Spiral (railway)

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A schematic of a simple spiral
A schematic of a simple spiral

A spiral (sometimes called a spiral loop) is a technique employed by railways to ascend steep hills.

The railway spiral involves a track which rises on a steady curve until it has completed a 360-degree loop, passing over itself as it gains height. This allows the railway to gain vertical elevation in a relatively short horizontal distance. It is an alternative to a zig-zag, and avoids the need for the trains to stop and reverse direction while ascending. If the train is of sufficient length, it is possible to view the train looping onto itself.

A spiral loop should not be confused with the civil engineering spiral curve used to provide a transition from a tangent into a horizontal circular curve. The civil engineering spiral curve is a curve of uniformly decreasing radius (beginning at infinite and ending at the radius of the circular curve) used to minimize rolling stock sway and also in highway curves for aesthetic reasons.

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[edit] Calculations

Consider a railway climbing at a gradient of 1 in 40 (2.5%, or 25 m per km). A 360-degree spiral at 350 m radius will add 1100 m to the forward journey and 27 m to the vertical climb. Unless the topography has a suitably shaped hill, the spiral is likely to be in tunnel, creating problems if steam locomotives are employed.

The spiral needs to climb about 6 m in order to bridge itself. With steam locomotives and to a lesser extent with diesel locomotives, the gradient in the tunnel should be less than the ruling grade to avoid problems with fumes and dampness causing the driving wheels to slip.

[edit] List of spirals

[edit] Africa

  • Kenya-Uganda four spirals on the Kenya to Uganda line.

[edit] Australia

  • Bethungra Spiral two very short tunnels, downhill track plain at 1 in 40 gradient, uphill track in spiral at 1 in 66 gradient
  • Cougal Spiral one short, one long tunnel, single track

[edit] Bulgaria

  • Avramovo 760 mm (2 ft 5⅞ in) gauge

[edit] Canada

[edit] Croatia

  • Tunnel 1838 m long (0+525 - 2+363) between stations Rijeka-Brajdica and Sušak-Pećine, which is southern approach to the Rijeka-Karlovac railway, the part of International corridor V.

[edit] France

  • Sayerce tunnel between Pau (France) and Zaragossa (Spain) in the Pyrenees [1]
  • The railway between Nice (France) and Cuneo (Italy) use three spirals.
  • Moûtiers, between Alberville and Bourg-Saint-Maurice (Savoie), used by TGV.[2]

[edit] Germany

[edit] India

Loop (Agony Point) on the DHR, India
Loop (Agony Point) on the DHR, India

[edit] Iran

  • Numerous spirals through very mountainous regions, mostly entirely in tunnel and single track

[edit] Ireland

[edit] Italy

[edit] Japan

Okoba spiral and zig zag in Hisatsu Line, Japan
Okoba spiral and zig zag in Hisatsu Line, Japan

[edit] Madagascar

  • One loop at Anjiro on the main line from Antananrivo to Toamasina

[edit] Myanmar

  • Two spirals on the Burmah Mines Railway [4]

[edit] New Zealand

[edit] Norway

[edit] Slovakia

[edit] South Korea

  • between Bangok station and Chiak station on Jungang Line - one loop, single track. New double track tunnel is under construction to replace loop tunnel.
  • between Jungnyeong station (죽령역) and Huibangsa station (희방사역) on the Jungang Line - one loop, single track.

[edit] Spain

  • Cargol Tunnel on the Ripoll - La Tour de Carol (France) line

[edit] Switzerland

Spiral bridge at Brusio on the RhB Bernina line.
Spiral bridge at Brusio on the RhB Bernina line.

[edit] Taiwan

  • Dulishan loop is a triple spiral (two clockwise and one counter-clockwise), Alishan (阿里山) Forest Railway, narrow gauge, single track

[edit] United Kingdom

The bridge on the spiral loop at Dduallt on the Ffestiniog Railway, Wales.
The bridge on the spiral loop at Dduallt on the Ffestiniog Railway, Wales.

[edit] United States

Tehachapi Loop, California, U.S.A. from the air.
Tehachapi Loop, California, U.S.A. from the air.

Spirals are not generally used on tramways (street running or reserved track) or light rail lines because trams traditionally have all wheels powered, so can climb much steeper direct gradients than railways.

[edit] Roads

Roads sometimes use a spiral to gain height in a confined space:

Many Multi-storey car parks feature such a design as this.

[edit] External links