allowed to pass. It was a passenger train. Three other trains afterwards passed, the drivers being cautioned to run slowly. Witness then gave details of the further destruction of the bridge, which commenced with the tide of Sunday morning, 30th January, and continued until Wednesday. The total number of piers destroyed was 340. The foundation piles were not at all disturbed below the flanges. The fractures as a rule were about the second joint, or 18 feet from the top. That was about the level of half ebb. The ice broke up when the spring tides were at their height, and large masses were lifted from the margin of the river. The ice accumulated In large masses. One piece he measured aground was seven yards square by six feet thick. During the tides which destroyed the Viaduct there was very little wind. It was considered by everyone in the neighbourhood that large floes of ice had never been seen in the Solway. <br>George W. Irving, fisherman, Annan, gave evidence as to the extent of ice. <br> | |||
Peter Hunter, fitter, said he had been employed at the bridge since it was built. He was on duty on the 29th wlth three assistants. On the morning of the 30th, when they were in the hut together, they felt the bridge shaking and the piers cracking and he said to the men, " It is time for you to be away ; every man most look after himself." He had not found any vertical cracks in the broken columns, and they were mostly broken clean through. <br> Alexander Downie, town clerk, Annan, gave evidence of the quantity of ice generally to be seen in Solway. The ice had never been in such large quantities or of so much thickness. The inquiry was shortly afterwards adjourned.'<ref> Carlisle Journal - Tuesday 22 February 1881 </ref> | |||
1883 'THE SOLWAY VIADUCT. The railway viaduct across the Solway from Annan in Dumfriesshire to Bowness in Cumberland was, it may be remembered, destroyed by immense floes of ice early in 1881. In consequence of various difficulties that arose between the Solway Junction Railway Company and the Caledonian Railway Company, who worked the Solway Junction Railway, the reconstruction of the viaduct was not begun until about a year ago, when arrangements were made for the restoration of the viaduct. It was stipulated that the erection must be made sufficiently strong to withstand such strains those which it succumbed in 1881. Messrs [[Dixon and Thorne|Dixon & Thorne]], of London, to whom the work of restoring the line of communication was entrusted, agreed to complete their contract by the first week of next month. Notwithstanding that they were greatly hindered by the storms of last winter, they seem likely to be able to fulfil their engagement within the time stipulated, an engine and tender full of coals belonging to the contractors having several times passed over the new structure. As restored the viaduct is supported by 192 rows of pillars, each row consisting of five separate pillars. While in the former viaduct all the pillars were of cast-iron, in the new one only the central three are of that material, the outside ones being one continuous piece of wrought iron, made steadier by being filled with concrete, and protected by having fenders attached to break any mass of ice that may come down. It is thus expected that even should ice-floes of greater strength than the unprecedented ones of 1881 strike the bridge, whether at ebb or flow tide, no such calamity as then occurred will happen. The old foundations of the viaduct have been repaired with cast-iron clips bolted round the outside bottom pile, and then tilled up with cement. Agreeably to the requirements of the Board of Trade, a guard rail has been run along the line, so as to check the engine in the event of its leaving the rails. Altogether the work seems to have been satisfactorily performed.'<ref> Dundee Advertiser - Friday 31 August 1883 </ref> | 1883 'THE SOLWAY VIADUCT. The railway viaduct across the Solway from Annan in Dumfriesshire to Bowness in Cumberland was, it may be remembered, destroyed by immense floes of ice early in 1881. In consequence of various difficulties that arose between the Solway Junction Railway Company and the Caledonian Railway Company, who worked the Solway Junction Railway, the reconstruction of the viaduct was not begun until about a year ago, when arrangements were made for the restoration of the viaduct. It was stipulated that the erection must be made sufficiently strong to withstand such strains those which it succumbed in 1881. Messrs [[Dixon and Thorne|Dixon & Thorne]], of London, to whom the work of restoring the line of communication was entrusted, agreed to complete their contract by the first week of next month. Notwithstanding that they were greatly hindered by the storms of last winter, they seem likely to be able to fulfil their engagement within the time stipulated, an engine and tender full of coals belonging to the contractors having several times passed over the new structure. As restored the viaduct is supported by 192 rows of pillars, each row consisting of five separate pillars. While in the former viaduct all the pillars were of cast-iron, in the new one only the central three are of that material, the outside ones being one continuous piece of wrought iron, made steadier by being filled with concrete, and protected by having fenders attached to break any mass of ice that may come down. It is thus expected that even should ice-floes of greater strength than the unprecedented ones of 1881 strike the bridge, whether at ebb or flow tide, no such calamity as then occurred will happen. The old foundations of the viaduct have been repaired with cast-iron clips bolted round the outside bottom pile, and then tilled up with cement. Agreeably to the requirements of the Board of Trade, a guard rail has been run along the line, so as to check the engine in the event of its leaving the rails. Altogether the work seems to have been satisfactorily performed.'<ref> Dundee Advertiser - Friday 31 August 1883 </ref> | ||
Revision as of 22:01, 2 June 2019
The Solway Junction Railway was built by an independent railway company to shorten the route from ironstone mines in Cumberland to ironworks in Lanarkshire and Ayrshire.
James Brunlees was the engineer of the railway. The superintendent for the viaduct was A. McKenon, and the contractor were Waring Bros and Eckersley.
The viaduct was 1940 yards (1 mile 8 chains, 1.8 km) long, crossing the Solway Firth between Bowness-on-Solway (Cumbria) and Annan (Dumfries & Galloway). It had 193 lattice girder spans of 30 ft, requiring 2,892 tons of cast iron and 1,807 tons of wrought iron. Every 5th (16th?) pier had a double set of iron columns. The cast iron was 'best light grey metal' mixed with scrap iron so as the satisfy the specified bending test requirement (a 1" square bar on supports 54" apart was to bear a weight of not less than 700 lbs).
The rails were 35 ft above low water, and the tidal range was 20ft.
Construction started in October 1865, and was completed in October 1868.
The first passenger train over the line (28 July 1870) was a 'special' from Aspatria to an agricultural show at Dumfries. A regular passenger service between Kirtlebridge and Brayton began on 8 August 1870. The station at Abbey Junction opened 31 August 1870
Each pier comprised cast iron columns of hollow cylindrical section, 12 inches diameter, and 9 ft long, with wrought iron tie bars bolted to the columns via fasteners which bolt the column flanges together. The outer columns were raked, acting as buttresses to the inner load-bearing columns.
The columns were founded on iron tubular piles. The piles were intended to be screwed into the ground, but after many failed attempts it was decided to refect the screws and replace them with chilled cast iron points and driven the piles in using Sissons and White's steam pile drive with a 25 cwt monkey with a 5 ft drop, working at 12 - 15 strokes per minute. The piles were driven easily to a depth of 17 - 18 ft, but 6 - 10 blows were required for the final inch. The ground was boulder gravel covered by sand.
The Board of Trade required a 50-foot opening span to allow the passage of vessels, but Parliament was persuaded that traffic on the Firth was insignificant in comparison to the projected traffic over the viaduct, so the viaduct was built without provision for ships to pass through it, ending any commercial use of the harbour at Port Carlisle.
It was wide enough to take double track, but only single-track was laid. The greatest engineering difficulty on the line turned out not to be the construction of the viaduct, but the mile and a quarter section of line over Bowness Moss on the Cumberland side.
In the winter of 1874-5 longitudinal cracks appeared in a few columns, due to water entering and freezing. To prevent any repetition, half-inch holes were drilled just above the high-water mark.
In January 1881 sheets of ice up to 6" thick inches formed; fragments of these sheets rode over each other and froze together, leading to the formation of blocks of ice up to six feet. Rakers and load-bearing columns were damaged by the ice floes on the ebb tide. In some places where piers were completely swept away the spans remained in position, but there were two complete gaps in the bridge where piers, girders, plates and railway had completely disappeared.
Reconstruction of the viaduct began in summer 1882, and by August 1883 the work was sufficiently advanced that construction traffic was run over it. Passenger services over the line resumed on 1 May 1884.
Despite serious concerns about the deterioration by corrosion, the viaduct saw increased use in WW1 for iron-ore and pig-iron traffic from West Cumbria to Scotland. The creation of a large munition works at Eastriggs, to the east of Annan, gave the line additional traffic.
The line was closed in 1921.
In 1933 arrangements were made to demolish it. Arnott, Young and Company purchased the bridge and dismantled it, work being completed by November 1935. The section of railway between the south end of the viaduct and Kirkbride Junction was dismantled as part of the process.
The section of line between Abbey Junction and Brayton continued in use until 1933.
The above information is largely condensed from the excellent Wikipedia entry and from The Engineer [1]
Today only the shore embankments remain, together with the remains of iron piers on the Cumbrian side. The shore embankments on the north shore is 154 yards long, and 440 yds on the south side. They are made of clay and faced with large sandstone blocks 15-18" thick.
PRESS REPORTS
1881 'THE SOLWAY VIADUCT DISASTER. BOARD OF TRADE INQUIRY.
Yesterday, Major Marindrin, of the Board of Trade, made an inspection of the Solway Viaduct and held an inquiry into the cause of the disaster. Major Marindin inspected the Viaduct in the forenoon, accompanied by Mr. Brunlees, C.E., and Mr. Mc.Kerrow, C.E.. of the bridge; Mr. Tabourdin, secretary of the Solway Junction Railway Company; Mr. Brown, resident engineer, Annan ; and Mr. Geo. Graham, engineer of the Caledonian Railway.
At half-put two o'clock an inquiry was held in the Queensberry Arms Hotel, Annan, when the same gentlemen were present.
Mr. John Brown, engineer, Solway Junction Railway, said he had been in charge of the bridge since it was opened in 1870. There were always two men under and sometimes four as occasion required. He visited the bridge several times a week. No serious damage occurred to the bridge from the time it was opened till 1873 when thirty-two or thirty-three of the piles were cracked. At the time the frost was very severe. Eleven of these, which were bearing piles, were renewed. The remainder were rakers and were “clipped." It was considered that the cracks bad been caused by frost and water inside the tubes, and by the instructions of Mr. Brunlees, half-inch holes were bored in all the columns a little above high water mark. Since that time no columns have been cracked until the 19th January of this year, when a crack was observed in pier No. 115. The crack was hooped, and the pier is still standing. None of piers formerly cracked have fallen. The frost this year continued from the end of December to the latter part of January. The ice came down in small quantities before the 25th January without doing much damage. About the 25th the ice began to come down, but no damage was done until the 29th. At three o'clock of that day three of the east rakers and a bearing pile were found to be broken. High water on that day was about noon, and the broken piles were noticed about half-ebb. A great quantity of ice came down at the time. There was a large floe, measuring in thickness from six inches to eighteen inches. The ice struck the bridge with great force. Standing on the bridge blows could be felt plainly, and they could be heard a mile off. A train was about to pass across from Bowness at the time, and it was stopped until the extent of injury was ascertained. The bearing column was broken at the bottom flange. Of the rakers, one had gone altogether, the others were broken through the middle of the first length from the bottom. They were hanging from the top. They were chained down and the bearing pile was “clipped." The viaduct was examined from end to end and before the train was allowed to pass. Eventually, after between detained two hours it was allowed to pass. It was a passenger train. Three other trains afterwards passed, the drivers being cautioned to run slowly. Witness then gave details of the further destruction of the bridge, which commenced with the tide of Sunday morning, 30th January, and continued until Wednesday. The total number of piers destroyed was 340. The foundation piles were not at all disturbed below the flanges. The fractures as a rule were about the second joint, or 18 feet from the top. That was about the level of half ebb. The ice broke up when the spring tides were at their height, and large masses were lifted from the margin of the river. The ice accumulated In large masses. One piece he measured aground was seven yards square by six feet thick. During the tides which destroyed the Viaduct there was very little wind. It was considered by everyone in the neighbourhood that large floes of ice had never been seen in the Solway.
George W. Irving, fisherman, Annan, gave evidence as to the extent of ice.
Peter Hunter, fitter, said he had been employed at the bridge since it was built. He was on duty on the 29th wlth three assistants. On the morning of the 30th, when they were in the hut together, they felt the bridge shaking and the piers cracking and he said to the men, " It is time for you to be away ; every man most look after himself." He had not found any vertical cracks in the broken columns, and they were mostly broken clean through.
Alexander Downie, town clerk, Annan, gave evidence of the quantity of ice generally to be seen in Solway. The ice had never been in such large quantities or of so much thickness. The inquiry was shortly afterwards adjourned.'[2]
1883 'THE SOLWAY VIADUCT. The railway viaduct across the Solway from Annan in Dumfriesshire to Bowness in Cumberland was, it may be remembered, destroyed by immense floes of ice early in 1881. In consequence of various difficulties that arose between the Solway Junction Railway Company and the Caledonian Railway Company, who worked the Solway Junction Railway, the reconstruction of the viaduct was not begun until about a year ago, when arrangements were made for the restoration of the viaduct. It was stipulated that the erection must be made sufficiently strong to withstand such strains those which it succumbed in 1881. Messrs Dixon & Thorne, of London, to whom the work of restoring the line of communication was entrusted, agreed to complete their contract by the first week of next month. Notwithstanding that they were greatly hindered by the storms of last winter, they seem likely to be able to fulfil their engagement within the time stipulated, an engine and tender full of coals belonging to the contractors having several times passed over the new structure. As restored the viaduct is supported by 192 rows of pillars, each row consisting of five separate pillars. While in the former viaduct all the pillars were of cast-iron, in the new one only the central three are of that material, the outside ones being one continuous piece of wrought iron, made steadier by being filled with concrete, and protected by having fenders attached to break any mass of ice that may come down. It is thus expected that even should ice-floes of greater strength than the unprecedented ones of 1881 strike the bridge, whether at ebb or flow tide, no such calamity as then occurred will happen. The old foundations of the viaduct have been repaired with cast-iron clips bolted round the outside bottom pile, and then tilled up with cement. Agreeably to the requirements of the Board of Trade, a guard rail has been run along the line, so as to check the engine in the event of its leaving the rails. Altogether the work seems to have been satisfactorily performed.'[3]