Railway electric traction
Railway electric traction describes the various types of locomotive and multiple units that are used on electrification systems around the world.
History
Railway electrification as a means of traction emerged at the end of the nineteenth century, although experiments in electric rail have been traced back to the mid-nineteenth century.[1] Thomas Davenport, in Brandon, Vermont, erected a circular model railroad on which ran battery-powered locomotives (or locomotives running on battery-powered rails) in 1834.[1] Robert Davidson, of Aberdeen, Scotland, created an electric locomotive in 1839 and ran it on the Edinburgh-Glasgow railway at 4 miles per hour.[1] The earliest electric locomotives tended to be battery-powered.[1] In 1880, Thomas Edison built a small electrical railway, using a dynamo as the motor and the rails as the current-carrying medium. The electric current flowed through the metal rim of otherwise wooden wheels, being picked up via contact brushes.[1]
Electrical traction offered several benefits over the then predominant steam traction, particularly in respect of its quick acceleration (ideal for urban (metro) and suburban (commuter) services) and power (ideal for heavy freight trains through mountainous/hilly sections). A plethora of systems emerged in the first twenty years of the twentieth century.
Unit types
DC traction units
Direct current (DC) traction units use direct current drawn from either a conductor rail or an overhead line. AC voltage is converted into dc voltage by using rectifier.
AC traction units
All alternating current (AC) Traction units draw alternating current from an overhead line.
Multi-system units
Because of the variety of railway electrification systems, which can vary even within a country, trains often have to pass from one system to another. One way to accomplish this is by changing locomotives at the switching stations. These stations have overhead wires that can be switched from one voltage to another and so the train arrives with one locomotive and then departs with another. The switching stations have very sophisticated components and they are very expensive.
A less expensive switching station may have different electrification systems at both exits with no switchable wires. Instead the voltage on the wires changes across a small gap in them near the middle of the station. Electric locomotives coast into the station with their pantographs down and halt under a wire of the wrong voltage. A diesel shunter can then return the locomotive to the right side of the station. Both approaches are inconvenient and time-consuming, taking about ten minutes.
Another way is to use multi-system locomotives that can operate under several different voltages and current types. In Europe, it is common to use four-system locomotives (1.5 kV DC, 3 kV DC, 15 kV 16 2⁄3 Hz AC, 25 kV, 50 Hz AC).[2] These locomotives do not have to stop when passing from one electrification system to another, the changeover occurring where the train coasts for a short time.
Eurostar trains through the Channel Tunnel are multisystem; a significant part of the route near London is on southern England's 750 V DC third rail system, the route into Brussels is 3,000 V DC overhead, while the rest of the route is 25 kV 50 Hz overhead. The need for these trains to use third rail ended upon completion of High Speed 1 in 2007. Southern England has some overhead/third rail dual-system locomotives and multiple units to allow through running between 750 V DC third rail south of London and the 25 kV AC overhead north and east of London.
Electro-diesel locomotives which can operate as an electric locomotive on electrified lines but have an on-board diesel engine for non-electrified sections or sidings have been used in several countries.
Battery electric rail vehicles
A few battery electric railcars and locomotives were used in the twentieth century, but generally the use of battery power was not practical except in underground mining systems. See Accumulator car and Battery locomotive.
High-speed rail
Many high-speed rail systems use electric trains, like the Shinkansen and the TGV.
See also
References
- 1 2 3 4 5 J Halpin
- ↑ "Traxx locomotive family meets European needs". Railway Gazette International. 2008-01-07. Retrieved 2011-01-01.
Traxx MS (multi-system) for operation on both AC (15 and 25 kV) and DC (1·5 and 3 kV) networks
External links
- Railway Technical Web Page - including pages about electric traction
- Short account of electric traction history up to the 1880s, with emphasis on Thomas Edison's experiments