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83-541: Southern Railway ( SR ) is one of the eighteen zones of Indian Railways . It is headquartered at Chennai and operates across the states of Tamil Nadu , Kerala , Andhra Pradesh and the union territory of Puducherry . The origin of the Southern Railway can be traced back to the Madras Railway formed in 1845. Southern Railway was created on 14 April 1951 by merging three state railways, namely,

166-519: A power transmission system . Electric locomotives benefit from the high efficiency of electric motors, often above 90% (not including the inefficiency of generating the electricity). Additional efficiency can be gained from regenerative braking , which allows kinetic energy to be recovered during braking to put power back on the line. Newer electric locomotives use AC motor-inverter drive systems that provide for regenerative braking. Electric locomotives are quiet compared to diesel locomotives since there

249-405: A General manager and are further sub-divided into divisions. Each division is headed by a Divisional Railway Manager (DRM), who are responsible for the operation and maintenance in the respective divisions. The 17 operational zones and their divisions are listed below. South Coast Railway zone is proposed to be created as the eighteenth zone, but is not yet operational as of 2023. In every zone,

332-452: 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 mine railways where gas could be ignited by trolley-powered units arcing at 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

415-536: A further member responsible for health in 1976. In 2004, the board is expanded by the introduction of two new members responsible for signalling & telecom and for stores respectively. In December 2019, the Union Cabinet decided to reduce the size of the board from eight to five. The chairman of the railway board reports to the Ministry of Railways and act on behalf of the ministry. The following report to

498-429: 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 support. Power transfer from the motor to the 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

581-415: 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. The Whyte notation system for classifying steam locomotives is not adequate for describing the variety of electric locomotive arrangements, though

664-409: A modern locomotive can be up to 50% of the cost of the vehicle. Electric traction allows the use of regenerative braking, in which the motors are used as brakes and become generators that transform the motion of the train into electrical power that is then fed back into the lines. This system is particularly advantageous in mountainous operations, as descending locomotives can produce a large portion of

747-499: A new type 3-phase asynchronous electric drive motors and generators for electric locomotives at the Fives-Lille Company. Kandó's early 1894 designs were first applied in a short three-phase AC tramway in Évian-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

830-663: A signal and telecommunication workshop at Podanur , Coimbatore . It has three EMU car sheds in Chennai at Avadi , Tambaram , Velachery and MEMU sheds at Kollam and Palakkad . Southern Railway maintains trip sheds at Basin Bridge , Egmore , Tondiarpet and Jolarpettai . Southern Railway operated ticket printing presses at Royapuram , Thiruvananthapuram and Tiruchirappalli , but these have been phased out due to digitization . Southern Railways uses both ICF coaches and LHB coaches for its trains. ICF coaches manufactured by

913-479: A single overhead wire, carrying the simple industrial frequency (50 Hz) single phase AC of the high voltage national networks. Italian railways were the first in the world to introduce electric traction for the entire length of a mainline 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

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996-410: A smaller rail parallel to the main track, above ground level. There are multiple pickups on both sides of the locomotive in order to accommodate the breaks in the third rail required by trackwork. This system is preferred in subways because of the close clearances it affords. During the initial development of railroad electrical propulsion, a number of drive systems were devised to couple the output of

1079-841: A speed of 13 km/h. During four months, the train carried 90,000 passengers on a 300-meter-long (984 feet) circular track. The electricity (150 V DC) was supplied through a third insulated rail between the tracks. A contact roller 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 ). Volk's Electric Railway opened in 1883 in Brighton. Also in 1883, Mödling and Hinterbrühl Tram opened near Vienna in Austria. It

1162-402: Is a locomotive powered by electricity from overhead lines , a third rail or on-board energy storage such as a battery or a supercapacitor . Locomotives with on-board fuelled prime movers , such as diesel engines or gas turbines , are classed as diesel–electric or gas turbine–electric and not as electric locomotives, because the electric generator/motor combination serves only as

1245-654: Is common in Canada and the U.S.) but not for passenger or mixed passenger/freight traffic like on many European railway lines, especially where heavy freight trains must be run at comparatively high speeds (80 km/h or more). These factors led to high degrees of electrification in most European countries. In some countries, like Switzerland, even electric shunters are common and many private sidings are served by electric locomotives. During World War II , when materials to build new electric locomotives were not available, Swiss Federal Railways installed electric heating elements in

1328-564: Is headed by the General Manager, assisted by an Additional General Manager. Southern Railway is headquartered in Chennai and is divided into six divisions namely Chennai , Tiruchirappalli , Madurai , Palakkad , Salem and Thiruvananthapuram . The zone operates both passenger and freight trains. Various classes of passenger trains including Vande Bharat Express , Shatabdi Express and Tejas Express are operated by Southern Railways. Freight operations include container traffic from

1411-418: Is no easy way to do the voltage/current transformation for DC so efficiently as achieved by AC transformers. AC traction still occasionally uses dual overhead wires instead of single-phase lines. The resulting three-phase current drives induction motors , which do not have sensitive commutators and permit easy realisation of a regenerative brake . Speed is controlled by changing the number of pole pairs in

1494-1091: Is no engine and exhaust noise and less mechanical noise. The lack of reciprocating parts means electric locomotives are easier on the track, reducing track maintenance. Power plant capacity is far greater than any individual locomotive uses, so electric locomotives can have a higher power output than diesel locomotives and they can produce even higher short-term surge power for fast acceleration. Electric locomotives are ideal for commuter rail service with frequent stops. Electric locomotives are used on freight routes with consistently high traffic volumes, or in areas with advanced rail networks. Power plants, even if they burn fossil fuels , are far cleaner than mobile sources such as locomotive engines. The power can also come from low-carbon or renewable sources , including geothermal power , hydroelectric power , biomass , solar power , nuclear power and wind turbines . 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 chief disadvantage of electrification

1577-463: Is now employed largely unmodified by ÖBB to haul their Railjet which is however limited to a top speed of 230 km/h due to economic and infrastructure concerns. An electric locomotive can be supplied with power from The distinguishing design features of electric locomotives are: The most fundamental difference lies in the choice of AC or DC. The earliest systems used DC, as AC was not well understood and insulation material for high voltage lines

1660-414: Is powered by onboard batteries; a kind of battery electric vehicle . Such locomotives are used where a diesel or conventional electric locomotive would be unsuitable. An example is maintenance trains on electrified lines when the electricity supply is turned off. Another use for battery locomotives is in industrial facilities (e.g. explosives factories, oil, and gas refineries or chemical factories) where

1743-483: Is the high cost for infrastructure: overhead lines or third rail, substations, and control systems. The impact of this varies depending on local laws and regulations. For example, public policy in the U.S. interferes with electrification: higher property taxes are imposed on privately owned rail facilities if they are electrified. The EPA regulates exhaust emissions on locomotive and marine engines, similar to regulations on car & freight truck emissions, in order to limit

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1826-456: Is widespread in Europe, with electric multiple units commonly used for passenger trains. Due to higher density schedules, operating costs are more dominant with respect to the infrastructure costs than in the U.S. and electric locomotives have much lower operating costs than diesel. In addition, governments were motivated to electrify their railway networks due to coal shortages experienced during

1909-514: The Ganz works and Societa Italiana Westinghouse , was an electro-mechanical converter , allowing the use of three-phase motors from single-phase AC, eliminating the need for two overhead wires. In 1923, the first phase-converter locomotive in Hungary was constructed on the basis of Kandó's designs and serial production began soon after. The first installation, at 16 kV 50 Hz, was in 1932 on

1992-1221: The Integral Coach Factory in Chennai have been used predominantly for over sixty years since the formation of the zone in 1951. The ICF coaches are slowly being replaced by newer LHB rakes which provide better passenger comfort and safety. Following are the list of railway lines operational. Defunct railway lines include Kundala Valley Railways , Kochin Tramways , Madras Tramways , Tiruchendur Light Railway, Dharmapuri and Krishnagiri famine light railways, Kodaikanal Light Railway. Southern Railways operates 41 sets of express trains and 97 sets of superfast trains. The superfast trains include: Vande Bharat Express (8), Shatabdi Express (2), Garib Rath Express (2), Duronto Express (1), Jan Shatabdi Express (4), Sampark Kranti Express (1), Anuvrat Express (1), Humsafar Express (1), Tejas Express (1), Uday Express (1), Antyodaya Express (2) and Double Decker Express (1). Apart from this, it operates various Passenger trains , DEMU , EMU services, Chennai Suburban and

2075-728: The Madras and Southern Mahratta Railway , the South Indian Railway Company , and the Mysore State Railway and became the first railway zone created in newly formed India. Southern Railway maintains about 5,081 km (3,157 mi) of railway lines and operates 727 railway stations . It has the distinction of operating the first railway line in India , which opened for traffic from Redhills to Chindadripettai in Madras on 12 September 1836. The history of

2158-606: The Madras and Southern Mahratta Railway . In 1944, all the railway companies operating in British India were taken over by the Government. Post Independence , various re-grouping proposals were studied as there were 42 different railway systems. In December 1950, the Central Advisory Committee for Railways approved the plan for Indian Railways into six zonal systems and the Southern Railway zone

2241-617: The Pennsylvania Railroad applied classes to its electric locomotives as if they were steam. For example, the PRR GG1 class indicates that it is arranged like two 4-6-0 class G locomotives coupled back-to-back. UIC classification system was typically used for electric locomotives, as it could handle the complex arrangements of powered and unpowered axles and could distinguish between coupled and uncoupled drive systems. A battery–electric locomotive (or battery locomotive)

2324-659: The Pennsylvania Railroad , which had introduced electric locomotives because of the NYC regulation, electrified its entire territory east of Harrisburg, Pennsylvania . The Chicago, Milwaukee, St. Paul, and Pacific Railroad (the Milwaukee Road ), the last transcontinental line to be built, electrified its lines across the Rocky Mountains and to the Pacific Ocean starting in 1915. A few East Coastlines, notably

2407-632: 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 was tested on the Edinburgh and Glasgow Railway in September of

2490-533: The SJ Class Dm 3 locomotives on Swedish Railways produced a record 7,200 kW. Locomotives capable of commercial passenger service at 200 km/h appeared in Germany and France in the same period. Further improvements resulted from the introduction of electronic control systems, which permitted the use of increasingly lighter and more powerful motors that could be fitted inside the bogies (standardizing from

2573-479: The United Kingdom (750 V and 1,500 V); Netherlands , Japan , Ireland (1,500 V); Slovenia , Belgium , Italy , Poland , Russia , Spain (3,000 V) and Washington, D.C. (750 V). Electrical circuits require two connections (or for three phase AC , three connections). From the beginning, the track was used for one side of the circuit. Unlike model railroads the track normally supplies only one side,

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2656-594: The Virginian Railway and the Norfolk and Western Railway , electrified short sections of their mountain crossings. However, by this point electrification in the United States was more associated with dense urban traffic and the use of electric locomotives declined in the face of dieselization. Diesel shared some of the electric locomotive's advantages over steam and the cost of building and maintaining

2739-624: The commuter rail system in the city of Chennai , operated by the Southern Railways. The system operates four lines with a track length of 1,174.21 km (729.62 mi), of which 509.71 km (316.72 mi) are dedicated dual tracks for EMUs. Nilgiri Mountain Railway is a 1,000 mm ( 3 ft  3 + 3 ⁄ 8  in ) metre gauge railway in Nilgiris district connecting Mettupalayam and Udagamandalam . It

2822-404: The traction motors to the wheels. Early locomotives often used jackshaft drives. In this arrangement, the traction motor is mounted within the body of the locomotive and drives the jackshaft through a set of gears. This system was employed because the first traction motors were too large and heavy to mount directly on the axles. Due to the number of mechanical parts involved, frequent maintenance

2905-532: The 1990s onwards on asynchronous three-phase motors, fed through GTO-inverters). In the 1980s, the development of very high-speed service brought further electrification. The Japanese Shinkansen and the French TGV were the first systems for which devoted high-speed lines were built from scratch. Similar programs were undertaken in Italy , Germany and Spain ; in the United States the only new mainline service

2988-492: The 56 km section of the Hungarian State Railways between Budapest and Komárom . This proved successful and the electrification was extended to Hegyeshalom in 1934. In Europe, electrification projects initially focused on mountainous regions for several reasons: coal supplies were difficult, hydroelectric power was readily available, and electric locomotives gave more traction on steeper lines. This

3071-541: The B&;O to the new line to New York through a series of tunnels around the edges of Baltimore's downtown. Parallel tracks on the Pennsylvania Railroad had shown that coal smoke from steam locomotives would be a major operating issue and a public nuisance. Three Bo+Bo units were initially used, the EL-1 Model. At the south end of the electrified section; they coupled onto the locomotive and train and pulled it through

3154-691: The Buchli drive was mainly used by the French SNCF and Swiss Federal Railways . The quill drive was also developed about this time and mounted the traction motor above or to the side of the axle and coupled to the axle through a reduction gear and a hollow shaft – the quill – flexibly connected to the driving axle. The Pennsylvania Railroad GG1 locomotive used a quill drive. Again, as traction motors continued to shrink in size and weight, quill drives gradually fell out of favor in low-speed freight locomotives. In high-speed passenger locomotives used in Europe,

3237-509: The First and Second World Wars. Diesel locomotives have less power compared to electric locomotives for the same weight and dimensions. For instance, the 2,200 kW of a modern British Rail Class 66 diesel locomotive was matched in 1927 by the electric SBB-CFF-FFS Ae 4/7 (2,300 kW), which is lighter. However, for low speeds, the tractive effort is more important than power. Diesel engines can be competitive for slow freight traffic (as it

3320-481: The London Underground. One setback for third rail systems is that level crossings become more complex, usually requiring a gap section. The original Baltimore and Ohio Railroad electrification used a sliding pickup (a contact shoe or simply the "shoe") in an overhead channel, a system quickly found to be unsatisfactory. It was replaced by a third rail , in which a pickup rides underneath or on top of

3403-534: The Nilgiri Mountain Railway. There are about 727 stations on the Southern railway network including 486 non suburban stations, 74 suburban stations and 166 halt stations. The major and highest revenue earning stations are Chennai Central , Chennai Egmore , Coimbatore Junction , Tambaram , Madurai Junction , Thiruvananthapuram Central and Ernakulam Junction . Chennai Suburban Railway is

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3486-654: The Southern Railway can be traced back to the Madras Railway . In 1832, the proposal to construct the first railway line in India at Madras was made by the British . In 1835, the railway track was constructed between Little Mount and Chintadripet in Madras and became operational in 1837. The Madras Railway was established later in 1845 and the construction on the first main line between Madras and Arcot started in 1853, which became operational in 1856. In 1908, Madras Railway merged with Southern Mahratta Railway to form

3569-573: The Southern railway network. Southern Railway utilizes various classes of electric and diesel locomotives to haul the trains. Steam locomotives are used by the Nilgiri Mountain Railway . The zone has three electric locomotive sheds and four diesel locomotive sheds. Southern Railway maintains wagon and locomotive workshops at Perambur, Chennai and Ponmalai, Tiruchirapalli , engineering workshop at Arakkonam , carriage maintenance workshops at Basin Bridge and Egmore and

3652-430: The amount of carbon monoxide, unburnt hydrocarbons, nitric oxides, and soot output from these mobile power sources. Because railroad infrastructure is privately owned in the U.S., railroads are unwilling to make the necessary investments for electrification. In Europe and elsewhere, railway networks are considered part of the national transport infrastructure, just like roads, highways and waterways, so are often financed by

3735-457: The boilers of some steam shunters , fed from the overhead supply, to deal with the shortage of imported coal. Recent political developments in many European countries to enhance public transit have led to another boost for electric traction. In addition, gaps in the unelectrified track are closed to avoid replacing electric locomotives by diesel for these sections. The necessary modernization and electrification of these lines are possible, due to

3818-568: The early development of electric locomotion was driven by the increasing use of tunnels, particularly in urban areas. Smoke from steam locomotives was noxious and municipalities were increasingly inclined to prohibit their use within their limits. The first electrically worked underground line was the City and South London Railway , prompted by a clause in its enabling act prohibiting the use of steam power. It opened in 1890, using electric locomotives built by Mather and Platt . Electricity quickly became

3901-474: The electrification of many European main lines. European electric locomotive technology had improved steadily from the 1920s onwards. By comparison, the Milwaukee Road class EP-2 (1918) weighed 240 t, with a power of 3,330 kW and a maximum speed of 112 km/h; in 1935, German E 18 had a power of 2,800 kW, but weighed only 108 tons and had a maximum speed of 150 km/h. On 29 March 1955, French locomotive CC 7107 reached 331 km/h. In 1960

3984-508: The expo site at 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 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

4067-756: The first main-line three-phase locomotives to the 40 km Burgdorf–Thun railway (highest point 770 metres), 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. In 1894, Hungarian engineer Kálmán Kandó developed

4150-399: The following year, but the limited power from batteries prevented its general use. It was destroyed by railway workers, who saw it as a threat to their job security. The first electric passenger train 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

4233-542: The functional verticals are represented by head of departments (HODs) responsible for the respective functions in the zone. Each division has functional staff who report to the geographical divisional managers and functional HODs in a matrix organization and are tasked with the operation and maintenance of assets. Staff are classified into gazetted (Groups A and B) and non-gazetted (Groups C and D) employees with gazetted employees carrying out executive/managerial level tasks. As of March 2022, Groups A & B constitute 1.5% of

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4316-1013: The ground. The first electric locomotive built in 1837 was a battery locomotive. It was built by chemist Robert Davidson of Aberdeen in Scotland , and it was powered by galvanic cells (batteries). Another early example was at the Kennecott Copper Mine , McCarthy, Alaska , wherein 1917 the underground haulage ways were widened to enable working by two battery locomotives of 4 + 1 ⁄ 2 short tons (4.0 long tons; 4.1 t). In 1928, Kennecott Copper ordered four 700-series electric locomotives with onboard batteries. These locomotives weighed 85 short tons (76 long tons; 77 t) and operated on 750 volts 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

4399-1144: 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 on the Toronto subway 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. As of 2022 , battery locomotives with 7 and 14 MWh energy capacity have been ordered by rail lines and are under development. In 2020, Zhuzhou Electric Locomotive Company , manufacturers of stored electrical power systems using supercapacitors initially developed for use in trams , announced that they were extending their product line to include locomotives. Electrification

4482-434: The other side(s) of the circuit being provided separately. Railways generally tend to prefer overhead lines , often called " catenaries " after the support system used to hold the wire parallel to the ground. Three collection methods are possible: Of the three, the pantograph method is best suited for high-speed operation. Some locomotives use both overhead and third rail collection (e.g. British Rail Class 92 ). In Europe,

4565-424: The performance of AC locomotives was sufficiently developed to allow all its future installations, regardless of terrain, to be of this standard, with its associated cheaper and more efficient infrastructure. The SNCF decision, ignoring as it did the 2,000 miles (3,200 km) of high-voltage DC already installed on French routes, was influential in the standard selected for other countries in Europe. The 1960s saw

4648-495: The period of electrification of the Italian railways, tests were made as to which type of power to use: in some sections there was a 3,600 V 16 + 2 ⁄ 3  Hz three-phase power supply, in others there was 1,500 V DC, 3 kV DC and 10 kV AC 45 Hz supply. After WW2, 3 kV DC power was chosen for the entire Italian railway system. A later development of Kandó, working with both

4731-442: The ports, coal bound to the thermal power stations, oil and petroleum products from refineries, cement and food grains. Most of the lines inside ports, thermal stations, manufacturing industries and owned by the respective companies and the zone provides a link connecting to its network along with the wagons and locomotives. The zone has a larger proportion of passenger traffic compared to freight. There are about 727 stations on

4814-573: The power required for ascending trains. Most systems have a characteristic voltage and, in the case of AC power, a system frequency. Many locomotives have been equipped to handle multiple voltages and frequencies as systems came to overlap or were upgraded. American FL9 locomotives were equipped to handle power from two different electrical systems and could also operate as diesel–electrics. While today's systems predominantly operate on AC, many DC systems are still in use – e.g., in South Africa and

4897-620: The power supply infrastructure, which discouraged new installations, brought on the elimination of most main-line electrification outside the Northeast. Except for a few captive systems (e.g. the Deseret Power Railroad ), by 2000 electrification was confined to the Northeast Corridor and some commuter service; even there, freight service was handled by diesel. Development continued in Europe, where electrification

4980-544: The power supply of choice for subways, abetted by Sprague's invention of multiple-unit train control in 1897. Surface and elevated rapid transit systems generally used steam until forced to convert by ordinance. The first use of electrification on an American main line was on a four-mile stretch of the Baltimore Belt Line of the Baltimore and Ohio Railroad (B&O) in 1895 connecting the main portion of

5063-400: The quill drive is still predominant. Another drive was the " bi-polar " system, in which the motor armature was the axle itself, the frame and field assembly of the motor being attached to the truck (bogie) in a fixed position. The motor had two field poles, which allowed a limited amount of vertical movement of the armature. This system was of limited value since the power output of each motor

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5146-502: The railway board was expanded to four members with the addition of a financial commissioner in 1924 apart from the chief commissioner, one commissioners responsible for ways and works, projects and stores and the other responsible for general administration, staff and traffic. In 1929, an additional member was added to the board and was assigned the responsibility for staff, so that the member in charge of traffic could focus solely on transport and commercial matters. In 1950,the railway board

5229-603: The railway board: The organization is divided into separate functional groups of traction , engineering , traffic , rolling stock , signalling , materials , personnel , RPF , finance , health and safety . In 1944, all the railway companies in existence at the time were taken over by the Government. In December 1950, the Central Advisory Committee for Railways approved the plan for re-organizing Indian Railways into six regional zones which were divided subsequently to create newer zones. As of 2024, there are 17 operational zones of Indian Railways. The zones are headed by

5312-783: The railway branch of the Public Works Department was transferred to the newly established railway board under the department of commerce and industry by the Indian Railway Board Act. In 1908, the set up was re-organized on the recommendations of the Railway Finance Committee (1908) by constituting the Railway Board headed by a president as a separate department. Pursuant to the Acworth committee's recommendations in 1921,

5395-420: The recommended geometry and shape of pantographs are defined by standard EN 50367/IEC 60486 Mass transit systems and suburban lines often use a third rail instead of overhead wire. It allows for smaller tunnels and lower clearance under bridges, and has advantages for intensive traffic that it is a very sturdy system, not sensitive to snapping overhead wires. Some systems use four rails, especially some lines in

5478-439: The state. Operators of the rolling stock pay fees according to rail use. This makes possible the large investments required for the technically and, in the long-term, also economically advantageous electrification. 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 a larger locomotive named Galvani , exhibited at

5561-399: The stator circuit, with acceleration controlled by switching additional resistors in, or out, of the rotor circuit. The two-phase lines are heavy and complicated near switches, where the phases have to cross each other. The system was widely used in northern Italy until 1976 and is still in use on some Swiss rack railways . The simple feasibility of a fail-safe electric brake is an advantage of

5644-442: The system, while speed control and the two-phase lines are problematic. Rectifier locomotives, which used AC power transmission and DC motors, were common, though DC commutators had problems both in starting and at low velocities. Today's advanced electric locomotives use brushless three-phase AC induction motors . These polyphase machines are powered from GTO -, IGCT - or IGBT -based inverters. The cost of electronic devices in

5727-607: The time and could not be mounted in underfloor bogies : they could only be carried within locomotive bodies. In 1896, Oerlikon installed 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 a constant speed and provide regenerative braking and are thus well suited to steeply graded routes; in 1899 Brown (by then in partnership with Walter Boveri ) supplied

5810-753: The total workforce, while Group C & D account for 98.5%. 80% of Group-A employees are recruited through Indian Railways Management Service (IRMS) with remaining through promotions. The various Group A cadres are as below include: Group B employees are recruited by departmental promotional exams of Group C employees. Recruitment of Group C employees are through exams conducted by the Railway Recruitment Control Board (RRCB) and Group D staffs are recruited by zonal Railway Recruitment Cells (RRC). Indian Railways operates seven centralized training institutes and 295 training centers. Electric locomotive An electric locomotive

5893-670: The tunnels. Railroad entrances to New York City required similar tunnels and the smoke problems were more acute there. A collision in the Park Avenue tunnel in 1902 led the New York State legislature to outlaw the use of smoke-generating locomotives south of the Harlem River after 1 July 1908. In response, electric locomotives began operation in 1904 on the New York Central Railroad . In the 1930s,

5976-443: The use of low currents; transmission losses are proportional to the square of the current (e.g. twice the current means four times the loss). Thus, high power can be conducted over long distances on lighter and cheaper wires. Transformers in the locomotives transform this power to a low voltage and high current for the motors. A similar high voltage, low current system could not be employed with direct current locomotives because there

6059-590: Was an extension of electrification over the Northeast Corridor from New Haven, Connecticut , to Boston, Massachusetts , though new electric light rail systems continued to be built. On 2 September 2006, a standard production Siemens electric locomotive of the Eurosprinter type ES64-U4 ( ÖBB Class 1216) achieved 357 km/h (222 mph), the record for a locomotive-hauled train, on the new line between Ingolstadt and Nuremberg. This locomotive

6142-611: Was built during the British Raj in 1908 and is currently operated by the Southern Railways. It is the only rack railway in India and operates on its own fleet of steam locomotives between Coonoor and Udhagamandalam. In July 2005, UNESCO added the Nilgiri Mountain Railway as an extension to the World Heritage Site of Mountain Railways of India . Zones and divisions of Indian Railways In March 1905,

6225-468: Was created on 14 April 1951 by merging three state railways, namely, the Madras and Southern Mahratta Railway , the South Indian Railway Company , and the Mysore State Railway . Southern Railway zone covers the states of Tamil Nadu , Kerala , Puducherry and a small portion of Andhra Pradesh . Andaman and Nicobar will form part of the zone once the proposed new railway line between Port Blair and Diglipur becomes operational. The Southern Railway

6308-404: Was limited. The EP-2 bi-polar electrics used by the Milwaukee Road compensated for this problem by using a large number of powered axles. Modern freight electric locomotives, like their Diesel–electric counterparts, 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

6391-399: Was necessary. The jackshaft drive was abandoned for all but the smallest units when smaller and lighter motors were developed, Several other systems were devised as the electric locomotive matured. The Buchli drive was a fully spring-loaded system, in which the weight of the driving motors was completely disconnected from the driving wheels. First used in electric locomotives from the 1920s,

6474-498: Was not available. DC locomotives typically run at relatively low voltage (600 to 3,000 volts); the equipment is therefore relatively massive because the currents involved are large in order to transmit sufficient power. Power must be supplied at frequent intervals as the high currents result in large transmission system losses. As AC motors were developed, they became the predominant type, particularly on longer routes. High voltages (tens of thousands of volts) are used because this allows

6557-463: Was particularly applicable in Switzerland, where almost all lines are electrified. An important contribution to the wider adoption of AC traction came from SNCF of France after World War II . The company had assessed the industrial-frequency AC line routed through the steep Höllental Valley , Germany, which was under French administration following the war. After trials, the company decided that

6640-522: Was re-constituted to four members with the senior-most functional member appointed the chairman of the board with no absolute over riding power. In October 1954, the chairman of the board was made responsible for decisions on technical and policy matters, with the status of a principal secretary to the Government of India with an additional member added. The board was expanded with an additional member responsible for electrical engineering in 1972 and

6723-526: 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 electrified Hungarian railway lines were opened in 1887. Budapest (See: BHÉV ): Ráckeve line (1887), Szentendre line (1888), Gödöllő line (1888), Csepel line (1912). Much of

6806-513: 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 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. During

6889-546: Was widespread. 1,500 V DC is still used on some lines near France and 25 kV 50 Hz is used by high-speed trains. The first practical AC electric locomotive was designed by Charles Brown , then working for Oerlikon , Zürich. In 1891, Brown had demonstrated long-distance power transmission for the International Electrotechnical Exhibition , using three-phase AC , between a hydro–electric plant at Lauffen am Neckar and

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