British Rail Class 143 Explained

British Rail Class 143
Pacer
Interiorimage:GWR 143618 Refreshed Interior.jpg
Interiorcaption:Great Western Railway refurbished saloon
Service:1985–2021
Family:Pacer
Replaced:BR First-Generation DMUs
Yearconstruction:1985–1986
Numberbuilt:25
Numberpreserved:13
Numberscrapped:12
Formation:2 cars per unit: -
Carbody:Steel underframe,
Doors:Double-leaf folding
Maxspeed:750NaN0
Axleload:Route Availability 1
Enginetype:Inline-6 4-stroke turbo-diesel[1] [2]
Brakes:Electro-pneumatic (tread)
Coupling:BSI
Multipleworking:Within class, and with 15x,
Notes:Specifications as at March 1985[3] except where otherwise noted.

The British Rail Class 143 is a diesel multiple-unit railbus, part of the Pacer family of passenger trains introduced between 1985 and 1986.

During the 1980s, British Rail (BR) was interested in replacing its first-generation diesel multiple units, particularly in the use of railbuses to service its lightly used branch lines. It was decided to develop such a vehicle with a high level of commonality with the widely used Leyland National bus, leading to its modular design serving as the basis for the design. Several single- and two-car prototypes were constructed and evaluated, leading to an initial production batch by British Leyland, designated Class 141 units. BR, seeking to procure improved derivatives of the Class 141, placed an order with the manufacturers Hunslet-Barclay and Walter Alexander to construct its own variant, the Class 143.

Entering operational service during the mid-1980s, the Class 143 embodied several advances over the original model in terms of ride quality and reliability. During its operating lives, the type operated various passenger services across the United Kingdom; initially operated in the North-East of England, all units were subsequently transferred to other regions, including Wales and South-West England.

Due to their non-compliance with the Rail Vehicle Accessibility (Interoperable Rail System) Regulations 2008, the Pacer family began to be withdrawn during the late 2010s ahead of the 1 January 2020 deadline. Some fleets were given dispensation to operate until 31 December 2020. While modifications for compliance were proposed by rolling-stock companies, no train operator took up the option. Great Western Railway retired its Class 143 fleet in December 2020, while Transport for Wales was granted an extension and ran its trains until 29 May 2021.

Background

By the beginning of the 1980s, British Rail (BR) operated a large fleet of first generation DMUs, which had been constructed in prior decades to various designs.[4] While formulating its long-term strategy for this sector of its operations, British Rail planners recognised that there would be considerable costs incurred by undertaking refurbishment programmes necessary for the continued use of these aging multiple units, particularly due to the necessity of handling and removing hazardous materials such as asbestos. In light of the high costs involved in retention, planners examined the prospects for the development and introduction of a new generation of DMUs to succeed the first generation.[5]

In the concept stage, two separate approaches were devised, one involving a so-called railbus that prioritised the minimisation of both initial (procurement) and ongoing (maintenance & operational) costs, while the second was a more substantial DMU that could deliver superior performance than the existing fleet, particularly when it came to long-distance services.[5] While the more ambitious latter requirement would ultimately lead to the development of the British Rail Class 150 and the wider Sprinter family of DMUs, BR officials recognised that a cheaper unit was desirable for service on the smaller branch lines that would not be unduly impacted by lower performance specs or a high density configuration. As such, work to progress both approaches was undertaken by BR's research department during the early 1980s.[5]

During this period, a number of prototypes were constructed to explore different designs and approaches for implementing the railbus concept. One such vehicle was a single two-car unit, designated as the Class 140, that was constructed between 1979 and 1981.[6] This prototype was introduced with much fanfare during June 1981.[6] Initial testing with the Class 140 uncovered several issues, such as difficulty detecting the type via track circuits, this was reliably resolved by swapping the material of the brake blocks from a composite to iron.[5] Two less easily addressable drawbacks were the high level of noise generated during transit, particularly on older jointed rails, which was a consequence of the railbus's direct connection between the underframe and suspension with the body that transmitted impact forces across the body. It was also observed that the inclusion of strengthening members in the mass-produced bus body added significantly to the overall production cost, which eliminated much of the cost advantage that was the primarily goal of the type.[5]

The Class 140 was viewed to be an overall success, and thus BR issued an order for an initial production model, designated Class 141, to British Leyland during 1984 with production commencing thereafter.[5] During its early years of service, the Class 141 experienced numerous issues, particularly with the transmission and ride quality; work undertaken at BR's direct resulted in the quick development of numerous improvements to at least partially address these shortcomings. When it came to ordering more railbuses, however, it was decided that instead of placing these follow-on orders for further Class 141, it would be more desirable to procure improved derivatives of the Class 141.[5] Accordingly, BR placed orders for two new models of the Pacer family, these being the Class 142 and Class 143 respectively.[5]

Design

The Class 143 shared a high degree of similarity to the design of the Class 141. However, one major area of change is that both the Class 142 and Class 143 featured a noticeably wider body, instead of adhering to the width of the standard bus as per the Class 141; specifically, the width was expanded to the maximum amount permissible to remain within the loading gauge.[5] This resulting in an increased internal area to accommodate passengers within, enabling a three-by-two seating arrangement to be installed for a total capacity of 121 seats. The increased seating was particularly useful as, in addition to their use on rural feeder services, the Class 143's use on short range urban services had been foreseen by BR planners.[5]

Both the bodies and underframes were designed for interchangeability, as had been specified by BR. To achieve this, they were manufactured upon jigs.[5] They had been designed so that the entire body could be replaced during a mid-life refurbishment/reconstruction, and that the replacement body would not be limited to the exact same dimensions either. The underframe area, in addition to its structural role, accommodated all of the propulsion apparatus along with the majority of electrical gear.[5] As a cost-saving measure, the manufacturers were directly to make use of road bus-standard equipment in several areas, including passenger fittings and the general cab layout, along with other areas wherever possible.[5] Unlike the Class 141, which featured automotive-standard wiring for the traction equipment with resulting poor performance, railway-grade wiring for the traction and braking circuits was mandated by BR for both the Class 142 and Class 143 to yield greater reliability.[5]

As originally built, the traction arrangement of the Class 143 consisted of a Leyland TL11 200 HP engine, a Self-Changing Gears mechanical automatic gearbox and a Gmeinder final drive unit on each car driving only a single axle. This propulsion arrangement was in part taken from the Leyland National bus, as well as shared with the earlier Class 141.[5] Unlike the Class 141, a microprocessor-based controller for the automatic transmission was used from the outset, allowing the reliability issues posed by defective relay logic and poor earthing present on the predecessor to be entirely avoided. Another improvement was the installation of auto-couplers and auto-connectors that enabled the Class 143 to work in multiple with the Class 150 Sprinter DMUs.[5]

Both axles (one driving per coach at the inner end) were fitted directly to the chassis rather than being mounted on bogies, unlike traditional DMUs. This uncommon arrangement has been attributed with resulting in the Class 141 units possessing a relatively rough ride, especially when traversing jointed track or points. Their combatively poor ride quality has been said to be a major factor in the type's general unpopularity amongst passengers. As a positive result from BR's experiences with the Class 141, the Class 143 featured an improved suspension arrangement to enhance passenger comfort, this consisted of a wider spring base and double dampers being installed, features that had been deemed necessary by BR to provide sufficient levels of performance, and had been retrofitted onto all of the older Class 141s as well.[5]

Operations

During their early years, the Class 143s were originally worked in the North-East of England. Subsequently, the entire fleet was transferred to Wales and South-West England.[7]

The Rail Vehicle Accessibility (Interoperable Rail System) Regulations 2008[8] and the subsequent Persons of Reduced Mobility - Technical Specification for Interoperability (PRM-TSI) require that all public passenger trains must be accessible by 1 January 2020. As originally delivered, the Class 143 does not meet this requirement and had to be withdrawn without modifications to become compliant. During the 2010s, the rolling-stock leasing company Porterbrook proposed an extensive refurbishment of both the Class 143 and 144 units with the purpose of satisfying the diverse needs of this requirement; it was noted that the envisioned modifications would necessitate a significant reduction in the number of seats available.[9]

Great Western Railway (GWR) was one such operator of the Class 143. Its units were mainly used on short-distance services around Exeter, but had previously been common on various services in the Bristol area as well. At one point, as part of the franchise's plans to modernise its fleet, GWR planned to withdraw its remaining eight units by December 2019 via a cascade programme that would see the type being entirely replaced with Class 150s.[10] On 11 December 2019, the Department for Transport issued a dispensation, allowing GWR to continue to operate its Class 143 fleet up until 31 December 2020.[11] Their fleet was withdrawn in December 2020.[12]

Transport for Wales was granted an extension until May 2021,[13] due to delays with the introduction of Class 769s and their last trains of the class ran on 29 May 2021.[14] The last mainline passenger service with a Pacer unit in its formation was the 22:02 Rhymney to Cardiff Central worked by 143601 coupled to a 150/2 unit, this train brought an end to Pacer operation after over 35 years. Thereafter, the use of Pacer trains is confined to heritage lines.

Incidents

On 17 October 2004, Wessex Trains unit 143613, forming a service from to with 143621, caught fire between the site of the former Flax Bourton railway station and . Fire services took two hours to get the blaze under control. Of the 23 passengers and crew, three were treated on-site for the effects of smoke inhalation. One carriage was completely burnt out, and the other was badly damaged, causing the train to be written off.[15] The line through Nailsea was closed until 03:30 the following morning, when the train was hauled to St Philip's Marsh depot for examination.[16] The unit was later taken to Crewe Works where it was stored,[16] [17] then later to Cardiff Canton TMD where it was scrapped.[18] The Rail Safety and Standards Board issued a report into the incident, concluding that the fire was caused by electrical arcing between the live starter motor cable (which had damaged insulation) and the unit's underframe, causing accumulated oily residues to ignite.[19]

On 16 January 2020, 143603 had several windows smashed in by waves and sea debris while running along the sea wall at Dawlish during stormy weather, causing minor injuries to one passenger.[20]

Fleet details

ClassStatusQty.Year builtCars per unitUnit nos.
143Preserved111985–19862143601–143603, 143606, 143612, 143616–143619, 143623, 143625[21]
Scrapped12143604–143605, 143608–143611, 143613–143615, 143620–143621, 143624
Converted for off-railway use2143607, 143622

Vehicle number ranges were as follows:

Preservation

Operational

UnitVehicle numbersLiveryLocationNotes
DMSDMSL
1436015564255667Arriva Trains Wales (unbranded)Tanat Valley Light RailwayArrived July 2021.
1436025565155668Nene Valley RailwayArrived June 2021.
1436035565855669Great Western RailwayChasewater RailwayOperational,[22] pending transfer to Vale of Berkeley Railway.
1436065564755672Arriva Trains Wales (unbranded)Llanelli & Mynydd Mawr RailwayArrived 3 June 2021.
143612 5565355678Great Western RailwayLlanelli & Mynydd Mawr RailwayArrived April 2022.[23] [24]
1436165565755682Arriva Trains Wales (unbranded)Tanat Valley Light RailwayArrived 7 July 2021.
1436175564455683Tarka Valley RailwayArrived 16 November 2022.[25] Named after Founder Member and Chairman Rod Garner on 8 April 2023.[26]
1436185565955684Plym Valley RailwayDonated to the Plym Valley Railway in 2022.[27]
1436195566055685Tanat Valley Light RailwayArrived August 2022.
1436235566455689Regional RailwaysWensleydale RailwayReturned to traffic in summer 2023[28]
1436255566655691Arriva Trains Wales (unbranded)Keighley and Worth Valley Railway

Non-railway use

Alongside the operational preserved Class 143s, some have been acquired for non-operational use at heritage railways or for non-railway use.

UnitLiveryLocationNotes
DMSDMSL
1436075564855673Arriva Trains Wales (unbranded)Llanelli & Mynydd Mawr RailwayArrived 3 June 2021. To be converted for use as a ticket office, shop, and café for the railway.
1436225566355688Llanelli Goods ShedArrived June 2021, as part of the refurbishment of the goods shed.

References

Citations

Further reading

Notes and References

  1. Book: Leyland Titan Technical Data . June 1978 . British Leyland UK . Southall . 21 December 2022 . https://web.archive.org/web/20220131211717/https://wikibus.blob.core.windows.net/sources1306/Leyland%20Titan%20Technical%20Data.pdf . 31 January 2022 . Lit. No. 1683 . live.
  2. Book: Engine Performance Curve LTA10-G2 . 14 April 1997 . FR-2254 . Cummins Engine Company . Columbus, Indiana . 22 December 2022 . https://web.archive.org/web/20221222175211/http://motorpump.ir/1028345024341001B . 22 December 2022 . PDF.
  3. Book: Vehicle Diagram Book No. 220 for Diesel Multiple Unit Trains (Railcars) . British Railways Board . Derby . 1982 . DP236 & DP237 (in work pp. 67–70) . Barrowmore MRG . 19 February 2016 . 21 January 2015 . https://web.archive.org/web/20150121172516/http://barrowmoremrg.co.uk/BRBDocuments/Book220Issue.pdf . dead.
  4. David St John Thomas. David St John. Thomas . Whitehouse, Patrick.
  5. Shore . A. G. L. . British Rail Diesel Multiple Unit Replacement Programme . Proceedings of the Institution of Mechanical Engineers, Part D: Transport Engineering . 1987 . 201 . 2 . 115–122 . 10.1243/PIME_PROC_1987_201_165_02 . 0265-1904 . 10.1.1.1008.3291. 109194039 .
  6. Book: Smith, R.I. . Class 140: The Past, The Present, The Future . Keith & Dufftown Railway Association . 2002 . 0901845213 . 3, 7.
  7. Web site: Class 143 . The Railway Centre . usurped . https://web.archive.org/web/20050308185129/http://www.therailwaycentre.com/Pages%20DMU/Recognition%20DMU/IllusDMU_143.html . 8 March 2005.
  8. Web site: The Rail Vehicle Accessibility (Interoperable Rail System) Regulations 2008 . legislation.gov.uk.
  9. Web site: 14x Brochure . Porterbrook . 11 March 2014 . dead . https://web.archive.org/web/20140311205935/http://www.porterbrook.com/downloads/brochures/14x%20Brochure.pdf . 11 March 2014 .
  10. Web site: Modernising the Great Western railway . National Audit Office . 2016 . 49.
  11. Web site: Wilkinson . Peter . The Railways (Interoperability) Regulations 2011 – Great Western Railway Class 143 - 2020 accessibility deadline . Gov.UK . Department for Transport . 6 June 2013 . 31 December 2020.
  12. 2+3 HSTs help oust GWR Pacers . Modern Railways . January 2021 . 103.
  13. Web site: The Railways (Interoperability) Regulations 2011 – Transport for Wales Rail Services Class 143s - 2020 accessibility deadline . 10 December 2020 . https://web.archive.org/web/20201228185229/https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/947558/Transport_for_Wales_Class_143s_2020_dispensation_letter.pdf . 28 December 2020 . dead . Gov.UK . Department for Transport . 31 December 2020.
  14. News: 1 June 2021 . Last departure for Welsh Pacers . Rail News . 1 June 2021.
  15. News: Commuters escape from train blaze . 19 October 2004 . 20 April 2012 . BBC News.
  16. Web site: December 2004 magazine . Cardiff & Avonside Railway Society . December 2004 . 27 April 2012 . A serious incident just short of Nailsea & Backwell station (alongside the common), saw the 2W63 20.06 Temple Meads-Weston-super-Mare local Wessex Trains service, formed with 143613 + 143621, stopped and evacuated due to a fire which gutted coach 55654 and smoke damaged 55679 (both from set 143613). Fire services took two hours to get the blaze under control, the flames reaching around 20 feet in height, but there were no serious injuries, three persons being treated for smoke inhalation of the 23 passengers and crew travelling on the service. The mainline was closed until 03.30 the following day, the units being dragged back to Bristol and store at St.Phillips Marsh depot for examination. The fire was thought to have started due to a mechanical fault. 19/10 143613 was taken to St Phillips Marsh for an investigation into the fire. The main frame of 55654 was badly buckled and it is beyond repair. The unit was taken by road to Crewe Works later in the week..
  17. Web site: November 2005 . Cardiff & Avonside Railway Society . November 2005 . 17 June 2012 . Stored: 143613/615 - ZC [Crewe Works].
  18. Web site: September 2006 . Cardiff & Avonside Railway Society . September 2006 . 17 June 2012. Disposals: Pullman : 143613 @CF [Cardiff Canton].
  19. Web site: August 2005 section: "Miscellaneous" . Cardiff & Avonside Railway Society . August 2005 . 27 April 2012.
  20. News: Passenger hurt when wave smashes Great Western Railway train windows . 16 January 2020 . BBC News . 16 January 2020.
  21. Last 'Pacer' is disposed of, though many 'nodding donkeys' survive . Rail Express . 320. January 2023 . 26.
  22. Web site: 143603 - 55658 & 55669 Class 143 Driving Motor Second & Driving Motor Second Lavatory . 7 June 2021 . 12 June 2021 . The Railcar Association .
  23. Web site: BR 55653 Class 143 Barclay/Alexander 4-wheel 'Pacer' DMS built 1985 . Railway Heritage Register Partnership . 4 June 2021 .
  24. Web site: 143612 - 55653 & 55678 - Class 143 Driving Motor Second & Driving Motor Second Lavatory . 1 May 2021 . 12 June 2021 . The Railcar Association .
  25. News: Ex-GWR Class 143 arrives at Torrington Station . 16 November 2022 . Tarka Valley Railway . Great Torrington.
  26. Web site: 143617 Named After Founder Member and Chairman . Tarka Valley Railway.
  27. News: Smith . Roger . 30 May 2022 . GWR Class 143 to join Plym Valley Railway . 31 May 2022 . RailAdvent.
  28. Harris . Nigel . Welsh Pacer on Wensleydale duty . Rail Magazine . 12 July 2023 . 987 . 9 . Bauer Consumer Media . Peterborough . 0953-4563.