Diesel multiple unit

A diesel multiple unit or DMU is a multiple-unit train powered by on-board diesel engines. A DMU requires no separate locomotive, as the engines are incorporated into one or more of the carriages. Diesel-powered single-unit railcars are also generally classed as DMUs. Diesel-powered units may be further classified by their transmission type: diesel–mechanical DMMU, diesel–hydraulic DHMU, or diesel–electric DEMU.

An IE 29000 Class Diesel Multiple Unit on a western commuter service at Dublin Connolly Rail Station, Dublin, Ireland.
Multiple unit trains
Subtypes
Technology
By country

Design

The diesel engine may be located above the frame in an engine bay or under the floor. Driving controls can be at both ends, on one end, or in a separate car.

Types by transmission

DMUs are usually classified by the method of transmitting motive power to their wheels.

Diesel–mechanical

In a diesel–mechanical multiple unit (DMMU), the rotating energy of the engine is transmitted via a gearbox and driveshaft directly to the wheels of the train, like a car. The transmissions can be shifted manually by the driver, as in the great majority of first-generation British Rail DMUs, but in most applications, gears are changed automatically.

Diesel–hydraulic

In a diesel–hydraulic multiple unit (DHMU), a hydraulic torque converter, a type of fluid coupling, acts as the transmission medium for the motive power of the diesel engine to turn the wheels. Some units feature a hybrid mix of hydraulic and mechanical transmissions, usually reverting to the latter at higher operating speeds as this decreases engine RPM and noise.

Diesel–electric

In a diesel–electric multiple unit (DEMU), a diesel engine drives an electrical generator or an alternator which produces electrical energy. The generated current is then fed to electric traction motors on the wheels or bogies in the same way as a conventional diesel–electric locomotive.[1]

On some DEMUs, such as the Bombardier Voyager family, each car is entirely self-contained and has its own engine, generator and electric motors.[1] In other designs, such as the British Rail Class 207 or the Stadler GTW and Stadler Flirt DMU,[2] some cars within the consist may be entirely unpowered or only feature electric motors, obtaining electric current from other cars in the consist which have a generator and engine.

With diesel–electric transmission, some DMU can be no other than an EMU without pantograph, which "is substituted" by one or more on-board diesel generators; this kind of DEMU can be potentially upgraded to electro-diesel multiple unit EDMU, becoming a bi-mode multiple units train (BMU), just adding one or two pantographs (with opportune converters, if necessary) and related modifications on the electric system.

Advantages and disadvantages

A train composed of DMU cars scales well, as it allows extra passenger capacity to be added at the same time as motive power. It also permits passenger capacity to be matched to demand, and for trains to be split and joined en route. It is not necessary to match the power available to the size and weight of the train, as each unit is capable of moving itself. As units are added, the power available to move the train increases by the necessary amount. DMUs may have better acceleration capabilities, with more power-driven axles, making them more suitable for routes with frequent closely spaced stops, as compared with conventional locomotive and unpowered carriage setups.

Distribution of the propulsion among the cars also results in a system that is less vulnerable to single-point-of-failure outages. Many classes of DMU are capable of operating with faulty units still in the consist. Because of the self-contained nature of diesel engines, there is no need to run overhead electric lines or electrified track, which can result in lower system construction costs.

Such advantages must be weighed against the underfloor noise and vibration that may be an issue with this type of train.

Generally diesel traction has several downsides compared to electric traction, namely higher fuel costs, more noise and exhaust as well as worse acceleration and top speed performance. The power to weight ratio also tends to be worse.

DMUs have further disadvantages compared to diesel locomotives in that they cannot be swapped out when approaching or passing onto an electrified line, necessitating either passengers to change trains or Diesel operation on electrified lines. Similarly the lost investment once electrification reduces the demand for diesel rolling stock is higher than with locomotive hauled trains where only the locomotive has to be replaced. Finally, incremental maintenance costs for DMUs are significantly higher than with electric (EMUs), because of the added fueling, lubrication, replacement and maintenance of engine parts and systems in every car.

Around the world

Europe

Belgium

NMBS/SNCB uses its NMBS/SNCB Class 41 DMU's on the few remaining unelectrified lines. As electrification progresses, the DMU's become less and less important.

Croatia
DMU 7023 at Zagreb Central Station

Diesel multiple units cover large number of passenger lines in Croatia which are operated by the national operator Croatian Railways. On Croatian Railways, DMU's have important role since they cover local, regional and distant lines all across the country. Country's two largest towns, Zagreb and Split, are connected with an Inter City service that is provided by DMU tilting trains "RegioSwinger" (Croatian series 7123) since 2004. Those trains may also cover other lines in the country depending on need and availability.

Luxury DMU series 7021, built in France, started to operate for Yugoslav Railways in 1972 and after 1991 stil remained in service of Croatian Railways until 2005. Units 7121 and 7122 (which came as a replacement for 7221 units), together with the newest series 7022 and 7023 built in 2010's Croatia, cover many of the country's local and regional services on unelectrified or partly electrified lines.

Estonia

Elron has since 2015 a Stadler Flirt fleet, with 20 trains DEMU version.

Ireland
Iarnród Éireann DMU 2751 at Limerick Colbert station, 2006

In the Republic of Ireland the Córas Iompair Éireann (CIÉ), which controlled the republic's railways between 1945 and 1986, introduced DMUs in the mid-1950s and they were the first diesel trains on many main lines.[3]

Romania
Romanian Class 77 Malaxa DMU in Campulung Est in 2006

DMUs are used mostly on shorter and less frequently travelled routes in remote and often poorer areas like Banat and Bukovina. The national railway company CFR uses Malaxa class 77 and 78 DMUs locally built between the 1920s and 50s and refurbished in the 70s. It also uses a smaller number of other newer DMUs. Main DMU in use is the Class 96 Siemens Desiro aka Săgeata Albastră (Blue Arrow).

United Kingdom
East Midlands Trains Class 222 at London St Pancras
Central Trains Class 170 at Peterborough station
Northern Ireland Railways C3K at Yorkgate station
Further information: British railcars and diesel multiple units and List of British Rail diesel multiple unit classes

The first significant use of DMUs in the United Kingdom was by the Great Western Railway, which introduced its small but successful series of diesel–mechanical GWR railcars in 1934. The London and North Eastern Railway[4] and London, Midland and Scottish Railway also experimented with DMUs in the 1930s, the LMS both on its own system, and on that of its Northern Irish subsidiary, but development was curtailed by World War II.

After nationalisation, British Railways (BR) revived the concept in the early 1950s. At that time there was an urgent need to move away from expensive steam traction which led to many experimental designs using diesel propulsion and multiple units. The early DMUs proved successful, and under BR's 1955 Modernisation Plan the building of a large fleet was authorised. These BR "First Generation" DMUs were built between 1956 and 1963.

BR required that contracts for the design and manufacture of new locomotives and rolling stock be split between numerous private firms as well as BR's own workshops, while different BR Regions laid down different specifications. The result was a multitude of different types, one of which was:

  • 'Intercity' units, which were more substantially constructed, and shared many features with contemporary hauled coaching stock. They were built for express services on important secondary routes on the Scottish, North Eastern and Western regions.

In 1960, British Railways introduced its Blue Pullman high-speed DEMUs.[5] These were few in number and relatively short-lived,[5] but they paved the way for the very successful InterCity 125 or High Speed Train (HST) units, which were built between 1975 and 1982 to take over most principal express services on non-electrified routes.[6][7] These 125 mph (201 km/h) trains run with a streamlined power car at each end and (typically) 7 to 9 intermediate trailer cars.[8][9] Although originally classified as DEMUs, the trailer cars are very similar to loco-hauled stock, and the power cars were later reclassified as locomotives under Class 43.[8][9] They remain in widespread use.[8][9]

By the early 1980s, many of the surviving First Generation units were reaching the end of their design life, leading to spiralling maintenance costs, poor reliability and a poor public image for the railway. A stopgap solution was to convert some services back to locomotive haulage, as spare locomotives and hauled coaching stock were available, but this also increased operating costs. Commencing in the mid '80s, British Rail embarked upon its so called "Sprinterisation" programme, to replace most of the first generation DMUs and many locomotive-hauled trains with three new families of DMU:

  • Class 140–144 Pacer railbuses, ultra-low-cost diesel–mechanical units utilising 4-wheeled chassis and lightweight bus bodywork, designed for provincial branch line and stopping services.
  • Sprinter a family of diesel–hydraulic DMUs. These fall into three sub-groups; Class 150 Sprinters (for branch line/commuter service), Class 153 / 155 / 156 Super Sprinters (for longer cross country services), and Class 158 / 159 Express units (for secondary express services);
  • Networker diesel–hydraulic units, of Class 165 Network Turbo (standard commuter version) and Class 166 Network Express (for longer distance commuter services). These took over the remaining non-electric commuter services into London.

Following the impact of the privatisation of British Rail in the late 1990s, several other diesel–hydraulic DMU families have been introduced:

In 2018 the first bi and tri-mode electro-diesel multiple units were introduced:

North America

Canada
Two Bombardier Talent low-floor DMUs on the O-Train Trillium Line in Ottawa, Canada

Canada generally follows similar buffer strength requirements to the US,[16] but new services are evaluated on a case-by-case basis. As a result, several types of lightweight DMUs have been used:

Costa Rica
Apollo 2400 DMU in service in Costa Rica

Costa Rica has purchased several Apolo 2400 series DMU railcars from the former narrow gauge operator in Spain, which are run in commuter service. [18]

United States
Budd Rail Diesel Car RDC-1 #407 of the Cape May Seashore Lines, New Jersey

A type of diesel multiple units in the U.S. was the Budd Rail Diesel Car (RDC). The RDC was a single passenger car with two diesel engines and two sets of controls.

In the United States only FRA-compliant DMU systems are permitted on freight rail corridors. This is due to the Federal Railway Administration setting higher coupling strength requirements than European regulators, effectively prohibiting the use of lighter weight European-style inter-city rail DMUs on U.S. main line railways without timesharing with freight operations or special waivers from the FRA. This has greatly restricted the development of DMUs within the U.S. as no other country requires the much heavier FRA compliant vehicles, and no export market for them exists.

Operations using FRA-compliant vehicles:

Operations using non FRA-compliant vehicles:

  • Capital Metro uses Stadler GTW cars to operate Capital MetroRail, a commuter rail line serving the Greater Austin, Texas area.
  • In Denton County, Texas, DCTA also uses Stadler GTW cars to operate its A-train service. DCTA has secured from the FRA the first-ever alternative vehicle technology waiver to use these cars on active freight corridors.[20]
  • TEXRail in Tarrant County, Texas is a commuter rail line operated by Trinity Metro which uses Stadler FLIRT DMUs. The vehicles are FRA Alternate Compliant.[21] The line has 9 stops with termini at DFW Airport and T&P Station.[22]
  • NJ Transit operates the River Line from Camden, NJ to Trenton, NJ, every 15 minutes during peak hours and every 30 minutes at other times. It uses modified Stadler GTW trains of one or two cars. The line is classified as light rail because it utilizes imported European made DMUs that do not meet FRA crash guidelines. The cars may not operate with the freight rail service that shares the line, so evening operating hours are restricted to Saturday nights. This line currently carries over 7,500 passengers on a typical weekday, exceeding expectations.
  • NCTD operates the Sprinter line using Desiro Classic DMUs built by Siemens AG. Opened March, 2008, The line operates every half-hour daily, except limitations in the morning and at night on Saturday, Sunday and on holidays. The line runs from Oceanside, CA, where transfer is possible with Coaster commuter rail service to San Diego, to Escondido, CA. Like the NJT River Line, it is classified as light rail due to the use of European made DMUs, but does not run at a more typical light rail frequency.
  • The eBART expansion of the Bay Area Rapid Transit System implements Stadler GTW diesel multiple unit train service from Pittsburg/Bay Point station east along the Highway 4 corridor to the town of Antioch. Future expansions in this direction could also connect the eBART service to Oakley, Brentwood, Byron, and beyond to Tracy and Stockton. The DMU system was chosen as a less-expensive alternative to the existing third-rail BART design.[23] Service began on May 25, 2018.[24]

Proposed operations:

  • The Los Angeles County Metropolitan Transportation Authority approved an allocation of $250,000 for a feasibility study of DMUs for "future transportation options for the region" on 5 July 2006 (Ara Najarian, Metro Board Member).[25]
  • Chicago's commuter rail line, Metra, is studying the use of DMUs on its newly proposed lines (STAR line, SES). They claim these DMUs will have better acceleration, be more fuel efficient, and seat more customers than the current diesel locomotive and double decker rail cars that are currently in use.[26]
  • Seattle area – The Central Puget Sound's regional transit agency Sound Transit, along with the Puget Sound Regional Council evaluated the feasibility of both DMU and diesel locomotive technology for operation in the Eastside BNSF Corridor in response to a state legislative request. The Eastside BNSF corridor runs from the City of Snohomish in the north to Renton in the south of the metro area. Sound Transit has no plans to operate passenger rail service in the eastside BNSF corridor, but has committed limited funds to provide capital improvements in the event another public or private operator proposes to operate the service.[27]
  • Anchorage Mat-Su area – As part of a joint U.S. Forest Service (USFS) and ARRC Chugach Forest Whistle Stop project, a self-propelled rail car was purchased and delivered spring 2009. The diesel multiple unit (DMU) may be available for flexible demonstration service during winter months.[28]
  • The Long Island Rail Road, the busiest commuter railroad in the United States, is exploring the possibility of operating DMUs on some of its lesser traveled routes in non-electrified territory (on the Montauk, Greenport, Port Jefferson, and Oyster Bay branches), where operation of its current fleet of C3 bilevel railcars pulled by DE30AC/DM30AC locomotives is uneconomical and inefficient.
  • Arrow will utilize Stadler FLIRT trainsets along its service route in Redlands, California.
  • A proposal to use DMUs on Boston's Fairmount Line was initially approved, but was canceled in 2016.[29]

Asia/Australasia

Australia
Adelaide Metro 3000 class railcars operating in Adelaide, South Australia

DMUs were first introduced to Australia in the late mid-20th century for use on quiet branch lines that could not justify a locomotive hauled service. Today, DMUs are widely used throughout Australia's southern states:

In Queensland, heritage DMUs are used on the Savannahlander and Gulflander tourist trains.

Bangladesh

Chinese manufactured (CNR Tangshan) DEMU was introduced in Bangladesh from May 25, 2013. DEMU is the country's first-ever commuter train service starting its journey on the Chittagong–Fouzdarhat line. These DEMUs also operate on the Chittagong Circular Railway and on the Bangladesh Railway's service between Dhaka and Narayanganj.[30]

A DEMU train (right) at Kamalapur Railway Station , Dhaka

India

DMUs (DEMUs) are widely used in India. DEMUs in India are used in both the 8 coach format and the 4 coach format. These trains replaced many (up to 10 car) trains with a WDM-2 or WDM-3A locomotive in the middle. These old trains had the loco controls duplicated in the Driving Trailer coach and all the actuation information reaching the locomotive through thin communication lines. This was called 'push-pull train'. The longest running such push-pull service operated between Diva - Bhiwandi Road and Vasai Road and was recently converted into an MEMU train service in 2018.



First generation DMU: Rated power was 700 HP and had 3 or 6 coaches, made first by ICF. Transmission was Voith-hydraulic. Max speed 100 kmph.

Diesel Hydraulic Multiple Unit

Second generation DMU: Rated power is 1400 HP and have 8 coaches. Max speed is 105 kmph. Transmission is DC electric. Made at HCF and RCF.


Third generation DMU: Rated power is 1600 HP and have 10 coaches. Max speed is 110 kmph. Transmission is AC electric. Made at ICF.

Indonesia
KRDI (Indonesian-built). KRDI Inka produced at Madiun.Sri Lelawangsa DMU, Medan.
KRDI Solo Express, Surakarta

State-owned company PT.INKA builds several type of DMU, some of which operate in urban and suburban areas:

Japan
JR Hokkaido KiHa 283 tilting DMU on Hakodate Main Line

In Japan, where gasoline-driven railbuses (on small private lines) and railmotors (Kihani 5000 of the national railways) had been built since the 1920s, the first two streamlined DMUs came in service in 1937, class Kiha 43000 (キハ43000系).[31]

The service of several hundreds (in sum even thousands) of diesel railcars and DMUs started in 1950s following the improvement of fuel supply that was critical during World War II.[32]

Philippines
Philippine National Railways KiHa 52 At Ligao Station
Philippine National Railways KiHa 59 Kogane at Naga Station

The Southrail or the South Main Line of the Philippine National Railways which travels South of the Luzon island is one of the oldest rail lines in Asia and in the world.[33] The Southrail of Philippine National Railways uses Hyundai Rotem DMUs together with second-hand DMUs from East Japan Railway Company or JR East and Kanto Railway. These are Kiha 52, Kiha 59 which is also known as the "Kogane" and Kiha 350. Trains such as the Hyundai Rotem DMUs Kiha 350 and Kiha 52 are often used for Metro Commuter Line services, while Kiha 59 is mostly used for Bicol interprovincial services and sometimes also for the Metro Commuter services.

South Korea
Korail DHC-PP with new CI colour

Korail operates many DMUs. The DHC (Diesel Hydraulic Car), which made its debut for the 1988 Seoul Olympics, can reach speeds up to 170 km/h (106 mph) and serves Saemaul-ho trains.

Sri Lanka

DMUs were first introduced to Sri Lanka in 1940. The aim of this was connecting minor railway stations and stops on the main line where most express trains don't have a halt.

Taiwan

The DMUs are now usually used on the Taiwan Railway Administration Hualien–Taitung Line, North-Link Line, South-Link Line. DMUs in Taiwan are classified as Class DR.

  • Class DR2700 – built by Tokyu Car Corporation in 1966; was the fastest train on the West Coast line
  • Class DR2800 – built by Tokyu Car Corporation in 1982 and 1984
  • Class DR2900
  • Class DR3000
  • Class DR3100

Manufacturers

DMU manufacturers include:

See also

References
  1. "Cutting noise and smoothing the ride". Railway Gazette. 1 August 2000. Archived from the original on 4 June 2012. Retrieved 20 January 2011. In the Voyager application, every car has a Cummins underfloor engine and alternator supplying power to a pair of body-mounted traction motors. Each drives one inner axle through a cardan shaft and axle-mounted final drive gearbox.
  2. Stadler Firt DMU/DEMU example: Elron Elektriraudtee Classes 2200, 2300 and 2400, TEXRail Stadler FLIRT
  3. "An A-Z of Famous Express Trains: An Illustrated Trip Down Memory Lane".
  4. "LNER Encyclopedia: The LNER Armstrong-Whitworth Diesel–Electric Railcars". Retrieved 19 June 2016.
  5. Heaps, Chris (1988). "End of the Blue Pullmans". BR Diary: 1968–1977. London: Ian Allan. pp. 66–67. ISBN 978-0-7110-1611-8.
  6. "1976: New train speeds into service". BBC News Online. London. 4 October 1976. Retrieved 15 February 2011.
  7. "New opportunities for the railways: the privatisation of British Rail" (PDF). Railway Archive. p. 8. Retrieved 15 February 2011.
  8. "Class 253 High Speed Train". Railblue.co.uk. Retrieved 15 February 2011.
  9. "Class 254 High Speed Train". Railblue.co.uk. Retrieved 15 February 2011.
  10. GWR unveils Hitachi iep trainset Railway Gazette International 30 June 2016
  11. Stadler and Bombardier to supply trains for Abellio East Anglia franchise Railway Gazette International 10 August 2016
  12. GWR to lease Class 769 Flex trimode trainsets Railway Gazette International 20 April 2018
  13. "'They don't make trains like this anymore'". www.railtechnologymagazine.com. Retrieved 18 July 2019.
  14. "West Midlands Trains puts first Class 230 D Train in service". Railway Technology. 23 April 2019. Retrieved 18 July 2019.
  15. Hughes, Owen (10 September 2018). "New North Wales trains will be slower than Arriva ones BUT journey times will fall". northwales. Retrieved 18 July 2019.
  16. Such as the Railroad Safety Appliance Act of 1893.
  17. "Kaoham Shuttle" page, Seton Lake Indian Band website (Tsalalh.net) Archived 28 July 2014 at the Wayback Machine
  18. "Six Commuter Trains Purchased: Travel Easier in San Jose Costa Rica – Costa Rica Star News". 16 June 2012. Retrieved 19 June 2016.
  19. "LCBO – Lewis & Clark Explorer Train". www.lcbo.net. Retrieved 18 September 2016.
  20. Lewis, Bj (5 June 2012). "DCTA gets go-ahead to use Stadler cars". Denton Record-Chronicle. Archived from the original on 9 June 2012. Retrieved 6 June 2012.
  21. "TEX Rail commuter line opens". Railway Gazette. 10 January 2019. Retrieved 1 April 2019.
  22. "TEXRail Map". Trinity Metro. Retrieved 1 April 2019.
  23. "BART moves forward with $1 billion in extension projects - bart.gov". Retrieved 19 June 2016.
  24. "BART to Antioch: East Contra Costa BART Extension". Retrieved 27 March 2019.
  25. "July 2006 Metro to Fund Implementation Study on a Regional Connector Through Glendale and Burbank". ebb.metro.net. Retrieved 1 February 2017.
  26. "Coming Soon page". Retrieved 19 June 2016.
  27. "Archived copy". Archived from the original on 11 February 2010. Retrieved 21 January 2010.CS1 maint: archived copy as title (link)
  28. "Alaska Railroad – Alaskan Tours & Vacations – Train Packages" (PDF). Archived from the original (PDF) on 6 March 2012. Retrieved 19 June 2016.
  29. Pattison-Gordon, Jule (10 February 2016). "Fairmount line setback: No DMUs says MBTA". Bay State Banner. Retrieved 20 November 2019.
  30. "DEMU trains begin debut run in Ctg". Bdnews24.com. Retrieved 26 May 2013.
  31. "キハ43000の資料 – しるねこの微妙な生活/浮気心あれば水心!?". Retrieved 19 June 2016.
  32. "The Railway Museum in Saitama". Archived from the original on 13 September 2016. Retrieved 19 June 2016.
  33. Visitmyphilippines.com. "Department of Tourism – The Philippines Ultimate Travel Guide for Tourist". www.visitmyphilippines.com. Archived from the original on 27 December 2017. Retrieved 27 December 2017.
  34. "US Railcar". www.usrailcar.com.
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