Light rail
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223950928
2008-07-06T17:41:44Z
Denverjeffrey
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Added picture of Denver light rail to gallery at end.
:''For specific light rail systems, many of which use the words "light rail" as part of their name, see [[List of light-rail transit systems]].''
[[Image:Tranvía de Tenerife.JPG|thumb|[[Tranvia de Tenerife]], [[Tenerife]] [[Spain]]]]
[[Image:Metrolink Tram.jpg|right|thumb|[[Manchester Metrolink]] Tram in [[Piccadilly Gardens]], [[Manchester]] [[UK]]]]
[[Image:T Third Islais.jpg|right|thumb|[[San Francisco Municipal Railway]], [[San Francisco]], [[California]]]]
'''Light rail''' or '''light rail transit (LRT)''' is a form of [[urban rail transit|urban rail]] [[public transportation]] that generally has a lower capacity and lower speed than [[Passenger_rail_terminology#Heavy_rail|heavy rail]] and [[metro]] systems. The term is used to refer to modern streetcar/[[tram]] systems with [[rapid transit]]-style features that usually use [[Electric Multiple Unit|electric rail cars]] operating mostly in [[Right-of-way (transportation)|private rights-of-way]] separated from other traffic but sometimes, if necessary, mixed with other traffic in city streets.
'''Light rail''', unlike '''rapid transit''', is usually not fully [[grade separation|grade-separated]] from other forms of traffic and thus is a step below a true rapid transit system.<ref>{{cite web
| title = Planning Portal Glossary
| publisher = UK government
| date = 2008
| url = http://www.planningportal.gov.uk/england/government/en/1115310689347.html
| accessdate = 2008-02-14}}
</ref><ref>{{cite web
| title = Glossary
| work = Rail System Plan
| publisher = Iowa Department of Transportation
| date = 2008
| url = http://www.dot.state.ia.us/railplan/glossary.htm
| accessdate = 2008-02-14}}
</ref><ref> {{cite web
| title = Glossary of Transit Terminology
| work = Online Publications and Databases
| publisher = American Public Transportation Authority
| date = 2008
| url = http://www.apta.com/research/info/online/glossary.cfm
| accessdate = 2008-02-14}}
</ref>
==Definition of ''light rail''==
{{see also|Passenger rail terminology}}
The term ''light rail'' was devised in 1972 by the U.S. Urban Mass Transportation Administration (UMTA) to describe new streetcar transformations which were taking place in Europe and the United States. In Germany the term [[stadtbahn]] was used to describe the concept, and many in the UMTA wanted to adopt the direct translation, which is ''city rail''. However, the UMTA finally adopted the term ''light rail'' instead.<ref>Gregory L. Thompson (2003), ''Defining an Alternative Future: Birth of the Light Rail Movement in North America'', Transportation Research Board, http://trb.org/publications/circulars/ec058/03_01_Thompson.pdf </ref> ''Light'' in this context is used in the sense of "intended for light loads and fast movement", rather than referring to physical weight, since the vehicles often weigh more than those on so-called heavy rail systems. The investment in infrastructure is also usually lighter than would be found for a heavy rail system.
The [http://www.apta.com/ American Public Transportation Association ] (APTA) in its Glossary of Transit Terminology defines ''light rail'' as: "An electric railway with a 'light volume' traffic capacity compared to heavy rail. Light rail may use shared or exclusive rights-of-way, high or low platform loading and multi-car trains or single cars." However, some diesel powered transit calls itself light rail, such as the [[O-Train]] in [[Ottawa]], [[Canada]] and [[River Line (NJ Transit)|River Line]] in [[New Jersey]], [[United States]], which use [[diesel multiple unit]] cars. In traditional transit terminology, these would be considered commuter rail lines.
''Light rail'' is similar to the [[British English]] term ''[[light railway]]'', long used to distinguish railway operations carried out under a less rigorous set of regulation using lighter equipment at lower speeds from mainline railways. ''Light rail'' is a generic [[international English]] phrase for these types of rail systems which means more or less the same thing throughout the [[Anglosphere]].
The use of the generic term ''light rail'' avoids some serious incompatibilities in [[List of words having different meanings in British and American English|British and American English]]. The common British word for [[streetcar]], ''tram,'' is commonly used in the United States to mean an [[aerial tramway]],<ref>{{cite web
| title = definition of tram - Merriam-Webster Online Dictionary
| url = http://www.m-w.com/dictionary/tram
| accessdate = 2007-07-18}}</ref> while the usual British term for an aerial tramway, [[aerial tramway|cable car]], usually means a ground-level [[cable car (railway)|cable car]] in the U.S. The word [[trolley (disambiguation)|trolley]] which is often used as a synonym for ''streetcar'' in the United States, is usually taken to mean a cart, particularly a shopping cart, in Britain.<ref>{{cite web
| title = definition of trolley - Merriam-Webster Online Dictionary
| url = http://www.m-w.com/dictionary/trolley
| accessdate = 2007-07-18}}</ref> Most former British colonies use the British term ''tram'', but in Canada the American term ''streetcar'' is preferred. Many North American [[Professional Transportation Planner|transportation planner]]s reserve ''streetcar'' for traditional vehicles that operate exclusively in mixed traffic on city streets, while they use ''light rail'' to refer to more modern vehicles operating mostly in exclusive rights of way, since they may operate both side-by-side targeted at different passenger groups.<ref>{{cite web
| title = Light Rail Transit - Encyclopedia Britannica
| url = http://www.britannica.com/eb/article-9048223/light-rail-transit
| accessdate = 2007-07-18}}</ref>
The difference between British English and American English terminology arose in the late nineteenth century when Americans adopted [[German American]] rather than British terminology for their electric street railways. German immigrants (who were more numerous than British immigrants in the industrialized Northeast) translated the German term ''straßenbahn'' (literally "street railway") into ''streetcar'' rather than ''tram''.<ref>{{cite web
| title = Trams, Streetcars and Light Rail Vehicles
| author = Simon P Smiler
| url = http://citytransport.info/Trams02.htm
| accessdate = 2007-07-18}}</ref> A further difference arose because, while Britain abandoned all of its ''trams'' except [[Blackpool tramway|Blackpool]] after WWII, seven major North American cities ([[Toronto streetcar system|Toronto]], [[Boston-area streetcar lines|Boston]], [[SEPTA Subway-Surface Trolley Lines|Philadelphia]], [[San Francisco Municipal Railway|San Francisco]], [[Pittsburgh Light Rail|Pittsburgh]], [[Newark Light Rail|Newark]], and [[Streetcars in New Orleans|New Orleans]]) continued to operate large ''streetcar'' systems.<ref>{{cite web
| last = Plous, Jr
| first = F.K.
| title = A Desire Named Streetcar
| work = Planning magazine
| publisher = American Planning Association
|date=June 1984
| url = http://www.planning.org/25anniversary/planning/1984jun.htm
| format =
| accessdate = 2007-08-14 }}</ref> When these cities upgraded to new technology, they called it ''light rail'' to differentiate it from their existing ''streetcars'' since some continued to operate both the old and new systems. [[Portland, Oregon]] built all three types of light rail/streetcar/tram system: a high capacity [[MAX Light Rail|light rail system]] , a low capacity [[Portland Streetcar|streetcar system]], and an [[Portland Aerial Tram|aerial tram system]].
The opposite phrase ''heavy rail'', used for higher capacity, higher speed systems also avoids some incompatibilities in terminology between British and American English, as for instance in comparing the [[London Underground]] to the [[New York Subway]]. Conventional rail technologies including [[high-speed rail|high-speed]], freight, [[regional rail|commuter/regional]], and [[Rapid transit|metro/subway]] are considered to be "heavy rail". [[People mover]]s and [[personal rapid transit]] are even "lighter," at least in terms of capacity. [[Monorail]] is a separate technology which has been more successful in specialized services than in a commuter transit role.
==Categories of light rail==
The most difficult distinction to draw is that between light rail and streetcar or tram systems. There is a significant amount of overlap between the technologies, many of the same vehicles can be used for either, and it is common to classify streetcars/trams as a subtype of light rail rather than as a distinct type of transportation. The two general versions are:
# The traditional type, where the tracks and trains run along the streets and share space with road traffic. Stops tend to be very frequent, but little effort is made to set up special stations. Because space is shared, the tracks are usually visually unobtrusive.
# A more modern variation, where the trains tend to run along their own [[Right-of-way (railroad)|right-of-way]] and are often separated from road traffic. Stops are generally less frequent, and the vehicles are often boarded from a platform. Tracks are highly visible, and in some cases significant effort is expended to keep traffic away through the use of special signaling, [[level crossing]]s with gate arms or even a complete separation with non-level crossings. At the highest degree of separation, it can be difficult to draw the line between light rail and [[metro]]s, as in the case of [[Wuppertal]]'s [[Schwebebahn Wuppertal|Schwebebahn]] hanging rail system or [[London]]'s [[Docklands Light Railway]], which would likely not be considered "light" were it not for the contrast between it and the [[London Underground]]. Increasingly, light rail is being used to describe any rapid transit system with a fairly lower frequency compared to heavier mass rapid systems such as the [[London Underground]] or the [[Mass Rapid Transit (Singapore)|Mass Rapid Transit]] in [[Singapore]].
Many light rail systems — even fairly old ones — have a combination of the two, with both on road and off-road sections. In some countries (esp. in Europe), only the latter is described as light rail. In those places, trams running on mixed right of way are not regarded as light rail, but considered distinctly as streetcars or trams. However, the requirement for saying that a rail line is "separated" can be quite minimal — sometimes just with concrete "buttons" to discourage [[automobile]] drivers from getting onto the tracks.
There is a significant difference in cost between these different classes of light rail transit. The traditional style is often less expensive by a factor of two or more. Despite the increased cost, the more modern variation (which can be considered as "heavier" than old streetcar systems, even though it is called "light rail") is the dominant form of urban rail development in the [[United States]].
Some systems, such as the [[AirTrain JFK]] in New York City and [[Docklands Light Railway|DLR]] in London and [[Kelana Jaya Line]] in [[Kuala Lumpur]], [[Malaysia]] have dispensed with the need for an operator. The [[Vancouver, British Columbia|Vancouver]] [[SkyTrain (Vancouver)|SkyTrain]] was an early adopter of driverless vehicles, while the [[Toronto, Ontario|Toronto]] [[Scarborough RT (TTC)|Scarborough rapid transit]] operates the same trains as Vancouver, but uses drivers.
Ultra light rail schemes are designed to offer high cost effectiveness and also easy deployment by using modern techniques and materials to dramatically reduce the weight of the vehicles. Ultra light vehicles cannot as a result co-exist with heavy rail or even most light rail systems as the light construction, comparable to that of a car or bus, is insufficiently strong to take an impact with a conventional train. It is however perfectly adequate in the event of collisions with road vehicles or other ultra light rail vehicles. Keeping the weight down allows for energy efficiency comparable with or better than a bus and regular stopping points using nothing more than a cheap gasoline/petrol engine and flywheel. In addition the low weight reduces the cost of track and [[civil engineering]] and thus the otherwise high initial construction costs. {{Fact|date=February 2007}}
==History==
{{main|History of Trams}}
{{see also|Light rail in North America#History of Streetcar and Light rail}}
Many original Tram and Streetcar systems were decommissioned in the 1950s and onward as the popularity of the [[automobile]] increased. Britain abandoned its last Tram system except [[Blackpool]] by 1962.<ref>
{{cite web
| url = http://www.thetrams.co.uk/tramsinuk.php
| title = Trams in the UK
| accessdate = 2006-12-18
| author = Peter Courtenay
|date=2006
}} </ref> Although some traditional trolley or tram systems still exist to this day, the term "light rail" has come to mean a different type of rail system. Modern light rail technology has primarily German origins, since an attempt by [[Boeing Vertol]] to introduce a new American light rail vehicle was a technical failure. After World War II, the Germans retained their streetcar networks and evolved them into model light rail systems (''stadtbahnen''). Except for Hamburg, all large and most medium-sized German cities maintain light rail networks.<ref name="Bottoms">
{{cite conference
| first = Glen
| last = Bottoms
| title = Continuing Developments in Light Rail Transit in Western Europe
| booktitle =
| pages =
| publisher = Light Rail Transit Association
|date=2000
| location = 9th Annual Light Rail Transit Conference, Portland, Oregon
| url = http://onlinepubs.trb.org/onlinepubs/circulars/ec058/15_01_Bottoms.pdf
| accessdate = 2007-01-02 }} </ref>
The renaissance of light rail in North America began in 1978 when the Canadian city of [[Edmonton, Alberta]] adopted the German [[Siemens-Duewag U2]] system, followed three years later by [[Calgary]], [[Alberta]] and [[San Diego, California]]. Britain began replacing its run-down local railways with light rail in the 1980s, starting with [[Tyneside]] and followed by the [[Docklands Light Railway]] in London. The trend to light rail in the United Kingdom was firmly established with the success of the [[Manchester Metrolink]] system in 1992.
Historically, the [[rail gauge]] has had considerable variations, with [[narrow gauge railways|narrow gauge]] common in many early systems. However, most light rail systems are now [[standard gauge]].<ref name="Bottoms"/> An important advantage of standard gauge is that standard railway maintenance equipment can be used on it, rather than custom-built machinery. Using standard gauge also allows light rail vehicles to be delivered and relocated conveniently using freight railways and locomotives. Another factor favoring standard gauge is that low-floor vehicles are becoming popular, and there is generally insufficient space for wheelchairs to move between the wheels in a narrow gauge layout.
==Comparison to other rail transit modes==
With its mix of right-of-way types and train control technologies, LRT offers the widest range of latitude of any rail system in the design, engineering, and operating practices. The challenge in designing light rail systems is to realize the potential of LRT to provide fast, comfortable service while avoiding the tendency to over-design that results in excessive capital costs beyond what is necessary to meet the public's needs.<ref>
{{cite paper
| author = Fazio, A. E. and Hickey, T. R.
| title = Designing New Light Rail - Taking Engineering Beyond Vanilla
| version = Circular E-C058: 9th National Light Rail Transit Conference
| publisher = Transportation Research Board
|date=2003
| url = http://pubsindex.trb.org/document/view/default.asp?lbid=700178
| accessdate = 2006-11-10
}} </ref>
===Rapid rail transit===
{{Details|Rapid transit}}
LRVs are distinguished from rapid rail transit (RRT) vehicles by their capability for operation in mixed traffic, generally resulting in a narrower car body and articulation in order to operate in a traffic street environment. With their large size, large turning radius, and often an electrified third rail, RRT vehicles cannot operate in the street. Since LRT systems can operate using existing streets, they often can avoid the cost of expensive subway and elevated segments that would be required with RRT.
===Streetcars or trams===
{{Details|Tram}}
Conversely, LRVs generally outperform streetcars in terms of capacity and top end speed, and almost all modern LRVs are capable of multiple-unit operation. Particularly on exclusive rights-of-way, LRVs can provide much higher speeds and passenger volumes than a streetcar. Thus a single-unit streetcar capable of only 70 km/h (45 mph) operating on an shared right of way is not generally considered “light rail”. The latest generation of LRVs is considerably larger and faster, typically of length of {{convert|29|m|ft}} with maximum speed around {{convert|105|km/h|mph}}.<ref> {{cite web
| title = Technical Data
| work = Light Rail Vehicle System Houston/Texas, USA
| publisher = Siemens
| date = 2008
| url = http://references.transportation.siemens.com/refdb/showReference.do?r=1920&div=3&div=5&div=2&div=8&l=en
| accessdate = 2008-03-18}}
</ref>
===Heritage streetcar===
{{Details|Heritage streetcar}}
A variation many cities consider is to use historic or replica cars on their streetcar systems instead of modern LRVs. A heritage streetcar may not have the capacity and speed of an LRV, but it will add to the ambiance and historic character of its location.
===Typical rolling stock===
{|
! Type
| Rapid Transit || Light Rail || Streetcar
|-
! Manufacturer
| Rohr || Siemens || St. Louis Car
|-
! Model
| BART A-Car || S70 || PCC
|-
! Width
| 3.2 m (10.5 ft) || 2.7 m (8.7 ft) || 2.5 m (8.3 ft)
|-
! Length
| 22.9 m (75 ft) || 27.7 m (91 ft) (articulated) || 14.2 m (47 ft)
|-
! Capacity
| 150 max || 220 max || 65 max
|-
! Top Speed
| 125 km/h (80 mph) || 106 km/h (66 mph) || 70 km/h (45 mph)
|-
|}
===Light metro===
{{Details|Medium capacity system}}
A derivative of LRT is light rail rapid transit (LRRT), also referred to as ''Light Metro.'' Such railways are characterized by exclusive rights of way, advanced train control systems, short headway capability, and floor level boarding. These systems approach the passenger capacity of full metro systems, but can be cheaper to construct by using the ability of LRVs to turn tighter curves and climb steeper grades than standard RRT vehicles.
===Train operation===
{{Details|Automatic train operation}}
An important factor crucial to LRT is the train operator. Unlike rail rapid transit, traveling unattended with automatic train operation (ATO), the operator is a key element in a safe, high-quality LRT operation. The reason that the operator is so important is because the train tracks often run on roads with cars. If trains were automated on roads, a person wouldn't be there to stop the train if a car pulled in front of it. Light rail trains are actually very heavy to prevent damage from impacts with cars. Thus, a train with ATO is not “light rail”. The philosophy of light rail is that a qualified person should be on each train to deal with emergencies{{Fact|date=April 2007}}, and while that person is there, he or she might as well operate the train.
===Floor height===
{{Details|Low floor}}
The latest generation of LRVs has the advantage of partial or fully low-floor design, with the floor of the vehicles only 300 to 360 mm (12-14 inches) above top of rail, a capability not found in either rapid rail transit vehicles or streetcars. This allows them to load passengers, including ones in wheelchairs, directly from low-rise platforms that are not much more than raised sidewalks. This satisfies requirements to provide access to disabled passengers without using expensive wheelchair lifts, while at the same time making boarding faster and easier for other passengers as well.
===Power sources===
[[Overhead lines]] supply [[electricity]] to the vast majority of light rail systems. This avoids the danger of passengers stepping on an electrified third rail. The [[Docklands Light Railway]] uses a standard [[third rail]] for its electrical power. Trams in [[Bordeaux]], France use a [[Ground level power supply|special third-rail configuration]] where the power is only switched on beneath the trams, making it safe on city streets. Several systems in [[Europe]], as well as a few recently-opened systems in North America use [[diesel]]-powered trains.
==Pros and cons of light rail==
{{main|Tram system#Pros and cons of tram systems}}
All transit service involves a tradeoff between speed and frequency of stops. Services that stop frequently have lower overall speed, and are therefore less attractive for longer trips. Metros, light rail, [[monorail]], and [[Bus Rapid Transit]] are all forms of [[rapid transit]] — which generally signifies high speed and widely-spaced stops. Trams are a form of local transit, making more frequent stops.
==Tram and light-rail transit systems around the world==
[[Image:Trendelacosta.JPG|thumb|right|[[Tren de la Costa]] in [[Buenos Aires]] ]]
{{main|Tram and light-rail transit systems}}
Around the world there are many tram systems; some date back from the early 20th century but countless number of the old systems were closed down with the exception of many Eastern Europe countries in the mid-20th century. Even though many of the systems have closed down over the years there are still tram systems that have been operating much as they did when they were first built over a century ago. Some cities that have once closed down their tram networks are now in the stages of reconstructing their tramways.
Most of light rail services are currently committed to articulated vehicles like modern LRVs, i.e. [[tram]]s, with exception of large underground metrosystems.<ref>Borgdorff, D.A. - [[HTM Personenvervoer|HTM]] LRV [[GTL]]8, The Hague, 2000, ISBN 9090139354</ref>
==Capacity of light rail versus roads==
One line of light rail has more than 8 times the capacity of one lane of freeway during peak times. Roads have ultimate capacity limits which can be determined by [[Traffic engineering (transportation)|traffic engineering]]. They usually experience a chaotic breakdown in flow and a dramatic drop in speed (colloquially known as a [[traffic jam]]) if they exceed about 2,000 vehicles per hour per lane (each car roughly [[two-second rule (road)|two seconds]]) behind another).<ref> Matt Lorenz and Lily Elefteriadou (2000) ''A Probabilistic Approach to Defining Freeway Capacity and Breakdown'', Transportation Research Board, http://onlinepubs.trb.org/onlinepubs/circulars/EC018/08_52.pdf </ref> Since most people who drive to work or on business trips do so alone, studies show that the average car occupancy on many roads carrying commuters is only about 1.2 people per car during the high-demand [[rush hour]] periods of the day.<ref> {{cite paper
| author = Imogen Martineau, BA (Hons), MSc
| title = Car passengers on the UK’s roads: An Analysis
| publisher = liftshare.org
| date = June 14, 2005
| url = http://www.liftshare.org/download/car-passengers-analysis.pdf
| format = PDF
| accessdate = 2008-05-16}}
</ref>. This combination of factors limits roads carrying only automobile commuters to a maximum of about 2,400 passengers per hour per lane. The problem can be mitigated by using high-occupancy vehicle ([[HOV]]) lanes and introducing [[ride-sharing]] programs, but in most cases the solution adopted has been to add more lanes to the roads. Simple arithmetic shows that in order to carry 20,000 automobile commuters per hour per direction, a [[freeway]] must be at least 18 lanes wide.
By contrast, light rail vehicles can travel in multi-car trains carrying up to 20,000 passengers per hour in much narrower [[Right-of-way (transportation)|rights-of-way]], not much more than two car lanes wide for a [[double track]] system.<ref> Tom Parkinson and Ian Fisher (1996) ''Rail Transit Capacity'', Transportation Research Board, http://nrc40.nas.edu/news/blurb_detail.asp?id=2603 </ref> They can often be run through [[tramway tracks|existing city streets and parks]], or placed in the [[median (road)|medians of roads]]. If run in streets, trains are usually limited by city block lengths to about four 180-passenger vehicles (720 passengers). Operating on 2 minute headways using traffic signal progression, a well-designed two-track system can handle more than 30 trains per hour, achieving peak rates of over 20,000 passengers per hour per track. More advanced systems with separate rights-of-way using [[railway signalling|moving block signalling]] can exceed 25,000 passengers per hour per track.<ref>''Transit Capacity and Quality of Service Manual'', Transportation Research Board, http://www.trb.org/news/blurb_detail.asp?id=2326</ref>
Most North American light rail systems are limited by demand rather than capacity and seldom reach 10,000 passengers per hour per track, but systems elsewhere in the world often have much higher passenger volumes. The [[Manila Light Rail Transit System]] is one of the highest capacity ones, having being upgraded in a series of expansions to handle 40,000 passengers per hour per direction, and currently carrying up to 400,000 passengers per day on its Line #1.<ref> {{cite web
| title = LRT Posts Record High Ridership, Revenue
| publisher = Manilla Light Rail Transit Authority
| date = March 8, 2007
| url = http://www.lrta.gov.ph/press_release/press_release_070308_LRTRecordHighRidership.htm
| accessdate = 2008-05-16}}
</ref> It achieves this volume by running 4-car trains of up to 1350 passengers at a frequency of up to 30 trains per hour.
==Costs of light rail construction and operation==
The cost of light rail construction varies widely, largely depending on the amount of tunneling and elevated structures required. A survey of North American light rail projects<ref name=LRNOW>
{{cite web
| last = Light Rail Now
| year = 2002
| url = http://www.lightrail.com/projects.htm
| title = Status of North American Light Rail Projects
| publisher =
| accessdate = 2006-11-23
}} </ref> shows that costs of most LRT systems range from $15 million per mile to over $100 million per mile. Seattle's new light rail system is by far the most expensive in the U.S. at $179 million per mile, since it includes extensive tunneling in poor soil conditions, elevated sections, and stations as deep as 180 feet below ground level.<ref>
{{cite web
| last = Sound Transit
| year = 2006
| url = http://www.soundtransit.org/x1171.xml
| title = Link Light Rail Projects
| publisher = Central Puget Sound Regional Transit Authority
| accessdate = 2006-11-23
}} </ref> These result in costs more typical of subways or rapid transit systems than light rail. At the other end of the scale, four systems (Baltimore MD, Camden NJ, Sacramento CA, and Salt Lake City UT) incurred costs of less than $20 million per mile. Over the U.S. as a whole, excluding Seattle, new light rail construction costs average about $35 million per mile.<ref name="LRNOW" />
By comparison, a freeway lane expansion typically costs $20 million per lane mile for two directions. <ref> http://www.wsdot.wa.gov/biz/construction/pdf/HighwayCosts.pdf </ref> Since a light rail line can carry 20,000 people per hour as compared with 2,400 people per hour for a freeway lane during peak times, light rail delivers 4 times the congestion-reduction potential per dollar as incremental freeway lanes.
Combining highway expansion with LRT construction can save costs by doing both highway improvements and rail construction at the same time. As an example, Denver's
[[Transportation Expansion Project (Denver)|T-REX (Transportation Expansion) project]] rebuilt interstate highways 25 and 225 and added a light-rail expansion for a total cost of $1.67 billion over five years.<ref>
{{cite news
| first=Mark
| last=Shaw
| url=http://www.constructor.construction.com/coverStories/archives/2006-05.asp
| title=Reinventing a Corridor: Denver's T-REX project nears completion after five years
| work=Constructor
| publisher=McGraw-Hill Construction
|date=May/June 2006
| accessdate=2006-11-20
}} </ref> The cost of 17 miles of highway improvements and 19 miles of double-track light rail worked out to $19.3 million per highway lane-mile and $27.6 million per LRT track-mile. The project came in under budget and 22 months ahead of schedule.<ref>
{{cite news
| first=Kevin
| last=Flynn
| url=http://www6.lexisnexis.com/publisher/EndUser?Action=UserDisplayFullDocument&orgId=1593&topicId=21355&docId=l:532872610
| title=T-REX trains ready to roll
| work= Rocky Mountain News (Denver, CO)
| publisher=
|date=2006-11-17
| accessdate=2006-11-20
}} </ref>
LRT cost efficiency improves dramatically as ridership increases. the [[Calgary]], [[Alberta]] [[C-Train]] used many common light rail techniques to keep costs low, including minimizing underground and elevated trackage, sharing transit malls with buses, leasing rights-of-way from freight railroads, and combining LRT construction with freeway expansion. As a result, Calgary ranks toward the less expensive end of the scale with capital costs of around $24 million per mile.<ref name=McKendrick>
{{cite paper
| author = McKendrick et al.
| title = Calgary's C-Train - Effective Capital Utilization
| version = Joint International Light Rail Conference, St. Louis, Missouri
| publisher = Calgary Transit
| date=2006
| url = http://www.calgarytransit.com/pdf/Calgary_CTrain_Effective_Capital_Utilization.pdf
| format = PDF
| accessdate = 2008-02-11}}
</ref>
However, Calgary's LRT ridership is much higher than any comparable U.S. city at over 250,000 rides per weekday and as a result its efficiency of capital is also much higher. Its capital costs were ⅓ that of the San Diego system, a comparably sized one in the U.S., while its ridership is approximately twice as high. Thus, Calgary's capital cost per weekday rider is less than one quarter that of San Diego. Its operating costs are also lower. A typical C-Train vehicle costs only $163 per hour to operate, and since it averages 600 passengers per operating hour,<ref>
{{cite web
| last = CTS
| title = LRT technical data
| publisher = Calgary Transit
|date=2006
| url = http://www.calgarytransit.com/html/technical_information.html
| accessdate = 2006-10-14 }}
</ref> Calgary Transit estimates that its LRT operating costs are only 27 cents per ride, versus $1.50 per ride on its buses.<ref name="McKendrick" />
==Variations==
===Trams operating on mainline railways===
Around [[Karlsruhe]], [[Kassel]] and [[Saarbrücken]] in [[Germany]], dual-voltage light rail trains partly use mainline railroad tracks, sharing these tracks with heavy-rail trains. In the [[Netherlands]], this concept was first applied on the [[RijnGouweLijn]]. This allows commuters to ride directly into the city centre, rather than taking a mainline train only as far as a central station and then having change to a tram. In [[France]] similar [[tram-train]]s are planned for [[Paris]], [[Mulhouse]] and [[Strasbourg]]; further projects exist.
Some of the issues involved in such schemes are:
*compatibility of the safety systems
*power supply of the track in relation to the power used by the vehicles (frequently different voltages, rarely third rail vs overhead wires)
*[[width]] of the vehicles in relation to the position of the [[railway platform|platforms]]
*[[height]] of the platforms
There is history of what would now be considered light-rail vehicles operating on heavy-rail [[rapid transit]] tracks in the [[United States of America|U.S.]], especially in the case of [[interurban streetcar]]s. Notable examples are [[Lehigh Valley Transit]] trains running on the [[Philadelphia and Western Railroad]] high-speed third rail line (now the [[Norristown High Speed Line]]). Such arrangements are almost impossible now, due to the [[Federal Railroad Administration]] refusing (for crash safety reasons) to allow non-FRA compliant railcars (i.e. subway and light rail vehicles) to run on the same tracks at the same times as compliant railcars, which includes locomotives and standard railroad passenger and freight equipment. A notable exception is the [[New Jersey Transit]] [[River Line (New Jersey Transit)|River Line]] from [[Camden, New Jersey|Camden]] to [[Trenton, New Jersey|Trenton]], which has received an exemption on the provision that light rail operations occur only during daytime hours and [[Conrail]] freight service only at night, with several hours separating one operation from the other.
{{seealso|Karlsruhe model}}
===Third-rail power for trams===
{{Main|Ground-level power supply}}
In the [[France|French]] city of [[Bordeaux]], [[Citadis]] trams are powered by a [[Ground-level power supply|third rail]] in the city center, where the tracks are not always segregated from pedestrians and cars.<ref>
{{cite web
| last = APTA
| title = Bordeaux Light Rail Route Will Operate Without Overhead Lines
| publisher = American Public Transportation Associatio
| date = 2003
| url = http://www.apta.com/services/intnatl/intfocus/bordeaux.cfm
| accessdate = 2007-12-21}}
</ref> The third rail (actually two closely spaced rails) is placed in the middle of the track, and divided into eight-metre sections, each of which is only powered while it is completely covered by a tram. This minimises the risk of a person or animal coming into contact with a live rail. In outer areas, the trams switch to conventional [[Overhead lines|overhead wires]].
In [http://www.railway-technology.com/contractors/suburban/alstom/press17.html practice] the Bordeaux power system cost about three times as much as a conventional overhead wire system and took 24 months to achieve acceptable levels of reliability, requiring replacement of all the main cables and power supplies. Operating and maintenance costs of the innovative power system still remain high. However, despite numerous service outages, the system was a success with the public, gaining up to 190,000 passengers per day.
This third rail technology is being investigated for use on the [[Gold Coast, Queensland|Gold Coast]] of Australia for the [[Gold Coast Rapid Transit]] system. ''See [http://www.pb.com.au/gclightrail the present draft report] here.''
==Gallery==
<gallery>
Image:Changchun light railway red.jpg|[[Changchun LRT]], [[China]]
Image:Shanghai Light Rail Transit.jpg|[[Shanghai Metro]] transit station, [[China]]
Image:MetroRail.jpg|A [[Metropolitan Transit Authority of Harris County, Texas|METRO]] light-rail train approaching Preston Station in downtown [[Houston, Texas|Houston]], [[Texas]], [[USA]].
Image:LYNX Car 104 at TremontStation.jpg|A [[Lynx Light Rail|LYNX]] light rail train from [[Charlotte, North Carolina|Charlotte]], [[North Carolina]], [[USA]].
Image:CT U2 2.jpg|A [[Calgary]] [[C-train]] at the Somerset-Bridlewood station
Image:Guadalajara electrical train station.jpg|The [[Guadalajara, Jalisco|Guadalajara]] urban L-train system ([[Guadalajara Metro|SITEUR]]), at first a trolleybus system, opened in 1976; the first line was opened in 1989 and the second line in 1994.
Image:SWB03XX Hersel.jpg|A [[Flexity Swift]] light rail train between [[Cologne]] and [[Bonn]].
Image:Ac.newtram1.jpg.JPGA [[Citadis]] tram in [[Melbourne]], [[Australia]].
Image:nottingham-express-transit.jpg|A [[Nottingham Express Transit|NET]] tram in [[Nottingham]] city centre.
Image:DART rail.jpg|A [[Dallas Area Rapid Transit|DART]] Light Rail train operating in downtown [[Dallas, Texas|Dallas]], [[Texas]], [[USA]].
Image:Supertram 2006 Livery (2).jpg|[[Sheffield Supertram]], [[Sheffield]].
Image:Tyne&Wear Metrotrain at Kingston Park station.jpg|A [[Tyne and Wear Metro]] train heading for [[South Shields]] calls at Kingston Park station. Although nominally "light rail" the high platforms and full segregation from roads and pedestrians places this system at the upper end of the transport genre which includes street trams.
Image:Adelaide Flexity.jpg|New [[Flexity Classic]] tram in service on [[Glenelg Tram|Glenelg]] line in [[Adelaide]], [[South Australia]].
Image:light rail estadio azteca.jpg|[[Xochimilco Light Rail]] train approaching to Estadio Azteca station in [[Mexico City]]
Image:Hudson bergen exchange place.jpg|Hudson-Bergen Light Rail trains at the Exchange Place stop in [[Jersey City, New Jersey|Jersey City]]
Image:TRAX train downtown.jpg|[[UTA TRAX]] train in [[Downtown (Salt Lake City)|Downtown]] [[Salt Lake City, Utah|Salt Lake City]]
Image:KCR Light Rail Route 751.jpg[[MTR Light Rail]] in [[Hong Kong]].
Image:PortlandTriMetMAX.jpg|[[Portland, Oregon]]'s [[MAX Light Rail]].
'''Light rail''' or '''light rail transit'''<ref>[[University of Washington]], Office of External Affairs, [http://www.washington.edu/community/glossary.html Glossary]</ref> ('''LRT''') is a form of [[rail transport]] system that generally uses [[electric (rail)|electric]] [[rail car]]s<ref>While the definitions state that electric cars are used, several systems, including the [[O-Train]] and [[River Line (NJ Transit)|River Line]], use [[diesel multiple unit]]s.</ref> on private [[Right-of-way (railroad)|rights-of-way]] or sometimes in streets. Light rail traces its pedigree to [[horse car|horse-drawn]] street railways, whereas rapid transit technology evolved from [[steam locomotive|steam-powered]] [[commuter rail|commuter]] operations, such as were seen in [[London]], [[New York City]], and [[Chicago]]
Image:113 Silesian Interurbans, Citadis car, Bytom.jpg|[[Silesian Interurbans]] - Karlik (Route 41) in [[Bytom]], [[Upper Silesian Industry Area|Upper Silesia]], [[Poland]].
Image:Manila LRT1.jpg|The Yellow Line [[Manila Light Rail Transit System|light rail service]] in [[Manila]], [[Philippines]]
Image:Denverlightrail.jpg|[[Regional Transportation District|Light rail service]] in [[Denver, Colorado]].
</gallery>
==See also==
{{Cleanup-laundry|date=January 2008}}
{|
|-valign=top
|
* [[Conduit current collection]]
* [[General Motors Streetcar Conspiracy]]
* [[H-Bahn]]
* [[Interurban streetcar]]
* [[Light rail in North America]]
* [[Light Rail Transit Association]]
* [[List of light-rail transit systems]]
* [[List of United States light rail systems by ridership]]
* [[List of town tramway (urban tramway, streetcar) systems]]
* [[Luas]]
| width=40 |
|
* [[Metro Light Rail]]
* [[Overhead lines]]
* [[Railway electrification system]]
* [[S-Bahn]]
* [[Third rail]]
* [[TTC Presidents' Conference Car|TTC Streetcar]]
* [[U-Bahn]]
* [[Urban rail transit]]
|}
{{Modes of Public Transport}}
==References==
{{reflist|2}}
==External links==
* [http://hdl.loc.gov/loc.mbrsmi/edmp.1013 A movie] of Armour's electric trolley, circa 1897 from [[Library of Congress]]
* [http://www.eastsiderailnow.org/lrt_technology_advances.html Advances in Light Rail Technology]
* [http://www.rinbad.demon.co.uk/ca_rail.htm List of Canadian urban rail systems]
* Table of [http://apta.com/links/transit_by_mode/lightrail.cfm Light Rail Transit Agencies in the United States]
* [http://www.railserve.com/railnews/commuter_rail_transit.html Commuter Rail, Light Rail & Rail Transit News]
* [http://www.lightrail.com/ Light Rail Central photos & news]
* [http://www.apta.com American Public Transit Association]
* [http://www.fta.dot.gov/ Federal Transit Administration (U.S.)]
* [http://www.railserve.com/railnews/commuter_rail_transit.html Light Rail & Transit News] Current news concerning light rail development and issues
* [http://www.trb.org/ Transportation Research Board (TRB) of the U.S. National Research Council]
* [http://connectedcities.eu/guide/lrt.html Connected Cities]
* [http://www.lrta.org/ Light Rail Transit Association] (GB)
* [http://lightrail.com/ Light Rail Central] (US/CA)
* [http://www.lightrailnow.org/ Light Rail Now!] (US) A pro-light rail web site, opposing monorails, "rapid" busways, and other "gimmickry" transportation systems
* [http://www.lightrail.nl/ Light Rail Netherlands] (NL) in English, Nederlands, Русский, Deutsch, Français, Español
* [http://www.PhoenixLightRail.Net] (US-PHX-AZ) Site shows every business within one block of all 28 stations under construction in Phoenix, AZ. Posted 11/8/2007
* [http://lrt.daxack.ca/ Toronto LRT Information Page] (CA) A pro-light rail web site aimed at the Greater Toronto Area
* [http://www.transitmiami.com Transit Miami]
{{Public transport}}
[[Category:Passenger equipment]]
[[Category:Light rail|*]]
[[Category:Tram transport]]
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