ETR 600
The New Pendolino is a class of high-speed tilting trains built by Alstom Ferroviaria (Fiat Ferroviaria) for Trenitalia and Cisalpino. It is derived from a model developed for the Chinese operator Changchun Railway Company, and subsequently developed for other railway companies, optionally using the variable weight technology that characterizes this family of trains. Overview The name ''Pendolino'' is used to identify a family of high-speed, tilting-technology trains, produced in Italy. These trains owe their name (''pendolino'' can mean 'small pendulum' in Italian) to the mechanism enabling them to tilt when going round a curve. The maximum tilt of 8 degrees allows the trains to reach a speed that is up to 35% higher than for conventional trains whilst remaining comfortable for passengers. Developed by Alstom Ferroviaria, which inherited tilting technology (including that of the British Advanced Passenger Train) after its acquisition of former producer Fiat Ferroviaria, they ar ... [...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]   |
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Pendolino
Pendolino (from Italian ''pendolo'' "pendulum", and ''-ino,'' a diminutive suffix) is an Italian family of tilting trains used in Italy, Spain, Germany, Poland, Portugal, Slovenia, Finland, Russia, the Czech Republic, Slovakia, the UK, the US, Switzerland, China and Greece. Based on the design of the Italian ETR 401 (itself being based on British Rail innovations), it was further developed and manufactured by Fiat Ferroviaria, which was taken over by Alstom in 2000. The idea of a tilting train became popular in the 1960s and 1970s when various rail operators, impressed by the high-speed rail services being introduced in France and Japan, wondered how they could similarly speed up travel without building a dedicated parallel rail network (as those two countries were doing). By tilting, the train could go around curves designed for slower trains at higher speeds without causing undue discomfort to passengers. Current use Italy In Italy, various possibilities were explor ... [...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]   |
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Venezia Santa Lucia Railway Station
Venezia Santa Lucia ( it, Stazione di Venezia Santa Lucia) is the central station of Venice in the north-east of Italy. It is a terminus and located at the northern edge of Venice's historic city ( it, Centro storico). The station is one of Venice's two most important railway stations; the other one is Venezia Mestre, a mainline junction station on Venice's mainland district of Mestre. Both Santa-Lucia and Mestre stations are managed by Grandi Stazioni and they are connected to each other by Ponte della Libertà ( en, Liberty Bridge). Location Venezia Santa Lucia is located in Cannaregio district, the northernmost of the six historic ''sestieri'' (districts) of Venice's historic city. It is situated on the northernmost island and near the western end of the Grand Canal. The station lies at the mark of the Milan–Venice railway. A bridge over the Grand Canal, the Ponte degli Scalzi (or Ponte dei Scalzi) ( en, Bridge of the Discalced), links the concourse in front of the sta ... [...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]   |
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ETR 450
ETR 450 (''ElettroTrenoRapido 450'') was the first series Italian tilting train (also called Pendolino). History The Pendolino project was started in the 1970s by FIAT Ferroviaria. Development included a number of prototypes, the last of which was the ETR 401. This prototype was followed by the ETR 450 series units. The first train entered service on between Rome and Milan in 1988. Every train is made up of 9 units. The trains can reach a maximum speed of , service top speed was . The ETR 450 were in use on the Rome-Bari, Rome-Ancona-Rimini and Genoa-Florence - Rome lines. It was relegated to lower services with the introduction of the next generation of Pendolino trains (ETR 460, ETR 480) and non-tilting high-speed trains (ETR 500). In 2004, the tilting mechanism was deactivated, due to the end of production of gyroscopic tilting controls (built by British Aerospace) and as a precaution, and top speed was reduced to . From 2015, all trains are out of service. Charac ... [...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]   |
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Lötschberg Base Tunnel
, line = Lötschberg Line , location = Traversing the Bernese Alps in Switzerland , coordinates = – , system = BLS, SBB CFF FFS , status = , start = Frutigen, canton of Bern, , end = Raron, canton of Valais, , stations = , startwork = 5 July 1999 , opened = 14 June 2007 , closed = , owner = BLS NETZ AG , operator = BLS , traffic = Railway , character = Passenger, Freight , length = , linelength = , tracklength = , notrack = One single-track tube for 20km, two single-track tubes for 14km , gauge = (standard gauge) , el = 15 kV 16.7 Hz , speed = , hielevation = , lowelevation = (south portal) , height = , grade = 3–13 ‰ , map = The Lötschberg Base Tunnel (LBT) is a railway base tunnel on the BLS AG's Lötschberg line cutting through the Bernese Alps of Switzerland some below the existing Lötschb ... [...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]   |
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Simplon Tunnel
, it, Galleria del Sempione , line = Simplon line, (Lötschberg railway line) , location = Traversing the Lepontine Alps between Switzerland and Italy , coordinates = – , system = Swiss Federal Railways (SBB CFF FFS) , status = , crosses = Lepontine Alps (Wasenhorn massif) , start = Brig, canton of Valais, Switzerland , end = Iselle di Trasquera, Piedmont, Italy , stations = , startwork = 22 November 1898 (east tunnel), 1912 (west tunnel) , opened = 19 May 1906 (east tunnel), 1921 (west tunnel) , closed = , owner = SBB CFF FFS , operator = SBB CFF FFS , traffic = Railway , character = Passenger, Freight, Car Transport , vpd = Passenger: 70, Freight: ''unknown'' , length = (east tunnel), (west tunnel) , linelength = , tracklength = , notrack = Two single-track tubes , gauge = , el = since 1 June 1906, 15 kV 16.7 Hz since 2 ... [...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]   |
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Gotthard Base Tunnel
, rm, Tunnel da basa dal Sogn Gottard , image = 20141120 gotthard-basistunnel02-wikipedia-hannes-ortlieb.jpg , image_size = 250 , caption = Turnout at Faido multifunction station , line = Gotthard Line , location = Switzerland (Uri, Grisons and Ticino) , coordinates = , system = Swiss Federal Railways (SBB CFF FFS) , status = Active since 11 December 2016 , crosses = Alps (western Glarus Alps and central Lepontine Alps at the eastern Gotthard Massif) , start = Erstfeld, canton of Uri (north, ) , end = Bodio, canton of Ticino (south, ) , stations = , startwork = 4 November 1999 , opened = 1 June 2016 , closed = , owner = SBB Infrastructure , operator = SBB CFF FFS , traffic = Railway , character = Passenger and freight , length = , linelength = , tracklength = , notrack = 2 single-track tubes , gauge = (standard gauge) , el = 15 kV 16.7 Hz , speed = , hielevation = , lowelevation = (south portal) , height = from top of rail to overhead conductor , ... [...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]   |
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Milano Centrale
Milano Centrale ( it, Stazione Milano Centrale) is the main railway station of the city of Milan, Italy, and is the largest railway station in Europe by volume. The station is a terminus and located at the northern end of central Milan. It was officially inaugurated in 1931 to replace the old central station (built 1864), which was a transit station but with a limited number of tracks and space, so could not handle the increased traffic caused by the opening of the Simplon Tunnel in 1906. Milano Centrale has high-speed connections to Turin in the west, Venice via Verona in the east and on the north-south mainline to Bologna, Rome, Naples and Salerno. The Simplon and Gotthard railway lines connect Milano Centrale to Bern and Geneva via Domodossola and Zürich via Chiasso in Switzerland. Destinations of inter-city and regional railways radiate from Milano Centrale to Ventimiglia (border of France), Genova, Turin, Domodossola (border of Swiss Canton of Valais/Wallis), Tirano (bord ... [...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]   |
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Frankfurt (Main) Hauptbahnhof
Frankfurt (Main) Hauptbahnhof, also called Frankfurt Central Station and Frankfurt Main Station, is the busiest railway station in the German state of Hesse. Because of its location near the middle of Germany and usage as a transport hub for long and short distance travelling, Deutsche Bahn refers to it as the most important station in Germany. Name The affix "Main" comes from the city's full name, ''Frankfurt am Main'' ("Frankfurt on the River Main") and is needed to distinguish it from Frankfurt (Oder) station on the River Oder in Brandenburg. In German, the name is often abbreviated as Frankfurt (Main) Hbf. History 19th century In the late 19th century, three stations connected Frankfurt to the west, north and south, the *''Taunus station'' for the Taunusbahn (opened 1839), connecting Frankfurt to Wiesbaden *''Main-Neckar-station'' for the Main-Neckar Railway to Darmstadt, Heidelberg and Mannheim (1848)) *''Main-Weser station'' for the Main–Weser Railway to Kasse ... [...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]   |
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Redundancy (engineering)
In engineering, redundancy is the intentional duplication of critical components or functions of a system with the goal of increasing reliability of the system, usually in the form of a backup or fail-safe, or to improve actual system performance, such as in the case of GNSS receivers, or multi-threaded computer processing. In many safety-critical systems, such as fly-by-wire and hydraulic systems in aircraft, some parts of the control system may be triplicated, which is formally termed triple modular redundancy (TMR). An error in one component may then be out-voted by the other two. In a triply redundant system, the system has three sub components, all three of which must fail before the system fails. Since each one rarely fails, and the sub components are expected to fail independently, the probability of all three failing is calculated to be extraordinarily small; it is often outweighed by other risk factors, such as human error. Redundancy may also be known by the terms "m ... [...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]   |
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Traction Unit
A tractor unit (also known as a truck unit, power unit, prime mover, ten-wheeler, semi-tractor, tractor truck, semi-truck, tractor cab, truck cab, tractor rig, truck rig or big rig or simply a tractor, truck, semi or rig) is a characteristically heavy-duty towing engine that provides motive power for hauling a towed or trailered load. These fall into two categories: heavy- and medium-duty military and commercial rear-wheel-drive semi-tractors used for hauling semi-trailers, and very heavy-duty typically off-road-capable, often 6×6, military and commercial tractor units, including ballast tractors. Overview Tractor units typically have large displacement diesel engines for power, durability, and economy; several axles; and a multi-ratio transmission (10, 13, or 18 gears) for maximum flexibility in gearing. The tractor-trailer combination distributes a load across multiple axles while being more maneuverable than an equivalently sized rigid truck. The most common trailer ... [...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]   |
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Railway Signal
A railway signal is a visual display device that conveys instructions or provides warning of instructions regarding the driver’s authority to proceed. The driver interprets the signal's indication and acts accordingly. Typically, a signal might inform the driver of the speed at which the train may safely proceed or it may instruct the driver to stop. Application and positioning of signals Originally, signals displayed simple stop or proceed indications. As traffic density increased, this proved to be too limiting and refinements were added. One such refinement was the addition of distant signals on the approach to stop signals. The distant signal gave the driver warning that they were approaching a signal which might require a stop. This allowed for an overall increase in speed, since train drivers no longer had to drive at a speed within sighting distance of the stop signal. Under timetable and train order operation, the signals did not directly convey orders to the ... [...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]   |