90-657: The Wiener Neustädter Lokomotivfabrik ( Wiener Neustadt locomotive factory ) was the largest locomotive and engineering factory in the Austro-Hungarian Empire . During World War II the company produced armaments as part of Rax-Werk Ges.mbH which was associated with the Mauthausen concentration camp . In 1841 the Wiener Neustadt-Vienna railway line was open, and in 1842 the private railway Austrian Eastern Railway ( Wien-Raaber-Eisenbahn or Raaber Bahn )
180-673: A cab, entered service with Class 68 locomotives for TransPennine Express , in a push–pull configuration. Córas Iompair Éireann 's first push–pull trains were conversions of their 2600 Class DMUs ( Park Royal body, AEC motors) running with the long withdrawn 201 Class Metropolitan-Vickers Bo-Bo diesels re-engined with EMD 567 prime movers; the cars were subsequently renumbered in the 6100 series (Driving van trailers), 6200 series (trailer with "blind" cab end) and 6300 series (double-gangway intermediate car). In push–pull formation, they operated Dublin Suburban Rail services from 1971 until
270-444: A control car at the other end. The New South Wales XPT long-distance passenger trains used by NSW TrainLink operate in a push–pull operation. In the past V/Line operated P class push–pulls on interurban services to Bacchus Marsh and Wyndham Vale until 2017. South Australian Railways' 2000 class DMUs could be found with at least one motor car and one cab car in a push–pull configuration until their withdrawal in 2016. In
360-480: A conventional diesel or electric locomotive would be unsuitable. An example is maintenance trains on electrified lines when the electricity supply is turned off. Another use is in industrial facilities where a combustion-powered locomotive (i.e., steam- or diesel-powered ) could cause a safety issue due to the risks of fire, explosion or fumes in a confined space. Battery locomotives are preferred for mines where gas could be ignited by trolley-powered units arcing at
450-454: A derailed train into an obstacle, worsening the accident. The 1984 Polmont rail accident , in Scotland, occurred when a push–pull train struck a cow on the track. When operating push–pull, the train can be driven from either the locomotive or the alternative cab. If the train is heading in the direction in which the locomotive end of the train is facing, this is considered 'pulling'. If the train
540-458: A diesel–electric locomotive ( E 2 original number Юэ 001/Yu-e 001) started operations. It had been designed by a team led by Yury Lomonosov and built 1923–1924 by Maschinenfabrik Esslingen in Germany. It had 5 driving axles (1'E1'). After several test rides, it hauled trains for almost three decades from 1925 to 1954. An electric locomotive is a locomotive powered only by electricity. Electricity
630-482: A function of train length; sometimes it was the most convenient way to set up push–pull operation in pre-HEP days without converting coaches to cab control operation. A prime example of this was the Reading Company which converted its small fleet of streamstyled heavyweight medium-distance coaches for its non-electric commuter operation , with a pair of EMD FP7 diesels bracketing a single five-car train, to supplant
720-423: A ground and polished journal that is integral to the axle. The other side of the housing has a tongue-shaped protuberance that engages a matching slot in the truck (bogie) bolster, its purpose being to act as a torque reaction device, as well as a support. Power transfer from motor to axle is effected by spur gearing , in which a pinion on the motor shaft engages a bull gear on the axle. Both gears are enclosed in
810-410: A high ride quality and less electrical equipment; but EMUs have less axle weight, which reduces maintenance costs, and EMUs also have higher acceleration and higher seating capacity. Also some trains, including TGV PSE , TGV TMST and TGV V150 , use both non-passenger power cars and additional passenger motor cars. Locomotives occasionally work in a specific role, such as: The wheel arrangement of
900-547: A higher power-to-weight ratio than DC motors and, because of the absence of a commutator , were simpler to manufacture and maintain. However, they were much larger than the DC motors of the time and could not be mounted in underfloor bogies : they could only be carried within locomotive bodies. In 1894, Hungarian engineer Kálmán Kandó developed a new type 3-phase asynchronous electric drive motors and generators for electric locomotives. Kandó's early 1894 designs were first applied in
990-488: A larger locomotive named Galvani , exhibited at the Royal Scottish Society of Arts Exhibition in 1841. The seven-ton vehicle had two direct-drive reluctance motors , with fixed electromagnets acting on iron bars attached to a wooden cylinder on each axle, and simple commutators . It hauled a load of six tons at four miles per hour (6 kilometers per hour) for a distance of one and a half miles (2.4 kilometres). It
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#17330863379481080-410: A liquid-tight housing containing lubricating oil. The type of service in which the locomotive is used dictates the gear ratio employed. Numerically high ratios are commonly found on freight units, whereas numerically low ratios are typical of passenger engines. Electricity is typically generated in large and relatively efficient generating stations , transmitted to the railway network and distributed to
1170-454: A locomotive at one end of the train, connected via some form of remote control, such as multiple-unit train control , to a vehicle equipped with a control cab at the other end of the train. This second vehicle may be another locomotive, or an unpowered control car . In the UK and some other parts of Europe, the control car is referred to as a driving trailer (or driving van trailer /DVT where there
1260-483: A locomotive describes how many wheels it has; common methods include the AAR wheel arrangement , UIC classification , and Whyte notation systems. In the second half of the twentieth century remote control locomotives started to enter service in switching operations, being remotely controlled by an operator outside of the locomotive cab. The main benefit is one operator can control the loading of grain, coal, gravel, etc. into
1350-554: A number of converted Metroliner EMUs in service as cab cars on the Keystone Corridor, where they operate in conjunction with ACS-64 electric locomotives. In addition, many regional services, such as the Michigan Services, Downeaster , and Cascades , are operated with Non-Powered Control Units – EMD F40PH locomotives converted to use as a cab control and baggage car, earning itself the nickname 'cabbage cars'. Similarly,
1440-404: A number of important innovations including the use of high-pressure steam which reduced the weight of the engine and increased its efficiency. In 1812, Matthew Murray 's twin-cylinder rack locomotive Salamanca first ran on the edge-railed rack-and-pinion Middleton Railway ; this is generally regarded as the first commercially successful locomotive. Another well-known early locomotive
1530-771: A power car at each end, is also known in the railway world as a top and tail . When this configuration is used in the US, only one locomotive (usually the front locomotive) is allowed to provide head end power (HEP: electricity supply for heating, air conditioning and lighting) to the train. The two-locomotive formation is used by the InterCity 125 ; its Australian equivalent, the XPT ; Brightline ; Amtrak 's Acela ; SNCF 's TGV ; Taiwan Railways Administration 's E1000 series ; and New Jersey Transit 's longest Northeast Corridor Line multilevel trains. This form of operation has not necessarily been
1620-403: A separate fourth rail for this purpose. The type of electrical power used is either direct current (DC) or alternating current (AC). Various collection methods exist: a trolley pole , which is a long flexible pole that engages the line with a wheel or shoe; a bow collector , which is a frame that holds a long collecting rod against the wire; a pantograph , which is a hinged frame that holds
1710-476: A short three-phase AC tramway in Evian-les-Bains (France), which was constructed between 1896 and 1898. In 1918, Kandó invented and developed the rotary phase converter , enabling electric locomotives to use three-phase motors whilst supplied via a single overhead wire, carrying the simple industrial frequency (50 Hz) single phase AC of the high voltage national networks. In 1896, Oerlikon installed
1800-522: A significantly larger workforce is required to operate and service them. British Rail figures showed that the cost of crewing and fuelling a steam locomotive was about two and a half times larger than the cost of supporting an equivalent diesel locomotive, and the daily mileage they could run was lower. Between about 1950 and 1970, the majority of steam locomotives were retired from commercial service and replaced with electric and diesel–electric locomotives. While North America transitioned from steam during
1890-511: A system with a Class 27 locomotive at each end of a rake of coaches that had been retrofitted with the necessary 'Blue Star' multiple working cables to control the remote unit; but some problems of delay in actuation were experienced. They were replaced in 1979 by a system in which a Driving Brake Standard Open (DBSO), converted from a Mark 2 , could control the Class 47/7 locomotive via computerised time-division multiplex (TDM) signalling through
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#17330863379481980-659: A time on the Brussels–Amsterdam Benelux train when there were control cars but no three-voltage (3 kV DC, 1.5 kV DC, 25 kV 50 Hz) locomotives supporting the ERTMS train control system in use on the Belgian HSL 4 and the Dutch HSL-Zuid . The Class 28 TRAXX locomotives were later upgraded, and the service went back to "normal" push–pull operation. In this configuration, locomotives hauling
2070-535: A train are located other than at the front or the back. It may include remote control locomotives in the middle of a train. If operational considerations or economics require, trains can be made longer if intermediate locomotives are inserted in the train and are remotely controlled from the leading locomotive. The first company to use the system was the Great Western Railway which, in 1904, equipped carriages and 0-6-0 locomotives as an autotrain to run on
2160-433: Is always one locomotive pushing and one locomotive pulling. In this case, caution must be used to make sure that the two locomotives do not put too much stress on the cars from uneven locomotives. It is usual to arrange matters so that the trailing locomotive supplies less power, i.e. that the locomotive at the front does more pulling than the locomotive at the rear does pushing. Having an independent locomotive, as opposed to
2250-456: Is common to classify locomotives by their source of energy. The common ones include: A steam locomotive is a locomotive whose primary power source is a steam engine . The most common form of steam locomotive also contains a boiler to generate the steam used by the engine. The water in the boiler is heated by burning combustible material – usually coal, wood, or oil – to produce steam. The steam moves reciprocating pistons which are connected to
2340-403: Is heading in the opposite direction, this is considered 'pushing' and the motorman or engine driver is located in the alternative cab. This configuration means that the locomotive never needs to be uncoupled from the train and ensures fast turnaround times at a railway station terminus . Alternatively, a push–pull train, especially a long one, may have a locomotive on each end so that there
2430-462: Is no passenger accommodation); in the US and Canada, they are called cab cars and in Australia, they are called driving trailers. Historically, push–pull trains with steam power provided the driver with basic controls at the cab end along with a bell or other signalling code system to communicate with the fireman located in the engine itself in order to pass commands to adjust controls not available in
2520-416: Is supplied to moving trains with a (nearly) continuous conductor running along the track that usually takes one of three forms: an overhead line , suspended from poles or towers along the track or from structure or tunnel ceilings; a third rail mounted at track level; or an onboard battery . Both overhead wire and third-rail systems usually use the running rails as the return conductor but some systems use
2610-516: Is that these power cars are integral part of a train and are not adapted for operation with any other types of passenger coaches. On the other hand, many high-speed trains such as the Shinkansen network never use locomotives. Instead of locomotive-like power-cars, they use electric multiple units (EMUs) or diesel multiple units (DMUs) – passenger cars that also have traction motors and power equipment. Using dedicated locomotive-like power cars allows for
2700-548: The Capitol Corridor , San Joaquin , and Pacific Surfliner services in California are operated in push–pull configuration using purpose-built cab cars and diesel locomotives. The Muskingum Electric Railroad was a private, coal-hauling railway in central Ohio that ran for more than 20 years with two driverless General Electric E50C electric locomotives that ran backwards from the coal-fired powerplant they served to
2790-551: The Brentford Branch Line (between Southall and Brentford ) as an experimental substitute for steam railcars . Control was by rodding and the mechanism allowed the driving compartment to be either one or two carriages-distant from the engine. With the engine in the middle of a formation, up to four carriages could be used. To reduce the surprise of a locomotive at the "wrong" end of its train, some were initially fitted with panelling painted in carriage livery. The experiment
Wiener Neustädter Lokomotivfabrik - Misplaced Pages Continue
2880-711: The British Rail Mark 3 design, with a non-gangwayed driving cab fitted. These were operated with 201 Class locomotives, although in the past 121 Class locomotives were also used. It remains unknown whether these sets were ever hauled as normal coaching stock by non–push–pull fitted locomotives. The sets originally operated in the Dublin outer-suburban area and on the Limerick to Limerick Junction shuttle, but were gradually moved to mainline InterCity routes out of Dublin Heuston after
2970-553: The Dublin to Belfast route . These are powered by 201 Class locomotives. The other type of push–pull train used in Ireland is the Mark 4 type (not to be confused with the British Rail Mark 4 type). These sets, delivered in 2005–2006, are used exclusively on the Dublin to Cork route, again operated by 201 Class locomotives. Between 1980 and 2009, Iarnród Éireann operated push–pull sets based on
3060-585: The EMD FL9 and Bombardier ALP-45DP There are three main uses of locomotives in rail transport operations : for hauling passenger trains, freight trains, and for switching (UK English: shunting). Freight locomotives are normally designed to deliver high starting tractive effort and high sustained power. This allows them to start and move long, heavy trains, but usually comes at the cost of relatively low maximum speeds. Passenger locomotives usually develop lower starting tractive effort but are able to operate at
3150-667: The Medieval Latin motivus 'causing motion', and is a shortened form of the term locomotive engine , which was first used in 1814 to distinguish between self-propelled and stationary steam engines . Prior to locomotives, the motive force for railways had been generated by various lower-technology methods such as human power, horse power, gravity or stationary engines that drove cable systems. Few such systems are still in existence today. Locomotives may generate their power from fuel (wood, coal, petroleum or natural gas), or they may take power from an outside source of electricity. It
3240-842: The Washington, DC and Baltimore area ( MARC and VRE ); Boston ( MBTA ); Dallas-Fort Worth metroplex ( Trinity Railway Express ); the Greater Miami area ( Tri-Rail ); the San Francisco Bay Area ( Caltrain and ACE ); Southern California ( Metrolink and Coaster ); Toronto ( GO Transit ); Montreal ( AMT ); and the Wasatch Front in Utah ( UTA FrontRunner ). Most of these systems (except for SEPTA and Metro-North) continue to utilize some type of bi-level passenger cars for push–pull service, either partially or exclusively. Amtrak has
3330-413: The 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 , railcar or power car ; the use of these self-propelled vehicles is increasingly common for passenger trains , but rare for freight trains . Traditionally, locomotives pulled trains from the front. However, push-pull operation has become common, where
3420-500: The traction motors and axles adapts the power output to the rails for freight or passenger service. Passenger locomotives may include other features, such as head-end power (also referred to as hotel power or electric train supply) or a steam generator . Some locomotives are designed specifically to work steep grade railways , and feature extensive additional braking mechanisms and sometimes rack and pinion. Steam locomotives built for steep rack and pinion railways frequently have
3510-408: The 1950s, and continental Europe by the 1970s, in other parts of the world, the transition happened later. Steam was a familiar technology that used widely-available fuels and in low-wage economies did not suffer as wide a cost disparity. It continued to be used in many countries until the end of the 20th century. By the end of the 20th century, almost the only steam power remaining in regular use around
3600-630: The 40 km Burgdorf—Thun line , Switzerland. The first implementation of industrial frequency single-phase AC supply for locomotives came from Oerlikon in 1901, using the designs of Hans Behn-Eschenburg and Emil Huber-Stockar ; installation on the Seebach-Wettingen line of the Swiss Federal Railways was completed in 1904. The 15 kV, 50 Hz 345 kW (460 hp), 48 tonne locomotives used transformers and rotary converters to power DC traction motors. Italian railways were
3690-566: The Blue Star multiple working was later revived after privatisation as a way of allowing locomotive-hauled stock to replace multiple units on certain routes, thus increasing capacity without the complications of having to run around or drag a dead locomotive at the rear. It was used by First North Western and Wessex Trains with Class 31s , and by Abellio Greater Anglia , Arriva Trains Northern , Northern Rail and Arriva Rail North with Class 37s all with Mark 2 carriages. The same system
Wiener Neustädter Lokomotivfabrik - Misplaced Pages Continue
3780-609: The C&NW received its first Control Cab equipped Bilevel rail cars for commuter use. The extreme efficiency and success of these trains is why almost all of the commuter rail services in the United States and Canada utilize 100% push–pull operation on their locomotive-hauled trains. Examples include: Chicago ( Metra ); New York City ( Metro-North , the Long Island Rail Road and New Jersey Transit ); Philadelphia ( SEPTA );
3870-521: The First World War caused a great loss of production and as a consequence the workforce was reduced to a few hundred men. The Great Depression and the overcapacity of four extant Austrian locomotive works now much reduced domestic market meant that 1930, the company ended in the hands of the Österreichischen Credit-Anstalt . After the Austrian Anschluss in 1938 the factory was taken over by
3960-503: The German company Henschel & Son . To increase production of locomotives the factory was greatly expanded. From 5 May 1942 the former locomotive factory went by the pseudonym Rax Ges.mbH. and from 1943 the A4 ( V-2 ) missiles were made at the factory. The facilities were completely destroyed in 1945 by air bombings. Locomotive A locomotive is a rail transport vehicle that provides
4050-587: The Midland. By the 1920s, most companies had them and they remained in use until they were replaced by diesel multiple units (DMUs) in the 1950s. In 1967, the Southern Region , already familiar with operating electric multiple units, applied the technique to its services from London Waterloo to Bournemouth , which were operated by electro-diesel locomotives . In the early 1970s, the Scottish Region used
4140-466: The Reading's fleet of RDCs . This train normally operated a weekday peak-hour round trip between Reading Terminal , Philadelphia and Reading, Pennsylvania , from the late 1960s until 1981, with operation in the last five years by Conrail under contract to SEPTA . A rare but possible configuration has a locomotive in the middle of the train with control cars at both ends, as was, for instance, used for
4230-721: The United Kingdom was a petrol–mechanical locomotive built by the Maudslay Motor Company in 1902, for the Deptford Cattle Market in London . It was an 80 hp locomotive using a three-cylinder vertical petrol engine, with a two speed mechanical gearbox. Diesel locomotives are powered by diesel engines . In the early days of diesel propulsion development, various transmission systems were employed with varying degrees of success, with electric transmission proving to be
4320-808: The boiler tilted relative to the locomotive frame , so that the boiler remains roughly level on steep grades. Locomotives are also used on some high-speed trains. Some of them are operated in push-pull formation with trailer control cars at another end of a train, which often have a cabin with the same design as a cabin of locomotive; examples of such trains with conventional locomotives are Railjet and Intercity 225 . Also many high-speed trains, including all TGV , many Talgo (250 / 350 / Avril / XXI), some Korea Train Express , ICE 1 / ICE 2 and Intercity 125 , use dedicated power cars , which do not have places for passengers and technically are special single-ended locomotives. The difference from conventional locomotives
4410-421: The cab. At low speeds, some push–pull trains are run entirely from the engine with the guard operating bell codes and brakes from the leading cab when the locomotive is pushing the train. Many mountain railways also operate on similar principles in order to keep the locomotive lower down than the carriage to prevent any opportunity for a carriage to run away from a train down the gradient and also so that even if
4500-485: The cars. In addition, the same operator can move the train as needed. Thus, the locomotive is loaded or unloaded in about a third of the time. [REDACTED] Media related to Locomotives at Wikimedia Commons Push-pull train Push–pull is a configuration for locomotive -hauled trains , allowing them to be driven from either end of the train, whether having a locomotive at each end or not. A push–pull train has
4590-460: The center section would have a 200-ton reactor chamber and steel walls 5 feet thick to prevent releases of radioactivity in case of accidents. He estimated a cost to manufacture atomic locomotives with 7000 h.p. engines at approximately $ 1,200,000 each. Consequently, trains with onboard nuclear generators were generally deemed unfeasible due to prohibitive costs. In 2002, the first 3.6 tonne, 17 kW hydrogen (fuel cell) -powered mining locomotive
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#17330863379484680-407: The collecting shoes against the wire in a fixed geometry; or a contact shoe , which is a shoe in contact with the third rail. Of the three, the pantograph method is best suited for high-speed operation. Electric locomotives almost universally use axle-hung traction motors, with one motor for each powered axle. In this arrangement, one side of the motor housing is supported by plain bearings riding on
4770-455: The collection shoes, or where electrical resistance could develop in the supply or return circuits, especially at rail joints, and allow dangerous current leakage into the ground. Battery locomotives in over-the-road service can recharge while absorbing dynamic-braking energy. The first known electric locomotive was built in 1837 by chemist Robert Davidson of Aberdeen , and it was powered by galvanic cells (batteries). Davidson later built
4860-405: The driving wheels by means of connecting rods, with no intervening gearbox. This means the combination of starting tractive effort and maximum speed is greatly influenced by the diameter of the driving wheels. Steam locomotives intended for freight service generally have smaller diameter driving wheels than passenger locomotives. In diesel–electric and electric locomotives the control system between
4950-514: The early 1950s, Lyle Borst of the University of Utah was given funding by various US railroad line and manufacturers to study the feasibility of an electric-drive locomotive, in which an onboard atomic reactor produced the steam to generate the electricity. At that time, atomic power was not fully understood; Borst believed the major stumbling block was the price of uranium. With the Borst atomic locomotive,
5040-607: The electrification of the East Coast Main Line , 31 Mark 4 Driving Van Trailers were built in the late 1980s by Metro-Cammell to operate with Mark 4s coaches at the south end of the InterCity 225 sets. Some of these passed to Transport for Wales Rail in 2021 to work on their Holyhead to Cardiff Premier Service . In the 2000s, some Mark 3s have been modified to operate with Class 67 locomotives with Arriva Trains Wales , Chiltern Railways and Wrexham & Shropshire . In 2019, new Mark 5 carriages, one of which has
5130-513: The first commercial example of the system on the Lugano Tramway . Each 30-tonne locomotive had two 110 kW (150 hp) motors run by three-phase 750 V 40 Hz fed from double overhead lines. Three-phase motors run at constant speed and provide regenerative braking , and are well suited to steeply graded routes, and the first main-line three-phase locomotives were supplied by Brown (by then in partnership with Walter Boveri ) in 1899 on
5220-510: The first in the world to introduce electric traction for the entire length of a main line rather than just a short stretch. The 106 km Valtellina line was opened on 4 September 1902, designed by Kandó and a team from the Ganz works. The electrical system was three-phase at 3 kV 15 Hz. The voltage was significantly higher than used earlier and it required new designs for electric motors and switching devices. The three-phase two-wire system
5310-695: The first quarter of the 20th century up to 13 motor trains ran on NZR . Until 2015, the Auckland suburban network run by Transdev used rebuilt British Rail Mark 2 carriages in either four, five or six car configurations. Three to five SA class carriages and an SD class driving carriage, fitted with a cab, were coupled to a DC class (4- and 5-car) or DFT/DFB class (6-car) locomotive, leased from KiwiRail . All SA and SD class cars were rebuilt by Hillside Workshops . Auckland also operated former Queensland Rail SX carriages in push–pull mode with two DBR class locomotives. Following electrification of most of
5400-400: The high speeds required to maintain passenger schedules. Mixed-traffic locomotives (US English: general purpose or road switcher locomotives) meant for both passenger and freight trains do not develop as much starting tractive effort as a freight locomotive but are able to haul heavier trains than a passenger locomotive. Most steam locomotives have reciprocating engines, with pistons coupled to
5490-557: The inauguration of the DART EMU service in July 1984. The remaining push–pull trains operated on Dublin-Maynooth commuter services until they were supplanted by Cravens, and later by the modern 2600 Class DMUs . Iarnród Éireann employs push–pull trains of two different kinds. The first of these were built in 1996. These are De Dietrich Ferroviaire –built Enterprise push–pull sets, jointly owned with Northern Ireland Railways for operation on
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#17330863379485580-503: The introduction of railcar sets elsewhere. The entire Mark 3 fleet was withdrawn in September 2009 and scrapped in 2014. In June 1958, SNCF commenced operating steam trains in push–pull formation out of Gare de l'Est . The first major application of push–pull operation using the modern single diesel configuration was on the Chicago & Northwestern Railroad, announced in 1958. In 1959,
5670-407: The locomotive ever ran away, it would not take the carriage with it. Modern train control systems use sophisticated electronics to allow full remote control of locomotives. Nevertheless, push–pull operation still requires considerable design care to ensure that control system failure does not endanger passengers and also to ensure that in the event of a derailment, the pushing locomotive does not push
5760-441: The locomotive's main wheels, known as the " driving wheels ". Both fuel and water supplies are carried with the locomotive, either on the locomotive itself, in bunkers and tanks , (this arrangement is known as a " tank locomotive ") or pulled behind the locomotive, in tenders , (this arrangement is known as a " tender locomotive "). The first full-scale working railway steam locomotive was built by Richard Trevithick in 1802. It
5850-656: The locomotives were retired shortly afterward. All four locomotives were donated to museums, but one was scrapped. The others can be seen at the Boone and Scenic Valley Railroad , Iowa, and at the Western Railway Museum in Rio Vista, California. The Toronto Transit Commission previously operated a battery electric locomotive built by Nippon Sharyo in 1968 and retired in 2009. London Underground regularly operates battery–electric locomotives for general maintenance work. In
5940-417: The mine where their trains were loaded by affixing bogie trucks, a headlight, and a horn to the last freight car on each train. In 1996, Israel Railways began running GEC Alstom push–pull coaches. Since then, it has also acquired push–pull coaches from Bombardier and Siemens . As of 2016, the bulk of Israel Railways' passenger operations use push–pull coaches. All of them have one locomotive at one end and
6030-494: The most popular. In 1914, Hermann Lemp , a General Electric electrical engineer, developed and patented a reliable direct current electrical control system (subsequent improvements were also patented by Lemp). Lemp's design used a single lever to control both engine and generator in a coordinated fashion, and was the prototype for all diesel–electric locomotive control. In 1917–18, GE produced three experimental diesel–electric locomotives using Lemp's control design. In 1924,
6120-665: The power supply of choice for subways, abetted by the Sprague's invention of multiple-unit train control in 1897. The first use of electrification on a main line was on a four-mile stretch of the Baltimore Belt Line of the Baltimore & Ohio (B&O) in 1895 connecting the main portion of the B&O to the new line to New York through a series of tunnels around the edges of Baltimore's downtown. Three Bo+Bo units were initially used, at
6210-425: The south end of the electrified section; they coupled onto the locomotive and train and pulled it through the tunnels. DC was used on earlier systems. These systems were gradually replaced by AC. Today, almost all main-line railways use AC systems. DC systems are confined mostly to urban transit such as metro systems, light rail and trams, where power requirement is less. The first practical AC electric locomotive
6300-655: The train lighting circuits. This had the added benefit that intermediate carriages needed no special equipment, and was found more satisfactory. Such trains became widely used on the intensive passenger service between Edinburgh Waverley and Glasgow Queen Street . When the push–pull sets were replaced by multiple units, the DBSOs were transferred to operate on the Great Eastern Main Line between Liverpool Street and Norwich , where they were modified to work with Class 86 electric locomotives. The original system of using
6390-450: The train may have a locomotive (or locomotives) at the front, at the rear, or at each end. Most recently railroads have begun adopting DPU or distributed power. The front may have one or two locomotives followed by a mid-train locomotive that is controlled remotely from the lead unit. The word locomotive originates from the Latin loco 'from a place', ablative of locus 'place', and
6480-464: The trains. Some electric railways have their own dedicated generating stations and transmission lines but most purchase power from an electric utility . The railway usually provides its own distribution lines, switches and transformers . Electric locomotives usually cost 20% less than diesel locomotives, their maintenance costs are 25–35% lower, and cost up to 50% less to run. The earliest systems were DC systems. The first electric passenger train
6570-549: The workers, but they were withdrawn in the course of counter-revolution. In 1865, the first Austrian Workers' Association was established in the locomotive works of Wiener Neustadt. The tornado of 10 July 1916 destroyed much of the locomotive works. (see Tornado in Wiener Neustadt 1916 german language ) The workers became involved in the 1918 Austro-Hungarian January Strike alongside the more numerous workers at nearby Austro Daimler . The loss of crown lands by Austria after
6660-433: The world was on heritage railways . Internal combustion locomotives use an internal combustion engine , connected to the driving wheels by a transmission. They typically keep the engine running at a near-constant speed whether the locomotive is stationary or moving. Internal combustion locomotives are categorised by their fuel type and sub-categorised by their transmission type. The first internal combustion rail vehicle
6750-681: Was Puffing Billy , built 1813–14 by engineer William Hedley for the Wylam Colliery near Newcastle upon Tyne . This locomotive is the oldest preserved, and is on static display in the Science Museum, London. George Stephenson built Locomotion No. 1 for the Stockton & Darlington Railway in the north-east of England, which was the first public steam railway in the world. In 1829, his son Robert built The Rocket in Newcastle upon Tyne. Rocket
6840-491: Was a kerosene -powered draisine built by Gottlieb Daimler in 1887, but this was not technically a locomotive as it carried a payload. The earliest gasoline locomotive in the western United States was built by the Best Manufacturing Company in 1891 for San Jose and Alum Rock Railroad . It was only a limited success and was returned to Best in 1892. The first commercially successful petrol locomotive in
6930-483: Was also adopted by Network Rail for its track observation trains, although on many trains one locomotive has recently been replaced by a DBSO modified to work with Blue Star. In 1988, 52 Mark 3 Driving Van Trailers were built by British Rail Engineering Limited to allow it to replace life expired electric locomotives on the West Coast Main Line . These operated with Mark 2 and Mark 3 sets. As part of
7020-535: Was built on land to the north-east of Wiener Neustadt in part on an abandoned cotton factory, and partly on a rifle and metal finishing plant. From 1845 the company was wholly owned by Wenzel Gunther; it was sold in 1861 to the Vienna Maschinenfabrik owner Georg Sigl who expanded it into the largest plant in the Empire. By 1870 the 1000th locomotive had been made and the workforce exceeded 4000. The product line
7110-752: Was constructed for the Coalbrookdale ironworks in Shropshire in England though no record of it working there has survived. On 21 February 1804, the first recorded steam-hauled railway journey took place as another of Trevithick's locomotives hauled a train from the Penydarren ironworks, in Merthyr Tydfil , to Abercynon in South Wales. Accompanied by Andrew Vivian , it ran with mixed success. The design incorporated
7200-662: Was demonstrated in Val-d'Or , Quebec . In 2007 the educational mini-hydrail in Kaohsiung , Taiwan went into service. The Railpower GG20B finally is another example of a fuel cell–electric locomotive. There are many different types of hybrid or dual-mode locomotives using two or more types of motive power. The most common hybrids are electro-diesel locomotives powered either from an electricity supply or else by an onboard diesel engine . These are used to provide continuous journeys along routes that are only partly electrified. Examples include
7290-467: Was designed by Charles Brown , then working for Oerlikon , Zürich. In 1891, Brown had demonstrated long-distance power transmission, using three-phase AC , between a hydro-electric plant at Lauffen am Neckar and Frankfurt am Main West, a distance of 280 km. Using experience he had gained while working for Jean Heilmann on steam–electric locomotive designs, Brown observed that three-phase motors had
7380-595: Was entered into, and won, the Rainhill Trials . This success led to the company emerging as the pre-eminent early builder of steam locomotives used on railways in the UK, US and much of Europe. The Liverpool & Manchester Railway , built by Stephenson, opened a year later making exclusive use of steam power for passenger and goods trains . The steam locomotive remained by far the most common type of locomotive until after World War II . Steam locomotives are less efficient than modern diesel and electric locomotives, and
7470-512: Was expanded to include printing presses and other machinery. In 1875, the company became an Aktiengesellschaft (public company) named Aktien Gesellschaft der Lokomotiv-Fabrik vormals G. Sigl The Wiener Neustadt Lokomotivfabrik played an early role in the Austrian labor movement; as a result of the March revolution of 1848 ( Märzrevolution ) a 10-hour day was introduced, but was withdrawn by and for
7560-621: Was opened, by 1854 the Semmering railway was complete. Thus around that time a favourable situation existed for the creation of a locomotive production facility in Austria. In 1842 in Wiener Neustadt a locomotive works was founded by Günther Wenzel , engineer of the Wien-Raaber-Eisenbahn company, the ironworks-master Josef Sessler , Heinrich Bühler and Fidelius Armbruster . The plant
7650-426: Was presented by Werner von Siemens at Berlin in 1879. The locomotive was driven by a 2.2 kW, series-wound motor, and the train, consisting of the locomotive and three cars, reached a speed of 13 km/h. During four months, the train carried 90,000 passengers on a 300-metre-long (984 feet) circular track. The electricity (150 V DC) was supplied through a third insulated rail between the tracks. A contact roller
7740-550: Was successful and the company's remaining railcars were gradually converted for autotrain use and purpose-built units constructed. Other companies followed the lead in 1905: the North Eastern and London, Brighton & South Coast Railway using a compressed-air method of control and the Midland Railway , using a cable-and-pulley mechanism. The Great Central deployed the trains in 1906, using cable controls similar to that of
7830-872: Was tested on the Edinburgh and Glasgow Railway in September of the following year, but the limited power from batteries prevented its general use. Another example was at the Kennecott Copper Mine , Latouche, Alaska , where in 1917 the underground haulage ways were widened to enable working by two battery locomotives of 4 + 1 ⁄ 2 tons. In 1928, Kennecott Copper ordered four 700-series electric locomotives with on-board batteries. These locomotives weighed 85 tons and operated on 750-volt overhead trolley wire with considerable further range whilst running on batteries. The locomotives provided several decades of service using Nickel–iron battery (Edison) technology. The batteries were replaced with lead-acid batteries , and
7920-633: Was the first in the world in regular service powered from an overhead line. Five years later, in the U.S. electric trolleys were pioneered in 1888 on the Richmond Union Passenger Railway , using equipment designed by Frank J. Sprague . The first electrically worked underground line was the City & South London Railway , prompted by a clause in its enabling act prohibiting use of steam power. It opened in 1890, using electric locomotives built by Mather & Platt . Electricity quickly became
8010-534: Was used on several railways in Northern Italy and became known as "the Italian system". Kandó was invited in 1905 to undertake the management of Società Italiana Westinghouse and led the development of several Italian electric locomotives. A battery–electric locomotive (or battery locomotive) is an electric locomotive powered by onboard batteries ; a kind of battery electric vehicle . Such locomotives are used where
8100-566: Was used to collect the electricity. The world's first electric tram line opened in Lichterfelde near Berlin, Germany, in 1881. It was built by Werner von Siemens (see Gross-Lichterfelde Tramway and Berlin Straßenbahn ). The Volk's Electric Railway opened in 1883 in Brighton, and is the oldest surviving electric railway. Also in 1883, Mödling and Hinterbrühl Tram opened near Vienna in Austria. It
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