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Fell mountain railway system

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Fell system on the Snaefell Mountain Railway
"Cutaway" of underside of Mont Cenis Pass Railway locomotive. The brake shoes are between the firebox and the horizontal drive wheels.
Diagram showing horizontal drive wheels of Cenis Pass locomotive. Volute springs (marked "b") were moved in or out by screw thread "g" operated from the cab by worm drive "c". The horizontal drive wheels "a" moved on slides "f" against the rail.

The Fell system was the first third-rail system for railways that were too steep to be worked by adhesion on the two running rails alone. It used a raised centre rail between the two running rails to provide extra traction and braking, or braking alone. Trains were propelled by wheels horizontally applied and retracted by springs onto the centre rail, controlled from the cab, as well as by the normal running wheels.[1] In practice, the running wheels could be allowed to run freely to reduce wear, but the centre brake shoes needed to be replaced frequently. For example: the locomotives' shoes were replaced after each journey on the Mont Cenis Pass Railway.[2] Extra brake shoes were fitted to specially designed or adapted Fell locomotives and brake vans, and for traction the prototype locomotive had an auxiliary engine powering the horizontal wheels.[1] The Fell system was developed in the 1860s and was soon superseded by various types of rack railway for new lines, but some Fell systems remained in use into the 1960s. The Snaefell Mountain Railway still uses the Fell system for (emergency) braking, but not for traction.

History

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The Fell system was designed, developed and patented by British engineer John Barraclough Fell. The first test application was alongside the Cromford and High Peak Railway's cable-hauled incline at Whaley Bridge in Derbyshire, England, in 1863 and 1864. The prototype locomotive had separate boilers, regulators and cylinders for the horizontal and vertical drive wheels, but this arrangement was simplified in subsequent versions.[1]

These tests attracted the attention of the French Government, which conducted its own tests on the slopes of Mont Cenis in 1865. As a result, the Mont Cenis Pass Railway was built by a British company as a temporary connection between France and Italy whilst the tunnel under the Alpine pass was being built; shortening the transit time for mail from Britain and France to Italy and beyond.

In 1913 Fell's son George Noble Fell published variations of his father's apparatus using either electric traction or "gaseous fuel". For electric traction the centre rail would also act as the current conductor rail; the horizontal drive wheels would adhere by magnetism, and the brakes would be applied by electromagnets. For the internal combustion version the horizontal guide wheels would be coated with carborundum for improved grip.[3][4]

List of Fell railways

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The following railways have used the Fell system. Of these, the only one still in operation is the electrified Snaefell Mountain Railway on the Isle of Man, which occasionally uses the centre rail for braking only; the cars are all now equipped with rheostatic braking, which meets all normal braking needs. The only surviving Fell locomotive, New Zealand Railways H 199, is preserved at the Fell Locomotive Museum, Featherston, New Zealand, near the site of the Rimutaka Incline.

France

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  • The Mont Cenis Pass Railway on the border with Italy was 77 km (48 mi) long and ran from 1868 until superseded by a tunnel under the pass in 1871. Some characteristics of the Mont Cenis Pass Railway include:
    • 1,100 mm (3 ft 7+516 in) gauge – the gauge in English speaking world is sometimes quoted as 3 ft 7+38 in[2]
    • Steepest gradient 1 in 12 (8.3%)
    • Gradient where Fell grip system was deemed to be needed 1 in 25 (4.0%)
    • Climb 3,000 feet (914 m)
    • Centre rail 8 in (203 mm) above running rails and about 14 in (356 mm) above sleeper.
    • Sharpest curve 130 feet (40 m) [5]
    • Since there were breaks-of-gauge at each end of the Fell railway, it is not known if ordinary standard gauge rolling stock were needed.
    • Length of line 48 miles (77 km).
    • Length of Fell section 9 miles (14 km)

Brazil

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  • The Estrada de Ferro Cantagalo (Cantagalo railway) from Niterói to Nova Friburgo opened in 1873. Brazil's first mountain railway, of 1,100 mm (3 ft 7+516 in) gauge, re-used some of the equipment from the Mont Cenis Pass Railway, and continued in operation until the 1960s. The Fell centre rail was used only for braking after 1884.

Isle of Man

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Italy

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  • See France: Mont Cenis Pass Railway.

New Zealand

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Preserved Fell locomotive H199 in the Fell Engine Museum, New Zealand, 20 March 2002
The underside of H199, showing details of the Fell railway system, 20 March 2002

Renewals

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  • Ten kilometres of new Chinese manufactured Fell rail was expected to be delivered to the Snaefell Mountain Railway in December 2006 for track-laying between the 2006 and 2007 seasons (Railway Magazine, February 2007).

See also

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References

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  1. ^ a b c Figuier, Louis (1867). La Locomotive et Les Chemins de Fer (in French). Furne, Jouvet et Cie. pp. 373–375.
  2. ^ a b Whymper, Edward (1871). Scrambles Amongst the Alps in the Years 1860-69. London: John Murray. p. 53.
  3. ^ Day, John R.; Wilson, Brian G. (1957). Unusual Railways. London: Frederick Muller Ltd. p. 43. OCLC 2899105.
  4. ^ Fell, George Noble; Tindall, John Henry (12 November 1914). "Improvements in Engines for Traction on Centre Rail Railways and in Means for Working same".
  5. ^ "THE LATEST METHODS OF RAILWAY CONSTRUCTION IN ENGLAND". South Australian Register. Adelaide. 9 July 1869. p. 2. Retrieved 1 January 2013 – via National Library of Australia.

Note

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