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The installation of overhead lines may require reconstruction of bridges to provide safe electrical clearance. [20] Overhead lines, like most electrified systems, require a greater capital expenditure when building the system than an equivalent non-electric system. While a unelectrified railway line requires only the grade, ballast, ties and ...
This is a route-map template for a railway in {{{1}}}. For a key to symbols, see {{railway line legend}}.; For information on using this template, see Template:Routemap. ...
Overhead lines or overhead wires are used to transmit electrical energy to trams, trolleybuses or trains. Overhead line is designed on the principle of one or more overhead wires situated over rail tracks. Feeder stations at regular intervals along the overhead line supply power from the high-voltage grid.
When used on a tram or trolley car (i.e. a railway vehicle), a single trolley pole usually collects current from the overhead wire, and the steel rails on the tracks act as the electrical return. To reduce electrolytic corrosion of underground pipes and metallic structures, most tram lines are operated with the wire positive with respect to the ...
This is a route-map template for the Sishen–Saldanha railway line, a railway in South Africa.. For a key to symbols, see {{railway line legend}}.; For information on using this template, see Template:Routemap.
The overhead line (3) and feeder (5) are on opposite phases so the voltage between them is 50 kV, while the voltage between the overhead line (3) and the running rails (4) remains at 25 kV. Periodic autotransformers (9) divert the return current from the neutral rail, step it up, and send it along the feeder line.
The overhead wiring, generally having two separate overhead lines and the rail for the third phase, was more complicated, and the low frequency used required a separate generation or conversion and distribution system. Train speed was restricted to one to four speeds, with two or four speeds obtained by pole-changing or cascade operation or both.
The line started operation in 1974 using diesel locomotives and was electrified in 1984 because diesel operation was too expensive with the increasing train loads, fuel prices and problems with clogged oil bath filters on the diesel locomotives due to the excessive coal dust. Electrification was at 25 kV 60 Hz AC overhead line. The railroad ...