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List of steepest gradients on adhesion railways

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The inclusion of steep gradients on railways avoids the expensive engineering work required to produce more gentle gradients. However the maximum feasible gradient is limited by how much of a load the locomotive(s) can haul upwards. Braking when travelling downhill is also a limiting factor. There have been various solutions to hauling rail mounted vehicles up or down inclines. These include simple rail adhesion, rack railways and cable inclines (including rail mounted water tanks to carry barges). To help with braking on the descent, a non-load-bearing "brake rail" located between the running rails can be used, similar to the rail used in the Fell system, e.g. by the Snaefell Mountain Railway on the Isle of Man.

Tramways and light railways often have steeper gradients than heavier railways. This is because all wheels are usually connected to engine power in order to give better acceleration. Grades of 5% are not uncommon on them. Metros and pure commuter railways often also allow steeper gradients, over 4%, for the same reason. High-speed railways commonly allow 2.5% to 4% because the trains must be strong and have many wheels with power to reach very high speeds. For freight trains, gradients should be as gentle as possible, preferably below 1.5%.

Examples

The list below is of some of the steepest gradients on adhesion railways, in order of decreasing steepness:

Gradient Line Date
Open
Notes
1 in 7.2 (13.8%) Calçada de São Francisco, Lisbon Tramways, Portugal 1873 In past, cable trams or funiculars only as hills too steep for horses. Currently used by unassisted electric trams.
1 in 8.6 (11.6%) Pöstlingbergbahn, Austria 1898
1 in 9 (11.1%) Cass Scenic Railway, West Virginia, United States 1901 Former logging railway, steepest non-electrified adhesion railway
1 in 9 (11%) or 1 in 10 (10%) Estrada de Ferro Campos do Jordão, Brazil 22 existing railways merged and nationalised in 1953
1 in 9.5 (10.5%) Roaring Camp & Big Trees Narrow Gauge Railroad, California, United States 1963 3ft narrow gauge heritage railroad
1 in 10 (10%) Sheffield Supertram, Sheffield, England 1994
1 in 10.4 (9.6%) Gmunden Tramway, Austria 1894
1 in 11 (9.1%) Allentown light rail line, Pittsburgh, United States ????
Saint-Gervais–Vallorcine railway, France 1901
J Church line, San Francisco 1917
1 in 11.13

(9.0%)

BC Forest Discovery Centre, Duncan, B.C., Canada The steepest incline on a 3 ft narrow-gauge railway in Canada, the BC Forest Discovery Centre is a Forestry and

Logging Museum that runs a tourist train, using a combination of steam locomotives and diesel locomotives, usually with trains consisting of 1-3 coaches in length, as well as motor cars.

1 in 11.4 (8.8%) Cinci Drumuri–Pădurii, Iași Tramways, Iași, Romania
1 in 11.4 (8.75%) A and B Loop and NS Line of the Portland Streetcar system, Portland, Oregon, United States Located in the block of Southwest Harrison Street between 1st Avenue and 2nd Avenue
1 in 11.8

(8.5%)

Stuttgart light rail system, Germany Steepest gradient in Alexanderstraße on the southern part of line U15.
1 in 12.5 (8%) Hakone Tozan Line, Japan
1 in 12.5 (8%) Trieste-Opicina tramway Mixed adhesion and rope-hauled operation. The maximum gradient on adhesion is 8% between Vetta Scorcola and Cologna stops. Maximum gradient on the rope-hauled section is 26% between Romagna and S. Anastasio stops.
1 in 12.5 (8.0%) Appenzell–St. Gallen–Trogen railway, Appenzeller Bahnen, Switzerland
1 in 12.6 (7.9%) Uetliberg railway line, Sihltal Zürich Uetliberg Bahn, Switzerland 1875
1 in 12.7 (7.85%) Green Line B branch, Boston, Massachusetts, United States The steepest gradients are near Washington Street station.
1 in 13.7 (7.3%) Montreux–Lenk im Simmental line, Switzerland
1 in 14 (7.1%) Driving Creek Railway, Coromandel, New Zealand
1 in 14 (7.1%) Hopton Incline, Cromford and High Peak Railway, England This incline has only carried passengers, by adhesion, on enthusiast special trains, but is now completely closed.
1 in 14.1 (7.1%) Erzberg Railway (Erzbergbahn), Austria Built as a rack railway, adhesion operation only by passenger railbuses, now only museum operation on part of the line.
1 in 14 (7.0%) Red Marble Grade, Topton, North Carolina. A 2015 survey lists the 3.5 mile stretch between MP 87 and MP 90.5 at a 4% average grade and says there are isolated stretches approaching 7%. When originally built the ruling grade was 4.2% as listed by southern railway. But due to the fills settling it has drastically changed. This segment of track has always been worked by adhesion. This line is owned by Great Smoky Mountains Railroad and in 2019 is out of service.
1 in 14.2 (7.0%) Bernina Railway, Switzerland
MAX Light Rail system, Portland, Oregon, United States System's ruling gradient of 7.0% is located on the viaduct connecting the Steel Bridge with Southwest 1st Avenue.
SacRT light rail, Sacramento, California, United States
1 in 15 (6.67%) Usui Pass, former Shin'etsu Main Line, Japan
Former Keihan Keishin Line
Toden Arakawa Line (Tokyo Sakura Tram), Japan
1 in 15.4 (6.5%) Incline from the Causeway Street Tunnel up to the Lechmere Viaduct on the Green Line (MBTA), Boston, Massachusetts, United States This incline is commonly believed to be the "steepest grade of tracks in the T system."
1 in 15.9 (6.3%) Alishan Forest Railway, Taiwan
1 in 16.4 (6.1%) Hunsrückbahn, Germany Built as a rack railway.
Keihan Keishin Line
1 in 16.6 (6.0%) Ligne de Cerdagne, France
1 in 16.7 (6.0%) 1910 Arosabahn Switzerland Rockfall shelter
Arica, Chile to Bolivia With 100 m (328.08 ft) radius curves.
1 in 16.6 (6.0%) Terni–Perugia–Sansepolcro railway (Perugia Sant'Anna branch) Steepest standard gauge line in Italy
1 in 17 (5.89%) Madison Incline, Madison, Indiana, United States Steepest standard gauge, line haul railroad in North America. Worked as a rack railway until 1868 when the Reuben Wells was built to work the hill by adhesion.
1 in 17.1 (5.88%) Docklands Light Railway, London, England On the ramp from the original London and Blackwall Railway viaduct to the tunnel leading to Bank.
1 in 17.5 (5.7%) Mukilteo, Washington, United States, Boeing Factory Spur Rail line for delivering parts shipped from overseas to the Boeing Everett Factory.
1 in 18 (5.5%) Near Alausi, Ecuador on line to Quito
Flåmsbanen, Norway
Höllentalbahn (Black Forest), Germany
1 in 19.2 (5.2%) Hong Kong Tramway, Hong Kong Along the section of King's Road between the junctions with Kornhill Road and Shau Kei Wan Road/Taikoo Shing Road
1 in 19 (5.3%) Camden Tram, New South Wales, Australia This line has been closed for over 50 years.
Foxfield Railway, Staffordshire, England This incline is on a preserved colliery railway which briefly carried passengers over this steep section but does not now normally do so.
Kangra Valley Railway, Himachal Pradesh, India
1 in 20 (5.0%) Rapperswil - Samstagern, Südostbahn, Switzerland
Murg Valley Railway, Germany
Kurobe Gorge Railway, Japan
Eizan Electric Railway Kurama Line, Japan
Nankai Electric Railway Koya Line, Japan
Kobe Electric Railway (Shintetsu) Ao Line and Arima Line, Japan
Tateyama Erosion Control Train, Japan
1 in 20 (5.0%)/1 in 25 (4.0%) Matheran Hill Railway, India Near Mumbai
1 in 21 (4.7%) Saluda Grade, Saluda, North Carolina, United States The steepest standard gauge mainline railroad grade in the United States.

Worked by adhesion between 1878 and 2001, currently out of service.

1 in 22

(4.5%)

Balsam Mountain Grade, Balsam N.C. Balsam Mountain, home of highest railroad station east of the Rockies; average grade about 4.0%, max 4.5%.

1 of 2 grades on southern railways former Murphy branch that are +4% grade. Balsam Mountain has seen many runaways. It is still in service operated by the Blue Ridge Southern Railroad (Watco).

1 in 22 (4.5%) Darjeeling Himalayan Railway, India
1 in 22 (4.5%) Big Hill, British Columbia, Canada Operated from 1884 to 1909 when it was replaced by two spiral tunnels.
1 in 22.5 (4.4%) Thamshavn Line, Norway
1 in 23 (4.3%) Ballochney incline, Ballochney Railway, Scotland The steepest standard gauge inclines used regularly by passenger trains by adhesion in Britain.

Both closed to passengers from 1 May 1930 by the London and North Eastern Railway and since closed completely.

Causewayend incline, Slamannan Railway, Scotland
1 in 25 (4.0%) Cologne–Frankfurt high-speed rail line, Germany
Chosica - Galera, Central Railway, Peru
Selketalbahn, Germany
Cumbres and Toltec Scenic Railroad, Colorado, United States
Durango and Silverton Narrow Gauge Railroad, Colorado, United States
Sawando to Akagi, Iida Line, Japan
Fujikyuko Line, Fuji Kyuko Railway, Japan
Batlow branch, New South Wales, Australia 1923 This line has been closed for many years. A popular grade in NSW.
Newnes branch, New South Wales, Australia This line has been closed for many decades. The Glowworm Tunnel on its former route

is a popular tourist attraction. Used Shay locomotives.

Oberon branch, New South Wales, Australia 1923-1980 This line has been closed for decades.
Dorrigo branch, New South Wales, Australia This line has been closed for decades. There have been several attempts by the Dorrigo Steam Railway and Museum

and Glenreagh Mountain Railway to reinstate part of it as a historic/tourist rail line.

Luxembourg to St Michel-Notre Dame, RER Line B, Paris, France
1 in 26 (3.85%) Iquique Railway, Chile
Ōu Main Line (Yamagata Shinkansen), Japan Momentum Grades
1 in 27 (3.7%) Mersey Railway Tunnel, England
Werneth Incline, England Regular passenger service withdrawn 7 January 1963 and since closed completely.
Holywell branch line, Wales Regular passenger service withdrawn 6 September 1954 and since closed completely.
Mauritius Railways
1 in 28 (3.6%) LGV Sud-Est high-speed line, France
1 in 28.5 (3.5%) Kyushu Shinkansen, Japan
1 in 48 (2.08%) Liverpool and Manchester Railway Docks 1830 designed for cable haulage to begin with; replaced by locomotives when technology advanced enough.
1 in 96 (1.04%) Liverpool and Manchester Railway 1830 On either side of Rainhill level where Rainhill locomotive trials were conducted in 1829.
1 in 880 (0.11%) Liverpool and Manchester Railway 1830 General ruling gauge in General

See also

Further reading

  • Wellington, Arthur Mellen (1887). "X. The Relative Importance of Gradients". The Economic Theory of the Location of Railways: An Analysis of the Conditions Controlling the Laying Out of Railways to Effect the Most Judicious Expenditure of Capital. London & New York: J. Wiley & Sons. OL 20529157M.

References

  1. "Record Railroad Routes: Highest, Steepest & Longest". Retrieved 2019-02-10.
  2. The potential introduction of trams to Bath (PDF), Atkins, January 2018
  3. Taplin, Michael; and Russell, Michael (2002). Trams in Western Europe, p. 8. Harrow Weald, Middlesex (UK): Capital Transport Publishing. ISBN 1-85414-265-8.
  4. "General Information". San Francisco Municipal Transportation Agency. Archived from the original on December 3, 2016. Retrieved June 21, 2019.
  5. "Pantele din Iaşi pun probleme ofertanţilor" (in Romanian). Retrieved 2019-09-09.
  6. "Worldwide Review ". Tramways & Urban Transit. UK: Ian Allan Publishing. August 2013. p. 352. ISSN 1460-8324.
  7. Peix (4 December 2007). "START FÜR NEUE U 15" (PDF). p. 37. Retrieved 6 January 2024.
  8. "Technical features". Trieste Trasporti Spa. Retrieved 2022-04-13.
  9. "79-Promille-Rampe" (in German). Retrieved 2017-08-24.
  10. "Bahn S4/S10 - Sihltal Zürich Uetliberg Bahn SZU" (in German). Retrieved 2017-08-24.
  11. Massachusetts Bay Transportation Authority (2017-03-06). MBTA Green Line Track Charts. pp. 14–15.
  12. ^ "Andrews to Murphy (A2M) Rail Reactivation Study" (PDF). NCDOT Rail Division. February 2015. p. 28.
  13. Sebree, Mac (1994). "Portland's Westside Tunnel: An LRT Breakthrough". 1994 Light Rail Annual & User's Guide. North American Light Rail Annual and User's Guide for. Pasadena, CA: Pentrex. pp. 10–14. ISSN 0160-6913.
  14. Sheldrake, Arlen; et al. (2012). Steel Over the Willamette. Portland, Oregon: Pacific Northwest Chapter, National Railway Historical Society. p. 42. ISBN 978-0-9851207-0-2.
  15. "Boston's Light Rail Transit Prepares for the Next Hundred Years" (PDF). onlinepubs.trb.org. Retrieved 2021-02-23.
  16. Daniel, Mac (11 November 2005). "Lechmere, Science Park stations reopen". Boston.com. Archived from the original on 2007-03-06. Retrieved 2021-02-23.
  17. "The Madison Incline: Steepest Railroad Grade in North America". Delay In Block Productions. Archived from the original on 2021-12-15. Retrieved May 7, 2018.
  18. "Tateyama Sabo's Erosion Control Works Service Train". hrr.mlit.go.jp. Archived from the original on 4 March 2016.
  19. Trains, November 1984, p26
  20. ^ Railway World, April 1963, p159
  21. nswrail.net
  22. "BRITISH ENTERPRISE IN SOUTH AMERICA". mikes.railhistory.railfan.net.
  23. Modern Railways, Nov 2009, p10; Railway World, February 1963, p76
  24. "The Sydney Morning Herald". 1868-09-21. p. 6. Retrieved 2021-05-05.

External links

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