A third rail, also known as a live rail, electric rail or conductor rail, is a method of providing

electric power Electric power is the rate at which electrical energy is transferred by an electric circuit. The SI unit of power is the watt, one joule per second. Standard prefixes apply to watts as with other SI units: thousands, millions and billions o ...

to a railway

locomotive A locomotive or engine is a rail transport vehicle that provides the Power (physics), motive power for a train. If a locomotive is capable of carrying a payload, it is usually rather referred to as a multiple unit, Motor coach (rail), motor ...

or train, through a semi-continuous rigid conductor placed alongside or between the rails of a railway track. It is used typically in a

mass transit Public transport (also known as public transportation, public transit, mass transit, or simply transit) is a system of transport for passengers by group travel systems available for use by the general public unlike private transport, typical ...

or rapid transit system, which has alignments in its own corridors, fully or almost fully segregated from the outside environment. Third rail systems are usually supplied from direct current electricity. Modern tram systems, street-running, avoid the risk of electrocution by the exposed electric rail by implementing a segmented ground-level power supply, where each segment is electrified only while covered by a vehicle which is using its power. The third-rail system of electrification is not related to the third rail used in

dual gauge In railway engineering, "gauge" is the transverse distance between the inner surfaces of the heads of two rails, which for the vast majority of railway lines is the number of rails in place. However, it is sometimes necessary for track to c ...

railways.

Description

Third-rail systems are a means of providing electric traction power to trains using an additional rail (called a "conductor rail") for the purpose. On most systems, the conductor rail is placed on the

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ends outside the running rails, but in some systems a central conductor rail is used. The conductor rail is supported on ceramic insulators (known as "pots"), at top contact or insulated brackets, at bottom contact, typically at intervals of around . The trains have metal contact blocks called collector shoes (also known as contact shoes or pickup shoes) which make contact with the conductor rail. The traction current is returned to the generating station through the running rails. In North America, the conductor rail is usually made of high conductivity

steel Steel is an alloy made up of iron with added carbon to improve its strength and fracture resistance compared to other forms of iron. Many other elements may be present or added. Stainless steels that are corrosion- and oxidation-resistant ty ...

or steel bolted to aluminium to increase the conductivity. Elsewhere in the world, extruded aluminium conductors with stainless steel contact surface or cap, is the preferred technology due to its lower electrical resistance, longer life, and lighter weight. The running rails are electrically connected using wire bonds or other devices, to minimise resistance in the electric circuit. Contact shoes can be positioned below, above, or beside the third rail, depending on the type of third rail used: these third rails are referred to as bottom-contact, top-contact, or side-contact, respectively. The conductor rails have to be interrupted at level crossings, crossovers, and substation gaps. Tapered rails are provided at the ends of each section, to allow a smooth engagement of the train's contact shoes. The position of contact between the train and the rail varies: some of the earliest systems used top contact, but later developments use side or bottom contact, which enabled the conductor rail to be covered, protecting track workers from accidental contact and protecting the conductor rail from frost, ice, snow and leaf-fall.

Gallery

File:Thirdrailillustration.png, Third rail layout. 1: Cover 2: Power Rail 3: Insulator 4:

5: Rail File:Third Rail for Toronto Transit Commission.jpg, Third rail (top) at Bloor-Yonge station (

Line 1 Line 1 or 1 line may refer to: Public transport Africa * Line 1 (Algiers Metro), Algeria * Cairo Metro Line 1, Egypt Asia China * Line 1 (Beijing Subway) * Line 1 (Changchun Rail Transit) * Line 1 (Changsha Metro) * Line 1 (Changzhou Metro) * L ...

) on the Toronto subway. Energized at 600 volts DC, the third rail provides electrical power to the power-train, and ancillaries of the subway cars. File:Metro Paris rubber wheel.jpg, Paris Métro. The guiding rails of the rubber-tyred lines also function as current conductors. The horizontal contact shoe is between the pair of rubber wheels. File:London Stansted people mover rail.JPG, London Stansted Airport people mover with central rail power feed File:Stansted Airport People Mover.JPG, London Stansted Airport people mover, showing rail switch

Advantages and disadvantages

Safety

Because third rail systems present

electric shock Electrical injury is a physiological reaction caused by electric current passing through the body. The injury depends on the density of the current, tissue resistance and duration of contact. Very small currents may be imperceptible or produce ...

hazards close to the ground, high voltages (above 1500 V) are not considered safe. A very high current must therefore be used to transfer adequate power, resulting in high

resistive loss Joule heating, also known as resistive, resistance, or Ohmic heating, is the process by which the passage of an electric current through a conductor produces heat. Joule's first law (also just Joule's law), also known in countries of former US ...

es, and requiring relatively closely spaced feed points (

electrical substation A substation is a part of an electrical generation, transmission, and distribution system. Substations transform voltage from high to low, or the reverse, or perform any of several other important functions. Between the generating station and ...

s). The electrified rail threatens electrocution of anyone wandering or falling onto the tracks. This can be avoided by using

platform screen doors Platform screen doors (PSDs), also known as platform edge doors (PEDs), are used at some train, rapid transit and people mover stations to separate the platform from train tracks, as well as on some bus rapid transit, tram and light rail syste ...

, or the risk can be reduced by placing the conductor rail on the side of the track away from the platform, when allowed by the station layout. The risk can also be reduced by having a coverboard, supported by brackets, to protect the third rail from contact, although many systems do not use one. Where coverboards are used they reduce the structure gauge near the top of rail. This in turn reduces the

loading gauge A loading gauge is a diagram or physical structure that defines the maximum height and width dimensions in railway vehicles and their loads. Their purpose is to ensure that rail vehicles can pass safely through tunnels and under bridges, and ke ...

. There is also a risk of pedestrians walking onto the tracks at level crossings. In the US, a 1992

Supreme Court of Illinois The Supreme Court of Illinois is the state supreme court, the highest court of the State of Illinois. The court's authority is granted in Article VI of the current Illinois Constitution, which provides for seven justices elected from the five ap ...

decision affirmed a $1.5 million verdict against the Chicago Transit Authority for failing to stop an intoxicated person from walking onto the tracks at a level crossing in an attempt to urinate. The end ramps of conductor rails (where they are interrupted, or change sides) present a practical limitation on speed due to the mechanical impact of the shoe, and is considered the upper limit of practical third-rail operation. The world speed record for a third rail train is attained on 11 April 1988 by a British Class 442 EMU. In the event of a collision with a foreign object, the beveled end ramps of bottom running systems can facilitate the hazard of having the third rail penetrate the interior of a passenger car. This is believed to have contributed to the death of five passengers in the Valhalla train crash of 2015. Modern systems, such as ground-level power supply (first used in the tramway of Bordeaux in 2003), avoid the safety problem by segmenting the powered rail, with each segment being powered only when fully covered by the vehicle which utilizes its power.

Weather effects

Third rail systems using top contact are prone to accumulations of snow, or ice formed from refrozen snow, and this can interrupt operations. Some systems operate dedicated de-icing trains to deposit an oily fluid or antifreeze (such as propylene glycol) on the conductor rail to prevent the frozen build-up. The third rail can also be heated to alleviate the problem of ice. Unlike overhead line equipment, third rail systems are not susceptible to strong winds or freezing rain, which can bring down overhead wires and hence disable all trains. Thunderstorms can also disable the power with lightning strikes on systems with overhead wires, disabling trains if there is a power surge or a break in the wires.

Gaps

Depending on train and track geometry, gaps in the conductor rail (e.g., at level crossings and junctions) could allow a train to stop in a position where all of its power pickup shoes are in gaps, so that no traction power is available. The train is then said to be "gapped". Another train must then be brought up behind the stranded train to push it on to the conductor rail, or a jumper cable may be used to supply enough power to the train to get one of its contact shoes back on the live rail. Avoiding this problem requires a minimum length of trains that can be run on a line. Locomotives have either had the backup of an on-board diesel engine system (e.g., British Rail Class 73), or have been connected to shoes on the rolling stock (e.g.

Metropolitan Railway The Metropolitan Railway (also known as the Met) was a passenger and goods railway that served London from 1863 to 1933, its main line heading north-west from the capital's financial heart in the City to what were to become the Middlesex su ...

Running rails for power supply

The first idea for feeding electricity to a train from an external source was by using both rails on which a train runs, whereby each rail is a conductor for each polarity, and is insulated by the sleepers. This method is used by most scale

model train Railway modelling (UK, Australia, New Zealand, and Ireland) or model railroading (US and Canada) is a hobby in which rail transport systems are modelled at a reduced scale. The scale models include locomotives, rolling stock, streetcars, t ...

s, however it does not work so well for large trains as the sleepers are not good insulators. Furthermore, the electric connection requires insulated wheels or insulated axles, but most insulation materials have poor mechanical properties compared with metals used for this purpose, leading to a less stable train vehicle. Nevertheless, it was sometimes used at the beginning of the development of electric trains. The oldest electric railway in Britain, the Volk's Railway in Brighton, England was originally electrified at 50 volts DC using this system (it is now a three rail system). Other railway systems that used it were the Gross-Lichterfelde Tramway and the Ungerer Tramway.

Shoe contact

The third rail is usually located outside the two running rails, but on some systems it is mounted between them. The electricity is transmitted to the train by means of a sliding shoe, which is held in contact with the rail. On many systems, an insulating cover is provided above the third rail to protect employees working near the track; sometimes the shoe is designed to contact the side (called "side running") or bottom (called "bottom running" or "under-running") of the third rail, allowing the protective cover to be mounted directly to its top surface. When the shoe slides along the top surface, it is referred to as "top running". When the shoe slides along the bottom surface, it is less affected by the build-up of snow, ice, or leaves, and reduces the chances of a person being electrocuted by coming in contact with the rail. Examples of systems using under-running third rail include Metro-North in the New York metropolitan area; the SEPTA Market-Frankford Line in Philadelphia; and London's Docklands Light Railway.

Contact shoe gallery

File:M8 railcar -9101 contact shoe, September 2016.jpg, Contact shoe on Metro-North M8 railcar, designed for both over- and under-running third rail. File:Third Rail contact shoe.jpg, A contact shoe for top-contact third rail on SEPTA's Norristown High Speed Line (third rail not visible) File:CTA third rail contact shoe.jpg, Third rail contact shoe of

CTA CTA may refer to: Legislation *Children's Television Act, American legislation passed in 1990 that enforces a certain degree of educational television *Counter-Terrorism Act 2008 *Criminal Tribes Act, British legislation in India passed in 1871 wh ...

Chicago 'L' (''City in a Garden''); I Will , image_map = , map_caption = Interactive Map of Chicago , coordinates = , coordinates_footnotes = , subdivision_type = Country , subdivision_name ...

car

Electrical considerations and alternative technologies

Electric traction trains (using electric power generated at a remote power station and transmitted to the trains) are considerably more cost-effective than diesel or steam units, where separate power units must be carried on each train. This advantage is especially marked in urban and rapid transit systems with a high traffic density. Because of mechanical limitations on the contact to the third rail, trains that use this method of power supply achieve lower speeds than those using overhead electric wires and a pantograph. Nevertheless, they may be preferred inside the cities as there is no need for very high speed and they cause less

visual pollution Visual pollution is the study of secondary impacts of manmade interventions or visible deterioration and negative aesthetic quality of the natural and human-made landscapes around people. It refers to the impacts pollution has in impairing the q ...

. The third rail is an alternative to overhead lines that transmit power to trains by means of

pantographs A pantograph (, from their original use for copying writing) is a mechanical linkage connected in a manner based on parallelograms so that the movement of one pen, in tracing an image, produces identical movements in a second pen. If a line dr ...

attached to the trains. Whereas overhead-wire systems can operate at 25 kV or more, using alternating current (AC), the smaller clearance around a live rail imposes a maximum of about 1200 V, with some systems using 1500 V ( Line 4, Guangzhou Metro, Line 5, Guangzhou Metro, Line 3, Shenzhen Metro), and direct current (DC) is used. Trains on some lines or networks use both power supply modes (see below). All third rail systems throughout the world are energised with DC supplies. Some of the reasons for this are historical. Early traction engines were DC motors, and the then-available rectifying equipment was large, expensive and impractical to install onboard trains. Also, transmission of the relatively high currents required results in higher losses with AC than DC. Substations for a DC system will have to be (typically) about apart, though the actual spacing depends on the carrying capacity; maximum speed and service frequency of the line. One method for reducing current losses (and thus increase the spacing of feeder/sub stations, a major cost in third rail electrification) is to use a composite conductor rail of a hybrid aluminium/steel design. The aluminium is a better conductor of electricity, and a running face of stainless steel gives better wear. There are several ways of attaching the stainless steel to the aluminium. The oldest is a co-extruded method, where the stainless steel is extruded with the aluminium. This method has suffered, in isolated cases, from de-lamination (where the stainless steel separates from the aluminium); this is said to have been eliminated in the latest co-extruded rails. A second method is an aluminium core, upon which two stainless steel sections are fitted as a cap and linear welded along the centre line of the rail. Because aluminium has a higher coefficient of thermal expansion than steel, the aluminium and steel must be positively locked to provide a good current collection interface. A third method rivets aluminium bus strips to the web of the steel rail.

Return current mechanisms

As with overhead wires, the return current usually flows through one or both running rails, and leakage to ground is not considered serious. Where trains run on rubber tyres, as on parts of the

Lyon Metro The Lyon Metro (french: Métro de Lyon) is a rapid transit system serving Lyon Metropolis, France. First opened in 1974, it currently consists of four lines, serving 40 stations and comprising of route. Part of the Transports en Commun Lyonnais ...

, Paris Métro, Mexico City Metro, Santiago Metro, Sapporo Municipal Subway, and on all of the

Montreal Metro The Montreal Metro (french: Métro de Montréal) is a rubber-tired underground rapid transit system serving Greater Montreal, Quebec, Canada. The metro, operated by the Société de transport de Montréal (STM), was inaugurated on October 14, ...

and some automated guideway transit systems (e.g. the Astram Line), a live rail must be provided to feed the current. The return is effected through the rails of the conventional track between these guide bars (''see

rubber-tyred metro A rubber-tyred metro or rubber-tired metro is a form of rapid transit system that uses a mix of road and rail technology. The vehicles have wheels with rubber tires that run on rolling pads inside guide bars for traction, as well as traditional ...

''). Another design, with a third rail (current feed, outside the running rails) and fourth rail (current return, midway between the running rails), is used by a few steel-wheel systems; see fourth rail. The London Underground is the largest of these, (see railway electrification in Great Britain). The main reason for using the fourth rail to carry the return current is to avoid this current flowing through the original metal tunnel linings which were never intended to carry current, and which would suffer electrolytic corrosion should such currents flow in them. Another four-rail system is line M1 of the Milan Metro, where current is drawn by a lateral, flat bar with side contact, with return via a central rail with top contact. Along some sections on the northern part of the line an overhead line is also in place, to allow line M2's trains (that use pantographs and higher voltage, and have no contact shoes) to access a depot located on line M1. In depots, line M1 trains use pantographs because of safety reasons, with transition made near the depots away from revenue tracks.

Aesthetic considerations

Third rail electrification is less visually obtrusive than

overhead electrification An overhead line or overhead wire is an electrical cable that is used to transmit electrical energy to electric locomotives, trolleybuses or trams. It is known variously as: * Overhead catenary * Overhead contact system (OCS) * Overhead equipment ...

Mixed systems

Several systems use a third rail for part of the route, and other motive power such as overhead catenary or diesel power for the remainder. These may exist because of the connection of separately-owned railways using the different motive systems, local ordinances, or other historical reasons.

United Kingdom

Several types of British trains have been able to operate on both overhead and third rail systems, including

British Rail Class 313 The British Rail Class 313 is a dual-voltage electric multiple unit (EMU) train built by British Rail Engineering Limited's Holgate Road carriage works between February 1976 and April 1977. They were the first production units that were derived ...

319 __NOTOC__ Year 319 ( CCCXIX) was a common year starting on Thursday (link will display the full calendar) of the Julian calendar. At the time, it was known as the Year of the Consulship of Constantinus and Licinius (or, less frequently, year 1 ...

325 __NOTOC__ Year 325 ( CCCXXV) was a common year starting on Friday of the Julian calendar. At the time, it was known as the Year of the Consulship of Proculus and Paulinus (or, less frequently, year 1078 ''Ab urbe condita''). The denomination 3 ...

350 __NOTOC__ Year 350 (Roman numerals, CCCL) was a common year starting on Monday (link will display the full calendar) of the Julian calendar. At the time, it was known as the Year of the Consulship of Sergius and Nigrinianus (or, less frequentl ...

365 365 may refer to: * 365 (number), an integer * a common year, consisting of 365 calendar days * AD 365, a year of the Julian calendar * 365 BC, a year of the 4th century BC Media outlets * 365 (media corporation), Icelandic TV company * 365 Med ...

, 375/6, 377/2, 377/5, 377/7, 378/2,

387 __NOTOC__ Year 387 ( CCCLXXXVII) was a common year starting on Friday (link will display the full calendar) of the Julian calendar. At the time, it was known as the Year of the Consulship of Augustus and Eutropius (or, less frequently, year 11 ...

373 __NOTOC__ Year 373 ( CCCLXXIII) was a common year starting on Tuesday (link will display the full calendar) of the Julian calendar. At the time, it was known as the Year of the Consulship of Augustus and Valens (or, less frequently, year 1126 ...

395 __NOTOC__ Year 395 ( CCCXCV) was a common year starting on Monday (link will display the full calendar) of the Julian calendar. At the time, it was known as the Year of the Consulship of Olybrius and Probinus (or, less frequently, year 1148 ...

, 700 and

717 __NOTOC__ Year 717 ( DCCXVII) was a common year starting on Friday (link will display the full calendar) of the Julian calendar. The denomination 717 for this year has been used since the early medieval period, when the Anno Domini calendar er ...

EMUs, as well as Class 92 locomotives. Network Rail claims to run the world's largest third rail network. On the southern region of British Rail, freight yards had overhead wires to avoid the electrocution hazards of a third rail. The locomotives were fitted with a pantograph as well as pick-up shoes.

Eurostar / High Speed 1

The Class 373 used for international

high-speed rail High-speed rail (HSR) is a type of rail system that runs significantly faster than traditional rail, using an integrated system of specialised rolling stock and dedicated tracks. While there is no single standard that applies worldwide, lines ...

services operated by Eurostar through the

Channel Tunnel The Channel Tunnel (french: Tunnel sous la Manche), also known as the Chunnel, is a railway tunnel that connects Folkestone (Kent, England, UK) with Coquelles ( Hauts-de-France, France) beneath the English Channel at the Strait of Dover. ...

runs on overhead wires at 25 kV AC for most of its journey, with sections of 3 kV DC on Belgian lines between the Belgian high speed section and Brussels Midi station or 1.5 kV DC on the railway lines in the south of France for seasonal services. As originally delivered, the Class 373 units were additionally fitted with 750 V DC collection shoes, designed for the journey in London via the suburban commuter lines to

Waterloo Waterloo most commonly refers to: * Battle of Waterloo, a battle on 18 June 1815 in which Napoleon met his final defeat * Waterloo, Belgium, where the battle took place. Waterloo may also refer to: Other places Antarctica *King George Island (S ...

. A switch between third-rail and overhead collection was performed while running at speed, initially at Continental Junction near Folkestone, and later on at Fawkham Junction after the opening of the first section of the

Channel Tunnel Rail Link High Speed 1 (HS1), legally the Channel Tunnel Rail Link (CTRL), is a high-speed railway linking London with the Channel Tunnel. It is part of a line carrying international passenger traffic between the United Kingdom and mainland Europe; ...

. Between Kensington Olympia railway station and North Pole depot, further switchovers were necessary. The dual-voltage system did cause some problems. Failure to retract the shoes when entering France caused severe damage to the trackside equipment, causing

SNCF The Société nationale des chemins de fer français (; abbreviated as SNCF ; French for "National society of French railroads") is France's national state-owned railway company. Founded in 1938, it operates the country's national rail traffi ...

to install a pair of concrete blocks at the Calais end of both tunnels to break off the third rail shoes if they had not been retracted. An accident occurred in the UK when a Eurostar driver failed to retract the pantograph before entering the third rail system, damaging a signal gantry and the pantograph. On 14 November 2007, Eurostar's passenger operations were transferred to

St Pancras railway station St Pancras railway station (), also known as London St Pancras or St Pancras International and officially since 2007 as London St Pancras International, is a central London railway terminus on Euston Road in the London Borough of Camden. It is ...

and maintenance operations to Temple Mills depot, making the 750V DC third rail collection equipment redundant and the third rail shoes were removed. The trains themselves are no longer fitted with a speedometer capable of measuring the speed in miles per hour (the indication used to automatically change when the collector shoes were deployed). In 2009, Southeastern began operating domestic services over High Speed 1 trackage from St Pancras using its new Class 395 EMUs. These services operate on the High Speed line as far as or , before transferring to the main lines to serve north and mid Kent. As a consequence, these trains are dual voltage enabled, as the majority of the routes along which they travel are third rail electrified.

North London Line

In London, the

North London Line The North London line (NLL) is a railway line which passes through the inner suburbs of west, north-west, north, and east London, England between Richmond in the south-west and Stratford in the east, avoiding central London. Its route is a rou ...

changes from third rail to overhead electrification between Richmond and Stratford at . The entire route originally used third rail, but several technical electrical earthing problems, plus the fact that there are already overhead electric wires on part of the route for freight and Regional Eurostar services, led to the change.

West London Line

Also in London, the West London Line changes power supply between

Shepherd's Bush Shepherd's Bush is a district of West London, England, within the London Borough of Hammersmith and Fulham west of Charing Cross, and identified as a major metropolitan centre in the London Plan. Although primarily residential in character, i ...

and Willesden Junction, where it meets the North London Line. South of the changeover point, the WLL is third rail electrified, north of there, it is overhead.

Thameslink

The cross-city Thameslink service runs on the Southern Region third rail network from Farringdon southwards and on overhead line northwards to Bedford, Cambridge and Peterborough. The changeover is made whilst stationary at Farringdon when heading southbound, and at

City Thameslink City Thameslink is a central London railway station within the City of London, with entrances on Ludgate Hill and Holborn Viaduct. The station is on the Thameslink route between to the south and to the north. The station opened in 1990 to ...

when heading northbound.

Northern City

On the Moorgate to Hertford and Welwyn suburban service routes, the

East Coast Main Line The East Coast Main Line (ECML) is a electrified railway between London and Edinburgh via Peterborough, Doncaster, York, Darlington, Durham and Newcastle. The line is a key transport artery on the eastern side of Great Britain running broa ...

sections are 25 kV AC, with a changeover to third rail made at Drayton Park railway station. A third rail is still used in the tunnel section of the route, because the size of the tunnels leading to

Moorgate station Moorgate is a central London railway terminus and connected London Underground station on Moorgate in the City of London. Main line railway services for Hertford, Welwyn Garden City, Stevenage and Letchworth are operated by Great Northern, w ...

was too small to allow for overhead electrification.

North Downs Line

The North Downs Line is not electrified on those parts of the line where the North Downs service has exclusive use. The electrified portions of the line are :Redhill to Reigate – Allows Southern Railway services to run to Reigate. This saves having to turn around terminating services at Redhill where due to the station layout, as the reversal would block nearly all the running lines. :Shalford Junction to Aldershot South Junction – line shared with South Western Railway electric Portsmouth and Aldershot services. :Wokingham to Reading – line shared with South Western Railway electric services from Waterloo.

Belgium

The Brussels Metro uses a 900 V DC third rail system, placed laterally, with contact by means of a shoe running under the power rail which has an insulating layer at top and sides.

Finland

The Helsinki Metro uses a 750 V DC third rail system. The section from Vuosaari to Vuosaari harbour is not electrified, as its only purpose is to connect to the Finnish rail network, whose gauge differs only by a couple of millimetres from that of the metro. The route has been previously used by diesel shunting locomotives moving new metro trains to the electrified section of the line.

France

The new tramway in Bordeaux (France) uses a novel system with a third rail in the centre of the track. The third rail is separated into long conducting and long isolation segments. Each conducting segment is attached to an electronic circuit which will make the segment live once it lies fully beneath the tram (activated by a coded signal sent by the train) and switch it off before it becomes exposed again. This system (called "

Alimentation par Sol Alstom APS, also known as ''Alimentation par Sol'' or ''Alimentation Par le Sol'' (which literally means "feeding via the ground"), is a form of ground-level power supply for street trams and, potentially, other vehicles. APS was developed by In ...

" (APS), meaning "current supply via ground") is used in various locations around the city but especially in the historic centre: elsewhere the trams use the conventional

overhead lines An overhead line or overhead wire is an electrical cable that is used to transmit electrical energy to electric locomotives, trolleybuses or trams. It is known variously as: * Overhead catenary * Overhead contact system (OCS) * Overhead equipmen ...

, see also ground-level power supply. In summer 2006 it was announced that two new French tram systems would be using APS over part of their networks. These will be Angers and

Reims Reims ( , , ; also spelled Rheims in English) is the most populous city in the French department of Marne, and the 12th most populous city in France. The city lies northeast of Paris on the Vesle river, a tributary of the Aisne. Founded by ...

, with both systems expected to open around 2009–2010. The French Culoz–Modane railway was electrified with 1500 V DC third rail, later converted to overhead wires at the same voltage. Stations had overhead wires from the beginning. The French branch line which serves Chamonix and the Mont Blanc region ( Saint-Gervais-le-Fayet to Vallorcine) is third rail (top contact) and metre gauge. It continues in Switzerland, partly with the same third rail system, partly with an overhead line. The long Train Jaune line in the Pyrenees also features a third rail. Many suburban lines that ran out of the Paris Saint Lazare station used third rail (bottom contact) feed.

Netherlands

To mitigate investment costs, the Rotterdam Metro, basically a third-rail-powered system, has been given some outlying branches built on surface as light rail (called '' Sneltram'' in Dutch), with numerous level crossings protected with barriers and traffic lights. These branches have overhead wires. In most recent developments, the RandstadRail project also requires Rotterdam Metro trains to run under wires on their way along the former mainline railways to The Hague and Hook of Holland. Similarly, in Amsterdam one "Sneltram" route went on Metro tracks and passed to surface alignment in the suburbs, which it shared with standard trams. Sneltram is operated by

Gemeentelijk Vervoerbedrijf The Gemeente Vervoerbedrijf Amsterdam (, GVB ; English: Amsterdam Municipality Transportation Company)Sometimes also written Gemeentevervoerbedrijf in Dutch. is the municipal public transport operator for Amsterdam, the capital of the Netherlands ...

in Amsterdam lightrail with third rail and switching to overhead on the traditional tramway shared with Trams in Amsterdam. Line 51 to Amstelveen ran metro service between Amsterdam Centraal and Station Zuid. At Amsterdam Zuid it switched from third rail to pantograph and catenary wires. From there to Amstelveen Centrum it shared its tracks with tram line 5. The light rail vehicles on this line were capable of using both 600 V DC and 750 V DC. As of March 2019 this metro line has been decommissioned, partly because of issues regarding switching between third rail and overhead wires. Its line number 51 has been assigned to a new metro line running partly the same route from Amsterdam Centraal railway station to Station Zuid and then following the same route as metro line 50 to Amsterdam Sloterdijk railway station.

Russian Federation and former Soviet Union

In all the subways of post-Soviet countries, the contact rail is made to the same standard. File:Koncevoy otvod.jpg, Third rail schema: two brackets and third rail for bottom contact
1) brackets
2) The third rail
3) The contact surface File:Third rail vienna 1.jpg, Bottom contact third rail in the sheath insulator File:Rechnoy vokzal (Novosibirsk).jpg, Two contact ''rails'' at the Rechnoy Vokzal station of the Novosibirsk Metro . At stations with left-hand platforms.

United States

3rd rail to overhead wire transition zone on the Skokie Swift

In New York City, the New Haven Line of

Metro–North Railroad Metro-North Railroad , trading as MTA Metro-North Railroad, is a suburban commuter rail service run by the Metropolitan Transportation Authority (MTA), a public authority of the U.S. state of New York and under contract with the Connecticut ...

operates electric trains out of

Grand Central Terminal Grand Central Terminal (GCT; also referred to as Grand Central Station or simply as Grand Central) is a commuter rail terminal located at 42nd Street and Park Avenue in Midtown Manhattan, New York City. Grand Central is the southern terminus ...

that use third rail on the former New York Central Railroad but switch to overhead lines in Pelham to operate out onto the former New York, New Haven and Hartford Railroad. The switch is made "on the fly" (at speed), and controlled from the engineer's position. The main two stations in New York City – Grand Central and Pennsylvania Station – do not permit diesel locomotives to operate in their tunnels due to the health hazard resulting from the exhaust. As such, diesel service on Metro-North,

Long Island Rail Road The Long Island Rail Road , often abbreviated as the LIRR, is a commuter rail system in the southeastern part of the U.S. state of New York (state), New York, stretching from Manhattan to the eastern tip of Suffolk County, New York, Suffolk Co ...

, and Amtrak use dual-mode/electro-diesel locomotives that are able to make use of the third rail power available in the stations as well as their respective approaches (namely, the P32AC-DM and the DM30AC). When under third rail operation, these locomotives are less powerful, so on open-air (non-tunnel) trackage the engines typically run in diesel mode, even where third rail power is available. New Jersey Transit also makes use of ALP-45DP dual mode locomotives for operation into Penn Station alongside their normal electric fleet. However, their dual mode locomotives make use of the overhead power supply instead, as it is available elsewhere on much of their network. In New York City and Washington, D.C., local ordinances once required electrified

street railway A tram (called a streetcar or trolley in North America) is a rail vehicle that travels on tramway tracks on public urban streets; some include segments on segregated right-of-way. The tramlines or networks operated as public transport are ...

s to draw current from a third rail and return the current to a fourth rail, both installed in a continuous vault underneath the street and accessed by means of a collector that passed through a slot between the running rails. When streetcars on such systems entered territory where overhead lines were allowed, they stopped over a pit where a man detached the collector (''plow'') and the motorman placed a trolley pole on the overhead. In the US, all these conduit feed powered systems have been discontinued, and either replaced or abandoned altogether. Some sections of the former London tram system also used the conduit current collection system, also with some tramcars that could collect power from both overhead and under-road sources. The Blue Line of Boston's

MBTA The Massachusetts Bay Transportation Authority (abbreviated MBTA and known colloquially as "the T") is the public agency responsible for operating most public transportation services in Greater Boston, Massachusetts. The MBTA transit network in ...

uses third rail electrification from the start of the line downtown to Airport station, where it switches to overhead catenary for the remainder of the line to

Wonderland Wonderland may refer to: Places Municipalities * Wonderland, California, a ghost town in Plumas County * Wonderland, Ohio, a ghost town in Columbus, Ohio, U.S. Roads, streets, and trails * Wonderland Avenue, a roadway in Laurel Canyon, Los Ang ...

. The outermost section of the Blue Line runs very close to the Atlantic Ocean, and there were concerns about possible snow and ice buildup on a third rail so near to the water. Overhead catenary is not used in the underground section, because of tight clearances in the 1904 tunnel under Boston Harbor. The MBTA Orange Line's

Hawker Siddeley Hawker Siddeley was a group of British manufacturing companies engaged in aircraft production. Hawker Siddeley combined the legacies of several British aircraft manufacturers, emerging through a series of mergers and acquisitions as one of onl ...

01200 series rapid transit cars (essentially a longer version of the Blue Line's 0600's) recently had their pantograph mounting points removed during a maintenance program; these mounts would have been used for pantographs which would have been installed had the Orange Line been extended north of its current terminus. Dual power supply method was also used on some US interurban railways that made use of newer third rail in suburban areas, and existing overhead streetcar (trolley) infrastructure to reach downtown, for example the Skokie Swift in Chicago.

Simultaneous use with overhead wire

A railway can be electrified with an overhead wire and a third rail at the same time. This was the case, for example, on the Hamburg S-Bahn between 1940 and 1955. A modern example is Birkenwerder Railway Station near Berlin, which has third rails on both sides and overhead wires. Most of the Penn Station complex in New York City is also electrified with both systems.

Non-standard voltages

Some high third rail voltages (1000 volts and more) include: *

Hamburg S-Bahn The Hamburg S-Bahn is a suburban commuter railway network in the Hamburg Metropolitan Region. Together, the S-Bahn, the Hamburg U-Bahn, the AKN railway and the regional railway form the backbone of railway public transport in the city and the s ...

: 1200 V, since 1940 * Manchester–Bury, England: 1200 V (side contact) (Until Metrolink conversion in 1991) * Culoz–Modane railway, France: 1500 V, 1925–1976 * Guangzhou Metro Lines 4 and 5: 1500 V *

Bay Area Rapid Transit Bay Area Rapid Transit (BART) is a rapid transit system serving the San Francisco Bay Area in California. BART serves 50 stations along six routes on of rapid transit lines, including a spur line in eastern Contra Costa County which uses ...

, San Francisco, 1000 V In Nazi Germany, a railway system with a gauge width was planned. For this '' Breitspurbahn'' railway system, electrification with a voltage of 100 kV taken from a third rail was considered, in order to avoid damage to overhead wires from oversize rail-mounted anti-aircraft guns. However such a power system would not have worked, as it is not possible to insulate a third rail for such high voltages in close proximity to the rails. The whole project did not progress any further owing to the onset of World War II.

History

Third-rail electrification systems are, apart from on-board batteries, the oldest means of supplying electric power to trains on railways using their own corridors, particularly in cities. Overhead power supply was initially almost exclusively used on tramway-like railways, though it also appeared slowly on mainline systems. An experimental electric train using this method of power supply was developed by the German firm of Siemens & Halske and shown at the Berlin Industrial Exposition of 1879, with its third rail between the running rails. Some early electric railways used the running rails as the current conductor, as with the 1883-opened Volk's Electric Railway in Brighton. It was given an additional power rail in 1886, and is still operating. The Giant's Causeway Tramway followed, equipped with an elevated outside third rail in 1883, later converted to overhead wire. The first railway to use the central third rail was the Bessbrook and Newry Tramway in Ireland, opened in 1885 but now, like the Giant's Causeway line, closed. Also in the 1880s, third-rail systems began to be used in public urban transport. Trams were first to benefit from it: they used conductors in conduit below the road surface (see Conduit current collection), usually on selected parts of the networks. This was first tried in Cleveland (1884) and in Denver (1885) and later spread to many big tram networks (e.g. New York, Chicago, Washington DC, London, Paris, all of which are closed) and Berlin (the third rail system in the city was abandoned in the first years of the 20th century after heavy snowfall.) The system was tried in the beachside resort of

Blackpool Blackpool is a seaside resort in Lancashire, England. Located on the North West England, northwest coast of England, it is the main settlement within the Borough of Blackpool, borough also called Blackpool. The town is by the Irish Sea, betw ...

, UK but was soon abandoned as sand and saltwater was found to enter the conduit and cause breakdowns, and there was a problem with voltage drop. Some sections of tramway track still have the slot rails visible. A third rail supplied power to the world's first electric underground railway, the

City & South London Railway The City and South London Railway (C&SLR) was the first successful deep-level underground "tube" railway in the world, and the first major railway to use electric traction. The railway was originally intended for cable-hauled trains, but owing ...

, which opened in 1890 (now part of the Northern line of the London Underground). In 1893, the world's second third-rail powered city railway opened in Britain, the Liverpool Overhead Railway (closed 1956 and dismantled). The first US third-rail powered city railway in revenue use was the 1895

Metropolitan West Side Elevated The Metropolitan West Side Elevated Railroad (known as the ''Met'' or ''Polly "L"'') was the third elevated rapid transit line to be built in Chicago, Illinois and was the first of Chicago’s elevated lines to be electrically powered. The lin ...

, which soon became part of the

Chicago 'L' (''City in a Garden''); I Will , image_map = , map_caption = Interactive Map of Chicago , coordinates = , coordinates_footnotes = , subdivision_type = Country , subdivision_name ...

. In 1901, Granville Woods, a prominent African-American inventor, was granted a , covering various proposed improvements to third rail systems. This has been cited to claim that he invented the third rail system of current distribution. However, by that time there had been numerous other patents for electrified third-rail systems, including Thomas Edison's of 1882, and third rails had been in successful use for over a decade, in installations including the rest of Chicago 'elevateds', as well as those used in Brooklyn Rapid Transit Company, not to mention the development outside the US. In Paris, a third rail appeared in 1900 in the main-line tunnel connecting the Gare d'Orsay to the rest of the CF Paris-Orléans network. Main-line third-rail electrification was later expanded to some suburban services. The Woodford haulage system was used on industrial tramways, specifically in quarries and strip mines in the early decades of the 20th century. This used a 250 Volt center third rail to power remotely-controlled self-propelled side dump cars. The remote control system was operated like a model railroad, with the third rail divided into multiple blocks that could be set to power, coast, or brake by switches in the control center. Top contact or gravity type third rail seems to be the oldest form of power collection. Railways pioneering in using less hazardous types of third rail were the New York Central Railroad on the approach to

New York New York most commonly refers to: * New York City, the most populous city in the United States, located in the state of New York * New York (state), a state in the northeastern United States New York may also refer to: Film and television * '' ...

(1907 – another case of a third-rail mainline electrification), Philadelphia's Market Street Subway-Elevated (1907), and the Hochbahn in Hamburg (1912) — all had bottom contact rail, also known as the Wilgus-Sprague system. However, the Manchester-Bury Line of the Lancashire & Yorkshire Railway tried side contact rail in 1917. These technologies appeared in wider use only at the turn of the 1920s and in the 1930s on, e.g., large-profile lines of the Berlin U-Bahn, the Berlin S-Bahn and the Moscow Metro. The Hamburg S-Bahn has used a side contact third rail at 1200 V DC since 1939. In 1956 the world's first rubber-tyred railway line, Line 11 of Paris Metro, opened. The conductor rail evolved into a pair of guiding rails required to keep the bogie in proper position on the new type of track. This solution was modified on the 1971 Namboku Line of Sapporo Subway, where a centrally placed guiding/return rail was used plus one power rail placed laterally as on conventional railways. In 2004, the third-rail technology at street tram lines was in the new system of Bordeaux (2004). This is a completely new technology (see below). Third-rail systems are not considered obsolete. There are, however, countries (particularly

Japan Japan ( ja, 日本, or , and formally , ''Nihonkoku'') is an island country in East Asia. It is situated in the northwest Pacific Ocean, and is bordered on the west by the Sea of Japan, while extending from the Sea of Okhotsk in the north ...

, South Korea, Spain) more eager to adopt overhead wiring for their urban railways. But at the same time, there were (and still are) many new third rail systems built elsewhere, including technologically advanced countries (e.g. Copenhagen Metro, Taipei Metro, Wuhan Metro). Bottom powered railways (it may be too specific to use the term 'third rail') are also usually used with systems having rubber-tyred trains, whether it is a heavy metro (except two other lines of Sapporo Subway) or a small capacity people mover (PM). New electrified railway systems tend to use overhead for regional and long-distance systems. Third-rail systems using lower voltages than overhead systems still require many more supply points. File:Top contact pickup shoe.jpg, With surface contact third and fourth rail systems a heavy "shoe" suspended from a wooden beam attached to the bogies collects power by sliding over the top surface of the electric rail. This view shows a

train. File:Arcing pickup shoe.jpg, The London Underground uses a four-rail system where both conductor rails are live relative to the running rails, and the positive rail has twice the voltage of the negative rail. Arcs like this are normal and occur when the electric power collection shoes of a train that is drawing power reach the end of a section of conductor rail. File:Third rail at South Station, October 2002.jpg, Conductor rail on the

Red Line at South Station in Boston, consisting of two strips of aluminium on a

rail to assist with heat and electrical conduction File:Track of Singapore LRT.jpg, Track of Singapore LRT; the third rail is on the right side File:Milan M1 train fourth-rail contact shoe.jpg, A train on Milan Metro's Line 1 showing the fourth-rail contact shoe. File:ST SN5000 20061102 001.jpg, Sapporo Subway with a centrally placed guiding/return rail

Model railroading

In 1906, the Lionel electric trains became the first model trains to use a third rail to power the locomotive. Lionel track uses a third rail in the center, while the two outer rails are electrically connected together. This solved the problem two-rail model trains have when the track is arranged to loop back on itself, as ordinarily this causes a short circuit. (Even if the loop was gapped, the locomotive would create a short and stop as it crossed the gaps.) Lionel electric trains also operate on alternating current. The use of alternating current means that a Lionel locomotive cannot be reversed by changing polarity; instead, the locomotive sequences among several states (forward, neutral, backward, for example) each time it is started. Märklin three-rail trains use a short pulse at a higher voltage than is used for powering the train, to reverse a relay within the locomotive. Märklin's track does not have an actual third rail; instead, a series of short pins provide the current, taken up by a long "shoe" under the engine. This shoe is long enough to always be in contact with several pins. This is known as the

stud contact system The stud contact system is an obsolete ground-level power supply system for electric trams. Power supply studs were set in the road at intervals and connected to a buried electric cable by switches operated by magnets on the tramcars. Current was ...

and has certain advantages when used on outdoor model railway systems. The

ski collector Electric current collectors are used by trolleybuses, trams, electric locomotives or EMUs to carry electrical power from overhead lines, electrical third rails, or ground-level power supplies to the electrical equipment of the vehicles. Those for ...

rubs over the studs and thus inherently self cleans. When both track rails are used for the return in parallel there is much less chance of current interruption due to dirt on the line. Many model train sets today use only two rails, usually associated with Z, N, HO or G-Gauge systems. These are typically powered by direct current (DC) where the voltage and polarity of the current controls the speed and direction of the DC motor in the train. A growing exception is Digital Command Control (DCC), where bi-polar DC is delivered to the rails at a constant voltage, along with digital signals that are decoded within the locomotive. The bi-polar DC carries digital information to indicate the command and the locomotive that is being commanded, even when multiple locomotives are present on the same track. The aforementioned Lionel O-Gauge system remains popular today as well with its three rail track and AC power implementation. Some model railroads realistically mimic the third rail configurations of their full-sized counterparts although nearly all do not draw power from the third rail.

References

External links

Thomas Edison's third rail patent (1882)

Lightrail without wires
– Paper on Bordeaux' new Tram with street level third rail (by the Transportation Research Board of the National Academies)

of the UK 3rd/4th rail design.

{{Authority control Electric power distribution Electric rail transport

Description

Gallery

Advantages and disadvantages

Safety

Weather effects

Gaps

Running rails for power supply

Shoe contact

Contact shoe gallery

Electrical considerations and alternative technologies

Return current mechanisms

Aesthetic considerations

Mixed systems

United Kingdom

Eurostar / High Speed 1

North London Line

West London Line

Thameslink

Northern City

North Downs Line

Belgium

Finland

France

Netherlands

Russian Federation and former Soviet Union

United States

Simultaneous use with overhead wire

Non-standard voltages

History

Model railroading

See also

References

External links