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72-512: The Chicago Hub Network is a collection of proposed fast conventional and high-speed rail lines in the Midwestern United States including 3,000 miles (5,000 km) of track. Since the 1990s, there have been multiple proposals to build a network from Chicago to destinations such as Milwaukee , Madison , Minneapolis , Indianapolis , Detroit , Kansas City , St. Louis , Cleveland , Cincinnati , and Louisville . In addition,

144-537: A Semi-High Speed Train. In 2021, Indian Railways started to upgrade Rajdhani Coaches to Tejas coaches. This replaced its traditional LHB Rajdhani coaches On 15 February 2021, the Agartala Rajdhani Express was upgraded with Tejas livery Sleeper Coaches. On 19 July 2021, the Mumbai Rajdhani Express was upgraded to Tejas class smart coaches. LHB Rajdhani coaches. On 1 September 2021

216-410: A change to the signalling system to account for increased braking distance. Prior to the project, the system comprised a mixture of equipment from pre- WWI mechanical signalling to the remote control systems of the 1980s. In some cases, operators needed to telephone the local operators to manually control the signal boxes. With the new speeds, the signalling needed to be computerized. The project employed

288-692: A class of railcars built by United Goninan , Broadmeadow for Transwa in 2004–05 to replace the WAGR WCA/WCE class railcars on the AvonLink and Prospector services in Australia . They are capable of high-speed operation. In China, higher-speed railways are railways that are not officially categorized as high-speed rail but allow CRH EMUs run on it with speeds up to 200 km/h. Typically these lines are classified as Grade I conventional railways and are used by both passenger and freight services. Note that

360-687: A plant in Wisconsin in order to build 110-mph trains for the Hiawatha route and other improved corridors; however, due to the cancellation of construction in Wisconsin, Talgo has scaled back plans from a manufacturing plant to a maintenance facility, leading the City of Milwaukee to consider legal action against the state. In 2009, the federal government allocated $ 8 billion in the American Recovery and Reinvestment Act to be divided up among rail projects around

432-573: A smoother ride at higher speeds, the lengths of rail may be welded together to form continuous welded rail (CWR). However, the continuous welded rails are vulnerable to stress due to changes in temperature. In Australia, the track condition before the Regional Fast Rail project could only support trains up to speeds of 130 km/h (80 mph). The tracks are with mixture of wooden and concrete ties. The rail weight varies but with majority being 47 kg/m (95 lb/yd). The track upgrade in

504-461: A study of the plan; Amtrak and state governments matched these funds for a total of $ 594,000. Planners anticipate 13.6 million riders over the entire network by the year 2025. The Chicago to Milwaukee Hiawatha was planned to be expanded to Madison, Wisconsin , but the project was then nixed in 2011 by then Wisconsin governor Scott Walker. In 2009, the Spanish manufacturer Talgo had agreed to open

576-598: A top speed of 110 mph (175 km/h). In 1999, the concept of Regional Fast Rail project was initiated by the Government of Victoria with a goal to provide express higher-speed rail services between four main regional centres of Victoria ( Geelong , Ballarat , Bendigo and the Latrobe Valley ) and Melbourne . The initiative included a key component to upgrade rail infrastructure to have top speeds up to 160 km/h (100 mph). The development phase of initiative

648-462: Is median separators which are installed along the center line of roadways, extending approximately 70 to 100 feet from the crossing, to discourage drivers from running around the crossing gates. More active devices include the four-quadrant gate , which blocks both sides of each traffic lane. Longer gate arms can cover 3/4 of the roadway. Video cameras can also be installed to catch the violators. A signal monitoring system can also be installed to alert

720-478: Is India's first train operated by private operators, IRCTC , a subsidiary of Indian Railways . The Ahmedabad – Mumbai Tejas express, also operated by IRCTC was inaugurated on the 17 January 2020. From 1 September 2021, the train LHB Rajdhani Rakes are replaced with LHB Tejas Sleeper Rakes. This increased the speed of the train to 130 km/h. The train can travel at a top speed of 160 km/h making it

792-543: Is a semi high-speed rail project inaugurated in 2023. Trains, called Namo Bharat trains , can reach speeds of up to 180 kilometers per hour. Rolling stock The term rolling stock in the rail transport industry refers to railway vehicles , including both powered and unpowered vehicles: for example, locomotives , freight and passenger cars (or coaches), and non-revenue cars . Passenger vehicles can be un-powered, or self-propelled, single or multiple units. In North America, Australia and other countries,

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864-520: Is about 125 mph (201 km/h). Higher speeds require electrification, which can double the cost of building a rail line, though trains on such lines benefit from higher efficiency leading to lower fuel costs, and the ability to accelerate and decelerate more rapidly which boosts rail line capacity. For 2009, the Midwest High Speed Rail Association (MHSRA) and other organizations requested new studies of possible rail routes in

936-438: Is an example of deliberately reduced speeds). Identifiers starting with S indicates metropolitan services using CRH rolling stock and have a different fare system to the national one. Their maximum speed is 160 km/h. Note: The start and end station in the following lists accounts only CRH services. * denotes some section of this line doesn't have 160 km/h CRH services. (including Second track ) This section lists

1008-808: Is based on the British Rail designed High Speed Train and entered service in April 1982. It came to fruition in January 1978 when the Public Transport Commission invited tenders for 25 high-speed railcars similar to the Prospector railcars delivered by Comeng to the Western Australian Government Railways in 1971. Comeng's proposal for a train based on the InterCity 125 was announced as

1080-559: Is compatible with higher-speed rail operation. They are both transponder -based and GPS -based PTC systems currently in use in the United States. By a mandate, a significant portion of the railroads in the United States will be covered by PTC by the end of 2015. To support trains that run regularly at higher speeds, the rails need to be reliable. Most freight tracks have wooden ties which cause rails to become slightly misaligned over time due to wood rot, splitting and spike -pull (where

1152-409: Is the jargon used to describe inter-city passenger rail services that have top speeds of more than conventional rail but are not high enough to be called high-speed rail services. The term is also used by planners to identify the incremental rail improvements to increase train speeds and reduce travel time as alternatives to larger efforts to create or expand the high-speed rail networks. Though

1224-400: Is the safety of grade crossings (also known as level crossings , flat level crossings , non- grade-separated crossings) which limits how fast trains can go. FRA regulations set speed limits for tracks with grade crossings as follows: Level crossings are generally the most dangerous part of the railway network with a large number of fatal incidents occurring at a grade crossing. In Europe,

1296-509: The Rajendra Nagar Patna Rajdhani Express was upgraded to Tejas rakes. This increased the speed of the train to 130 km/h. The train can travel at a top speed of 160 km/h. In 2019, Vande Bharat Express , also known as Train 18 , was inaugurated. This is an Indian higher-speed rail intercity electric multiple unit . It was designed and built by Integral Coach Factory (ICF) at Perambur , Chennai under

1368-555: The Solid State Interlocking with the newly laid fiber-optic communication between the components to use three computer systems to control the signals. When the output of one computer differs from the other two, the system will fail that computer and continue the signal operations as long as the outputs from the other two computers are consistent. The project deployed the Train Protection & Warning System which allows

1440-564: The definitions of high-speed rail , the definition varies by country. The term has been used by government agencies, government officials, transportation planners, academia, the rail industry, and the media, but sometimes with overlaps in the speed definitions. Some countries with an established definition of higher-speed rail include: In Canada, the assumption about grade crossing is that operating higher-speed rail services between 160 and 200 km/h (99 and 124 mph) would require "improved levels of protection in acceptable areas". In

1512-675: The FRA establishes classification of track quality which regulates the speed limits of trains with Class 5, Class 6, Class 7 and Class 8 for top speeds of 90 mph (145 km/h), 110 mph (175 km/h), 125 mph (200 km/h) and 160 mph (255 km/h), respectively. The FRA also regulates passenger train design and safety standards to ensure trains that operate at speeds of 80 mph (130 km/h) up to 125 mph (200 km/h) comply with its Tier I standard and trains that operate at speeds up to 150 mph (240 km/h) comply with its Tier II standard. Another limitation

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1584-540: The FRA limits train speeds to 110 mph (175 km/h) without an "impenetrable barrier" at each crossing. Even with that top speed, the grade crossings must have adequate means to prevent collisions. Another option is grade separation , but it could be cost-prohibitive and the planners may opt for at-grade crossing improvements instead. The safety improvements at crossings can be done using combination of techniques. This includes passive devices such as upgraded signage and pavement markings. Another low-cost passive device

1656-614: The French national rail company SNCF released studies of several rail corridors in the United States in California, Florida, Texas, and the Midwest. France has a population distribution similar to that in the Midwest, so their experiences with TGV trains and other high-speed systems could conceivably be duplicated in the U.S. The following routes were identified for a first phase of implementation: These routes were designed to allow them to overlay

1728-517: The Indian government's Make in India initiative over a span of 18 months. The unit cost of the first rake was given as ₹ 1 billion (US$ 12 million), though the unit cost is expected to go down with subsequent production. At the original price, it is estimated to be 40% cheaper than a similar train imported from Europe. The train was launched on 15 February 2019, from Delhi to Varanasi . The service

1800-677: The Midwest Regional Rail Initiative plan. Like the MHSRA plan, the SNCF core routes would operate at up to 220 mph (350 km/h). The total cost was projected at $ 68.5 billion in 2009 dollars, with 54% of that projected to need public financing if a public-private partnership was pursued. The public funds could be recovered from revenues in about 15 years. Some construction has begun in Illinois and Michigan, primarily as testbeds for

1872-480: The Midwest, this time with 220 miles per hour (350 km/h) service as the goal. These routes were identified: The MHSRA funded a study of the link from Chicago to St. Louis, while the Southeast Minnesota Rail Alliance funded a study of the route to Minneapolis/St. Paul—the third in a series previously funded by the Illinois, Wisconsin, and Minnesota Departments of Transportation. In late 2009,

1944-611: The United States, railroad tracks are largely used for freight with at-grade crossings . Passenger trains in many corridors run on shared tracks with freight trains . Most trains are limited to top speeds of 79 mph (127 km/h) unless they are equipped with an automatic cab signal , automatic train stop , automatic train control or positive train control system approved by the Federal Railroad Administration (FRA). In developing higher-speed rail services, one of those safety systems must be used. Additionally,

2016-780: The above limitations, many regional transportation planners focus on rail improvements to have the top speeds up to 110 mph (175 km/h) when proposing a new higher-speed rail service. In countries where there had been rail improvement projects in the later part of the 20th century and into the 2000s, there are inter-city rail services with comparable speed ranges of higher-speed rail, but they are not specifically called "higher-speed rail". Below are some examples of such services that are still in operation. Some commuter rail services that cover shorter distances may achieve similar speeds but they are not typically called as higher-speed rail. Some examples are: There are many types of trains that can support higher-speed rail operation. Usually,

2088-426: The biggest gains, cutting travel time in half to just 4 hours. If implemented, planners would expect 13.6 million annual riders by the year 2025. The frequency of train trips would also be increased: areas that currently only see one train in each direction every day would be upgraded to four or six trips each way. The total investment required for the system, paying for infrastructure as well as rolling stock ,

2160-639: The city's Union Station . Most existing passenger trains in the region operate at speeds of about 55 to 79 miles per hour (89 to 127 km/h), although a few travel faster. The various plans have suggested speeds ranging from 110 to 220 miles per hour (180 to 350 km/h) for the core routes, as well as improved speeds for secondary routes. In 2023, the Chicago–St. Louis rail line was upgraded so passenger trains are able to reach top speeds of 110 miles per hour (180 km/h) when traveling between Joliet and Alton . Renewed interest in high-speed rail occurred by

2232-461: The construction work that could potentially disrupt the train services. The followings are some strategies used by regional transportation planners and rail track owners for their rail improvement projects in order to start the higher-speed rail services. In Victoria , Australia, the increased top speeds from 130 to 160 km/h (80 to 100 mph) in the Regional Fast Rail project required

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2304-601: The country. States in the Midwest made 24 applications to the government, and on January 28, 2010, the White House announced that the Chicago network would receive money for three of its requests, and two other grants were made to Midwestern states. The Chicago-based routes receiving funding were: An additional $ 400 million was released for the 3C corridor in Ohio connecting Cleveland, Columbus, Dayton, and Cincinnati, and $ 17 million

2376-484: The crews when the crossing equipment has malfunctioned. In Norway, grade crossing speed are not permitted to exceed 160 km/h (100 mph). In areas where there is frequent interference between freight and passenger trains due to congestion which causes the passenger trains to slow down, more extensive improvements may be needed. Certain segments of the line in congested areas may need to be rerouted. New track may need to be laid to avoid many curves which slow down

2448-617: The definition of higher-speed rail varies from country to country, most countries refer to rail services operating at speeds up to 200 km/h (125 mph). The concept is usually viewed as stemming from efforts to upgrade a legacy railway line to high speed railway standards (speeds in excess of 250 km/h or 155 mph), but usually falling short on the intended speeds. The faster speeds are achieved through various means including new rolling stock such as tilting trains, upgrades to tracks including shallower curves, electrification, in-cab signalling, and less frequent halts/stops. As with

2520-493: The deliberately reduced scenarios mentioned in "train identifiers" section above. Since 1997, ongoing construction to upgrade and built higher-speed lines capable of speeds of up to 200 km/h (120 mph) is conducted. The P.A.Th.E. Plan ( Patras - Athens - Thessaloniki - Evzonoi ), as it is called aims at reduced journey times between Greece's main cities (Athens, Thessaloniki and Patra) as well as an improved rail connection between Greece and North Macedonia . Currently, only

2592-538: The diesel-electric counterpart. The fuel consumption, locomotive maintenance costs and track wear of all all-electric locomotives are also lower. Furthermore, electric traction makes the operator more independent of oil price fluctuations and imports, as electricity can be generated from domestic resources or renewable energy. This was a major consideration in the electrification of the German Democratic Republic network , as lignite (and therefore electricity)

2664-484: The greatest benefit to riders and others in the corridor, though a slower (and less expensive) 125 mph (201 km/h) "Amtrak upgrade" option was also deemed reasonable for capital-constrained investments. The Intermodal Surface Transportation Efficiency Act of 1991 (ISTEA) was passed on December 18, 1991, and requested designation of up to five corridors. A core of what would become the Chicago Hub Network

2736-423: The high-speed rail program was estimated at $ 1.8 billion, with the federal government committing $ 1.6 billion of that, later lowered to $ 1.4 billion. It is estimated that $ 1.2 billion will be spent on the program by the end of 2016. On December 20, 2021, Amtrak train speeds were upgraded to 90 miles per hour (140 km/h) between Chicago and St Louis. This reduced travel time by 15 minutes between

2808-454: The higher superelevation, will require track modification to have transition spirals to and from those curves to be longer. Old turnouts may need replacement to allow trains to run through the turnouts at higher speeds. In the United States, some old turnouts have speed limit of 20 mph (30 km/h). Even with newer turnouts (rated #20), the diverging speed limit is still at 45 mph (70 km/h) which would significantly slow down

2880-425: The higher-speed train passing through those sections. High-speed turnouts (rated #32.7) are capable of handling maximum diverging speeds of 80 mph (130 km/h). In order to minimize the downtime to upgrade tracks, a track renewal train (TRT) can automate much of the process, replacing rails, ties, and ballast at the rate of 2 miles per day. In the United States, a TRT is used by Union Pacific Railroad on

2952-435: The length of track. When straight routes are not possible, reducing the number of curves and lowering the degree of curvature would result in higher achievable speeds on those curves. An example is the elimination of three consecutive reverse curves in favor of one larger curve. Raising superelevation may be considered for sharp curves which significantly limit speed. The higher speeds on those modified curves, together with

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3024-417: The limit is often 160 km/h (100 mph) over grade crossings. In Sweden there is a special rule permitting 200 km/h (125 mph) if there are barriers and automatic detection of road vehicles standing on the track. In Russia 250 km/h (155 mph) is permitted over grade crossings. The United Kingdom has railway lines of 200 km/h (125 mph) which still use grade crossings. With

3096-577: The line between Chicago and St. Louis , and freight trains had a top speed of 60 MPH. In the fall of 2012, the section of the Chicago-St. Louis line between Pontiac, Illinois , and Dwight, Illinois , began Amtrak service at 110 MPH, as a demonstration section. In 2014 construction began to upgrade the entire rail line between Carlinville, Illinois , and Joliet, Illinois , so that Amtrak could run its passenger trains at 110 MPH. In addition, freight trains will be able to operate at 70 MPH. The entire cost of

3168-500: The majority of high-speed lines are also called "passenger-only"( Chinese : 客运专线 ) lines. Inside mainland China this word invokes a sense of higher-speed rail but the wording usage is inconsistent. Identifiers starting with G indicates at least part of the train's route operates at a maximum 300 km/h or above (this is a characteristic of the line rather than the precise maximum speed of this exact train) and not running at deliberately reduced speed on any section. Other sections of

3240-424: The modernized lines of Domokos – Thessaloniki , Athens Airport – Kiato , and Thessaloniki – Strymonas are in operation at maximum speeds of 160 km/h (99 mph). The Gatimaan Express was India's first semi-high speed train. In October 2014, the railways applied for safety certificate from Commission of Railway Safety to start the service. In June 2015, the train was officially announced. The train

3312-506: The nation's fastest trains in Chicago, as it had in the 1930s and 1940s when the Twin Zephyrs , Twin Cities 400 , and Hiawatha were based in the city. Chicago is North America 's largest rail hub, and remains unsurpassed in the total number of passenger and freight trains that converge on any city on the continent. Chicago is a major hub for Amtrak , with 15 different lines terminating at

3384-596: The power plants. Substations are required for each of the 40-mile (64 km) lengths to reduce severe voltage losses. There is also a need to consider the required amount of power supply and new power plants may be required. For locomotives, new electric locomotives are needed or existing diesel-electric locomotives can be retrofitted into all-electric locomotives, but it is a complicated task. These factors cause electrification to have high initial investment costs. The advantages of all-electric locomotives are that they provide quieter, cleaner and more reliable operations than

3456-508: The primary routes, but 80 to 90 mph (130 to 140 km/h) on secondary lines. Existing trains run at speeds of about 55 to 79 mph (89 to 127 km/h). Raising the speed would significantly reduce trip times. A trip between Milwaukee and Chicago would be reduced from about 90 minutes to just over an hour. The trip from the Twin Cities to Chicago would drop from 8 hours to 5½ hours. Travelers between Chicago and Cincinnati would see

3528-434: The project included changing to use concrete ties and to use new standard of rail weight at 60 kg/m (121 lb/yd) in order to support the new top speeds of 160 km/h (100 mph). There may be restriction in maximum operating speeds due to track geometry of existing line, especially on curves. Straightening the route, where possible, will reduce the travel time by increasing the allowable speeds and by reducing

3600-518: The projects in these two states and returning the money to the federal government. Following the return of funds, the federal government redirected the $ 145 million intended for Wisconsin and Ohio to the State of Washington's high-speed rail corridor , and to Connecticut to modernize the New Haven-Springfield Line . Before the upgrades, Amtrak passenger trains had a top speed of 79 MPH on

3672-432: The rail infrastructure needs to be upgraded prior to such operation. However, the requirements to the infrastructure (signalling systems, curve radii, etc.) greatly increase with higher speeds, so an upgrade to a higher-speed standard is often simpler and less expensive than building new high-speed lines. But an upgrade to existing track currently in use, with busy traffic in some segments, introduces challenges associated with

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3744-501: The rail lines from the Chicago hub would connect through to cities in Canada . Eastern routes from Chicago would also blend into the Ohio Hub network. In addition to providing better connections between Midwestern cities, the projects are intended to reduce or eliminate the operating subsidies that American passenger train routes currently require. If implemented, the plans would have some of

3816-557: The route may have lower speeds as low as 160 km/h. Identifiers starting with C indicates short-distance travel using CRH trains, the maximum speed is irrelevant (ranging from 160 km/h Ürümqi-Korla service to 350 km/h Beijing-Tianjin (via intercity) service). Identifiers starting with D indicates CRH services with maximum speed 265 km/h or less, including overnight sleepers on 310 km/h Beijing-Guangzhou line (running them 310 km/h overnight not only causes noises but also disturbs sleeping patterns of passengers. This

3888-406: The route, safety at all at-grade crossings needs to be considered. In Australia, the levels of upgrade of the crossing in the rail improvements project were based on the risk analysis. The improvements included flashing light protection, automatic full barriers protection, and pedestrian gates crossings. The project also introduced the use of rubber panels at the crossings. In the United States,

3960-407: The spike is gradually loosened from the tie). The concrete ties used to replace them are intended to make the track more stable, particularly with changes in temperature. Rail joints are also an issue, since most conventional rail lines use bolts and fishplates to join two sections of the rail together. This causes the joint to become slightly misaligned over time due to loosening bolts. To make for

4032-612: The successful bidder in October 1976. The Tilt Train is the name for two similar tilting train services, one electric and the other diesel , operated by Queensland Rail on the North Coast line from Brisbane to Rockhampton and Cairns . In May 1999 the Electric Tilt Train set an Australian train speed record of 210 km/h (130 mph) north of Bundaberg , a record that still stands. The Transwa WDA/WDB/WDC class are

4104-518: The system to automatically applies the brakes at a sufficient distance to stop the train if the driver does not control the speeds adequately. The project also incorporated Train Control and Monitoring System to allow real-time monitoring of the position of trains. In the United States, the first step to increase top speeds from 79 mph (127 km/h) is to install a new signal system that incorporates FRA-approved positive train control (PTC) system that

4176-433: The term consist ( / ˈ k ɒ n s ɪ s t / KON -sist ) is used to refer to the rolling stock in a train. In the United States, the term rolling stock has been expanded from the older broadly defined "trains" to include wheeled vehicles used by businesses on roadways. The word stock in the term is used in a sense of inventory . Rolling stock is considered to be a liquid asset , or close to it, since

4248-878: The third rail system is not generally used for higher-speed rail. One example in the United States that does involve electrification is the Keystone Improvement Project to provide higher-speed rail service along the Harrisburg - Pittsburgh segment of the Keystone Corridor in Pennsylvania . The plan includes additional track, a new signal system and electrification. If completed as planned, this would allow Amtrak to utilize electric power continuously on service from Philadelphia to Pittsburgh. The first segment ("Main Line") has already been using electric locomotives with

4320-448: The track shared with future higher-speed rail service in Illinois area. For electrified track, the old catenary may need to be replaced. The fixed-tension catenary which is acceptable for low speeds may not be suitable for regular higher-speed rail services, where a constant tension is automatically maintained when temperature changes cause the length of the wire to expand or contract. With trains running at higher speeds throughout

4392-455: The trains. In stretches of heavy freight train traffic, adding passing sidings along the segment should be considered. Sometimes certain stations may need to be bypassed. Another consideration is electrification . Electrifying a railway line entails a major upgrade to the rail infrastructure and equipment. On the infrastructure side, it requires catenary lines to be built above the tracks. New transmission lines are needed to carry power from

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4464-446: The two cities. Final approval for 110 mph (180 km/h) speeds was granted in May 2023, and higher-speed rail service began on Wednesday, May 3, 2023, saving passengers an additional 45 minutes in travel time. Higher-speed rail Higher-speed rail ( HrSR ), also known as high-performance rail , higher-performance rail , semi-high-speed rail or almost-high-speed rail ,

4536-492: The upgraded signaling and control systems required for higher-speed rail . In Michigan, this work has already resulted in speeds up to 110 mph (180 km/h) for Amtrak's Wolverine and Blue Water services. Similar work on the Chicago–Saint Louis line in Illinois was met with considerable technical difficulties in 2005, though work continued. In September 2008, the federal government provided $ 297,000 to fund

4608-630: The year 1990 when the Minnesota–Wisconsin–Illinois Tri-State Rail Study was underway. A Chicago–Milwaukee–Madison–La Crosse–Rochester–Twin Cities "southern corridor" (a variation of the former Hiawatha routing) and a Chicago–Milwaukee–Green Bay–Wausau–Eau Claire–Twin Cities "northern corridor" were described in a preliminary report in December of that year. A final report was released in May 1991 and recommended TGV -class 185 mph (298 km/h) service since it provided

4680-587: Was allocated to Iowa. Many of the corridors receiving funding at this time were originally designated as high-speed rail corridors following the 1991 ISTEA legislation. In October 2010, the Chicago Hub received more money from the FY 2010 High Speed Rail Allocation. The major grants were: Following the 2010 gubernatorial elections in Wisconsin and Ohio , both newly elected governors repeated their intentions of shutting down

4752-677: Was between 2000 and 2002. Finally, the services on four lines began between 2005 and 2006 with top speeds of 160 km/h using VLocity trains. Additionally, Queensland Rail 's Tilt Train , the Prospector and NSW TrainLink's XPT all have a top service speed of 160 km/h (99–100 mph). The New South Wales XPT (short for Express Passenger Train) is the main long-distance passenger train operated by NSW TrainLink on regional railway services in New South Wales , Australia from Sydney to Dubbo , Grafton , and Casino as well as interstate destinations, Brisbane and Melbourne . The XPT

4824-457: Was cheap and plentiful domestically whereas oil had to be imported at world market prices. An alternative to catenary lines is to use a third rail system which has a semi-continuous rigid conductor placed alongside or between the rails of a railway track. However the operating speeds of this type of systems cannot be greater than 100 mph (160 km/h) due to its limitation of the power supply gaps at turnouts and grade crossings. Therefore,

4896-466: Was estimated at $ 7.7 billion in 2002 dollars. $ 1.1 billion of that would go toward purchasing 63 new train sets. Plans at the time called for phased construction taking about a decade. This plan is expected to use diesel-powered trains, which is one reason for the relatively low top speed in comparison to high-speed lines in Europe and elsewhere. The practical limit for diesel-powered train service

4968-525: Was launched on 5 April 2016 and completed its maiden journey between Nizamuddin and Agra Cantt within 100 minutes. But due to low occupancy, Indian Railways first extended this train from Agra to Gwalior on 19 February 2018 and then to Jhansi on 1 April 2018. The Tejas Express was Introduced by Indian Railways in 2017. It features modern onboard facilities with doors which are operated automatically. Tejas means "sharp", "lustre" and "brilliance" in many Indian languages. The inaugural run of Tejas Express

5040-534: Was named 'Vande Bharat Express' on 27 January 2019. On 5 October 2019, a second Vande Bharat Express was opened from Delhi to Katra On 30 September 2022, Prime Minister Narendra Modi inaugurated a 3rd Vande Bharat Express rake connecting Mumbai and Ahmedabad passing through Surat . This rake was an upgraded second generation version. an other second generation rake was inaugurated from Delhi to Una passing through Chandigarh . The Delhi Meerut Regional Rapid Transit System (RRTS), also known as RapidX ,

5112-422: Was on 24 May 2017 from Mumbai Chhatrapati Shivaji Maharaj Terminus to Karmali , Goa . It covered 552 km in 8 hours and 30 minutes. On 1 March 2019, second Tejas Express of the country was flagged off between Chennai Egmore and Madurai Junction by Prime Minister Narendra Modi . It covered 497 km in 6 hours and 30 minutes. Lucknow – New Delhi Tejas Express , which was inaugurated on 4 October 2019,

5184-527: Was the first of these five to be announced by Secretary of Transportation Andrew Card on October 15, 1992, who designated Chicago-based routes to Milwaukee, St. Louis, and Detroit. In 2004, the Midwest Regional Rail Initiative plan was released, focusing on upgrading existing Amtrak routes. The plan had been in development since 1996, led by the Wisconsin Department of Transportation . Trains would travel at about 110 miles per hour (180 km/h) on

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