InterCity 125: Difference between revisions
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Five [[British Rail Class 43 (HST)|Class 43]] locomotives have been written off in railway accidents, three of which occurred on the [[Great Western Main Line]]. 43011 was written off in the 1999 [[Ladbroke Grove rail crash]], 43019 was written off after colliding with a car at [[Ufton Nervet rail crash|Ufton Nervet]] in 2004 and 43173 was scrapped after heavy damage in the [[Southall rail crash]] of 1997. In each of these cases, the damage was to the leading power car; the trailing power cars suffered limited or no damage and were returned to service. At Ladbroke Grove and Ufton Nervet, the accidents were ultimately caused by factors not involving the HST sets or their drivers, although the set involved in the Ladbroke Grove crash had a faulty AWS system;<ref>{{cite book |url=http://www.rail-reg.gov.uk/upload/pdf/incident-ladbrokegrove-lgri1-optim.pdf |title=The Ladbroke Grove Rail Inquiry – Part 1 Report |year=2001 |isbn=0-7176-2056-5 |publisher=Health and Safety Commission |access-date=1 March 2012 |url-status=dead |archive-url=https://web.archive.org/web/20090325165337/http://www.rail-reg.gov.uk/upload/pdf/incident-ladbrokegrove-lgri1-optim.pdf |archive-date=25 March 2009 }}</ref><ref>{{cite web|url=http://www.rssb.co.uk/SiteCollectionDocuments/pdf/reports/Ufton%20-%20Preliminary%20Report.pdf |title=Preliminary report into railway accident at Ufton Nervet |publisher=Rail Safety and Standards Board |date=25 January 2005 |access-date=1 March 2012 }}{{dead link|date=May 2017 |bot=InternetArchiveBot |fix-attempted=yes }}</ref> however, the Southall accident was due to the HST colliding with a goods train which was entering Southall Goods Yard, crossing the main lines. The immediate cause of the crash was the result of the driver of the HST [[Signal passed at danger|passing a red signal without stopping]]. In addition, the leading power car of the set had a faulty [[Automatic Warning System]] which if operational would have alerted the driver to his error and possibly prevented the accident.<ref>{{cite web|url=http://www.rail-reg.gov.uk/upload/pdf/incident-southall-hscprogressfeb02.pdf |title=The Southall rail accident inquiry report: Summary of progress |date=February 2002 |publisher=Health and Safety Commission |access-date=1 March 2012 |url-status=dead |archive-url=https://web.archive.org/web/20070930223049/http://www.rail-reg.gov.uk/upload/pdf/incident-southall-hscprogressfeb02.pdf |archive-date=30 September 2007 }}</ref> Following investigation, this system has since been required to be kept operational and switched on for all use of the InterCity 125 fleet. |
Five [[British Rail Class 43 (HST)|Class 43]] locomotives have been written off in railway accidents, three of which occurred on the [[Great Western Main Line]]. 43011 was written off in the 1999 [[Ladbroke Grove rail crash]], 43019 was written off after colliding with a car at [[Ufton Nervet rail crash|Ufton Nervet]] in 2004 and 43173 was scrapped after heavy damage in the [[Southall rail crash]] of 1997. In each of these cases, the damage was to the leading power car; the trailing power cars suffered limited or no damage and were returned to service. At Ladbroke Grove and Ufton Nervet, the accidents were ultimately caused by factors not involving the HST sets or their drivers, although the set involved in the Ladbroke Grove crash had a faulty AWS system;<ref>{{cite book |url=http://www.rail-reg.gov.uk/upload/pdf/incident-ladbrokegrove-lgri1-optim.pdf |title=The Ladbroke Grove Rail Inquiry – Part 1 Report |year=2001 |isbn=0-7176-2056-5 |publisher=Health and Safety Commission |access-date=1 March 2012 |url-status=dead |archive-url=https://web.archive.org/web/20090325165337/http://www.rail-reg.gov.uk/upload/pdf/incident-ladbrokegrove-lgri1-optim.pdf |archive-date=25 March 2009 }}</ref><ref>{{cite web|url=http://www.rssb.co.uk/SiteCollectionDocuments/pdf/reports/Ufton%20-%20Preliminary%20Report.pdf |title=Preliminary report into railway accident at Ufton Nervet |publisher=Rail Safety and Standards Board |date=25 January 2005 |access-date=1 March 2012 }}{{dead link|date=May 2017 |bot=InternetArchiveBot |fix-attempted=yes }}</ref> however, the Southall accident was due to the HST colliding with a goods train which was entering Southall Goods Yard, crossing the main lines. The immediate cause of the crash was the result of the driver of the HST [[Signal passed at danger|passing a red signal without stopping]]. In addition, the leading power car of the set had a faulty [[Automatic Warning System]] which if operational would have alerted the driver to his error and possibly prevented the accident.<ref>{{cite web|url=http://www.rail-reg.gov.uk/upload/pdf/incident-southall-hscprogressfeb02.pdf |title=The Southall rail accident inquiry report: Summary of progress |date=February 2002 |publisher=Health and Safety Commission |access-date=1 March 2012 |url-status=dead |archive-url=https://web.archive.org/web/20070930223049/http://www.rail-reg.gov.uk/upload/pdf/incident-southall-hscprogressfeb02.pdf |archive-date=30 September 2007 }}</ref> Following investigation, this system has since been required to be kept operational and switched on for all use of the InterCity 125 fleet. |
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An InterCity HST, comprising four coaches between [[British Rail Class 43 (HST)|Class 43]] power cars |
An InterCity HST, comprising four coaches between [[British Rail Class 43 (HST)|Class 43]] power cars 43030 and 43140, were involved in the [[Stonehaven derailment]] on 12 August 2020, in which three people died.<ref name="BBC-53751678">{{Cite news|date=12 August 2020|title=Major emergency response after train derails |work=BBC News|url=https://www.bbc.com/news/uk-scotland-north-east-orkney-shetland-53751678|access-date=12 August 2020}}</ref><ref name="BTP">{{cite web |title=Three people have sadly died following train derailment - Scotland |url=https://media.btp.police.uk/r/17325/three_people_have_sadly_died_following_train_dera |archive-url=https://web.archive.org/web/20200812172845/https://media.btp.police.uk/r/17325/three_people_have_sadly_died_following_train_dera |url-status=dead |archive-date=12 August 2020 |publisher=British Transport Police |access-date=12 August 2020 }}</ref> Both power cars were scrapped following the subsequent investigation. <ref>{{cite magazine |title=NR recovers wrecked vehicles from Carmont crash |magazine=Rail |publisher=Bauer Media Group |location=Peterborough |issue=914 |date=23 September 2020 |page=6 |issn=0953-4563 }}</ref><ref>{{cite magazine |title= Carmont accident Mk3s and a power car scrapped |magazine=[[Rail Magazine]] |issue=931 |date=19 May 2021| page=25}}</ref><ref>{{cite magazine |title= HST Power Car Round Up |magazine=[[Railways Illustrated]] |issue=240 |date=February 2023| page=19}}</ref> |
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===Re-engining and refurbishment=== |
===Re-engining and refurbishment=== |
Revision as of 19:00, 22 July 2023
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InterCity 125 or High Speed Train (HST) | |||||||||
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The InterCity 125 (originally Inter-City 125) or High Speed Train (HST) is a diesel-powered high-speed passenger train built by British Rail Engineering Limited between 1975 and 1982. A total of 95 sets were produced, each comprising two Class 43 power cars, one at each end, and a rake of seven or eight Mark 3 coaches. The name is derived from its top operational speed of 125 mph (201 km/h). At times, the sets have been classified as British Rail Classes 253, 254 and 255.
British Rail (BR) initially developed the HST as an interim measure in the early 1970s, as delays and cost concerns began to threaten their primary high-speed train project, the Advanced Passenger Train (APT). The HSTs are now widely considered to be among the most successful trains to have operated on the British railway network, both in terms of their initial impact and their longevity: their introduction into service between 1976 and 1982 resulted in significantly reduced journey times, and large increases in patronage on the routes on which they were operated. The trains proved to be a reliable workhorse, remaining in front-line service for decades. The first withdrawals began in 2017, 41 years after they were introduced.
As of August 2021[update], InterCity 125s remain in service with ScotRail, CrossCountry, Great Western Railway, and Network Rail.
The design became the basis for an Australian variant, the XPT, which entered service in New South Wales in 1982.
Background
In the late 1950s and early 1960s, the British Transport Commission (BTC) was modernising its rail network. It wanted to increase intercity speeds so that railways could compete more effectively with motorways. The governments of the time were unwilling to fund dedicated high speed rail infrastructure, as happened in other countries, and so the BTC instead focused on developing new trains which could operate at higher speed using existing infrastructure. A team of engineers was assembled at the Railway Technical Centre in Derby in the early 1960s, to design and develop an Advanced Passenger Train (APT) capable of at least 125 miles per hour (201 km/h) incorporating many features not previously seen on British railways—such as tilting to allow higher speeds on curves.[1]
The APT project suffered repeated delays and in 1970, the British Railways Board (BRB) decided it would not be sufficiently developed to enter public service until well into the next decade, so therefore a stopgap solution would be needed to reduce journey times in order to compete effectively with other modes of transport. At the instigation of Terry Miller, Chief Engineer (Traction & Rolling Stock), the BRB authorised the development of a high-speed diesel train using tried and tested conventional technology for short-term use, until the APT was able to take over. An operational prototype was to be built by 1972.[2]
Development
Concept and design
The high-speed diesel train, which became the HST or InterCity 125, was formed of a rake of Mark 3 passenger coaches between two streamlined power cars, one at each end. Each power car was fitted with a Paxman Valenta diesel engine which could produce 2,250 horsepower (1,680 kW). This engine was chosen due to its light weight, and subsequent high power-to-weight ratio. The decision to use two power cars was taken early in the project as design engineers calculated that the train would need 4,500 horsepower (3,400 kW) to sustain 125 mph on the routes for which it was designed (the Great Western Main Line, East Coast Main Line, Midland Main Line, and the Cross Country Route), and it was established that no "off-the-shelf" diesel engine was capable of producing such power.[3][4]
British Rail had used a similar idea of a train with integral power cars at each end a decade earlier, with their Blue Pullman sets; although these trains were not ultimately commercially successful, they established the validity of the idea, and are often seen as forerunners of the HSTs.[5] The concept had several advantages; firstly, a power car at each end allowed the train to be driven from either end in push–pull formation with the power cars linked by electronic control systems, and therefore reverse direction without the need for a locomotive to be run around at terminus stations, secondly, the train could run with only one power car operational, though at reduced speed, therefore allowing a journey to continue in the event of a breakdown, and thirdly, it avoided the underfloor diesel engines found in diesel multiple units, therefore avoiding noise and vibration for passengers.[4] Another factor was that two locomotives operating in push–pull formation, would cause less wear on the rails than a single locomotive. One of the design requirements for the HST was that it should exert no more force on the track at 125 mph, than a Class 55 'Deltic' locomotive at 100 mph, and each power car of the HST weighed a modest 70 tons which allowed it to meet this requirement.[3]
One of the key design requirements for the HSTs was that they should be able to run at 125 mph on existing infrastructure. In order to achieve this, they had to be able to come to a stop from 125 mph within existing signal spacings, which required a high performance braking system to be developed. This was achieved by a high performance disc brake system, in place of the clasp brakes used on traditional stock.[3][4]
Prototype
To prove the concept, British Rail produced a prototype. The framework of the new locomotive, classified British Rail Class 41, was built at Crewe Works and transferred to Derby Litchurch Lane Works for completion. The design incorporated a driving desk around the centrally seated driver, a sound-proofed door between the cab and the engine room, and, unusually, no side windows.[6] The prototype was the first diesel locomotive in British railway history to use AC alternators in place of a DC generator, with the output converted to DC when used for traction.[7]
The prototype train of seven coaches and two locomotives was completed in August 1972 and in the autumn was running trials on the main line. The following year, high-speed testing was undertaken on the "racing stretch" of the East Coast Main Line between York and Darlington. The set was reduced to two power cars and five trailers, and there was a concerted attempt to see how fast the train would go. On 6 June 1973, 131 mph (211 km/h) was reached, which was bettered as the days passed. On 12 June, a world diesel speed record of 143.2 mph (230.5 km/h) was achieved, and the drivers believed that 150 mph was possible, but the BRB issued instructions for the high speed tests to cease. It was believed at the time that this was because the BRB wanted to promote the APT as the future of high speed rail travel in the UK.[8]
The fixed-formation concept was proven in trial running between 1973 and 1976, and British Rail went on to build 95 sets of production HSTs to transform InterCity services.[3]
Production versions
Manufacturing of the production power car sets began in 1974 at the Crewe Works, with the Mark 3 coaches being manufactured at the Derby Litchurch Lane Works. The first production power car, numbered 43002, was delivered in late 1975. The production versions were mechanically very similar to the prototype, but differed considerably in appearance: the streamlined wedge-shaped front end lacked conventional buffers, and the drawgear was hidden under a cowling. The single cab front window was much wider than the prototype's, and side windows were included. Unlike the prototype, no driving position was included at the inner end, as the power cars were originally intended to operate in fixed formation.[3][4]
The train's appearance is the work of British industrial designer Kenneth Grange who was approached by British Rail to design the livery, but under his own impetus, and without telling anyone, decided to redesign the body. He worked with an aerodynamic engineer, and they built and tested a model in a wind tunnel.[9] "It really was rather quite brutal, rather clumsy. I thought, 'Oh I'd like to get my hands on that', although the brief was nothing to do with the shape, absolutely not at all."[10] He presented the new design to British Rail and persuaded them to adopt it.[11] After being withdrawn from GWR service, 43002 was acquired by the National Collection in November 2019 and was displayed at the National Railway Museum in York.[12]
The redesigned front end also had the advantage of easing union acceptance of the train: the railway union ASLEF had objected to the prototype's lack of space for a secondman to sit alongside the driver, and had refused to operate the prototype in public service. The cab on the production version was wide enough to accommodate two people, and so was able to overcome these objections.[3][4]
An InterCity 125 consists of two Class 43 diesel-electric power cars, each powered originally by 2,250 bhp (1,678 kW) Paxman Valenta engines (they have since been fitted with different engines), and a set of six to nine Mark 3 coaches.
Key features of the design are the high power-to-weight ratio of the locomotives (1678 kW per ~70-tonne loco),[13] which were built for high-speed passenger travel, improved crashworthiness over previous models, and bi-directional running avoiding the need for the locomotive to run around at terminating stations.[14] Until the HST's introduction, the speed of British diesel-powered trains was limited to 100 mph (161 km/h).[15] The HST allowed a 25% increase in service speeds along many of the lines on which they operated.
Lighter axle loading allowed the trains to travel faster than conventional services along lines not suited to full-speed running, such as Edinburgh to Aberdeen. Coupled with superior acceleration over older locomotives, this allowed substantial cuts in journey times. The increased speed and rapid acceleration and deceleration of the HST made it ideal for passenger use.
British Rail service
Introduction into service
Deliveries continued in 1976, and on 4 October a partial service of HSTs running at 125 mph (201 km/h) began on the Western Region, from London Paddington, on the Great Western and South Wales Main Lines.[16] The radical update of the standard BR livery on the power cars was complemented by the 'Inter-City 125' branding, which also appeared on timetables and promotional literature.[16] By the start of the summer timetable in May 1977, the full complement of 27 Class 253 sets (253001–253027) was in service on the Western Region, replacing locomotive-hauled trains on the Bristol and South Wales routes. Passenger numbers rapidly increased due to the speed and frequency of the services. The displacement by HSTs of Class 50 locomotives to slower services effectively finished off the last Class 52 diesel-hydraulics by early 1977.
The production of Class 254 continued through 1977 for East Coast Main Line (ECML) services. The HSTs allocated to the ECML had eight coaches instead of seven on the Western Region, and British Rail had originally planned to fit uprated 2,500 bhp (1,900 kW) Valenta engines to the longer HSTs, but this was not carried out, as it was found that the engine's coolant system would struggle to deal with the extra heat produced by a higher powered engine. The first 125 mph East Coast HST services were introduced for the summer timetable in May 1978, with HSTs taking over Flying Scotsman and other services. The previous generation of Class 55 'Deltic' locomotives were relegated to secondary duties, before being withdrawn entirely in late 1981. A full HST timetable for the ECML was due to be introduced in May 1979, but was delayed until late August due to the Penmanshiel Tunnel collapse. The HSTs reduced the London-Edinburgh journey time by up to an hour.[3]
In 1979, HST services began in South West England, to destinations such as Exeter, Plymouth and Penzance, and in 1981 they were introduced to the Cross Country Route via Birmingham New Street. In 1982 HSTs were introduced to Midland Main Line services from London St Pancras: Although the HSTs were mostly limited to a top speed of 100 miles per hour (160 km/h) on those routes, their increased acceleration still reduced journey times.[3]
Ninety-five HST sets, including 197 Class 43 powercars, were built between 1976 and 1982. More Mark 3 trailer cars were built in the 1980s for the Western Region Class 253s, making them eight-car rakes in common with East Coast and Midland Main Line services. During the 1990s only the Cross-Country sets remained as seven-car rakes, with just one first-class coach.
One of the main selling points of the new HST services were the increase in speed and comfort without any increase in fares.[16] The HST brought considerable improvements in service, and British Rail began active marketing to support the train's introduction.[17] The InterCity service was a great success for British Rail.[18]
Journey time reductions
One of the main selling points of the HSTs were the reductions they could achieve in journey times, with the trains being marketed in publicity material as 'The Journey Shrinker'. In 1973 British Rail produced a promotional booklet entitled Speed for the Seventies in which they laid out the expected journey times to be achieved with HSTs compared to the then extant timings.[3]
Journey times from London 1973 | Proposed HST times | |||||
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Place | Distance (miles & km) |
Time h.m |
Average Speed | Time h.m |
Average Speed | Time savings |
Bath | 107 mi (172 km) | 1.38 | 66 mph (106 km/h) | 1.11 | 90 mph (140 km/h) | 27m |
Bristol | 118 mi (190 km) | 1.50 | 65 mph (105 km/h) | 1.22 | 87 mph (140 km/h) | 28m |
Cardiff | 145 mi (233 km) | 2.11 | 67 mph (108 km/h) | 1.46 | 82 mph (132 km/h) | 25m |
Doncaster | 156 mi (251 km) | 2.04 | 75 mph (121 km/h) | 1.39 | 95 mph (153 km/h) | 25m |
York | 188 mi (303 km) | 2.22 | 79 mph (127 km/h) | 2.00 | 94 mph (151 km/h) | 22m |
Leeds | 186 mi (299 km) | 2.28 | 75 mph (121 km/h) | 2.14 | 83 mph (134 km/h) | 14m |
Darlington | 232 mi (373 km) | 2.52 | 81 mph (130 km/h) | 2.31 | 92 mph (148 km/h) | 21m |
Newcastle | 268 mi (431 km) | 3.38 | 74 mph (119 km/h) | 2.57 | 91 mph (146 km/h) | 41m |
Edinburgh | 393 mi (632 km) | 5.30 | 71 mph (114 km/h) | 4.30 | 87 mph (140 km/h) | 60m |
Most of these predictions of the journey times achievable by HSTs proved to be quite accurate, and in some cases they were underestimates. For example, the best timing achieved for London to Bath was 62 minutes, and 115 minutes was achieved for London to York.[3]
Proposed electric version
In the early 1980s, when electrification of the East Coast Main Line was in its early planning stages, serious consideration was given to producing an electric version of the HST, which would have been known as the HST-E. This would have kept the bodyshell and most of the mechanical components of the diesel version, but the power cars would have been electric locomotives fitted with pantographs. The thinking was, that as the diesel version had been proven, it would be a straightforward way to produce a 125mph trainset. The HST-E was proposed in response to the failure of the Advanced Passenger Train (APT) project. This proposal did not proceed, and BR instead developed a new electric trainset which would become the 140 mph (230 km/h) capable InterCity 225 to work the electrified services on the ECML, which came into service in the late-1980s.[19][20]
World records
The prototype InterCity 125 (power cars 43000 and 43001) set the world speed record for diesel traction at 143.2 mph (230.5 km/h) on 12 June 1973.[21]
A HST also holds the world speed record for a diesel train carrying passengers. On 27 September 1985, a special press run for the launch of a new Tees-Tyne Pullman service from Newcastle to London King's Cross, formed of a shortened 2+5 set, briefly touched 144 mph (232 km/h) north of York. The world record for the fastest diesel-powered train, a speed of 148 mph (238 km/h), was set by an HST on 1 November 1987,[22][23][24][25] between Darlington and York with a test run for a new type of bogie for use on Mark 4 coaches on the same route. The record run was led by 43102 and trailed by 43159.[26]
Regions and operators
South West England and South Wales
On the Western Region, InterCity 125 trains (designated class 253) were introduced on services from London to Bristol and South Wales,[22] and extended to most daytime services from London to Devon and Cornwall. Some South Wales services were extended to Milford Haven, Fishguard and Pembroke in West Wales. Maintenance was provided at Old Oak Common and St Philip's Marsh, and Laira also carried out maintenance after services to Devon and Cornwall were introduced in 1979.
British Rail Class 47 locomotives still operated cross-country services from Cornwall and South Wales to the North-East via the Cross Country Route, and London to the Midlands/Welsh Marches. Class 43s replaced them when the third batch of power cars was delivered in 2+7 formation with two first class coaches, a buffet car, and four second class coaches between two power cars. They were later expanded to a 2+8 formation, with an extra second class coach.
Great Western Trains was formed out of the privatisation of British Rail and operated the InterCity routes from London Paddington to the west of England. In 1998 FirstGroup acquired Great Western Trains and rebranded it First Great Western. InterCity 125s continued to work the same diagrams they had under British Rail, albeit in a different livery.
Great Western Railway used 43 HST sets to operate most intercity services from Paddington to Bristol, Bath Spa, Chippenham, Swindon, Cardiff, Swansea, Carmarthen, Cheltenham Spa, Oxford, Worcester, Hereford, Paignton, Plymouth and Penzance, and some commuter services to Westbury, Taunton and Exeter St Davids. In 2012 all First Great Western's intercity services were worked by InterCity 125 sets with the exception of sleeper services and some Cotswold Line services.
From 2005 the First Great Western HSTs were re-engined with MTU power units and the coaches were refurbished.[27] Units for services in the M4 corridor/Thames Valley to Bristol, Hereford, Oxford, Exeter and Cardiff were converted to a high-density layout of mostly airline-style seats in standard class (only two tables per coach) to provide more seats for commuters. The remainder, for routes to Swansea and the West Country, included four tables per standard class coach.
The refurbished coaches had new seating (leather in first class), at-seat power points and a redesigned buffet bar.[28] From 2010, one standard class coach in each set had a Volo TV system,[29] but this was removed in 2014.
Another change was made in 2014, when some first class coaches were converted to standard class or composite (half standard and half first class), leaving 1½ first class coaches per set.[30] The first class coaches were refurbished in a more luxurious style, and many tables with one seat each side in first class were replaced by individual airline-style seats.[31]
By mid-2019, Great Western Railway no longer had any HSTs operating service to or from Paddington, having replaced all of them with Class 800 and Class 802.
Great Western Railway are to retain 24 powercars and 48 coaches to form 11 four-coach sets for use on local services between Cardiff and Penzance, replacing the British Rail Class 158.
Eastern England / Scotland
On the East Coast Main Line, the InterCity 125 designated Class 254 was the staple stock after the retirement of the Class 55 Deltic locomotives in 1980–1982, until the introduction of InterCity 225 following electrification in 1990. They were concentrated on services from London King's Cross to Newcastle and Edinburgh Waverley, and to Glasgow Queen Street, Inverness and Aberdeen. In the months following the Penmanshiel Tunnel collapse in 1979, London to Scotland services ran via the Tyne Valley line from Newcastle to Carlisle then to Scotland via the West Coast Main Line. HSTs were also used on some services from London to Leeds, Bradford Forster Square, Cleethorpes, Hull and Scarborough.
The East Coast (ECML) formation was originally 2 + 8, increased to 2 + 9 in 2002 when extra stock became available. The ECML formation was two first-class coaches, one buffet (with 1st Class seating) and five (later six) standard-class coaches between the buffet and power cars. For a few years, formations included a TRUK (trailer restaurant kitchen) and buffet car, a TS (trailer second class) and TF (trailer first class) coaches, many formations were 4 × TS, TRUK, Buffet, 2 × TF. Nine trailer car units followed this formation, with the addition of a TS. 'Pullman' services replace a TS with an additional first-class coach.
After privatisation, InterCity 125s were operated by Great North Eastern Railway (GNER),[32] alongside electric InterCity 225 units from London to Newcastle and Edinburgh, and beyond the electrified sections (or where British Rail Class 91s cannot operate due to route availability restrictions) services to Hull, Skipton, Harrogate, Inverness and Aberdeen.
In January 2007 the first of GNER's 13 refurbished HSTs was unveiled with coaches rebuilt to the same 'Mallard' standard as its InterCity 225 electric sets with similar seating, lighting, carpets and buffet cars.[33] The power cars were upgraded with MTU engines. The first of the HST Mallards was in service by spring 2007.[citation needed]
In 2007 the franchise was taken over by National Express East Coast (NXEC), which continued the re-engining programme begun by GNER, and completed the refurbishment of the fleet in March 2009.[34] Two power cars were transferred to First Great Western early in 2009.[35] The final Mallard-upgraded Mark 3 coaches entered service with NXEC in October 2009.[citation needed]
Following an announcement by National Express that it would not provide further financial support to NXEC, the franchise ceased on 13 November 2009, and the operation of the route returned to public ownership. As a result, the 13 sets were operated by East Coast from late 2009. East Coast introduced an InterCity 125 service to Lincoln in 2011.[36] The InterCity 125 was replaced by the electric InterCity 225 on the line to Skipton when the electrical infrastructure was upgraded. Eight East Coast services per day in each direction used the InterCity 125.[citation needed] In 2012, 43072 (now 43272), 43074 (now 43274) were transferred from East Midlands Trains and received MTU engines. In April 2015, Virgin Trains East Coast took over operation of the InterCity East Coast franchise. All trains passed with the InterCity East Coast franchise to London North Eastern Railway in June 2018.
In 2006, Grand Central obtained six Class 43 power cars to operate its London-Sunderland passenger service via the East Coast Main Line. The service was due to begin in December 2006 although upgrade work to enable the coaching stock (which was formerly used for locomotive-hauled services and had a different electric heating/power supply system) to operate with Class 43 power cars was heavily delayed and therefore pushed the starting date back to 18 December 2007.[37] HSTs 43084 and 43123 were the final operational Paxman Valenta power cars, being re-engined in 2010 with the same MTU engines as other units. While at the works being re-engined, Grand Central added the orange stripe that appears on their Class 180 units, re-painted the front ends (this making them look more like the non-buffered HSTs), and re-numbered the power cars into the four-hundreds. Grand Central's HSTs were cascaded to East Midlands Trains at the end of 2017.[38]
In February 2019 Hull Trains commenced using a First Great Western set between London King's Cross and Hull due to ongoing reliability issues with its Class 180s.[39] A month later they introduced an additional set following further reliability issues. LNER withdrew its last InterCity 125s in December 2019.[40]
Midland Region
On the London Midland Region, InterCity 125 trains were introduced later than on the other regions. They initially appeared on the former Midland Railway route from London St Pancras to Sheffield and Nottingham. Although they were initially not permitted to exceed 100 mph (161 km/h) on any part of the route, they still delivered time savings compared with the loco-hauled trains they replaced.[citation needed]
The Midland Main Line received a series of speed improvements over the next two decades, until it became possible for HSTs to run at up to 110 mph (177 km/h) on some sections. An upgrade to the full 125 mph (201 km/h) was proposed by British Rail in the early 1990s, but because of privatisation this did not happen. However line improvements were completed in time for the spring 2014 timetable change, which has permitted 125 mph running on some sections of the line and higher top speeds on others.[citation needed]
Most long-distance services on this route have been transferred to new Class 222 Meridian diesel-electric multiple units, although many London services from Nottingham still used the InterCity 125, as did all services from London St Pancras to Leeds.[41][42] Midland Mainline inherited HSTs from BR after privatisation and operated them on its primary services at up to 110 mph.
43089 also was returned to work on the mainline after being used in an experimental programme conducted by Network Rail and Hitachi.[43] 43072, 43074 was transferred to East Coast in 2012. Since December 2013, InterCity 125 sets have been permitted to operate at speeds of up to 125 mph on certain parts of the routes from London St Pancras to Leeds and Nottingham.
On May 15, 2021, EMR retired their final two InterCity 125 trains, which were replaced by East Midlands Railway with Class 222, which had been displaced thanks to the introduction of Class 180 and Class 360 from Hull Trains and Greater Anglia. This made them the last HST operator to run InterCity 125 services to the capital.
Cross-Country Route
After privatisation, the Cross-Country Route was operated by Virgin CrossCountry, who replaced their InterCity 125 trains in the period 2002–2004 with Bombardier Voyager high-speed DMUs.[44] Most of the former Virgin CrossCountry fleet were stored for several years but a few ran on the Midland Mainline.
In 2007 the franchise passed to Arriva CrossCountry. Because of overcrowding, the company reintroduced five HSTs to supplement its Voyagers.[45]
In late September 2008, CrossCountry refurbished its first HST set: the coaches were refurbished to a similar "Mallard" standard as GNER trains, though their interior is in burgundy and there are fewer tables. They also differ from the East Coast sets in having electronic seat reservations, and the buffet car has been removed, with all catering provided at-seat from a catering base in coach B. Most of the coaches are rebuilt from loco-hauled Mark 3s. The refurbishment was carried out by Wabtec, Doncaster Works. Each set has had a TS removed, making them 2 power cars + 7 coaches.[35]
All coaches retained were fitted with automatic doors, toilets with controlled emission tanks and other accessibility modifications at Doncaster Works. CrossCountry is to cease operating InterCity 125s in October 2023.[46]
CrossCountry operate HSTs between Glasgow, Dundee, Edinburgh and Plymouth. Until 2020 they also operated to Paignton, Newquay and Penzance on summer Saturdays.
West Coast and North Wales
Virgin Trains West Coast HSTs regularly worked out of London Euston and Birmingham International to Holyhead and Blackpool North. They also worked some Euston to Manchester Piccadilly services. Virgin's HSTs were re-deployed in May 2004. Due to there being numerous curves on the West Coast Main Line, the trains were not permitted to exceed 110 mph on any part of the route.
When the West Coast Main Line was upgraded by Network Rail in the 2000s, it became necessary to operate diversionary routes whilst work was going on. As a result, Midland Mainline was asked by the then Strategic Rail Authority (SRA) to operate services between from Manchester via the Hope Valley Line and Midland Main Line into St Pancras while West Coast Main Line works took place. In a temporary operation dubbed Project Rio,[47] a large percentage of the stored Virgin CrossCountry power cars were overhauled and returned to service in an enlarged Midland Mainline fleet.[48] Ending on 10 September 2004, the Project Rio fleet was gradually disbanded, with power cars moving to First Great Western and GNER.
ScotRail Inter7City
Twenty-six HST sets, 9 of which will have four coaches and 17 of which will have five coaches, moved from Great Western Railway to Abellio ScotRail after being refurbished by Wabtec at Doncaster Works with new interiors, controlled emission tanks and automatic sliding doors. They operate on services from Edinburgh and Glasgow to Aberdeen and Inverness, as well as between Aberdeen and Inverness.[49][50] The first set entered service in October 2018.[51] ScotRail's HST fleet operates under the brand name Inter7City.
Network Rail
One specially converted HST set is in service with Network Rail, painted in the yellow livery used for maintenance vehicles, and often referred to as the "flying banana" (a nickname that was originally applied to the whole class because when first introduced by BR they wore a predominantly yellow livery). The set is the New Measurement Train.[52]
Another single engine, 43089, was used in tests on hybrid battery powered vehicles in collaboration with Hitachi.[43][53]
Numbering and formation
British Rail considered the InterCity 125 sets to be diesel multiple units because they were fixed formation trains. They were allocated British Rail Class 253 (2+7 sets allocated to Western Region depots for use on Western Region and Cross-Country services) and Class 254 (2+8 sets allocated to the Eastern and Scottish Regions for use on the East Coast Main Line), the prototype train having been Class 252. Therefore, each set was allocated a set number (253 xxx or 254 xxx), which was carried on the front of the power cars. Individual vehicles were numbered in the 4xxxx series (see table below) and, because they were regarded as multiple unit vehicles, also had regional prefixes according to their allocated depot (E for Eastern Region, SC for Scottish and W for Western); this included the power cars as well as the trailers.
With power cars often requiring maintenance more frequently than the trailer cars, power car swaps soon began to take place; there were a few spare power cars to allow for this. This often resulted in different set numbers being displayed at each end of the same train. As a result, during the early 1980s the power cars began to be regarded as "loose", and the use of set numbers for the whole train was abandoned. The trailer cars remained in fixed formations, however, and still allocated a set number of sorts, although that was not displayed anywhere.
As sectorisation began to take hold during the mid-1980s, the use of regional prefixes on coaches and multiple unit vehicles was discontinued. At about the same time it was decided to reclassify the InterCity 125 trains (the hyphen having been dropped by the new InterCity sector) as locos and coaches. To avoid renumbering the power cars, they became British Rail Class 43 diesel locos, although a space was never inserted between the second and third digits (as was common practice on other locos at the time, e.g. 47 401).
The vehicle types used to form High Speed Trains are listed below:[54]
Class | Image | Type | Top speed | Number | Built | Notes | |
---|---|---|---|---|---|---|---|
mph | km/h | ||||||
Class 43 | Diesel locomotive | 125 | 201 | 197 | 1975–1982 | 2 InterCity 125 power cars, operated in Top and Tail formation. | |
Mark 3 Coach | Passenger coaching stock | 848 | 1975–1988 | British Rail's third fundamental design of passenger coach, developed primarily for the InterCity 125. |
Coach number | ||
---|---|---|
Number Range | Type | Notes |
400xx | Trailer Buffet (TRSB) | Renumbered 404xx in 1983; some converted to 402xx series |
403xx | Trailer Buffet (TRUB) | All converted to 407xx series (first class) |
405xx | Trailer Kitchen (TRUK) | All withdrawn and converted for other uses |
41xxx | Trailer First (TF) | Majority in service, some converted or scrapped |
42xxx | Trailer Second (TS) | |
43002-43198 | Driving Motor (Brake) (DM or DMB) | Majority in service, three scrapped after accidents These are now classified as British Rail Class 43 |
44000-44101 | Trailer Guard Second (TGS) | Majority in service, some converted |
The 197 production series power cars were numbered 43002–43198. 43001 was applied to the second of the two prototype power cars, while the first of the pair (now preserved as part of the National Collection) became 43000 – unusual because BR TOPS classification numbered its locomotives from 001 upwards (this was because it was not, at the time, classified as a locomotive). Subsequently, on fitting of new engines, power cars operated by the InterCity East Coast and Cross Country franchisees have been renumbered in the 432xx or 433xx series (by adding 200 to their serial numbers), while Grand Central also changed the third digit of its power cars to 4 (by adding 300 or 400).
The renumbering of the 400xx series catering vehicles in 1983 was to avoid their numbers clashing with the Class 40 diesel loco fleet (numbered 40 001 to 40 199) when BR's loco (TOPS) and coaching stock number series were merged.
In 2002, Class 255 was allocated for the reformation of some HST power cars and trailers into semi-fixed formation trains, to be known as Virgin Challenger units, for use by Virgin CrossCountry. These formations would have had power cars sandwiching one Trailer First, a Trailer Buffet, two Trailer Seconds and a Trailer Guard Second. These plans came to naught as the Strategic Rail Authority planned to transfer most of the stock to Midland Mainline for its 'Rio' services between London and Manchester.[48]
Livery
The original "Inter-City 125" livery was blue and grey, with a yellow front to improve visibility which continued down the side of the power cars.[55][56]
The second livery had mostly grey power-cars with a white band along the middle, yellow underneath the white band, with the InterCity colours (cream, red, white, brown) for the parcel compartment of the power cars and the coaches.
There was brownish-grey, dark grey (almost black) around the windows with a red and white stripe below the windows, and retaining the yellow bands on the power cars. The final variant of this livery saw the yellow side-bands replaced with white and did not feature the British Rail name or logo: it carried the new sector branding Intercity logo in serif type and an image of a flying swallow.[57][58] This is commonly referred to as "InterCity Swallow" livery, and was applied to other locomotives in the sector.
After the privatisation of British Rail, train operating companies painted the HSTs in their own colour schemes, with some lasting longer than others.[59]
Two of Great Western Railway's powercars have been repainted into heritage liveries; 43002 has repainted into original InterCity 125 Blue & Yellow livery whereas 43185 has been repainted into InterCity Swallow livery.
Two powercars [43046 and 43055] owned by Locomotive Services Limited have been repainted into Blue Pullman colours.[60] The units will be used for railtour services operated by LSL beginning on 14 November 2020.[61]
Cultural impact
Public reaction
The Intercity service proved an instant hit with the British public.[62] By the early 1980s the HST had caught the travelling public's imagination,[63][64] thanks in part to a television advertising campaign fronted by the since-disgraced entertainment personality Jimmy Savile, together with the advertising strap-line "This is the age of the train".[65][66] British Rail enjoyed a boom in patronage on the routes operated by the HSTs and InterCity's revenues increased, although the total was not enough to remove the need for subsidies to British Rail.[67]
International interest
The success of the HST had significant international impact. Foreign press for decades observed and praised the speed and quality of the service.[68]
The InterCity 125 was used as a case study for evaluating the potential for a high-speed rail system in California.[69] In Australia, it was used as the base for developing the XPT, in cooperation with British Rail.
Scale models
There have been many model and toy guises of the IC125.[70] One of the first in the UK was by Hornby Railways, which launched its first model version in 1977.[71][72] This model was supplied with an incorrect length BR Mk3 Open 2nd coach which was shortened to allow the model to reliably negotiate the smallest radius curves. This was done by removing one of the 8 side windows rather than scaling the whole length. In 1978 Hornby Railways issued an additional BR Mk 3 Open 2nd coach,[73] followed by their first model of a BR Mk 3 Open 1st Coach in 1979[74] and a BR Mk 3 Restaurant Buffet Car (TRUB) in 1980.[75] The incorrect seven side windows was corrected to eight windows in 1985 when Hornby made modifications to the tooling for the BR Mk 3 (TS) and (TF) coaches.[76] It was later released in InterCity 'Swallow' livery, Great Western green-and-white, Midland Mainline and Virgin Trains. Lima released its version of the IC125 in 1982, of which the Mark 3 coaches were correct to the lengths of the real-life coaches and included the guard's coach. Hornby eventually followed suit in the late-1990s, when its short Mark 3 coaches were replaced by correct scale length ones but omitted the guard's coach. In 2006 Hornby released for the first time a modified tooling BR Mk 3 (TGS) Coach.[77] In 2008 after acquiring tooling from ex-Lima rolling stock which then became the Hornby RailRoad range. Hornby released in a variety of different liveries both BR and post-privatisation a newly tooled super-detailed Class 43 powers car,[78] alongside the more basic Class 43 HST power cars of the Railroad Range.[79] In 2009 Hornby released newly tooled BR Mk 3 coaches.[80] Graham Farish were the first to produce a HST in N gauge; more recently Dapol have produced another N gauge model of the train. Railway Shop (Hong Kong) produces a T gauge model (1:450 scale).
Developments and changes
Damaged vehicles and accidents
This section needs to be updated.(August 2020) |
Five Class 43 locomotives have been written off in railway accidents, three of which occurred on the Great Western Main Line. 43011 was written off in the 1999 Ladbroke Grove rail crash, 43019 was written off after colliding with a car at Ufton Nervet in 2004 and 43173 was scrapped after heavy damage in the Southall rail crash of 1997. In each of these cases, the damage was to the leading power car; the trailing power cars suffered limited or no damage and were returned to service. At Ladbroke Grove and Ufton Nervet, the accidents were ultimately caused by factors not involving the HST sets or their drivers, although the set involved in the Ladbroke Grove crash had a faulty AWS system;[81][82] however, the Southall accident was due to the HST colliding with a goods train which was entering Southall Goods Yard, crossing the main lines. The immediate cause of the crash was the result of the driver of the HST passing a red signal without stopping. In addition, the leading power car of the set had a faulty Automatic Warning System which if operational would have alerted the driver to his error and possibly prevented the accident.[83] Following investigation, this system has since been required to be kept operational and switched on for all use of the InterCity 125 fleet.
An InterCity HST, comprising four coaches between Class 43 power cars 43030 and 43140, were involved in the Stonehaven derailment on 12 August 2020, in which three people died.[84][85] Both power cars were scrapped following the subsequent investigation. [86][87][88]
Re-engining and refurbishment
In 2005, the train leasing company Angel Trains initiated and led an industry-wide programme to replace the 30-year-old Paxman Valenta engines in the HST power cars with new MTU 16V 4000 engines.[89] The upgrade, which was part of a £110 million total investment made by Angel Trains on its fleet of High Speed Trains, included the re-powering and refurbishment of 54 HST power cars; this included those then on lease to GNER (23),[90] First Great Western (26) and CrossCountry (5). Virgin CrossCountry planned a similar project in the early 2000s but, with the collapse of the programme, the upgraded trainsets were sold along with their unmodified stablemates.
Additionally, many operators undertook some refurbishment of the Mark 3 coaches in the early 2000s. In view of the delay and change of direction of the HST2 programme,[91] operators began to refurbish their HST fleets in 2006; both by remotoring with the more modern MTU4000 diesel engine,[92] and by refurbishing the coach interiors.[93] It was anticipated that these overhauls would give the HST at least another 10 years in front-line service.[94]
Replacements
The first partial replacement of HSTs occurred from 1988 on the East Coast Main Line, with the introduction of the InterCity 225 when the line to Edinburgh was electrified.[95] Some were retained for services to Aberdeen, Inverness, Skipton, Bradford and Hull.
As the InterCity 125 fleet has aged, it has been increasingly recognised that it is near the end of its service life.[96] More recently, HSTs have been replaced (or augmented) by high-speed Diesel multiple units (DMUs), such as the Bombardier Voyagers and the UK express version of the Alstom Coradia. These DMUs have better acceleration than the HST, due to a higher power/weight ratio, with greater efficiency and braking performance.[97]
In 2005, the initial concept of HST2 was rejected by the government and the rail industry as a like-for-like replacement for the HST fleet.[98] In the light of this rejection, in 2006, existing operators turned to refurbishments of the InterCity 125 trains. Nevertheless, the HST2 concept was expanded and replaced by the InterCity Express Programme, with proposals for a joint replacement of both HST and InterCity 225 trains.[99] The eventual successor to the two InterCity fleets is the Hitachi Super Express,[100] comprising three classified types of fixed-rake formations: two electro-diesel types, the Class 800 sets and the Class 802 sets, and the electric multiple unit Class 801 sets.
On the Greater Western franchise, the first HST was returned to its leasing company in September 2017; by June 2019, all sets on inter-city routes were withdrawn in favour of the Class 800 and the Class 802 sets.[101][102]
Sewage discharge
In the UK, train operators are allowed legally to discharge up to 25 litres of untreated waste at a time on to the track.[103] Most Mk3 coaches have no toilet tanks, discharging directly onto the track. In the 2000s, both the RMT trade union and politicians were concerned at the environmental impact of this legacy issue. The problem was first raised in 2003, after Railtrack staff at Nottingham abandoned local clean-up and then track maintenance procedures due to an excessive buildup of sewage waste in the area.[104] In 2006 the RMT agreed waste-tank and clean-out developments at Northern Rail's Heaton depot in 2006 with GNER, plus new clean-out procedures at all other depots, to solve an ongoing dispute over the previous 18 months.[105]
By 2011, the European Union had started a formal investigation to see whether trains composed of such coaches were breaking EU environmental and health laws, although the Environment Agency confirmed that train companies claimed special exemptions to dump waste along the tracks.[106] In 2013, transport minister Susan Kramer branded the practice "utterly disgusting" and called on the industry to take action. ATOC responded by stating that, as all new vehicles had to be fitted with compliant toilet tanks, with withdrawal of the HSTs by the end of 2017 the problem would be solved.[107] HSTs remained in operation after 2017, but sliding-door conversions of CrossCountry's fleet and the shortened sets for GWR and ScotRail have all included the fitting of controlled emission toilets.[108][109]
Obsolescence factors
In 2019, HSTs were not permitted to operate passenger services on the National Rail network in their original form because various deficiencies made them non-compliant with accessibility regulations – in particular, the need to open doors manually. However, to avoid rolling stock shortages, some operators were granted temporary permission to operate them, namely ScotRail, whose sets were planned to be modified,[110] and East Midlands Trains, who have since withdrawn their sets in favour of Class 222 Meridians.[111][112][needs update]
Australian variant
The InterCity 125 was the basis for the design of the New South Wales State Rail Authority's XPT, in cooperation with British Rail, of which 19 power cars and 60 coaches went into service starting in 1982.[113][114][115][page needed][116][117] The XPT was taller and wider than the InterCity 125, the passenger cars were based on a Budd design, the power cars were shorter, the engine was downrated, gearing lowered for a top operating speed of 160 km/h (99 mph), suspension modified to operate on less stable track, and the cooling system and air filters adapted for the hotter, dustier Australian conditions.[118][failed verification] Just as they had in Britain, the trains revolutionised passenger rail schedules and standards.
See also
- Blue Pullman
- Train categories in Europe
- List of high-speed trains
- Inter-city rail in the United Kingdom
- High-speed rail in the United Kingdom
Notes and references
- ^ Marsden, pp.7–10.
- ^ Marsden, pp.10–11.
- ^ a b c d e f g h i j Semmens, Peter (1990). Speed On The East Coast Main Line: A Century and a Half of Accelerated Services. Patrick Stephens Ltd. pp. 129–225. ISBN 0-85059-930-X.
- ^ a b c d e "Trackside Classic: 1976 British Rail Inter City 125 High Speed Train – Still Setting The Standard". Curbside Classic. 18 October 2021. Retrieved 30 March 2022.
- ^ "Trackside Classic: 1960 British Railways Metro Cammell 'Blue Pullman' – Another Forgotten Pioneer". Curbside Classic. 3 May 2020. Retrieved 13 April 2022.
- ^ Marsden, pp.15–16.
- ^ Marsden, p.16.
- ^ Railway Performance Society "HST 40 Glorious Years" 2016 p8
- ^ "How we made the InterCity 125". The Guardian. 9 September 2013. Retrieved 1 June 2022.
- ^ Channel 5 documentary Intercity 125 episode 1, broadcast 15 May 2018
- ^ "Everywhere and Nowhere". Financial Times. London. 27 May 2011. Retrieved 21 August 2011.
- ^ "Class 43 High-Speed Train, also known as the InterCity 125, is unveiled at National Railway Museum in York". Railway Museum. 11 November 2019. Retrieved 1 June 2022.
- ^ Marsden, Colin (2001). HST: Silver Jubilee. Ian Allan. p. foreword. ISBN 0-7110-2847-8.
- ^ "HST Power Car". National Railway Museum. Archived from the original on 11 October 2013. Retrieved 18 May 2009.
- ^ Collins, R.J. (May 1978). "High speed track on the Western Region of British Railways". Proceedings of the Institution of Civil Engineers. 64 (2). Institution of Civil Engineers: 207–225. doi:10.1680/iicep.1978.2755. Retrieved 2 October 2015.
- ^ a b c "New train speeds into service". BBC News. British Broadcasting Corporation. 4 October 1976. Retrieved 15 May 2019.
- ^ Owen, A.D.; Phillips, G.D.A. "The Characteristics of Railway passenger demand" (PDF). University of Bath. p. 234.
- ^ "New opportunities for the railways: the privatisation of British Rail" (PDF). Railway Archive. p. 8. Retrieved 18 May 2009.
- ^ "FROM THE ARCHIVES: Class 91s...promise unfulfilled". Rail Magazine. Retrieved 14 May 2022.
- ^ Semmens, Peter (1990). Speed On The East Coast Main Line: A Century and a Half of Accelerated Services. Patrick Stephens Ltd. p. 235. ISBN 0-85059-930-X.
- ^ "Testing the prototype HST in 1973". traintesting.com. Archived from the original on 15 September 2009. Retrieved 29 April 2009.
- ^ a b "Paxman and Diesel Rail Traction". Richard Carr's Paxman history pages. 3 March 2012. Archived from the original on 27 May 2011. Retrieved 4 March 2012.
- ^ "Intelligence August 2002". Railway Gazette International. London. 1 August 2002. Archived from the original on 5 March 2008. Retrieved 3 March 2012.
- ^ "Rail Timeline". BBC News. London. Retrieved 7 April 2008.
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- ^ Mirror.co.uk (14 April 2010). "Trains get screens to show TV and films". mirror. Retrieved 28 May 2018.
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- ^ Stirling, Tom (12 March 2007). "Makeover for GNER 125 trains". The Press. York. Retrieved 18 May 2009.
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- ^ a b InterCity 125 Group fleet list Archived 20 July 2006 at the Wayback Machine.
- ^ "Lincoln welcomes new direct London route". The Lincolnite. 23 May 2011.
- ^ Jameson, Angela (5 October 2006). "Delay for Grand Central trains". The Times. London. Retrieved 18 May 2009. (subscription required)
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- ^ HST enters service with Hull Trains Rail Express issue 265 April 2019 page 79
- ^ LNER Bids Farewell to the InterCity 125 High Speed Train LNER 4 December 2019
- ^ "DEMU inspection ensures quality". Railway Gazette International. London. 1 March 2005. Retrieved 18 May 2009.
- ^ "Intercity Trains" (Press release). East Midlands Railway. 17 March 2008. Retrieved 27 August 2009.
- ^ a b "Hitachi reveals 200km/h hybrid HST". International Railway Journal. June 2007. Retrieved 18 May 2009.
- ^ "New dawn for Virgin Trains". Virgin Group. 13 June 2001. Archived from the original on 19 June 2009. Retrieved 18 May 2009.
- ^ "New beginning for CrossCountry train travel" (Press release). Cross Country. 11 November 2007. Archived from the original on 11 October 2009. Retrieved 18 May 2009.
- ^ "CrossCountry to withdraw its HST fleet by October". Rail Express. No. 323. April 2023. p. 12.
- ^ "Track access agreement between Network Rail and Midland Mainline" (PDF). Track Access Executive. Archived from the original (PDF) on 28 February 2008. Retrieved 6 January 2008.
- ^ a b "Privatisation 1993–2005". 125group.org.uk. Retrieved 19 May 2009.
- ^ "Quality and more trains key to Abellio's SR franchise" Rail issue 760 29 October 2014 page 10
- ^ "More Details of SR HSTs" Today's Railways UK issue 181 January 2017 page 67
- ^ Lissenberg, Ferry (16 October 2018). "Scotrail starts Inter7City service with refurbished HSTs". Railcolor. Retrieved 18 October 2018.
- ^ "Network Rail, Britain, has unveiled its new 200km/h measurement train". International Railway Journal. 1 August 2003. Archived from the original on 25 October 2012. Retrieved 18 May 2009.
- ^ "Towards Sustainable Technology in Transport Sector" (PDF). Hitachi. Archived from the original (PDF) on 16 May 2008. Retrieved 18 May 2009.
- ^ The individual units (carriages and power cars) were all numbered in the 4xxxx carriage series set aside for HST and Advanced Passenger Train vehicles. Numbers followed those allocated to the prototype British Rail Class 252 unit, so power cars were numbered from 43002 upwards
- ^ Morrison, Gavin (2007). Heyday of the HST. Ian Allan. p. foreword. ISBN 978-0-7110-3184-5.
- ^ "BR livery HST 4/19 C.I.M." BR. Archived from the original on 20 April 2013. Retrieved 3 December 2013.
- ^ Parkin, Keith (2006). British Railways Mark 1 coaches (Revised ed.). The Historical Model Railway Society. pp. 67–73. ISBN 0-902835-22-X.
- ^ "BR InterCity Executive HST 125 High Speed Train". Model Railways Direct. Archived from the original on 7 January 2009. Retrieved 18 May 2009.
- ^ "Examples of different liveries on HSTs". therailwaycentre.com. Archived from the original on 4 April 2003. Retrieved 18 May 2009.
{{cite web}}
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- ^ Geoghegan, Tom (24 July 2003). "Toilet waste 'hampers rail repairs'". BBC News. Retrieved 13 November 2013.
- ^ "Toilet waste 'sprays' track staff". BBC News. 6 August 2006. Retrieved 13 November 2013.
- ^ Ungoed-Thomas, Jon; Clover, Charles (9 January 2011). "Rail bosses face EU inquiry over sewage on tracks". The Sunday Times. London. Archived from the original on 13 November 2013. Retrieved 13 November 2013. (subscription required)
- ^ "End 'disgusting' train toilet sewage – Lady Kramer". BBC News. 13 November 2013. Retrieved 13 November 2013.
- ^ "InterCity Expresses return to service on GWR". 23 October 2017.
- ^ "How the HSTs are being transformed for Scottish services". 13 February 2018.
- ^ "The Railways (Interoperability) Regulations 2011 – Abellio Scotrail HST sets - 2020 accessibility deadline" (PDF). 19 December 2019.
- ^ "The Railways (Interoperability) Regulations 2011 – HST trailer cars - 2020 accessibility deadline - Porterbrook" (PDF).
- ^ "The Railways (Interoperability) Regulations 2011 – HST trailer cars - 2020 accessibility deadline - Angel Trains" (PDF).
- ^ "NSW gives country passengers a break" Railway Gazette International March 1979 page 210
- ^ "HST begets XPT" Railway Gazette International June 1980 pages 511–512
- ^ Cooke, David (1984). Railmotors and XPTs. Australian Railway Historical Society NSW Division. ISBN 0-909650-23-3.
- ^ Marsden, Colin (2001). HST Silver Jubilee. Ian Allan Publishing. ISBN 0-711028-47-8.
- ^ "XPT Australia's train of tomorrow" Rail September 1982 pages 40-42
- ^ "To find out what the XPT can do". The Canberra Times. 13 June 1981. Archived from the original on 25 March 2018. Retrieved 25 March 2018.
Further reading
- Stanier, W. M. (1973). "High Speed Train". Railway Engineering Journal. 2 (4). London: the Institution of Mechanical Engineers. ISSN 0048-6515. OCLC 1559754.
- Sephton, B. G. (1974). "The High Speed Train". Railway Engineering Journal. 3 (5). London: the Institution of Mechanical Engineers: 22–30. ISSN 0048-6515. OCLC 1559754.
- Power, S. R. D. (1978). "High Speed Train – Fleet Operation". Proceedings of the Institution of Mechanical Engineers. 192 (1): 409–419. doi:10.1243/PIME_PROC_1978_192_042_02. ISSN 0020-3483. S2CID 109968836.
- 125 Group (2019). Inter-City 125 Owners' Workshop Manual. Haynes. ISBN 978-1-78521-266-6.
{{cite book}}
: CS1 maint: numeric names: authors list (link) - 125 Group (2018). 125 The Enduring Icon. Amberley. ISBN 978-1-4456-7859-7.
{{cite book}}
: CS1 maint: numeric names: authors list (link) - Green, Chris (2013). The InterCity Story 1964–2012. OPC. ISBN 978-0-86093-652-7.
- Jane's Information Group (1978). Jane's World Railways. Jane's Information Group.
- Roza, Greg (2004). The Incredible Story of Trains. Rosen Publishing. ISBN 0-8239-6712-3.
- Sievert, Terri (2002). The World's Fastest Trains. Ian Allan. ISBN 0-7368-1061-7.
- Solomon, Brian (2003). Railway Masterpieces. Newton Abbot: David & Charles. ISBN 9780715317433. OCLC 52695896.
- Vehicle Diagram Book No. 230 for Diesel Electric Multiple Unit Trains (including H.S.T.) (PDF). British Railways Board. September 1987. GH102-3, GH202-3, GJ201, GK101-2, GK202, GK401, GL101, GL402, GM401, GN401.
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:|work=
ignored (help) - Kapolka, Chris (February–March 1982). "Have a banana!". Rail Enthusiast. EMAP National Publications. pp. 58–59. ISSN 0262-561X. OCLC 49957965.
- Cooper, Basil (June 1982). "The ABC of the HST". Rail Enthusiast. EMAP National Publications. pp. 28–33. ISSN 0262-561X. OCLC 49957965.
- Kelly, Peter (May 1983). "Keep the HSTs flying". Rail Enthusiast. EMAP National Publications. pp. 39–42. ISSN 0262-561X. OCLC 49957965.