Electro-diesel locomotive
An electro-diesel locomotive is powered either from an electricity supply or by using the onboard diesel engine. For the most part, these locomotives are built to serve regional, niche markets with a very specific purpose.
Overview
Electro-diesel locomotives are used to provide continuous journeys along routes that are only partly electrified without a change of locomotive, avoid extensive running of diesel under the wires, and giving solution 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.Note that, as well as the electric multiple unit and diesel multiple unit, where no discrete locomotive is present, even electro-diesel multiple units exist.
Primarily electric
This is effectively an electric locomotive with a relatively small auxiliary diesel prime mover intended only for low-speed or short-distance operation. 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. 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 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, usually operating from 750 V DC third rail where non-electric traction is banned. The primary function for these models is to provide a "one-seat ride" 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 an electro-diesel locomotive or multiple-unit which is equally at home running at high speeds both "under the wires" and under diesel power. 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
Germany
- Gmeinder class 478.6 diesel and third-rail.
- Voith Futura, a 2009 CREAM Project concept locomotive rebuilt from DB 240 002.
- Bombardier TRAXX "Last Mile Diesel", mainly electric. Orders signed 2010, to be delivered probably 2012.
Poland
- 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 and PKP Intercity, after successful conclusion it was offered on the market. In July 2015 the Polish train-operating company Locomotiv bought the prototype and signed order for further two Marathons.
- Newag Dragon – version of this electric freight locomotive for the Freightliner's Polish branch, Freightliner PL Sp. z o.o. is equipped with auxiliary diesel engine.
- Newag Griffin – a version of this electric freight locomotive, leased to Lotos Kolej in 2017 for 7 years with a provision to extend the lease, is equipped with auxiliary diesel engine.
Spain
- FEVE 1.900 Series, overhead wires. This series is a rebuild of FEVE 1.000 Series locomotive.
- Euskotren TD2000 Series, overhead wires. This is a new construction locomotive. Built by CFD-Bagnères and Ingeteam.
- CAF Bitrac 3600, overhead wires. October 2007 order for nine freight Co-Co locomotives. Available in Bo-Bo and Co-Co wheel configuration, gauge, and as freight or passenger versions of maximum speeds respectively.
- Locomotives for RENFE Class 130, by Talgo.
- Locomotives for RENFE Class 730, by Talgo.
Switzerland
- Rhaetian Railway Gem 4/4 801 and 802, overhead wires
- Swiss Federal Railways Tem I 251–275, Tem II 276–298 and Tem III 321–365 shunters of which only few are still in service.
- Swiss Federal Railways Eem 923 shunters using both and overhead wires and a 360 kW auxiliary diesel engine are on delivery from Stadler Rail's Winterthur plant.
United Kingdom
- 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.
- British Rail Class 74 – rebuilt from British Rail Class 71 electric locomotives in 1967 and withdrawn by 1977.
- British Rail Class 88 – locomotive used by Direct Rail Services. Introduced in 2017.
Russia
- ED16, ED18, and TEU1 narrow gauge models
- OPE1, OPE2, NP1, PE2, and EL20 standard-gauge locomotives used mostly in quarries
North America
Canada
- Bombardier ALP-45DP – 20 locomotives ordered for the Mascouche line. It is a joint order with the New Jersey Transit order. They 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 railway electrification| electric only Mount Royal Tunnel.
United States
, US-CT
- P32AC-DM – dual-mode version of GE Genesis, primarily diesel, electric mode is only used for service to Grand Central Terminal from Poughkeepsie or Wassaic, or Penn Station from Albany, Rutland, or Niagara Falls. They are also used on the Albany-New York section of trains between Penn Station and Chicago, Montreal, and Toronto. Those trains stop in Albany to switch to full diesel GE Geneses for the remainder of the journey.
- EMD DM30AC – specific to Long Island Rail Road, primary diesel, electric mode is only used for service to Penn Station.
- Bombardier ALP-45DP – 35 locomotives purchased by NJ Transit, to bridge gaps between non-electrified and electrified sections of track into New York Penn Station. These trains have been used to provide a "one-seat ride" to New York Penn Station both for commuters using non-electrified portions of the system.
- Baldwin RP-210 – primarily diesel-hydraulic, third-rail electric mode for short-term use only.
- "Roger Williams" - streamlined 6-car lightweight DMU passenger train, built by Budd Company in 1956 for New York, New Haven and Hartford Railroad; primarily diesel-hydraulic, third-rail electric mode for short-term use only.
- Fairbanks Morse P-12-42 – primarily diesel-electric, third-rail electric mode for short-term use only.
- EMD FL9 – primarily diesel-electric, third-rail electric mode for short-term use only.
- GE three-power boxcab - tri-mode switcher locomotive model built in 1930, was also capable of operating as a battery locomotive. All retired and scrapped.
- GE/Garrett gas turbine MUs - primarily electric, but built with gas turbines to allow operation outside of third rail electrification. All scrapped.
Africa
South Africa
- The South African Class 38-000 is a electro-diesel locomotive designed by Consortium under the leadership of Siemens and built by Union Carriage and Wagon 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 and later renamed Transnet Freight Rail. The diesel engine enables the locomotive to shunt on unelectrified sidings.
Tanzania
- Stadler Euro Dual, proposed overhead wires
Asia
India
- The Indian locomotive class WDAP-5 is a class of diesel-electric dual mode locomotive that was developed in 2019 by Diesel Locomotive Works, Varanasi for Indian Railways. The model name stands for broad gauge, Diesel, AC Current, Passenger and 5000 Horsepower. The locomotive can deliver 5000HP in electric mode and 4500HP in diesel mode. Since 2016, Indian Railways has pushed for greater electrification of the railway network. In this interest, the government, in 2019, approved plans for 100% electrification. So far Indian Railways has electrified 39,866 RKMs which accounts for about 63% of the total route kilometres. Using electric locomotives allows the railways to save time by giving a faster acceleration and also saves fuel costs. However, these advantages are offset under certain circumstances where the route of the train is partly electrified. In such cases, trains used to run with a diesel locomotive in non-electrified sections and would be switched with an electric locomotive as soon as they enter an electrified section. Instead of the benefits of electrification, Railways observed a loss of punctuality in such trains due to valuable time being lost to switch between diesel and electric locomotives. To counter this, in August 2019, Railways issued a circular, asking all zones to haul trains with a diesel locomotive if their route was not completely electrified. This meant that electrification of railway lines, unless completed end-to-end, did not provide any advantage. This problem had been identified by the Railways, way back in 2016, which is when RDSO was requested to study the feasibility of dual-mode locomotives as a stop-gap until 100% electrification was achieved.
Hybrid locomotive