The TGV ("train à grande vitesse", French for "high-speed train") is
France's high-speed railservice developed by GEC-Alsthom (now Alstom) and SNCF, the French national rail operator, and operated primarily by SNCF. Following the inaugural TGV service between Parisand Lyonin 1981, the TGV network, centred on Paris, has expanded to connect cities across France and in adjacent countries. It holds the record for the fastest wheeled train, having reached 574.8 km/h (357 mph) on 3 April, 2007, [ cite web|url=http://www.cnn.com/2007/WORLD/europe/04/03/TGVspeedrecord.ap/index.html |title=French train breaks speed record |accessdate=2008-01-10 |last=Associated Press |date=2007-04-04 |work=cnn.com |publisher=CNN |archiveurl=http://web.archive.org/web/20070407194558/http://www.cnn.com/2007/WORLD/europe/04/03/TGVspeedrecord.ap/index.html |archivedate=2007-04-07 ] [cite news| url=http://www.bloomberg.com/apps/news?pid=20601085&sid=aW23Aw20niIo&refer=europe| title=French TGV Sets Record, Reaching 357 Miles an Hour (Update2)| author=Fouquet, Helene and Viscousi, Gregory| publisher=Bloomberg| date= 2007-04-03| accessdate=2007-09-19| ] and also holds the world's highest average speed for a regular passenger service. TGV is a registered trademark of SNCF.
The success of the first line led to an expansion of the network, with new lines built in the south, west, north and east of the country. Eager to emulate the success of the French network, neighbouring countries such as
Belgium, Italy, Spainand Germanybuilt their own high-speed lines. TGVs link with Switzerlandthrough the French network, with Belgium, Germanyand the Netherlandsthrough the Thalysnetwork, and the Eurostarnetwork links France and Belgium with the United Kingdom. Several lines are planned, including extensions within France and to surrounding countries. Towns such as Tourshave become a part of a "TGV commuter belt".
TGV trainsets travel at up to 320 km/h (200 mph) in commercial use. A "specially modified" 2 engine car trainset (coaches removed) reached 574.8 km/h (357 mph) on a test run. The double decker TGV narrowly missed beating the overall world train speed record of 581km/h (360.8mph), which was reached in 2003 by a Japanese
maglev train[http://www.telegraph.co.uk/news/migrationtemp/1547513/French-train-sets-new-world-speed-record.html] . The method used to achieve record-breaking speed, however, is impractical for commercial applications because of motor overcharging, empty train weight, rail and engine wear issues, elimination of all but two coaches, excessive vibration and noise and lack of emergency stopping methods.
The high speed of the TGV is made possible through the use of specially-designed LGVs ("lignes à grande vitesse", high-speed lines) without sharp curves and with high-powered
electric motors, enlarged wheels, low axle weight, articulated carriages and in-cab signalling (eliminating the need for drivers to view lineside signals at high speed). TGV trainsets are manufactured primarily by Alstom, now often with the involvement of a subcontractor, such as Bombardier. Except for a small series of TGVs used for postal freight between Paris, Lyon and Provence, the TGV is primarily a passenger service. Trains derived from TGV designs operate in South Korea(KTX), Spain( AVE) and USA( ACELA Express).
Travel by TGV has largely replaced air travel between connected cities, due to shorter travel times (especially for trips taking less than three hours), reduced
check-in, security and boarding formalities, and the convenient location of stations in the hearts of cities. The TGV is generally a safe mode of transport, but there have been accidents; there have been train passenger fatalities twice from collisions and once due to terrorism, but nothing like the Eschede train disaster.
The idea of the TGV was first proposed in the 1960s, after Japan had begun construction of the
Shinkansenin 1959. At the time the French government favoured new technologies, exploring the production of hovercraftand maglev trains such as Aérotrain. Simultaneously, SNCF began researching high speed trains that would operate on conventional track.
It was originally planned that the TGV, then standing for "très grande vitesse" (very high speed) or "turbine grande vitesse" (high speed turbine), would be propelled by
gas turbine-electric locomotives. Gas turbines were selected for their small size, good power-to-weight ratio, and ability to deliver high power over an extended period. The first prototype, TGV 001, was the only TGV constructed with this engine - following the increase in the price of oil during the 1973 energy crisis, gas turbines were deemed impractical and the project turned to electricityfrom overhead lines. The electricity was to be generated by France's new nuclear power stations.
TGV 001 was not a wasted prototype. [ [http://www.trainweb.org/tgvpages/history.html Early TGV history, TGVWeb web site, accessed April 18, 2008] ] Its gas-turbine powerplant was only one of many technologies for high-speed rail travel. It also tested high speed brakes, needed to dissipate the large amount of
kinetic energyof a train at high speed, high speed aerodynamics, and signalling. It was articulated, meaning that two adjacent carriages shared a bogiebetween them, allowing free yet controlled motion with respect to one another. It reached 318 km/h (198 mph), which remains the world speed record for a non-electric train. Its interior and exterior were styled by British-born designer Jack Cooper, whose work formed the basis of early TGV designs, including the distinctive nose shape of the first TGV power cars.
Changing the TGV to electric traction required a significant design overhaul. The first electric prototype, nicknamed Zébulon, was completed in 1974, testing features such as innovative body mounting of motors, pantographs, suspension and braking. Body mounting of motors allowed over 3 tonnes to be eliminated from the power cars and massively reduced the amount of
unsprung weight. The prototype travelled almost 1,000,000 km (621,000 miles) during testing.
In 1976 the French government funded the TGV project, and construction of the
LGV Sud-Est, the first high-speed line ("ligne à grande vitesse"), began shortly afterwards. The line was given the designation LN1, "Ligne Nouvelle 1" (New Line 1).
After two pre-production trainsets (nicknamed "Patrick" and "Sophie") had been tested and substantially modified, the first production version was delivered on
25 April 1980. The TGV service opened to the public between Parisand Lyonon 27 September, 1981. The initial target customers were businesspeople travelling between those two cities. The TGV was considerably faster than normal trains, cars, or airplanes. The trains became popular outside their target market, the public welcoming fast and practical travel between cities.
Since then, further LGVs have opened in France, including the
LGV Atlantique(LN2) to Tours/ Le Mans(construction begun 1985, in operation 1989); the LGV Nord-Europe (LN3) to Calaisand the Belgian border (construction begun 1989, in operation 1993); the LGV Rhône-Alpes(LN4), extending the LGV Sud-Est to Valence (construction begun 1990, in operation 1992); and the LGV Méditerranée(LN5) to Marseille(construction begun 1996, in operation 2001). The LGV Estfrom Paris to Strasbourgwas inaugurated on 15 March 2007, and opened to the public in the summer of 2007. In its first month of operation, more than 1,000,000 passengers traveled on the line. High speed lines based on LGV technology connecting with the French network have been built in Belgium, the Netherlandsand the United Kingdom.
Eurostarservice began operation in 1994, connecting continental Europeto London via the Channel Tunnelwith a version of the TGV designed for use in the tunnel and in the United Kingdom. The line used the LGV Nord-Europe in France from the outset. The first phase of the British High Speed 1line, or Channel Tunnel Rail Link, was completed in 2003, and the second phase was completed on Wednesday 14 November 2007. The fastest trains take 2 hours 15 minutes on the London-Paris and 1 hour 51 minutes on the London-Brussels route.
The TGV was the world's second commercial high speed service, after Japan's
Shinkansen, which first connected Tokyoand Osakaon 1 October 1964. The TGV currently holds the world speed record for conventional, wheel/rail trains. On 3 April 2007a modified TGV POS train reached 574.8 km/h (357.2 mph) under test conditions on the LGV Est. The voltage on the test track between Paris and Strasbourg was boosted to 31,000 volts and extra ballast was tamped onto the right-of-way. By doing so, it beat the 1990 world speed record of 515.3 km/h (320.2 mph), set by a similarly shortened train (two power cars and three passenger cars), along with unofficial records set during weeks preceding the official record run. The test was part of an extensive research programme by Alstom. [cite press release| publisher=Alstom| date= 18 December 2006| url=http://www.transport.alstom.com/home/news/Hot_news/27681.EN.php?languageId=EN&dir=/home/news/Hot_news/| title=Alstom commits itself to the French very high speed rail programme| accessdate=2007-02-04 ] [cite news| url=http://news.monstersandcritics.com/business/news/article_1263596.php/French_high-speed_TGV_breaks_world_conventional_rail-speed_record| title=French high-speed TGV breaks world conventional rail-speed record| publisher=Deutsche Presse-Agentur (reprinted by Monsters and Critics)| date= 2007-02-14| accessdate=2007-02-14 ]
The TGV is in 2007 the world's fastest conventional scheduled train: one journey's average start-to-stop speed from Lorraine-TGV to Champagne-Ardenne-TGV is 279.3 km/h (173.6 mph). [
Railway Gazette International(September 2007) [http://www.railwaygazette.com/fileadmin/user_upload/railwaygazette.com/PDF/RailwayGazetteWorldSpeedSurvey2007.pdf Railway Gazette International 2007 World Speed Survey Tables] ]
A Eurostar train broke the record for the "longest" non-stop high speed journey in the world on
17 May 2006carrying the cast and filmmakers of "The Da Vinci Code" from Londonto Cannesfor the Cannes Film Festival. The 1421 km (883.0 miles) journey took 7 hours 25 minutes (191.6 km/h or 119 mph). [cite press release| publisher=Eurostar| date= 17 May 2006| url=http://www.eurostar.com/UK/uk/leisure/about_eurostar/press_release/press_archive_2006/17_05_2006_world_record.jsp| title=Eurostar sets new Guinness World Record with cast and filmmakers of Columbia Pictures’ The Da Vinci Code| accessdate=2007-02-15 ]
The record for the "fastest" long distance run was set by a TGV Réseau train travelling from
Calais-Frethun to Marseille(1067.2 km, 663 mi) in 3 hours 29 minutes (306 km/h or 190 mph) for the inauguration of the LGV Méditerranéeon 26 May 2001. [cite news| url=http://news.bbc.co.uk/1/hi/world/europe/1354047.stm| title=French train breaks speed record| publisher=BBC| date= 2001-05-27| accessdate=2007-08-26]
In August 2007, the Dutch students Hildebrand van Kuyeren and Mart Hopman used the TGV, mainly the Paris-Marseille line, to set the world record for train traveling within one week (24,428.2 km / 15,182.2 miles).
28 November 2003the TGV carried its one-billionth passenger, second only to the Shinkansen's five billionth passenger in 2000. The two-billion mark is expected to be reached in 2010.
The newest high-speed lines allow speeds of up to 320 km/h (200 mph) in normal operation. Originally, LGVs were defined as lines permitting speeds greater than 200 km/h (125 mph); this guideline was subsequently revised to 250 km/h (155 mph). TGVs also run on conventional track ("lignes classiques"), at the normal maximum safe speed for those lines, up to a maximum of 220 km/h (137 mph). This is an advantage that the TGV has over, for example,
magnetic levitation trains, as TGVs can serve many more destinations and can use city-centre stations (as in Paris, Lyon, and Dijon). They now serve around 200 destinations in France and abroad.
LGV constructionis similar to that of normal railway lines, but with a few key differences. The radii of curves are larger so that trains can traverse them at higher speeds without increasing the centrifugal forcefelt by passengers. The radii of LGV curves have historically been greater than 4 km (2.5 miles). New lines have minimum radii of 7 km (4 miles) to allow for future increases in speed.
Lines used only for high-speed traffic can incorporate steeper grades than normal. This facilitates the planning of LGVs and reduces the cost of line construction. The considerable momentum of TGVs at high speed allows them to climb steep slopes without greatly increasing their energy consumption. They can also coast on downward slopes, further increasing efficiency. The Paris-Sud-Est LGV features line grades of up to 3.5%. (On the German NBS high-speed line between
Cologneand Frankfurtthey reach 4%.)
Track alignment is more precise than on normal railway lines, and ballast is in a deeper than normal profile, resulting in increased load-bearing capacity and track stability. LGV track is anchored by more sleepers (railroad ties) per kilometre than usual, and all are made of concrete, either mono- or bi-bloc, the latter consisting of two separate blocks of concrete joined by a steel bar. Heavy rail (UIC 60) is used and the rails themselves are more upright, with an inclination of 1 in 40 as opposed to 1 in 20 on normal lines. Use of continuous welded rails in place of shorter, jointed rails yields a comfortable ride at high speed, without the "clickety-clack" vibrations induced by rail joints.
The diameter of tunnels is greater than normally required by the size of the trains, especially at entrances. This limits the effects of air pressure changes, which could be problematic at TGV speeds.
LGVs are reserved primarily for TGVs. One reason for this limitation is that capacity is sharply reduced when trains of differing speeds are mixed. Passing freight and passenger trains also constitute a safety risk, as cargo on freight cars can be destabilised by the air turbulence caused by the TGV. The steep gradients common on LGVs would limit the weight of slow freight trains. Slower trains would also mean that the maximum track cant (banking on curves) would be limited, so for the same maximum speed a mixed-traffic LGV would need to be built with curves of even larger radius. Such track would be much more expensive to build and maintain. Some stretches of less-used LGV are routinely mixed-traffic, such as the
Toursbranch of the LGV Atlantique, and the planned Nîmes/ Montpellierbranch of the LGV Mediterranée. The British High Speed 1from the Channel Tunnelto London has been built with passing loops to support freight use, but this facility has not been used.
Maintenance on LGVs is carried out at night, when no TGVs are running.
Outside France, LGVs often carry non-TGV intercity traffic, often as a requirement of the initial funding commitments.Fact|date=July 2007 The Belgian LGV from Brussels to Liège carries 200 km/h loco-hauled trains, with both the Dutch
HSL Zuidand British High Speed 1planned to carry 200 km/h domestic intercity services. The Channel Tunnelis not an LGV, but it uses LGV-type TVM signalling for mixed freight, shuttle and Eurostar traffic at between 100 km/h and 160 km/h. The "Standard Pathway" for path allocation purposes is the time taken by one of Eurotunnel's own Shuttle trains (maximum speed 140 km/h) to traverse the Tunnel. A single Eurostar running at 160 km/h occupies 2.67 standard paths; a second Eurostar running at minimum distance (3 minutes) behind the first train only "costs" an additional 1 path, which is why the Eurostar services are often flighted 3 minutes apart throughout from London to Lille and vice versa. A freight train running at 120 km/h occupies 1.33 paths. A freight running at 100 km/h occupies 3 paths. This illustrates the problem of mixed traffic at different speeds.Fact|date=July 2007
LGVs are all electrified at 25 kV 50 Hz AC. Catenary wires are kept at a greater mechanical tension than normal lines because the pantograph causes
oscillations in the wire, and the wavemust travel faster than the train to avoid producing standing waves that would cause the wires to break. This was a problem when rail speed record attempts were made in 1990; power wire tension had to be increased further still to accommodate train speeds of over 500 km/h (310 mph). On LGVs, only the rear pantograph is raised, avoiding amplification of the oscillations created by the front pantograph. The front power car is supplied by a cable running along the roof of the train. Eurostar trains are long enough that oscillations are damped sufficiently between the front and rear power cars (the British are wary of running a high-power line through passenger carriages, thus justifying the centrally-located locomotive in their ill-fated Advanced Passenger Train), so both pantographs can be raised - there is no interconnecting high-voltage cable along the 400 m length of the train. On "lignes classiques" slower maximum speeds prevent oscillation problems, and on DC lines both pantographs must be raised.
LGVs are fenced along their entire length to prevent trespassing by animals and people.
Level crossings are not permitted and bridges over the line have sensors to detect objects that fall onto the track.
Because TGVs on LGVs travel too fast for their drivers to see and react to traditional lineside signals, an automated system called TVM ("Transmission Voie-Machine", or "track-to-train transmission") is used for signalling. Information is transmitted to trains via electrical pulses sent through the rails, providing speed, target speed, and stop/go indications directly to the driver via dashboard-mounted instruments. This high degree of automation does not eliminate driver control, though there are safeguards that can safely stop the train in the event of driver error.
The line is divided into signal blocks of about 1500 m (1
mile), with the boundaries marked by blue boards with a yellow triangle. Dashboard instruments show the maximum permitted speed for the train's current block and a target speed based on the profile of the line ahead. The maximum permitted speed is based on factors such as the proximity of trains ahead (with steadily decreasing speeds permitted in blocks closer to the rear of the next train), junction placement, speed restrictions, the top speed of the train and distance from the end of the LGV. As trains cannot usually stop within one signal block, which can range in length from a few hundred metres to a few kilometres, drivers are alerted to slow gradually several blocks before a required stop.
Two versions of TVM signalling, TVM-430 and TVM-300, are in use on LGV. TVM-430, a newer system, was first installed on the LGV Nord to the
Channel Tunneland Belgium, and supplies trains with more information than TVM-300. Among other benefits, TVM-430 allows a train's on-board computer system to generate a continuous speed control curve in the event of an emergency brake activation, effectively forcing the driver to reduce speed safely without releasing the brake.Clarifyme|date=March 2008
The signalling system is normally permissive: the driver of a train is permitted to proceed into an occupied block section without first obtaining authorization. Speed is limited to 30 km/h (19 mph) and if speed exceeds 35 km/h (22 mph) the emergency brake is applied. If the board marking the entrance to the block section is accompanied by a sign marked Nf, for "non-franchissable", the block section is not permissive, and the driver must obtain authorisation from the "Poste d'Aiguillage et de Régulation" (PAR - Signalling and Control Centre) before entering. Once a route is set or the PAR has provided authorization, a white lamp above the board is lit to inform the driver. The driver acknowledges the authorization using a button on the control panel. This disables the emergency braking, which would otherwise occur when passing over the ground loop adjacent to the non-permissive board.
When trains enter or leave LGVs from "lignes classiques", they pass over a ground loop that automatically switches the driver's dashboard indicators to the appropriate signalling system. For example, a train leaving the LGV for a "ligne classique" has its TVM system deactivated and its traditional KVB ("Contrôle Vitesse par Balise", or "beacon speed control") system enabled.
One of the main advantages of TGV over other fast rail technologies such as magnetic levitation is that TGVs can take advantage of existing infrastructure. This makes connecting city centres (such as Paris-
Gare de Lyonto Lyon-Perrache) by TGV a simple and inexpensive proposition. TGVs often use intra-city tracks and stations built for lower speed trains.
However, LGV route designers have tended to build new intermediate stations in suburban areas or in the open countryside several kilometers away from cities. This allows TGVs to stop without incurring too great a time penalty, since more time is spent on high speed track; in addition, many cities' stations are stub-ends, while LGV tracks frequently bypass cities. In some cases, stations have been built halfway between two communities. The station serving
Montceau-les-Minesand Le Creusotis an example, and a more controversial example is Haute Picardie station, between Amiensand Saint-Quentin. The press and local authorities criticized Haute Picardie as being too far from either town to be convenient, and too far from connecting railway lines to be useful for travellers. The station was nicknamed "la gare des betteraves," or 'beet station', as it was surrounded by sugar beetfields during construction. [Le Point (issue 1682, December 9 2004), " [http://www.lepoint.fr/dossiers_villes/document.html?did=156715 « Terre des sens » sur de nouveaux rails] " (in French). Retrieved November 24 2005.] This nickname is now applied to similar stations away from town and city centres, whether in the vicinity of beet fields or not.
New railway stations have been built for TGV services, some of which are major architectural achievements in their own right.
AvignonTGV station, opened in 2001, has been praised as one of the most remarkable stations on the network, with a spectacular 340 m (1,115 ft)-long glazed roof that has been compared to that of a cathedral. [The Sunday Times Online ( 29 May 2005), " [http://travel.timesonline.co.uk/article/0,,26016-1633961,00.html Party like a pope in Avignon] ". Retrieved 12 December 2005.] [Bulletin annuel de l'AFGC (issue 3, January 2001), "Les gares nouvelles de Provence du TGV Méditerranée" (in French), pp. 49–51.] [Guardian Unlimited ( 23 July 2001), " [http://www.guardian.co.uk/arts/critic/feature/0,1169,671705,00.html Gee whizz! Jonathan Glancey takes in three stunning new TGV stations as he hurtles towards the Cote d'Azur at 200 mph.] " Retrieved December 13 2005.]
TGVs are semi-permanently coupled articulated
multiple units, with Jacobs bogies between the carriages, supporting both of them. Power cars at each end of the trains have their own bogies. Trains can be lengthened by coupling two TGVs together, using couplers hidden in the noses of the power cars.
The articulated design is advantageous during a derailment, as the passenger carriages are more likely to stay upright and in line with the track. Normal trains, by contrast, may split at couplings and jack-knife.
A disadvantage of this carriage design is that it is difficult to split sets of carriages. While TGV power cars can be removed from trains via standard uncoupling procedures, specialized depot equipment is needed to split carriages, by lifting the entire train at once. Once uncoupled, one of the carriage ends is left without a bogie at the split, so a bogie frame is required to support it.
SNCF operates a fleet of about 400 TGVs. Seven types of TGV or TGV derivative currently operate on the French network; these are:
TGV Sud-Est(passengers) and "La Poste" (freight),
TGV Atlantique(10 rather than 8 carriages)
TGV Réseau(similar to Atlantique, but only 8 carriages)
Eurostar(Three Capitals and North of London),
TGV Duplex(two floors for greater passenger capacity),
* Thalys PBA and PBKA (Benelux countries, derived from Réseau and Duplex respectively),
TGV POS(Paris-Ostfrankreich-Süddeutschland, or Paris-Eastern France-Southern Germany).
All TGVs are at least "bi-current", which means that they can operate at 25 kV, 50 Hz AC on newer lines (including LGVs) and at 1.5 kV DC on older lines (such as the 1.5 kV "lignes classiques" that are common around Paris). Trains crossing the border into
Germany, Switzerland, Belgium, the Netherlandsand the United Kingdommust accommodate other voltages, requiring "tri-current" and "quadri-current" TGVs. TGVs have two pairs of pantographs, two for AC use and two for DC use. When passing between areas of different supply voltage, marker boards remind the driver to turn off power to the traction motors, lower the pantograph(s), adjust a switch to select the appropriate system, and raise the pantograph(s). Pantographs and pantograph height control are selected automatically based on the voltage system chosen by the driver. Once the train detects the correct supply, a dashboard indicator illuminates and the driver can switch on the traction motors. The train coasts across the boundary between sections.
The Sud-Est fleet was built between 1978 and 1988 and operated the first TGV service, from Paris to Lyon in 1981. There are 107 passenger sets operating, of which nine are tri-current (including 15 kV, 16⅔ Hz AC for use in Switzerland) and the rest bi-current. There are also seven bi-current half-sets without seats that carry mail for La Poste between Paris, Lyon and
Provence, in a distinctive yellow livery.
Each set is made up of two power cars and eight carriages (capacity 345 seats), including a powered bogie in each of the carriages adjacent to the power cars. They are 200 m (656 ft) long and 2.81 m (9.2 ft) wide. They weigh 385 tonnes with a power output of 6,450 kW under 25 kV.
Originally the sets were built to run at 270 km/h (168 mph) but most were upgraded to 300 km/h (186 mph) during mid-life refurbishment in preparation for the opening of the LGV Méditerranée. The few sets that still have a maximum speed of 270 km/h operate on those routes that include a comparatively short distance on LGV, such as to Switzerland via Dijon. SNCF did not consider it financially worthwhile to upgrade their speed for a marginal reduction in journey time.
The Atlantique fleet was built between 1988 and 1992. 105 bi-current sets were built for the opening of the LGV Atlantique and entry into service began in 1989. They are 237.5 m (780 ft) long and 2.9 m (9.5 ft) wide. They weigh 444 tonnes, and are made up of two power cars and ten carriages with a capacity of 485 seats. They were built with a maximum speed of 300 km/h (186 mph) and 8,800 kW of power under 25 kV.
Modified unit 325 set the world speed record in 1990 on the new LGV before its opening. Various modifications, such as improved
aerodynamics, larger wheels and improved braking, were made to enable speeds of over 500 km/h (310 mph). The set was reduced to two power cars and three carriages to improve the power-to-weight ratio, weighing 250 tonnes. Three carriages, including the bar carriage in the centre, is the minimum possible configuration because of the articulation.
The first Réseau (Network) sets entered service in 1993. Fifty bi-current sets were ordered in 1990, supplemented by an order for 40 tri-current sets in 1992/1993. Ten of the tri-current sets carry the
Thalyslivery and are known as Thalys PBA (Paris-Brussels-Amsterdam) sets. As well as using standard French voltages, the tri-current sets can operate under the Netherlands' 1.5 kV and Italian and Belgian 3 kV DC supplies.
They are formed of two power cars (8,800 kW under 25 kV - as TGV Atlantique) and eight carriages, giving a capacity of 377 seats. They have a top speed of 300 km/h. They are 200 m (656 ft) long and are 2.90 m (9.5 ft) wide. The bi-current sets weigh 383 tonnes: owing to axle-load restrictions in Belgium the tri-current sets have a series of modifications, such as the replacement of
steelwith aluminiumand hollow axles, to reduce the weight to under 17 tonnes per axle.
Owing to early complaints of uncomfortable pressure changes when entering tunnels at high speed on the LGV Atlantique, the Réseau sets are now pressure-sealed. They can be also coupled to a Duplex set.
The Eurostar train is essentially a long TGV, modified for use in the United Kingdom and in the
Channel Tunnel. Differences include a smaller cross section to fit within the constrictive British loading gauge, British-designed asynchronous traction motors, and extensive fireproofing.
In the UK, it is known under the
TOPSclassification system as class 373. In the planning stages, it was also known as the TransManche Super Train (Cross-channel Super Train). The trains were built by GEC-Alsthom (now Alstom) in La Rochelle(France), Belfort(France) and Washwood Heath(England), entering service in 1993.
Two types were built: the Three Capitals sets, consisting of two power cars and 18 carriages, including two with one powered bogie each, and the North of London sets, consisting of two power cars and 14 carriages, again with two with one powered bogie each. Full sets of both types consist of two identical half-sets which are not articulated in the middle, so that in case of emergency in the Channel Tunnel one half can be uncoupled and leave the tunnel. Each half-set is numbered separately.
Thirty-eight full sets, plus one spare power car, were ordered: 16 by SNCF, four by
NMBS/SNCB, and 18 by British Rail, of which seven were North of London sets. Upon privatisation of British Railby the UK Government, the BR sets were bought by London and Continental Railways, whose subsidiary Eurostar (U.K.) Ltd.is managed by a consortium of the National Express Group(40%), SNCF (35%), SNCB (15%) and British Airways(10%).
The sets operate at a maximum speed of 300 km/h (186 mph), with the power cars supplying 12,240 kW of power. The Three Capitals sets are 394 m (1,293 ft) long and have 766 seats, weighing a total of 752 tonnes. The North of London sets have 558 seats. All are at least tri-current and are able to operate on 25 kV, 50 Hz AC (on LGVs, including
High Speed 1, and on UK overhead electrified lines), 3 kV DC on "lignes classiques" in Belgium and 750 V DC on the UK former Southern Region third railnetwork. The third-rail system became obsolete in 2007 when the second phase of High Speed 1 was brought into use between London and the Channel Tunnel, as it uses 25 kV, 50 Hz AC exclusively. Five of the Three Capitals sets owned by SNCF are quadri-current and are able to operate on French "lignes classiques" at 1500 V DC.
Three of the Three Capitals sets owned by SNCF are in French domestic use and carry the silver and blue TGV livery. The North of London sets, intended to provide direct
regional Eurostarservices from continental Europe to UK cities north of London, using the West Coast Main Lineand the East Coast Main Line, have never seen regular international use: budget airlines in the UK offered lower fares. A few of the sets were leased to GNER for use on its "White Rose" service between London and Leeds, with two of them carrying GNER's dark blue livery. The lease ended in December 2005 [RAIL (pages 14–15, issue 527, November 23 2005– December 6 2005), "Class 91s to replace GNER's Eurostars"] and a year later the same sets found themselves working services to Calais in France for SNCF, remaining in the standard Eurostar livery, minus the logos.
The Chief Executive of Eurostar, Richard Brown, has suggested that the trains could be replaced by double-decker trains similar to the TGV Duplex when they are withdrawn. A double-deck fleet could carry 40 million passengers per year from England to
Continental Europe, equivalent to adding an extra runway at a London airport. [RAIL (page 11, issue 529, December 21 2005– January 3 2006), "Double decked trains could be replacement for Eurostars"]
Eurostar has higher security measures than other TGVs. Luggage is screened and passengers are theoretically required to check in 30 minutes before departure, although this requirement is seldom if ever enforced. In addition, passengers entering or leaving the UK have to pass customs and identity checks.
The Duplex was built to increase TGV capacity without increasing train length or the number of trains. Each carriage has two levels, with access doors at the lower level, taking advantage of low French platforms. A staircase gives access to the upper level, where the gangway between carriages is located. This layout provides 512 seats per set. On busy routes such as Paris-Marseille they are operated in pairs, providing 1,024 seats in a single train of two duplex sets but multiple transet formations of 1 duplex and 1 reseau are commonly seen for capacities of 800 people. Each set has a wheelchair accessible compartment.
After a lengthy development process starting in 1988 (during which they were known as the TGV-2N), they were built in two batches: 30 between 1995 and 1998 and 34 between 2000 and 2004. They weigh 380 tonnes and are 200 m (656 ft) long, made up of two power cars and eight bi-level carriages. Extensive use of aluminium means that they weigh not much more than the TGV Réseau sets they supplement. The bi-current power cars provide a total power of 8,800 kW, and they have a slightly increased speed of 320 km/h (199 mph).
Unlike Thalys PBA sets, the PBKA (Paris-Brussels-Köln (Cologne) -Amsterdam) sets were built exclusively for the Thalys service. They are technologically similar to TGV Duplex sets, but without bi-level carriages. They are quadri-current, operating under 25 kV, 50 Hz AC (LGVs), 15 kV 16⅔ Hz AC (Germany, Switzerland), 3 kV DC (Belgium) and 1,5 kV DC (the Netherlands and French "lignes classiques"). Their top speed in service is 300 km/h (186 mph) under 25 kV, with two power cars supplying 8,800 kW. When operating under 15 kV power output drops to 4,460 kW, resulting in a very poor power-to-weight-ratio on German high-speed lines. They have eight carriages and are 200 m (656 ft) long, weighing a total of 385 tonnes. They have 377 seats.
Seventeen trains were ordered, nine by SNCB, six by SNCF and two by NS.
Deutsche Bahncontributed to financing two of the SNCB sets.
TGV POS (Paris-Ostfrankreich-Süddeutschland or Paris-Eastern France-Southern Germany) are used on the LGV Est.
They consist of two power cars with eight TGV Réseau type carriages, with a total power output of 9,600 kW and a top speed of 320 km/h (199 mph). Unlike TGV-A, TGV-R and TGV-D, it has asynchronous motors, and isolation of an individual motor in a powered bogie is possible in case of failure.
France has around 1,700 km of LGV, with three lines under construction. The current lines and those under construction can be grouped into four routes radiating from Paris:
LGV Atlantiqueto Tours and Le Mans.
LGV Nordand High Speed 1to London, with a branch going towards Brussels.
LGV Estand LGV Rhin-Rhôneto Strasbourg
LGV Sud-Est, LGV Rhône-Alpesand LGV Méditerranéeto Marseille, plus a (planned) branch towards the LGV Perpignan-Figueres.In addition, the LGV Interconnexion Estconnects the LGV Sud-Est to the LGV Nord around Paris, and the LGV Rhin-Rhône(under construction) will connect Strasbourg and Lyon.
LGV Sud-Est( Paris Gare de Lyonto Lyon-Perrache), the first LGV (opened 1981)
LGV Atlantique(Paris Gare Montparnasseto Toursand Le Mans) (opened 1990)
LGV Rhône-Alpes(Lyon to Valence) (opened 1992)
LGV Nord(Paris Gare du Nordto Lilleand Brusselsand on towards London, Amsterdam( HSL-Zuid) and Cologne) (opened 1993)
LGV Interconnexion Est(LGV Sud-Est to LGV Nord Europe, east of Paris) (opened 1994)
LGV Méditerranée(An extension of LGV Rhône-Alpes: Valence to Marseille Saint Charles) (opened 2001)
High Speed 1( Channel Tunnelto London St Pancras International) (Phase 1 opened 2003, phase 2 opened 14 November 2007)
LGV Est(Paris Gare de l'Est- Strasbourg) (opened 10 June 2007) [Le Moniteur-Expert ( October 24 2005), " [http://www.lemoniteur-expert.com/depeches/contenu/depeche.asp?dep_id=D7DED79E4&mode=0&info=1 Fin des travaux de génie civil de la LGV Est européenne] " (in French). Retrieved November 23 2005.]
Lines under construction
LGV Perpignan-Figueres(due to open 2009, TGV service 2012)
LGV Rhin-Rhône( Lyon- Dijon- Mulhouse) (due to open 2011)
HSL-Zuid( Brusselsto Amsterdam) (although the track has been completed, it will not be operational until late 2008 at the earliest)
Haut-Bugey line- reconstruction of the Bellegarde - Bourg-en-Bresse line to reduce Paris-Geneva by 47 km and 20 minutes. Due to open in 2009.
Lyon Turin Ferroviaire( Lyon- Chambéry- Turin), connecting to the Italian TAV network
LGV Sud Europe Atlantique Tours- Bordeauxand LGV Bretagne-Pays de la Loire Le Mans- Rennes, extending the LGV Atlantique (also called LGV Sud-Ouest)
Bordeaux- Toulouse- Narbonne
Bordeaux-Spanish border- Vitoria-Gasteizand Irun[http://www.debatpublic-projetferroviaire-bordeaux-espagne.org/]
LGV Picardie( Paris- Amiens- Calais), cutting off the corner of the LGV Nord-Europe via Lille.
Amsterdam and Cologne are served by
ThalysTGVs running on ordinary track, and these connections are being upgraded to high-speed rail. London is served by Eurostartrains running on High Speed 1- Eurostar now runs on fully-segregated line once in the United Kingdom.
TGV technology outside France
TGV technology has been adopted in a number of other countries separately from the French network:
AVE("Alta Velocidad Española"), in Spain
Korea Train Express(KTX), in South Korea
Acela Express, a high-speed tilting trainbuilt by TGV participant Bombardierfor the United States, which uses TGV motor technology (though the rest of the train is unrelated).
Moroccan governmentagreed to a €2 billion contract for the French construction firm Alstom to build a TGV-line between Tangierand Casablanca. The train is to be operational in 2013.
Buenos Aires-Rosario-Córdoba high-speed railway, in Argentina, will feature french double-decker TGV (TGV duplex), running at 320km/h
*Italian open-access high-speed operator
Nuovo Trasporto Viaggiatorihave signed up with Alstomto purchase twenty-five AGV eleven car multiple-units (TGV 4th generation, running at 350km/h) for delivery starting in 2009. [Railway Gazette International, [http://www.railwaygazette.com/news_view/article/2008/01/8081/alstom_to_announce_italian_agv_contract.html Alstom awarded Italian AGV contract] , 2008-01-17]
SNCF and Alstom are investigating new technology that could be used for high-speed transport.The development of TGV trains is being pursued in the form of the AGV, " automotrice à grande vitesse " (high speed multiple unit). The AGV design has motors under each carriage. Investigations are being carried out with the aim of producing trains at the same cost as existing TGVs with the same safety standards. AGVs of the same length as TGVs could have up to 450 seats. The target speed is 360 km/h. The prototype AGV was unveiled by Alstom on
February 5 2008. [Railway Gazette International ( 5 February 2008), [http://www.railwaygazette.com/news_view/article/2008/02/8165/alstom_unveils_agv_prototype_train.html Alstom unveils AGV prototype train] ]
In the short term, plans are being considered to increase the capacity of TGVs by 10% by replacing the central two power cars of a double TGV with passenger carriages. These carriages would have motorized bogies underneath them, as would the first and last carriage of the train, to make up for the lost power. [http://www.entreprise-sncf.com/sncf_demain/tgvgp.html]
Italian operator NTV is the first customer for the AGV, and intends to become the first open access high speed rail operator in Europe, when it starts operation of its AGVs in Italy in 2011.
In more than two decades of high-speed operation, the TGV has not recorded a single fatality due to accident while running at high speed. There have been several accidents, including three derailments at or above 270 km/h (168 mph), but in none of these did any carriages overturn. This is credited in part to the stiffness that the articulated design lends to the train. There have been fatal accidents involving TGVs on "lignes classiques", where the trains are exposed to the same dangers as normal trains, such as
14 December 1992: TGV 920 from Annecy to Paris, operated by set 56, derailed at 270 km/h (168 mph) at Mâcon-Loché TGV station (Saône-et-Loire). A previous emergency stop had caused a wheel flat; the bogie concerned derailed while crossing the points at the entrance to the station. No one on the train was injured, but 25 passengers waiting on the platform for another TGV were slightly injured by ballast that was thrown up from the trackbed.
21 December 1993: TGV 7150 from Valenciennes to Paris, operated by set 511, derailed at 300 km/h (186 mph) at the site of Haute Picardie TGV station, before it was built. Rain had caused a hole to open up under the track; the hole dated from the First World War but had not been detected during construction. The front power car and four carriages derailed but remained aligned with the track. Of the 200 passengers, one was slightly injured.
5 June 2000: Eurostar 9073 from Paris to London, operated by sets 3101/2 owned by NMBS/SNCB, derailed at 250 km/h (155 mph) in the Nord-Pas de Calaisregion near Croisilles. The transmission assembly on the rear bogie of the front power car failed, with parts falling onto the track. Four bogies out of 24 derailed. Out of 501 passengers, seven were bruised [Associated Press ( 5 June 2000), " [http://pqasb.pqarchiver.com/ap/605638911.html?did=605638911&FMT=ABS&FMTS=FT&date=Jun+5%2C+2000&author=&pub=Associated+Press&desc=Eurostar+derails%2C+seven+passengers+bruised Eurostar derails; seven passengers bruised] ". Retrieved 24 November 2005.] and others treated for shock.
On "lignes classiques"
31 December 1983: A bomb allegedly planted by the terrorist organisation of Carlos the Jackal exploded on board a TGV from Marseille to Paris; two people were killed.
28 September 1988: TGV 736, operated by set 70 "Melun", collided with a lorry carrying an electric transformer weighing 100 tonnes that had become stuck on a level crossing in Voiron, Isère. The vehicle had not been permitted to cross by the French "Direction départementale de l'équipement". The weight of the lorry caused a very violent collision; the train driver and a passenger died, and 25 passengers were slightly injured.
4 January 1991: after a brake failure, TGV 360 ran away from Châtillon depot. The train was directed onto an unoccupied track and collided with the car loading ramp at Paris-Vaugirard station at 60 km/h (37 mph). No one was injured. The leading power car and the first two carriages were severely damaged, and were rebuilt.
25 September 1997: TGV 7119 from Paris to Dunkerque, operated by set 502, collided at 130 km/h (81 mph) with a 70 tonne (77 short ton; 69 long ton) asphalt paving machine on a level crossing at Bierne, near Dunkerque. The power car spun round and fell down an embankment. The front two carriages left the track and came to a stop in woods beside the track. Seven people were injured.
31 October 2001: TGV 8515 from Paris to Irun derailed at 130 km/h (81 mph) near Dax in southwest France. All ten carriages derailed and the rear power unit fell over. The cause was a broken rail.
30 January 2003: a TGV from Dunkerque to Paris collided at 106 km/h (66 mph) with a heavy goods vehicle stuck on the level crossing at Esquelbecq in northern France. The front power car was severely damaged, but only one bogie derailed. Only the driver was slightly injured.
19 December 2007: a TGV train from Paris to Geneva collided at about 100 km/h (62 mph) with a truck on a level crossing near Tossiatin eastern France, near the Swiss border. The driver of the truck died; on the train, one was seriously injured and 24 were slightly injured. [ Reuters UK(December 2007) [http://uk.reuters.com/article/worldNews/idUKL1955864420071219 French TGV train hits lorry and kills one] ]
Following the number of accidents at level crossings, an effort has been made to remove all level crossings on "lignes classiques" used by TGVs. The "ligne classique" from
Toursto Bordeauxat the end of the LGV Atlantique has no level crossings as a result.
Protests against the TGV
The first environmental protests against the building of a high-speed line in France occurred in May 1990 during the planning stages of the LGV Méditerranée. Protesters blocked a railway viaduct to protest against the planned route, arguing that it was unnecessary, and that trains could use existing lines to reach Marseille from Lyon. [New Scientist (issue 1719,
June 2 1990), " [http://www.newscientist.com/article.ns?id=mg12617192.800 High-Speed Protest] ". Retrieved November 15 2005.] Lyon Turin Ferroviaire( Lyon- Chambéry- Turin), which would connect the TGV to the Italian TAV network, has been the subject of demonstrations in Italy. While most Italian political parties agree on the construction of this line, inhabitants of the towns where construction would take place are vehemently opposing it. The concerns of the protesters centre around storing dangerous materials mined from mountain, like asbestosand uranium, in the open air. This serious health danger could be avoided by using more appropriate but expensive techniques for handling radioactive materials. A six-month delay in the start of construction has been decided in order to study solutions. In addition to the concerns of the residents, RFB - a ten year old national movement - opposes the development of Italy's TAV high-speed railnetwork as a whole. [Planet Ark (reprinted from Reuters November 1 2005), " [http://www.planetark.com/dailynewsstory.cfm/newsid/33266/story.htm Environmental Protesters Block French-Italian Railway] ". Retrieved November 1 2005.]
General complaints about the noise of TGVs passing near towns and villages have led the SNCF to build acoustic fencing along large sections of LGVs to reduce the disturbance to residents, but protests still take place where SNCF has not addressed the issue. [Environmental Science and Engineering (November 2001), " [http://www.esemag.com/1101/1101ed.html Train à grande vitesse causes distress] ". Retrieved
November 24 2005.]
*Cinotti, Eric and Tréboul, Jean-Baptiste (2000) "Les TGV européens : Eurostar, Thalys", Paris : Presses universitaires de France, ISBN 2-13-050565-1 (in French)
*Perren, Brian (2000) "TGV handbook", 2nd ed., Harrow Weald : Capital Transport, ISBN 1-85414-195-3
*Soulié, Claude and Tricoire, Jean (2002) "Le grand livre du TGV", Paris : La Vie du rail, ISBN 2-915034-01-X (in French)
* [http://www.tgv.co.uk/FlashMaps/france.html TGV Network Map from tgv.co.uk]
* [http://www.eurostar.com/UK/uk/leisure/about_eurostar.jsp Eurostar Official Site - About Eurostar]
* [http://www.trainweb.org/tgvpages/tgvindex.html TGVweb] , an unofficial website with photos and information
TGV world speed record- overview and chronology of speed record attempts
* [http://www.sncf.com Official SNCF Website] TGV Operator
* [http://www.tgv.com Official TGV Website] Run by SNCF
* [http://www.tgv.co.uk Official UK TGV Website] Managed by Rail Europe (SNCF Group)
* [http://www.raileurope.com/us/rail/tgvest/index.htm TGV East Reservations] New TGV line
* [http://www.ecsel.psu.edu/~dbieryla/highspeed/history.html The history of the TGV]
* [http://www.trainweb.org/tgvpages/motrice.html Under the Hood of a TGV] from [http://www.trainweb.org/ TrainWeb]
* [http://www.trainweb.org/tgvpages/wrecks.html TGVweb Accidents page] from [http://www.trainweb.org/ TrainWeb]
* [http://lgv2030.free.fr LGV2030] : an unofficial website about TGV Network in 2030
* [http://www.lgv-est.com/ LGV Est]
* [http://www.railway-technology.com/projects/frenchtgv/ Railway-Technology]
* [http://www.o-keating.com/hsr/tgv.htm The TGV]
* [http://www.youtube.com/watch?v=8skXT5NQzCg Video of the TGV speed record at 574.8 km/h (357.16 mph) on 2007-04-03]
* [http://www.youtube.com/watch?v=LJb-oUgSwN8&mode=related&search= Video of the TGV World speed record at 515,3 km/h(320 mph) in 1990]
* [http://www.emdx.org/rail/30ansTGV Le TGV 001] An article from 1972 about the gas-turbine TGV prototype (in French).
* [http://www.breakinglegalnews.com/entry/TGV-breaks-world-speed-record-for-rail-trains TGV breaks world speed record for rail trains] , Breaking Legal News - World Business News,
April 3, 2007
* [http://news.usti.net/ns/biz.industry.transportation/2/wed/ch/Ayb104917004.RK_H_HM3.html French Train Sets Rail Record 357.2 mph (574.8 km/h)] , Story From [http://news.usti.net/ USTINET AP News]
* [http://www.videopaper.net/TGV%20231.html Movie regarding the TGV]
* [http://www.seekontime.com/tgv.html TGV nformación y reserva]
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