Type of railway line used to climb steep gradients
A railwayzig zag or switchback is a railway operation in which a train is required to switch its direction of travel in order to continue its journey. While this may be required purely from an operations standpoint, it is also ideal for climbing steep gradients with minimal need for tunnels and heavy earthworks.[1] For a short distance (corresponding to the middle leg of the letter "Z"), the direction of travel is reversed, before the original direction is resumed.[2] Some switchbacks do not come in pairs, and the train may then need to travel backwards for a considerable distance.
A location on railways constructed by using a zig-zag alignment at which trains must reverse direction to continue is a reversing station.[3]
Zig zags tend to be cheaper to construct because the grades required are discontinuous. Civil engineers can generally find a series of shorter segments going back and forth up the side of a hill more easily and with less grading than they can a continuous grade, which must contend with the larger scale geography of the hills to be surmounted.
Disadvantages
Zig zags suffer from a number of limitations:
The length of trains is limited to what will fit on the shortest stub track in the zig zag. For this reason, the Lithgow Zig Zag's stubs were extended at great expense in 1908.[5] Even then, delays were such that the zig zag had eventually to be bypassed by a new route, opened two years later.
Reversing a locomotive-hauled train not purposely equipped for push-pull operation without first running the engine around to the rear of the train can be hazardous – although operating the train with two locomotives, one at each end (a practice known as "topping-and-tailing"), can mitigate the dangers.
The need to stop the train after each segment, throw the switch, and then reverse means that progress through the zig zag is slow.
Passenger cars with transverse seating force riders to travel in reverse for at least part of the journey, though this issue is largely solved by longitudinal seating on cars serving such routes.[6]
Hazards
If the wagons in a freight train are marshaled poorly, with a light vehicle located between heavier ones (particularly with buffer couplings), the move on the middle road of a zig zag can cause derailment of the light wagon.[7]
Dubí - local railway between Moldava and Most (Most–Moldava railway), trains have to change direction in station Dubí in order to continue further. Only one halt of a 'Z' is placed
Lemvig – Small side track from the harbor to the railway station, used only on special occasions. In reality only half a 'Z' as only one reversal is needed.
Elm (replaced in 1914 by Distelrasen Tunnel, but the structure is conserved within the Frankfurt-Fulda and Fulda-Gemünden railways and the connecting curve between the stations at Elm and Schlüchtern
The Szob-Nagybörzsöny forest railway has a simple zig zag at the middle of the railway line between Kisirtás and Tolmács-hegy stations, with a loop in the middle of the Z shape
Darjeeling Himalayan Railway has six full zig zags and 3 spirals, most are from the construction of the current railway but one was added in the 1940s and at least one other was used temporarily following storm damage
Western Line, Auckland. Service runs from Britomart to Newmarket before reversing to run to Swanson. The reverse could be avoided but this would bypass Newmarket which is a major station.
Tierkrans Switchback Railway, between Barkley East station and Aliwal-North station. For economic reasons regular service was finally discontinued in 1991. Railway enthusiasts also know the line for the famous set of eight reverses.
Chambrelien station on the Neuchâtel–Le Locle-Col-des-Roches line. Before electrification, a turntable was required to allow large tender locomotives to be turned as they ran around their trains
^Raymond, William G. (1912). "Railway Engineering" (Google books). In Beach, Frederick Converse (ed.). The Americana: A Universal Reference Library, Comprising the Arts and Sciences, Literature, History, Biography, Geography, Commerce, Etc., of the World. Vol. 17. New York: Scientific American Compiling Department. Retrieved 3 January 2010. High mountain levels … may be tunneled … but … may be reached by one of several methods adopted to secure practical grades: (1) Zig-zag development … (2) Switchback development … (3) Spirals or loops …
^Raymond 1912. "Switch-back development … necessitating the use of switches at these ends and the backing of the train up alternate stretches."
^Jackson, Alan A. (2006). The Railway Dictionary (4th ed.). Stroud: Sutton Publishing. p. 285. ISBN 0-7509-4218-5.
^"Mountain Railways of India". UNESCO World Heritage Centre. Retrieved 30 April 2006.
^ a bVielbaum, Walt; Hoffman, Philip; Ute, Grant; Townley, Robert (2005). San Francisco's Market Street Railway. Arcadia Publishing. pp. 86–87. ISBN 9780738529677.
^"Historical and Archaeological Assessment of Proposed Cycleway, Near Thornleigh Quarry, Via De Saxe Close, Thornleigh (Berowra Valley Regional Park), N.S.W." (PDF). The construction of the railway siding and zig-zag to the quarry and also Hall’s Camp were associated with Amos & Co, who won the contract to build the section of railway from Strathfield to Hawkesbury River. Edward Higginbotham & Associates PTY LTD. March 2002. Retrieved 19 November 2017.
^"Bang rdsskisser SVJ/HFJ". www.ekeving.se.
^"Bandel 660". www.historiskt.nu. Retrieved 19 November 2020.
^Callwell, Robert (September 1999). "Transit in San Francisco: A Selected Chronology, 1850–1995" (PDF). San Francisco Municipal Railway. p. 90.