Rail transport
Rail transport is the
transport of passengers and goods along
railways or
railroads. A typical railway (or railroad) track consists of two parallel
steel (or in older networks,
iron)
rails, generally anchored
perpendicular to
beams (termed
sleepers (
Commonwealth) or
railroad ties (
U.S. and Canada)) of
timber,
concrete, or
steel to maintain a consistent distance apart, or
gauge. The rails and perpendicular beams are usually then placed on a foundation made of concrete or compressed
earth and
gravel in a bed of ballast to prevent the track from
buckling (bending out of its original configuration) as the ground settles over time beneath and under the weight of the vehicles passing above. The vehicles traveling on the rails are arranged in a
train; a series of individual powered or unpowered vehicles linked together, displaying markers. These vehicles (referred to, in general, as cars, carriages or wagons) move with much less friction than do rubber tires on a paved road, and the
locomotive that pulls the train tends to use energy far more efficiently as a result.
|
Boxcars transport bulk loads of freight. |
Rail transport is an
energy-efficient and
capital-intensive means of mechanized land transport. Rails provide very smooth and hard surfaces on which the
wheels of the train may roll with a minimum of
friction. As an example, a typical wagon can hold up to 125
tons of freight on two four-wheel
bogies (termed "trucks" in North America). Fully loaded, the contact between each wheel and the rail is the area of about one U.S. ten-cent piece. This can save energy compared with other forms of transportation, such as road transport which depends on rubber tires on pavement. Trains also have a small frontal area in relation to the load they are carrying, which cuts down on
air resistance and thus energy usage. In all, under the right circumstances, a
train needs 50-70% less energy to transport a given tonnage of freight (or given number of passengers), than does
road transport. Furthermore, the rails and sleepers distribute the weight of the train evenly, allowing significantly greater loads per
axle / wheel than in
road transport, leading to less wear and tear on the permanent way.
|
An intercity passenger train (left) and freight train (right) in England |
Rail transport makes highly efficient use of space: a double-track rail line can carry more passengers or freight in a given amount of time than a four-lane road.
As a result, rail transport is a major form of
public transport in many countries. In
Asia, for example, many millions use trains as regular transport in
India,
South Korea,
Japan,
China, and in
European countries. However, outside the
Northeast Corridor, rail transport as a form of
public transit in the
United States is rare. Few major US cities other than New York,
Chicago,
Boston and
Philadelphia can lay claim to any significant use of local rail-based passenger transport;
Amtrak is the only nationwide passenger rail system in the country. In Canada, the government-owned
VIA Rail system provides a limited level of intercity service at prices that are usually higher than air travel or bus service, however
Toronto,
Montreal and
Vancouver operate
rapid transit and/or
light rail services that receive millions of riders a year.
Commercially, world rail transport has had a mixed record. Most rail systems, including urban
rapid transit (metro/subway) systems, are highly subsidized and have never or rarely been profitable; however, their indirect benefits are often great. Passenger rail in nearly all countries is dependent on government subsidies. As a result levels of rail transport have in some times and places been reduced in order to save money.
Conversely, US freight railways have consolidated and become more efficient in their progress toward profitability. The four largest US railways (
Union Pacific,
BNSF,
CSX and
Norfolk Southern) all reported profits of over $1 billion in 2005 [
1]. Canada's major rail operators,
CN and
CP, have been extremely profitable since the 1960s, when they abandoned most lightly-used routes and concentrated solely on freight between major points. Investments in advanced switching technology helped lower cost of operations dramatically. In more recent years both railways have expanded, buying up a number of formerly US-based companies like the
Soo Line Railroad. The
East Japan Railway Company has taken an innovative and creative marketing stance and have achieved profitability as a result.
Like other forms of public transport, many railways are having to make considerable
capital investment in order to meet new requirements for
security in the face of recent
terrorism incidents, for instance the
Madrid train bombings of
11 March 2004. Securing railways is often more difficult than for other
modes of transport because stations are designed with easy access and high capacity rather than security as their primary goals; most trains make many stops, rendering any sort of passenger screening difficult; and securing the tracks as they run through cities and the countryside is impractical.
It is difficult to make a complete and accurate comparison of the economics of various modes of transport as all modes benefit from substantial government, as well as private, spending. For example, public highways, aircraft manufacturers, airports and sea ports all typically receive very large capital subsidies.
A rail transport system consists of two necessary elements:
infrastructure such as tracks, rolling stock and stations; and a system of traffic control to coordinate train movement.
Depending on traffic needs, railroads can be built with a varying number of mainline tracks. Rail lines that carry little traffic are often built as single track, to be used by trains in both directions; "passing sidings", which consist of short stretches of double track, are provided along the line to allow trains to pass one another, and to travel in opposite directions. Alternatively, there may be longer sections of the line that are double track. Effective traffic control can allow train travel up and down a partially double-track line equivalent to travel on full double tracks. Conversely, double tram track is sometimes interlaced at narrow passages (see
tram tracks). Single-track lines are cheaper to build, but can handle only a limited amount of traffic and are consequently used mainly on
branch lines, except in Canada, where the four transcontinental lines are still predominantly single-track.
On busier lines, two or more main tracks are provided, for each direction of travel. On very busy lines as many as eight tracks (four tracks in each direction) are used to handle large amounts of traffic.
With the advent of
containerized freight in the
1960s, rail, truck and ship transportation have become an integrated network that moves bulk goods very efficiently, and at relatively low cost. An example is that goods from East Asia that are bound for Europe will often be shipped across the
Pacific and transferred to trains to cross
North America and be transferred back to a ship for the
Atlantic crossing.
Major cities often have
metro and/or
light rail/
tram systems. For a tram on the road the terms streetcar track, tram track or tramway tend to be used, rather than railway or railroad.
Railways are always built to stand above surrounding terrain to prevent track flooding, erosion of the bed and decay of the ties. In hilly and mountainous terrain, to avoid large slopes, the railway is at some places elevated, on an
embankment or
bridge/
viaduct, and at some places in a
cutting (
ditch/
trench) or
tunnel. The same are also used for non-level crossings. In the case of many crossings, such as in a city, a longer stretch may be elevated or underground.
|
Train wreck, 1907, in Canaan, New Hampshire |
Trains can travel at very high speed, are heavy, are unable to deviate from the track and require a great distance to stop. Possibilities for accidents include jumping the track (
derailment),
head-on collision with another train coming the opposite way and collision with an
automobile at a
level crossing (also called a grade crossing).
Level crossing collisions are relatively common in the
United States where there are several thousand each year killing about 500 people - although the comparable figures in the
United Kingdom are 30 and 12 (collisions and casualties, respectively). For information regarding major accidents, see
List of rail accidents. Rail operations also generate sound intensities capable of inducing
noise health effects.
The most important safety measures are
railway signalling and gates at level crossings.
Train whistles warn others of the presence of a train, while trackside signals maintain the distances between trains. In the United Kingdom,
vandalism is thought responsible for about half of rail accidents.
Railroad lines are zoned or divided into blocks guarded by combinations of block signals, operating rules, and automatic-control devices so that at most one train may be in a block at any time . Such traffic control is done in a similar way to air traffic control.
Compared to road travel, railways remain relatively safe. Annual death rates on roads are over 40,000 in the United States and about 3000 in the United Kingdom, compared with 1,000 rail-related fatalities in the United States and under 20 in the UK. (Sources:
U.S. Department of Transportation and
U.K. Health & Safety Executive). However, a true comparison needs to take account of the number of people using each mode.
See also Timeline of railway historyThe
Diolkos was a 6-km long railway that transported boats across the
Corinth isthmus in
Greece in the 6th century BC. Trucks pushed by slaves ran in grooves in a limestone track. The Diolkos ran for over 1300 years, until
900 AD.
The first horse-drawn
wagonways appeared in
Greece,
Malta, and parts of the
Roman Empire at least 2000 years ago, using cut-stone track.
They began reappearing in
Europe from around
1550, usually operating with wooden track. The first railways in
Great Britain (also known as wagonways) were built in the early
17th century, mainly for transporting
coal from the mine to the water side where it could be loaded on to a boat. These had wooden rails and flanged wheels, as on a modern railway. However, the rails were liable to wear out and have to be replaced. In 1768, the
Coalbrookdale Company laid
cast iron plates on such wooden rails to provide a more durable bearing surface.
In the late
18th century iron rails began to appear: British
civil engineer William Jessop designed edge rails (which have the flange on the rail, used with plain wheels) for use on a scheme from
Loughborough,
Leicestershire in
1789 and in
1790 was one of the partners who established an iron-works at
Butterley,
Derbyshire to produce rails (and other goods). In
1802, Jessop opened the
Surrey Iron Railway in south
London - arguably the world's first public railway, albeit horse-drawn.
The first
steam locomotive to operate on rails was built by
Richard Trevithick, and was tried out in
1804 at
Merthyr Tydfil in
Wales. This was not a success, partly because the engine was so heavy that the rails broke under it. In
1806 a horse-drawn railway was built between
Swansea and
Mumbles. In
1807 this railway started carrying fare-paying passengers - the first in the world to do so.
In 1811
John Blenkinsop designed the first successful and practical railway locomotive[
2]. He patented (No 3431), a system of moving coals by a rack railway worked by a steam locomotive, and a line was built connecting the Middleton Colliery to Leeds. The locomotive was built by Matthew Murray of Fenton, Murray and Wood. The
Middleton Railway was the first railway to successfully use steam locomotives on a commercial basis.
Blenkinsop's engine had double-acting cylinders and, unlike the Trevithick pattern, no flywheel. The cylinders drove a geared wheel which engaged under the engine with the rack. This design was quickly superseded following the discovery of railroad traction properties by
George Stephenson during construction of the
Stockton and Darlington Railway.
The
Stockton and Darlington Railway opened in northern
England in the
1825. This was soon followed by the
Liverpool and Manchester Railway, which proved the viability of rail transport, with
Stephenson's famous
Rocket steam locomotive. Railways soon spread throughout the United Kingdom and through the world, and became the dominant means of land transport for nearly a century, until the invention of
aircraft and
automobiles, which prompted a gradual decline in railways.
The
rail gauge (the distance between the two rails of the track) used for the Stockton and Darlington railway became known as "
standard gauge" and is used by about sixty per cent of the world's railways.
The first railroad in the
United States may have been a
gravity railroad in
Lewiston, New York in
1764. The
Leiper Railroad in
Pennsylvania was the first permanent railroad, opened in
1810, and the
Granite Railroad in
1826 may have been the first to evolve through continuous operations into a
common carrier. The
Baltimore and Ohio, opened in
1830, was the first to evolve into a major system. In
1867 the first elevated railroad was built in New York.
The use of
overhead wires conducting electricity, invented by
Granville T. Woods in
1888, amongst several other improvements, led to the development of electrified railways, the first of which in the United States was operated at
Coney Island from
1892.
[[Image:Post245.jpg|300px|right|thumb|An historic postcard showing electric trolley-powered streetcars in Richmond, Virginia, where {{Frank J. Sprague}}successfully demonstrated his new system on the hills in {{1888}}. The intersectionshown is at 8th & Broad Streets.]]Richmond, VA had the first successful electrically-powered
trolley system in the United States. Designed by electric power pioneer
Frank J. Sprague, the trolley system opened its first line in January,
1888. Richmond's hills, long a transportation obstacle, were considered an ideal proving ground. The new technology soon replaced horse-powered
streetcars.
Diesel and electric trains and
locomotives replaced steam in many countries in the decades after
World War II.
In the
USSR the phenomenon of
children's railways was developed since the 1930s (the world's first one was opened on
July 24,
1935). Fully operated by children, they were extracurricular educational institutions, where teenagers learnt railway professions. A lot of them are functioning in post-Soviet states and Eastern European countries.
Many countries since the
1960s have adopted
high-speed railways.
On
24 August 2005 the
Qingzang railway became the highest railway line in the world, when track was laid through the
Tanggula Mountain Pass at 5072 meters above sea level. [
3]
In the United Kingdom and most other
Commonwealth of Nations countries, the term
railway is used in preference to
railroad, while in the United States the reverse is true. In Canadian speech,
railway and
railroad are interchangeable, although in law
railway is the usual term.
Railroad was used in the United Kingdom concurrently with
railway until the 1850s when
railway became the established term. A number of American companies have
railway in their names instead of
railroad, the
BNSF Railway being the pre-eminent modern example.
In the United Kingdom, the term
railway often refers to the whole organisation of tracks,
trains,
stations,
signalling,
timetables and the operating companies that collectively make up a coordinated railway system, while
permanent way or
p/way refers to the tracks alone.
Subways,
metros,
elevated lines,
trolley lines, and
undergrounds are all specialized railways.
* John H. Armstrong.
Railroad: What It Is, What It Does 4th Edition (1998)
* Rainer Fremdling, "Railways and German Economic Growth: A Leading Sector Analysis with a Comparison to the United States and Great Britain,"
The Journal of Economic History, Vol. 37, No. 3. (Sep., 1977), pp. 583-604.
* Leland H. Jenks, "Railroads as an Economic Force in American Development,"
The Journal of Economic History, Vol. 4, No. 1 (May, 1944), 1-20.
* O . S. Nock, ed.
Encyclopedia of Railways (London, 1977), worldwide coverage, heavily illustrated
* Patrick O'Brien.
Railways and the Economic Development of Western Europe, 1830-1914 (1983)
* Jack Simmons and Gordon Biddle, (editors).
The Oxford Companion to British Railway History: From 1603 to the 1990s (2nd ed 1999)
* John Stover,
American Railroads (2nd ed 1997)
Of 236 countries and dependencies, 143 have rail transport (including several with very little), of which about 90 have passenger services.
*
AĆ©rotrain*
Arrangements between railroads*
Economy of Earth (Transportation section)
*
Freighthopping*
High-speed rail*
Hillclimbing (railway)**
Cog railway**
Funicular**
Gravity railroad**
Rack and pinion railway**
Spiral (railway)**
Zig Zag (railway)*
History of rail transport*
Intermodal freight transport*
Intermodal passenger transport*
Land speed record for railed vehicles*
List of heritage railways*
List of named passenger trains*
List of railway companies*
List of railway companies in Switzerland*
List of suburban and commuter rail systems*
Magnetic levitation train*
Northern Africa Railroad Development*
Private railroad*
Private transport*
Public transport*
Rail adhesion*
Rail gauge*
Rail transport in fiction*
Railpage Australia*
Railroad cars (all types)
*
Railroad ecology*
railroad-related periodicals*
Railway electrification system*
Railway ferry*
Railway Mail Service*
Railway signal*
Railway signalling *
Rapid transit*
Thomas the Tank Engine and Friends A fictional railway
*
Tycoons, Inventors, and Other Famous Railroad-related People*
Vactrain*
The Railway History of Towcester*
iRail - UK / Ireland Model Railway & Railway Web Directory Index of all railway and model railway related websites in the UK and Ireland.
*
Railroad History annotated guide to historical sources on www
*
The Future of Rail: - A one day conference and exhibition in the UK - 25th May 2006 at the Birmingham International Convention Centre
*
Railpage Australia and New Zealand- A huge resource for railways and railway information in Australia and New Zealand
*
Railways of the Commonwealth of Australia- detailed history and rolling stock of the Australia Commonwealth railways
*
Indian Railways Under British rule*
Indian Railways Fan Club*
Channel tunnel rail crossing*
RailServe.com: The Internet Railroad Directory - directory of 10,000+ rail-related sites
*
Trainorders.com - Focus on North American railroads
*
V/LineCars.com - Operations and Carriages Information/Enthusiast Website for V/Line, the
InterUrban and
InterCity passenger railway operator in the state of Victoria, Australia
*
Railway pictures - published on
Usenet stored with optional search function.
*http://www.northrail.co.nr - defending rail services and jobs in the north of England
*http://bueker.net/trainspotting/maps.php - maps of European railway networks
*https://www.cia.gov/cia/publications/factbook/fields/2121.html - rail transport by country
*http://www.bahn.de/pv/uebersicht/die_bahn_international_guests.shtml - travel planner of German Railways (covers Europe and the Trans-Siberian railway)
*http://www.railpassengers.org.uk/News/OtherPublications/Council/Railfuture_NRIS - National Railcard International Survey - survey of national rail discount cards in various European countries
*
Barraclou.com - Rail*
The Granite Railway and its Associated Enterprises, by Robert E. Scholes, copyright 1968 (not the
first railroad in the United States)
*
RTD Flexible Railway Passenger Car Concepts For Efficient And Attractive Passenger Transportation*
Indian Railways*
Steel Wheels AF Garnett- This book is about the evolution of the railways and about the engineers and architects who made them possible
*
California High-Speed Rail Authority*
Railways Online - A resource for railways in Great Britain
*
Railpage was set up in 1992. It is currently Australia's biggest rail related site.
*
Middleton Railway, Leeds*
IMB International Maglev Board*
Railroad Collections Archives Center, National Museum of American History, Smithsonian Institution.
*
Maglev World Forum*
Campaign Against New Beeching Report*Railways: History, Signaling, Engineering [
4]
*
Trains At A Glance Indian Railway Time Table
*
Railfanning.org: U.S.-based Web site about railroads*
U.S. Railroad Industry Employment Statistics Tracks industry trends from 1947 to present
*
Railfaneurope.net, major European rail-related site with extensive
picture archive and
lists of rolling stock
