Electro-diesel locomotive

<templatestyles src="Module:Hatnote/styles.css"></templatestyles>

Double FEVE electro-diesel locomotive 1915 at El Berrón (Spain).

Bombardier ALP-45DP at the Innotrans convention in Berlin.

An electro-diesel locomotive (also referred to as a dual-mode or bi-mode locomotive) is powered either from an electricity supply (like an electric locomotive) or by using the onboard diesel engine (like a diesel-electric locomotive). For the most part, these locomotives are built to serve regional, niche markets with a very specific purpose.

Overview

Electro-diesel locomotives and electro-diesel multiple units are used to provide continuous journeys along routes that are only partly electrified without a change of locomotive, extensive running of diesel under the wires (using a diesel locomotive where electrified lines are available) or where diesel engines are banned. They may be designed or adapted mainly for electric use, mainly for diesel use or to work well as either electric or diesel.

Primarily electric

British Rail Class 73, no. E6013 (73107) at Rowsley South, on the Peak Railway on 17 April 2003. This locomotive was on loan from Fragonset Railways, and has since returned to main-line service with RT Rail.

This is effectively an electric locomotive with a relatively small auxiliary diesel prime mover intended only for low-speed or short-distance operation (e.g. British Rail Class 73). Some of these, such as the British Rail Class 74, were converted from electric locomotives. The Southern Region of British Railways used these locomotives to cross non-electrified gaps and to haul boat trains that used tramways at the ports of Southampton and Weymouth. For economy, the diesel engine and its generator are considerably smaller than the electric capacity. The Southern types were of 1,600 hp or 'Type 3' rating as electrics, but only 600 hp as diesels.^[1] Later classes had as much as 2,500 hp on electric power, but still the same diesel engines. Despite this large difference, their comparable tractive efforts were much closer (around three-quarters as diesels) and so they could start and work equally heavy trains as diesels, but not to the same speeds.

Primarily diesel

This is effectively a diesel locomotive with auxiliary electric motors (or connections to the existing traction motors), usually operating from 750 V DC third rail where non-electric traction is banned (e.g. EMD FL9). The primary function for these models is to provide a "one-seat ride" (a rail trip that doesn't require a transfer to a different train) between the electrified and non-electrified sections of a rail system or to allow trains to run through tunnels or other segments of track where diesel locomotives are generally prohibited due to their production of exhaust; such locomotives are used for certain trains servicing the New York City terminals of Grand Central Terminal and Penn Station, as the various rail tunnels into Manhattan have exhaust restrictions. Once out of the tunnels, the engines are started and operation is as a normal diesel locomotive.

Full dual-mode

With modern electronics, it is much easier to construct (or adapt) an electro-diesel locomotive or multiple-unit which is equally at home running at high speeds both "under the wires" and under diesel power (e.g. SNCF Class B 82500). These will normally operate under pure electric traction where possible, and use the diesel engines to extend the journeys along non-electrified sections which would not be cost effective to electrify. They may also be used on long cross-country routes to take advantage of shorter sections of electrified main lines.

Europe

France

Bombardier has built dual-mode variants of its AGC series^[2] for the French operator SNCF; the electricity is collected by means of a pantograph.

• B 81500 – multiple unit trains using 1.5 kV DC catenary, in service since 2005
• B 82500 – multiple unit trains using both 1.5 kV DC and 25 kV AC catenary, currently still being built

Germany

• Gmeinder class 478.6 diesel and 750 V DC third-rail (bottom contact).
• Voith Futura, a concept locomotive rebuilt from DB 240 002.
• Bombardier TRAXX "Last Mile Diesel", mainly electric. Orders signed 2010, to be delivered probably 2012.^[3]

Italy

• Five Electro-diesel versions of the Stadler Flirt have been ordered for service in the Valle d'Aosta region.^[4]

Poland

Pesa Marathon at Inowrocław, working a goods train during tests by Lotos Kolej.

• PESA 111Ed Gama Marathon – mainly electric, with auxiliary diesel engine enabling last-mile operation on non-electrified tracks. Gama Marathon was first presented in 2012 at InnoTrans Berlin. The locomotive then underwent a series of tests with rail operators Lotos Kolej (in goods traffic) and PKP Intercity (in passenger traffic),^[5][6] after successful conclusion it was offered on the market.^[7] In July 2015 the Polish train-operating company Locomotiv bought the prototype and signed order for further two Marathons.^[8]
• Newag Dragon – version of this electric freight locomotive for the Freightliner's Polish branch, Freightliner PL Sp. z o.o. (5 units delivered in 2016) is equipped with auxiliary diesel engine.^[9]

Russia

RZD OPE1 electro-diesel traction unit.

In Russia, a number of electro-diesels were built which had both pantographs and diesel prime movers; these locomotives were actually multiple units, with distinct electric, diesel, and motor sections. These included:

• ED16 (ЭД16), ED18 (ЭД18), and TEU1 (ТЭУ1) narrow gauge models
• OPE1 (ОПЭ1), OPE2 (ОПЭ2), NP1 (НП1), PE2(M) (РЭ2(М)), and EL20 standard-gauge locomotives used mostly in quarries

Spain

• FEVE 1.900 Series, 1500 V DC overhead wires. This series is a rebuild of FEVE 1.000 Series locomotive.
• CAF Bitrac 3600, 3000 V DC overhead wires. October 2007 order for 9 freight Co-Co locomotives.^[10] Available in Bo-Bo and Co-Co wheel configuration, 1,435 or 1,668 mm (56.5 or 65.7 in) gauge, and as freight or passenger versions of 120 and 180 km/h (75 and 112 mph) maximum speeds respectively.^[11]

Switzerland

Light dual-mode (electric and diesel) shunter SBB Tem III 346 at work.

• Rhaetian Railway Gem 4/4 801 and 802, 1000 V DC overhead wires (Bernina Railway)
• Swiss Federal Railways Tem I 251–275 (1950–57), Tem II 276–298 (1967) and Tem III 321–365 (1954–62) shunters (Tem III see image) of which only few are still in service.
• Swiss Federal Railways Eem 923 shunters using both 15 kV 16.7 Hz and 25 kV 50 Hz overhead wires and a 360 kW auxiliary diesel engine are on delivery from Stadler Rail's Winterthur plant.^[12]

United Kingdom

An experimental electro-diesel locomotive, DEL120, was built by London Underground in 1940 but was not a success. Only two other types have been built. In both cases, their electricity source was a 750 V DC third rail.

• British Rail Class 73, dating from 1962 – the more successful design, with some still in regular use. They originally had lower power output in the diesel mode, but are being re-engined to provide more power (2014, 50 years since introduction).
• British Rail Class 74 – rebuilt from British Rail Class 71 electric locomotives in 1967 and withdrawn by 1977.

The Hitachi Super Express trains proposed for the electrification of the Great Western Main Line have a variant able to operate in bi-mode as an electro-diesel trainset. This would enable intercity services from Paddington Station to continue beyond Swansea station, currently the western limit of the proposed electrification scheme.

Bombardier has plans,^[13] apparently known as Operation Thor or Project Thor, to convert 500 existing diesel multiple units (DMUs) into electro-diesel multiple units (EDMUs).^[14] Whilst exact details are unclear, one source specifies that these would involve their Voyager family DEMUs, and entail the construction of additional intermediate cars with a pantograph and a transformer which would feed power into the traction motors of the existing diesel-electric cars when running off overhead lines.^[15]

North America

United States

New Haven #140 "Roger Williams", unique Budd railcar-based train at Danbury Railway Museum, US-CT.

• GE three-power boxcab, a switcher locomotive model built in 1930, also capable of operating as a battery locomotive, retired from service.

Several primarily diesel locomotive types and a multiple-unit have been built to operate off a 750 V DC third rail into the New York City terminals of Grand Central Terminal and Penn Station:

• Baldwin RP-210 – primarily diesel-hydraulic, third-rail electric mode for short-term use only, retired from service.
• "Roger Williams" streamlined, six car, lightweight, DMU passenger train, built by the Budd Company in 1956 for the New York, New Haven and Hartford Railroad – primarily diesel-hydraulic, third-rail electric mode for short-term use only, retired from service.
• Fairbanks Morse P-12-42 – primarily diesel-electric, third-rail electric mode for short-term use only, retired from service.
• EMD FL9 – primarily diesel-electric, third-rail electric mode for short-term use only, been retired from service.

Metro-North's GE Genesis P32AC-DM at Ossining Station.

• P32AC-DM – dual-mode version of the GE Genesis, electric mode is only used for a few miles of travel.
• EMD DM30AC – specific to the Long Island Rail Road, the electric mode is only used for service to Penn Station.

Additionally, a full dual-mode 200 km/h (120 mph)/160 km/h (99 mph) locomotive for use with catenary is now in service.^[16]

• Bombardier ALP-45DP^[2] - 35 locomotives are on order by New Jersey Transit, to bridge gaps between non-electrified and electrified sections of track into New York Penn Station.^[17][18] These trains have been retained for use on the North Jersey Coast Line to provide a "one-seat ride" to New York Penn Station both for commuters using the line's non-electrified segment (between Long Branch and Bay Head), as well as summertime tourists traveling from the New York area to the northern part of the Jersey Shore.^[19]

Canada

• Bombardier ALP-45DP - 20 locomotives are on order for the Repentigny-Mascouche Line (AMT). It is a joint order with the New Jersey Transit order above.^[17] They will provide a through journey on this mostly un-electrified new line, which joins an existing electrified commuter line to access Montreal's Central Station through the poorly ventilated, 25 kV AC electric only Mount Royal Tunnel.^[17]

Africa

South Africa

Spoornet Class 38-000 38-008 in electric mode at Sentrarand, Gauteng, ZA.

The South African Class 38-000 is a 3kV DC electro-diesel locomotive designed by Consortium under the leadership of Siemens and built by Union Carriage and Wagon (UCW) in Nigel, Gauteng, South Africa. Between November 1992 and 1993 fifty of these locomotives were placed in service by Spoornet, formerly the South African Railways (SAR) and later renamed Transnet Freight Rail (TFR). The diesel engine enables the locomotive to shunt on unelectrified sidings.^[20]

Hybrid locomotive

<templatestyles src="Module:Hatnote/styles.css"></templatestyles>

Railpower Technologies Green Goat hybrid switching locomotive GG20B.

A specialized type of electro-diesel locomotive is the hybrid locomotive. Here, the electricity comes from a battery charged by the diesel engine rather than from an external supply. An example is the Green Goat switcher GG20B by Railpower Technologies, a subsidiary of R.J. Corman Railroad Group since 2009.^[21]

See also

• Biodiesel
• GE "Three-Power" boxcab
• Hitachi Super Express, a future train in the United Kingdom.

References

1. ↑ Lua error in package.lua at line 80: module 'strict' not found.
2. ↑ ^{2.0 2.1} Lua error in package.lua at line 80: module 'strict' not found.
3. ↑ Lua error in package.lua at line 80: module 'strict' not found.
4. ↑ http://www.railwaygazette.com/news/traction-rolling-stock/single-view/view/first-electro-diesel-flirts-ordered.html
5. ↑ Lua error in package.lua at line 80: module 'strict' not found.
6. ↑ Lua error in package.lua at line 80: module 'strict' not found.
7. ↑ Lua error in package.lua at line 80: module 'strict' not found.
8. ↑ Lua error in package.lua at line 80: module 'strict' not found.
9. ↑ Lua error in package.lua at line 80: module 'strict' not found.
10. ↑ Lua error in package.lua at line 80: module 'strict' not found.
11. ↑ Lua error in package.lua at line 80: module 'strict' not found.
12. ↑ Lua error in package.lua at line 80: module 'strict' not found.
13. ↑ Lua error in package.lua at line 80: module 'strict' not found.
14. ↑ Lua error in package.lua at line 80: module 'strict' not found.
15. ↑ Lua error in package.lua at line 80: module 'strict' not found.
16. ↑ Lua error in package.lua at line 80: module 'strict' not found.
17. ↑ ^{17.0 17.1 17.2} Lua error in package.lua at line 80: module 'strict' not found.
18. ↑ Lua error in package.lua at line 80: module 'strict' not found.
19. ↑ Lua error in package.lua at line 80: module 'strict' not found.
20. ↑ Class 38 electro-diesel in operation, Railways Africa.
21. ↑ Railpower locomotive production line.

External links

• Lua error in package.lua at line 80: module 'strict' not found.
• Lua error in package.lua at line 80: module 'strict' not found.
• (Russian) Novocherkasskiy electric locomotive factory – Model OPE1
• CAF website.
• Drehstromloks.de.