Baldwin–Westinghouse electric locomotives

Last updated

Baldwin, the locomotive manufacturer, and Westinghouse, the promoter of AC (alternating current) electrification, joined forces in 1895 to develop AC railway electrification. Soon after the turn of the century, they marketed a single-phase high-voltage system to railroads. From 1904 to 1905 they supplied locomotives carrying a joint builder's plate to a number of American railroads, particularly for the New Haven (the New York, New Haven and Hartford Railroad) line from New York to New Haven, and other New Haven lines. Westinghouse would produce the motors, controls, and other electrical gear, while Baldwin would produce the running gear, frame, body, and (in most cases) perform final assembly.

Contents

A New Haven EP-1 electric locomotive, circa 1907. Note the small DC pantograph between the two larger AC pantographs. NH EP-1.png
A New Haven EP-1 electric locomotive, circa 1907. Note the small DC pantograph between the two larger AC pantographs.
Japanese Government Railways Class 6010 (later becoming Class ED53 and later ED19) electric locomotive number 6011, built by Baldwin and Westinghouse in the USA JGR Class 6010 number 6011 1926.jpg
Japanese Government Railways Class 6010 (later becoming Class ED53 and later ED19) electric locomotive number 6011, built by Baldwin and Westinghouse in the USA

Baldwin-Westinghouse electric locomotives

Experimental locomotives

In 1895 a box-cab locomotive 32 feet (9.8 m) long with two four-wheel trucks and weighing 46 short tons (41.1 long tons; 41.7 t) was built at the East Pittsburgh (Pennsylvania) works of Westinghouse. It was used for more than a decade of AC and DC experimentation. Sold in 1906 to the Lackawanna & Wyoming Valley Railroad in northern Pennsylvania as a 600 hp (450 kW) 500 V DC locomotive, it was in service until 1953. [1]

No. 9, the first single-phase locomotive built in America, was completed in 1904. Weighing 126 short tons (113 long tons; 114 t) and operating on 6600 V AC, it had six 225 hp (168 kW) traction motors with quill drive on two three-axle trucks. [2]

Indianapolis-Rushville interurban

In 1905 a 41-mile (65 km) interurban line between Indianapolis and Rushville, electrified by Baldwin-Westinghouse at 3300 volts single-phase AC, was opened by the Indianapolis & Cincinnati Traction Company. [3]

New Haven electrification

In 1905 the New York, New Haven & Hartford investigated electrification for their 35 miles (56 km)-line from Grand Central Station to Stamford, with a possible extension to New Haven, Connecticut. Electrification for passenger service was required in New York. Operation of such trains to the suburbs was preferred to changing to steam outside New York. Electrification of the busy main line would increase the capacity of the existing four tracks. Proposals were obtained from General Electric (GE) and Westinghouse. Both companies submitted a variety of AC and DC schemes, though GE favoured DC electrification. But New Haven chose single-phase AC as proposed by Westinghouse, at 11 kV 25 Hz. The generating station was at Cos Cob. [3]

The New Haven EP-1

An initial order of 35 EP-1 locomotives were supplied from 1905 to 1907. The design was similar to No. 9 above, with two two-axle trucks and a Westinghouse gearless quill drive, which supported the motor on the truck frame and reduced the unsprung weight. The locomotives weighed 102 tons and were 37 ft 6½in long. They had to operate over the 12 miles of New York Central track electrified at 660 V DC third rail from Grand Central to Woodlawn, so had AC/DC series commutator motors; the four Westinghouse 130 motors had a total hourly rating of 1,420 hp (1,060 kW). The locomotive could change from AC to DC without stopping; power pickup was by eight third-rail shoes which could be lowered, plus two large AC pantographs and a small pantograph for DC where short sections through switches were too complicated for third-rail supply. A second order of six supplied in 1908 had design changes, including guide wheels at each end to obviate "nose" or oscillation at high speed. The highly successful class operated to 1947, although some were retired from 1936. [4]

New Haven experimental locomotives

In 1910 New Haven decided to extend electrification, and to electrify freight and switching as well as passenger service. Before placing a major order, the line ordered four experimental locomotives from Baldwin-Westinghouse, built in 1910 to 1911. They were numbered No. 069, No. 070, No. 071 and (?). [5]

The New Haven EF-1

While three of the experimentals were equipped for passenger service, the EF-1 was intended for freight service. As such, it did not have train-heating boilers or third-rail DC equipment. [6]

The New Haven switchers

Steeple-cab B + B switchers were supplied in 1911-1912 (16) and 1927 (6); total 23. They weighed nearly 80 tons and had a maximum tractive effort of 40,000 lbs. [7]

The New Haven EP-2

NH EP-2 electric locomotive New Haven EP-2 Baldwin ad.jpg
NH EP-2 electric locomotive

Five 1-C-1 + 1-C-1 passenger locomotives were supplied by Baldwin-Westinghouse in 1919. Similar to the 1912-1913 locomotives, they were 69 foot long and weighed 175 tons, with a top speed of 70 mph (110 km/h). The hourly rating was 2460 hp, and maximum tractive effort of almost 50,000 lb. A further 12 were supplied in 1923 and 10 in 1927; totaling 27. [8]

Steeple Cab Electrics

Steeple-cab locomotives were commonly used on small railroads or even interurban lines. [9] Baldwin generally classified them based on horsepower and weight, as follows:

Baldwin-Westinghouse steeple cab electric locomotives operating as Iowa Traction Railroad (IATR) 50 and 54 in Mason City, Iowa, in 2009 IATR 54 and IATR 60 in Mason City.jpg
Baldwin-Westinghouse steeple cab electric locomotives operating as Iowa Traction Railroad (IATR) 50 and 54 in Mason City, Iowa, in 2009

Examples served with the Oshawa Electric Railway in Oshawa, Ontario. These were delivered in the 1920s to provide freight service within the city, serving mainly the General Motors plant. [10] One example bearing number 300 from Oshawa is preserved at the Seashore Trolley Museum. This all-steel example is 36 feet long, 10 feet wide, 12 foot 7 inches high, weighing 100 000 lbs. It has four motors, resting on two Baldwin MCB trucks. "It is typical of many Baldwin-Westinghouse locomotives used on electric railways from Maine (the Portland-Lewiston and the Aroostook Valley) to California (the Pacific Electric and the Sacramento Northern).". [11] Others are still in service with the Iowa Traction Railway. [12]

The New Haven EF-3

This 1942-1943 order for 10 freight locomotives was split between GE and B-W. They were AC only, weighed 246 tons, and rated 4860 hp with a tractive effort of 90,000 lb. In 1948 the 5 Baldwin-Westinghouse locomotives were equipped with train-heating boilers for passenger service. [13]

The Great Northern Z-1 class

Great Northern Z-1 electric locomotive Railway and locomotive engineering - a practical journal of railway motive power and rolling stock (1928) (14574492017).jpg
Great Northern Z-1 electric locomotive

Z-1 class locomotives were supplied to the Great Northern Railway for the new longer and lower Cascade Tunnel and the extended electrification of the line through the Cascade Range. They were used from January 1927 through the old tunnel, and the line through the new tunnel was opened in 1929. The old tunnel used three-phase power, so eight miles of the overhead on the line to be abandoned were modified to single phase AC (11 kV, 25 Hz), and steam locomotives were used over a short connecting section of line.

Two were supplied in 1926 and three in 1928. Each Z-1 locomotive had two semi-permanently coupled 1-D-1 box-cab units; the pair weighed more than 371 tons with an hourly rating of 4330 hp and a continuous tractive effort of 88,500 lbs per unit (177,000 lb per pair) and a maximum starting effort of 189,000 lb. The locomotives had a motor-generator set with a synchronous AC motor and DC generator, which supplied the Westinghouse 356-A traction motors geared to each driving axle. They were equipped for multiple-unit control and regenerative braking. A pair of Z-1s with four units could move a 2900-ton train over the 2.2% maximum gradient of the new Cascade line. [14]

See also

Notes

  1. Middleton 1974, pp. 76–77.
  2. Middleton 1974, p. 77.
  3. 1 2 Middleton 1974, p. 76.
  4. Middleton 1974, pp. 76–79.
  5. Middleton 1974, pp. 79–80.
  6. Middleton 1974, p. 84.
  7. Middleton 1974, pp. 84, 97.
  8. Middleton 1974, pp. 92, 97.
  9. 1 2 "BLW Steeple Cab Electrics". TheDieselShop. Retrieved October 30, 2023.
  10. "OSHAWA RAILWAY FREIGHT MOTOR 300". trainweb. Retrieved October 23, 2017.
  11. "OSHAWA LOCOMOTIVE 300". Seashore Trolley Museum Collection. Retrieved October 23, 2017.
  12. (1) POTB 101 (October 17, 2020). "Iowa Traction 50". Mason City, Iowa: Railroadforums.com. Archived from the original (photograph) on November 2, 2020. Retrieved November 2, 2020.{{cite web}}: CS1 maint: numeric names: authors list (link).
    (2) Streiff, Jeffrey (September 20, 2019). "IATR 54". Mason City, Iowa: RR Pictures Archives.net. Archived from the original (photograph) on November 3, 2020. Retrieved November 3, 2020..
    (3) Van Cleve, Jeff (June 23, 2019). "IATR 60". Emery, Iowa: RR Pictures Archives.net. Archived from the original (photograph) on November 3, 2020. Retrieved November 3, 2020..
  13. Middleton 1974, p. 97.
  14. Middleton 1974, pp. 163–169.

Related Research Articles

<span class="mw-page-title-main">Locomotive</span> Self-propelled railway vehicle

A locomotive or engine is a rail transport vehicle that provides the motive power for a train. If a locomotive is capable of carrying a payload, it is usually rather referred to as a multiple unit, motor coach, railcar or power car; the use of these self-propelled vehicles is increasingly common for passenger trains, but rare for freight trains.

<span class="mw-page-title-main">Diesel locomotive</span> Locomotive powered by a diesel engine

A diesel locomotive is a type of railway locomotive in which the power source is a diesel engine. Several types of diesel locomotives have been developed, differing mainly in the means by which mechanical power is conveyed to the driving wheels. The most common are diesel-electric locomotives and diesel-hydraulic.

<span class="mw-page-title-main">EMD AEM-7</span> Twin-cab four-axle 7,000 hp (5.2 MW) B-B electric locomotive built by Electro-Motive Division

The EMD AEM-7 is a twin-cab four-axle 7,000 hp (5.2 MW) B-B electric locomotive built by Electro-Motive Division (EMD) and ASEA between 1978 and 1988. The locomotive is a derivative of the Swedish SJ Rc4 designed for passenger service in the United States. The primary customer was Amtrak, which bought 54 for use on the Northeast Corridor and Keystone Corridor. Two commuter operators, MARC and SEPTA, also purchased locomotives, for a total of 65.

<span class="mw-page-title-main">Electric locomotive</span> Locomotive powered by electricity

An electric locomotive is a locomotive powered by electricity from overhead lines, a third rail or on-board energy storage such as a battery or a supercapacitor. Locomotives with on-board fuelled prime movers, such as diesel engines or gas turbines, are classed as diesel–electric or gas turbine–electric and not as electric locomotives, because the electric generator/motor combination serves only as a power transmission system.

<span class="mw-page-title-main">Pennsylvania Railroad class GG1</span> Class of American electric locomotives

The Pennsylvania Railroad GG1 is a class of streamlined electric locomotives built for the Pennsylvania Railroad (PRR), in the northeastern United States. The class was known for its striking art deco shell, its ability to pull trains at up to 100 mph, and its long operating career of almost 50 years.

<span class="mw-page-title-main">Bombardier–Alstom HHP-8</span> French-Canadian electric locomotive for American passenger uses

The Bombardier–Alstom HHP-8 is a type of twin-cab electric locomotive manufactured by a consortium of Bombardier Transportation and Alstom for Amtrak and MARC. The locomotive's electrical drive technology is directly derived from the SNCF BB 36000 manufactured by Alstom.

<span class="mw-page-title-main">Steeplecab</span> Style of electric locomotive with central cab and sloping equipment compartments at either end

Steeplecab is railroad terminology for a style or design of electric locomotive; the term is rarely if ever used for other forms of power. The name originated in North America and has been used in Britain as well.

<span class="mw-page-title-main">GE E60</span> Locomotive class

The GE E60 is a family of six-axle 6,000 hp (4.5 MW) C-C electric locomotives made by GE Transportation Systems (GE) between 1972 and 1983. The E60s were produced in several variants for both freight and passenger use in the United States and Mexico. GE designed the locomotive for use on the Black Mesa and Lake Powell Railroad (BM&LP), a dedicated coal-hauling route in Arizona, which began operation in 1973. That same year GE adapted the design for high-speed passenger service on Amtrak's Northeast Corridor. The largest customer was Ferrocarriles Nacionales de México (NdeM), the state-owned railroad in Mexico, which bought 39 for a new electrification project in the early 1980s.

<span class="mw-page-title-main">Visalia Electric Railroad</span>

The Visalia Electric Railroad, a wholly owned subsidiary of the Southern Pacific Railroad (SP), began as an electric interurban railroad in Tulare County, in the U.S. State of California. The railroad was incorporated on April 22, 1904. Passenger service was discontinued in 1924, and the electrification was removed in 1944. Subsequent operation was by diesel locomotive. The railroad was closed in 1992.

<span class="mw-page-title-main">Virginian EL-C</span> American class of electric locomotive

The Virginian EL-C, later known as the New Haven EF-4 and E33, was an electric locomotive built for the Virginian Railway by General Electric in August 1955. They were the first successful production locomotives to use Ignitron rectifier technology. Although they proved to be a successful design, no more EL-Cs were built, due to the small number of railroads that had electrification and the advent of improved electric locomotive technology. They were among the last mainline electric freight locomotives in the United States.

<span class="mw-page-title-main">Baldwin RP-210</span>

The RP-210 was a streamlined 1,000 hp (750 kW) locomotive built in 1956 by Baldwin-Lima-Hamilton, specifically to operate with the experimental, all-aluminum Train-X coaches that were built by the Pullman-Standard Car Manufacturing Company. The model represented Baldwin's attempted entry into the lightweight passenger locomotive market, but only three of the low-slung diesel-hydraulic units were produced. The first RP-210 was built for the New York Central Railroad to power their Ohio Xplorer train between Cleveland, Columbus, and Cincinnati, and a pair was purchased by the New York, New Haven and Hartford Railroad to double-end their Dan'l Webster, running between New York City and Boston.

<span class="mw-page-title-main">South African Class 11E</span> Class of Co-Co electric locomotive

The South African Railways Class 11E of 1985 is an electric locomotive.

<span class="mw-page-title-main">South African Class 14E1</span> Type of electric locomotive

The Spoornet Class 14E1 of 1994 was a South African electric locomotive.

<span class="mw-page-title-main">Electrification of the New York, New Haven and Hartford Railroad</span> First single-phase AC railroad electrification

The New York, New Haven and Hartford Railroad pioneered electrification of main line railroads using high-voltage, alternating current, single-phase overhead catenary. It electrified its mainline between Stamford, Connecticut, and Woodlawn, New York, in 1907 and extended the electrification to New Haven, Connecticut, in 1914. While single-phase AC railroad electrification has become commonplace, the New Haven's system was unprecedented at the time of construction. The significance of this electrification was recognized in 1982 by its designation as a Historic Mechanical Engineering Landmark by the American Society of Mechanical Engineers (ASME).

<span class="mw-page-title-main">Norfolk and Western LC-1 Class</span>

The N&W LC-1 was a class of boxcab electric locomotives built by Baldwin-Westinghouse for the Norfolk and Western Railway. The locomotives were part of an electrification project undertaken by the N&W to improve traffic conditions on the Elkhorn grade in its Bluefield Division. Baldwin-Westinghouse delivered 12 twin-unit boxcabs in 1914–1915. N&W scrapped them in 1950 when it discontinued electric operations.

<span class="mw-page-title-main">New Haven EP-1</span>

The New Haven EP-1 was a class of boxcab electric locomotives built by Baldwin-Westinghouse for the New York, New Haven and Hartford Railroad. The locomotives were part of an electrification project undertaken by the New Haven between Grand Central Terminal in New York City and Stamford, Connecticut. Baldwin-Westinghouse delivered 41 locomotives between 1905–1908, and the New Haven retired the last in 1947.

<span class="mw-page-title-main">SNCF BB 13000</span>

The BB 13000 class were electric locomotives operated by SNCF in France. They were one of four classes, together with the BB 12000, CC 14000 and CC 14100 classes, that formed an experimental group for studying the practicality of the new French 25 kV 50 Hz AC electrification.

<span class="mw-page-title-main">New Haven EP-2</span>

The New Haven EP-2 was a class of boxcab electric locomotives built by Baldwin-Westinghouse for the New York, New Haven and Hartford Railroad. The locomotives worked passenger trains on the New Haven's electrified division west of New Haven, Connecticut. Baldwin-Westinghouse delivered 27 locomotives between 1919–1927. The locomotives were an enlarged version of the EP-1 and EF-1 designs. They remained in service until the arrival of the dual-mode EMD FL9 locomotives in 1958.

<span class="mw-page-title-main">Great Northern Z-1</span>

The Great Northern Z-1 was a class of ten electric locomotives built for the Great Northern Railway They were used to work the route through the second Cascade Tunnel. They were built between 1926–1928 by Baldwin Locomotive Works, with Westinghouse electrics, and stayed in service until dieselisation in 1956. Each was of 1,830 horsepower (1,360 kW) with a 1-D-1 wheel arrangement, although they were always used in coupled pairs.

<span class="mw-page-title-main">Rigid-framed electric locomotive</span>

Rigid-framed electric locomotives were some of the first generations of electric locomotive design. When these began the traction motors of these early locomotives, particularly with AC motors, were too large and heavy to be mounted directly to the axles and so were carried on the frame. One of the initial simplest wheel arrangements for a mainline electric locomotive, from around 1900, was the 1′C1′ arrangement, in UIC classification.

References

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.