fbpx
Wikipedia

Electro-Motive Diesel

January 15, 2023

Progress Rail Locomotives, doing business as Electro-Motive Diesel (EMD), is an American manufacturer of diesel-electric locomotives, locomotive products and diesel engines for the rail industry. The company is owned by Caterpillar through its subsidiary Progress Rail.[2][3]

Progress Rail Locomotives
Electro-Motive Diesel (EMD)
TypeSubsidiary
IndustryRailroad
FoundedAugust 31, 1922 (1922-08-31) (Cleveland, Ohio, United States)
Founder
  • Harold L. Hamilton
  • Paul Turner
Headquarters
La Grange, Illinois[note 1]
,
United States
ProductsLocomotives
Number of employees
3,260 (2008)
ParentProgress Rail
Websiteprogressrail.com

Electro-Motive Diesel traces its roots to the Electro-Motive Engineering Corporation, a designer and marketer of gasoline-electric self-propelled rail cars founded in 1922 and later renamed Electro-Motive Company (EMC). In 1930, General Motors purchased Electro-Motive Company and the Winton Engine Co., and in 1941 it expanded EMC's realm to locomotive engine manufacturing as Electro-Motive Division (EMD).

In 2005, GM sold EMD to Greenbriar Equity Group and Berkshire Partners, which formed Electro-Motive Diesel to facilitate the purchase.[4] In 2010, Progress Rail completed the purchase of Electro-Motive Diesel from Greenbriar, Berkshire, and others.[5]

EMD's headquarters, engineering facilities and parts manufacturing operations are based in McCook, Illinois,[note 1] while its final locomotive assembly line is located in Muncie, Indiana. EMD also operates a traction motor maintenance, rebuild and overhaul facility in San Luis Potosí, Mexico.

As of 2008, EMD employed approximately 3,260 people,[6] and in 2010 it held approximately 30 percent of the market for diesel-electric locomotives in North America.[7]

History

Early years

 
1920s gasoline-electric railcar
 
Burlington Zephyr, powered by EMC diesel-electric drive
 
EMC E1, one of EMC's earliest standard production model locomotives
 
FT demonstrator unit EMD 103 at the California State Railroad Museum in 1991

Harold L. Hamilton and Paul Turner founded the Electro-Motive Engineering Corporation in Cleveland, Ohio, in 1922, soon renaming it to Electro-Motive Company (EMC).[8][9] The company developed and marketed self-propelled railcars using General Electric's newly developed internal combustion-electric propulsion and control systems. Hamilton started his railroading career as a fireman, then locomotive engineer, on the Southern Pacific Railroad, then became a manager with the Florida East Coast Railway before he left railroading for a marketing position with the White Motor Company, an early manufacturer of trucks and buses, in Denver. Training and service agreements were part of White's marketing package that Hamilton would carry over to EMC. Aware of the needs of branch line services of railroads and the opportunities provided with GE's new internal combustion-electric propulsion and control technology, he quit his position with White and set up shop in a Chicago hotel with his partner and a designer to develop and market a new generation of self-propelled railcars. In 1923 EMC sold two gasoline-powered rail motor cars, one to the Chicago Great Western and the other to the Northern Pacific. EMC subcontracted the body construction to St Louis Car Company, electrical components to General Electric, and the prime mover to the Winton Engine Company of Cleveland, Ohio. The motorcars were delivered in 1924 and worked well, fortunate for the fledgling company, because the sales were conditional on satisfactory performance. In 1925 EMC entered full-scale production, selling 27 railcars.

In 1930 General Motors (GM) was seeking to enter production of diesel engines and broaden their range of applications. They purchased the Winton Engine Company, who had in their product line a variety of stationary and marine diesel engines and spark-ignition engines for heavy vehicles. GM saw EMC's role in developing and marketing Winton-engined heavy vehicles as fitting their objectives and purchased the company shortly after the Winton acquisition, renaming it Electro-Motive Corporation (EMC), a subsidiary of GM. Supported by the GM Research Division headed by Charles F. Kettering, GM's Winton Engine Corporation focused on developing diesel engines with improved power-to-weight ratios and output flexibility suitable for mobile use.[10] Eugene W. Kettering, son of Charles Kettering, led Winton's side of the development project.

In 1933 EMC designed the power setups for the Zephyr and M-10000 streamliners, a breakthrough in the power and speed available with their propulsion systems. The Zephyr used the first major product of the new GM-Winton venture, a 600 hp, eight cylinder version of the Winton 201A Roots blown, uniflow scavenged, unit injected, 2-stroke diesel engine. As the Budd and Pullman Standard companies entered contracts to build more diesel-powered streamliners, they became major customers for EMC. Diesel power had been shown suitable for small, lightweight, high speed trains, in addition to its more established role in yard service.

Seeing opportunities to broaden the role of diesel in railroading, EMC invested in a new locomotive factory and started development work on the locomotives that it would produce.[8][9][11] The factory headquarters on 55th Street in McCook, Illinois, west of Chicago, remains the corporate headquarters.[12][note 1] The 1935 EMC 1800 hp B-B development design locomotives featured the multiple-unit control systems that became the basis of cab/booster locomotive sets, and the twin engine format that would be adopted for the newest Zephyr power units in 1936 and EMC's E series streamlined passenger locomotives that their new factory began producing in 1937. Prior to their introduction of the E units EMC was in production of switch engines, which remained the mainstay of their production until dieselization of freight and passenger service hit full stride in the mid-1940s.

The GM-Winton research and development effort continued through the mid-1930s, building on experience with the Winton 201A, to develop diesel engines to better meet the specific needs of locomotive use. The fruit of that effort was GM's new 567 engine, introduced by their renamed Cleveland Diesel Engine Division in 1938. The new engine upgraded the horsepower of EMC's E series locomotives to 2000 per locomotive unit and increased reliability substantially. Also in 1938, EMC increased its reach up the chain of locomotive production by transitioning from General Electric equipment to in-house produced generators and traction motors. With Eugene Kettering moving to EMC that year, EMC moved into a leading role in further development of GM's locomotive engines.

GM-Winton-EMC's long development efforts put the company in an advantageous position relative to other developers of diesel-electric locomotion. Their nearest competitor was the American Locomotive Company (ALCO), who had produced diesel-electric switch engines since the mid-1920s, provided motive power for the Rebel streamliner trainsets in 1935, and started production of development design locomotives to compete with the E-units in 1939. EMC's other main competitor, the Baldwin Locomotive Works, had their development work with diesel delayed by their belief through the 1930s that the future of mainline service remained with steam, and by financial difficulties that effectively froze their diesel development while EMC and ALCO continued theirs. Baldwin started producing diesel-electric switch engines in 1939.

Passenger trains made little money for the railroads, but replacement of steam engines with reliable diesel units could provide railroads with a crucial difference for profitability. With standardized production of locomotives, EMC simplified the processes for ordering, manufacturing, and servicing locomotives and introduced economies of scale that would lower unit costs. EMC offered support services including financing, training, and field maintenance that would ease the transition from steam to diesel and boost their market in the last years before US entry into World War II. The performance of the new 567 engine in passenger locomotives also built confidence in the viability of diesel power for freight service.

In 1939 the company built a four-unit freight locomotive demonstrator, the FT, and began a tour of the continent's railroads. The tour was a success. Western railroads in particular saw that the diesels could free them from dependence on scarce water supplies for steam locomotives. In 1940, after incorporating dynamic braking at the suggestion of customers, they were receiving their first orders for the new freight locomotive.

1940–1960

 
Burlington Northern EMD F3 in service for Amtrak in 1971

General Motors moved production of locomotive engines under the authority of EMC to create the GM Electro-Motive Division (EMD) on January 1, 1941.[11] With that move, EMD became a fully self-contained development, production, marketing, and service entity. Nonlocomotive products (large marine and stationary diesel engines) continued under GM's Cleveland Diesel Engine Division for another twenty years.

In January 1941 EMD delivered the first FT unit to the Atchison, Topeka & Santa Fe Railway, numbered Unit 100, and through that year they were in full-stride production of road and switch locomotives, becoming the world's biggest producer. America's entry into World War II temporarily slowed EMD's locomotive production; United States Navy ships gained priority for diesel power and the petroleum crisis of 1942-43 made coal-fired steam a more attractive option. The War Production Board stopped production of new passenger equipment between September 1942 and December 1944. Later in the war, diesel locomotive production for freight service was picking up as more locomotives were needed to haul wartime supplies. By the time the FT model was replaced in 1945, 555 cab units and 541 booster units had been produced.

EMD emerged from the war years with major advantages over its competitors in diesel locomotive production, having entered them with fully developed lines of mainline road diesel locomotives while war production allocations restricted their competitors, principally the American Locomotive Company (ALCO) and the Baldwin Locomotive Works, to selling mainly diesel switchers and steam locomotives of pre-existing designs. That gave an advantage to EMD's state of technical development with higher powered diesels in the critical postwar years. New model passenger locomotives were delivered starting in February 1945. New models of their freight locomotive followed later in 1945 and 1946.

By the late 1940s the vast majority of American railroads had decided to dieselize their locomotive fleets. Passenger services facing increasing competition from air and automotive travel rapidly replaced steam for image and cost reasons, but the biggest growth market was for freight locomotives. To meet post-war demands, EMD opened another locomotive production facility in Cleveland, Ohio, in 1948.

ALCO-GE was EMD's strongest competitor during the dieselization era, having produced the first road-switcher diesel locomotives in 1941 and gained about a 26% market share of diesel locomotives, mostly for switching and short-haul applications, as of 1946.[13] ALCO's higher-powered locomotives for mainline service were less successful, as they were plagued by reliability problems. In 1948 the ALCO-GE partnership developed a prototype gas-turbine-electric locomotive; series production began in 1952. Latecomers to the diesel locomotive business Baldwin, Fairbanks-Morse, and Lima-Hamilton struggled in the market as their products failed to gain a solid reputation. By 1950 it was clear that EMD's competitors could not crack their position in mainline road diesels and in 1949 their new EMD GP7 road switcher locomotive invaded the market niche previously held by ALCO and Baldwin.

In 1950, EMD's new plant in London, Ontario, Canada, began production. The plant was operated by the Canadian subsidiary General Motors Diesel (GMD), producing existing EMD as well as unique GMD designs for the Canadian domestic and export markets. GMD were, as a Canadian concern, able to sell products to other British Commonwealth nations without the tariffs encumbering trade with non-Commonwealth nations, gaining the same market access as ALCO and Baldwin through their subsidiaries Montreal Locomotive Works and Canadian Locomotive Company.

 
EMD GP7 (left) and E9A (right)

EMD's road-switcher locomotives with power and reliability sufficient for mainline use overturned the market for freight locomotives, soon displacing their competitors' road-switchers, then later their own F-series carbody locomotives. The GP9 became the most-produced EMD model ever, with 4,112 A units and 165 B units sold between 1954 and 1963. Owing to their ease of maintenance and versatility, most locomotives sold in North America since the introduction of the GP9 have been road-switcher, or hood, units. Flush-sided locomotives based on a road-switcher chassis, or cowl units, would later be produced for passenger service.[14][15][16]

During the mid-1950s, more difficult market conditions followed the peak demand of the dieselization era. The 1950s saw collapse in the positions of all of EMD's established competitors and the strong emergence of a new one, the General Electric Company. Lima-Hamilton failed first, in 1951 merging with Baldwin to form Baldwin-Lima-Hamilton. Baldwin's own position was precarious, with their market share dwindling until they left the locomotive business in 1956. Fairbanks-Morse, after struggling to maintain a foothold in the industry with their opposed piston marine powerplant, left the locomotive field in 1963. General Electric dissolved the ALCO-GE partnership in the wake of ALCO's lackluster efforts at developing reliable higher-powered engines, and took over the ALCO-GE gas-turbine-electric venture in 1953. In 1956 GE was marketing its own Universal series Cooper-Bessemer powered diesel-electrics as export locomotives. ALCO's belated introduction of improved locomotive power in 1956 provided the company little benefit; they no longer had the marketing, financing, or service support of GE and the GP9 was a formidable competitor in the saturated domestic market. In 1960 the U25B was the first of GE's road locomotives powered by their FDL-16 diesel engine, which would rapidly displace ALCO's position and eventually displace EMD's position in the domestic market.[17][18] Competition from the two giants with large capital resources overwhelmed ALCO until they went out of business in 1969.

The 567 engine was continuously improved and upgraded. The original six-cylinder 567 produced 600 hp (450 kW), the V-12 1,000 hp (750 kW), and the V-16 1,350 hp (1,010 kW). EMD began turbocharging the 567 around 1958; the final version, the 567D3A (built from October, 1963, to about January, 1966) produced 2,500 hp (1,900 kW) in its V-16 form.[19]

1960–1985

As the 1960s opened EMD was compelled to respond to the challenge offered by GE's U25B, upgrading the features of their GP (General Purpose) and SD (Special Duty/Standard Duty) series locomotives, boosting the power of their 567 engines, then developing the more powerful 645 engines. Those endeavors as well as the feature upgrades introduced with the SD40-2 were sufficient to maintain EMD's competitive advantage over GE until the mid-1980s.

In 1962 GM moved their remaining production of large non-locomotive diesel engines from Cleveland to the EMD facility in McCook, ending the existence of the Cleveland Diesel Engine Division.[20]

In late 1965, EMD introduced the enlarged 645 engine. Power ratings were 1,500 hp (1,100 kW) V-12 nonturbocharged, 1,500 hp (1,100 kW) V-8 turbocharged, 2,300 hp (1,700 kW) V-12 turbocharged, 2,000 hp (1,500 kW) V-16 nonturbocharged, and 3,000 hp (2,200 kW) V-16 turbocharged. In late 1965 EMD built their first twenty-cylinder engine, a turbocharged 3,600 hp (2,700 kW) V20 for the EMD SD45. The final variant of the sixteen cylinder 645 (the 16-645F) produced 3,500 hp (2,600 kW).[19]

In 1972, EMD introduced modular control systems with the Dash-2 line; the EMD SD40-2 became one of the most successful diesel locomotive designs in history, both in terms of sales and service longevity. A total of 3,945 SD40-2 units were built.[21][22][23]

EMD introduced their new 710 engine in 1984 with the 60 Series locomotives (EMD SD60 and EMD GP60), the EMD 645 engine continued to be offered in certain models (such as the 50 Series) until 1988. The 710 is produced as an eight-, twelve-, sixteen-, and twenty-cylinder engine for locomotive, marine and stationary applications. Concurrently with the introduction of the 710, EMD's control systems on locomotives changed to microprocessors, with computer-controlled wheel slip prevention, among other systems.[24][25]

1985–2000

EMD's North American market share dropped below that of its main competitor General Electric in 1987.[1][26] After the Canada-United States Free Trade Agreement came into effect in 1989, EMD decided to consolidate all locomotive production at the Diesel Division of General Motors of Canada (formerly GMD) plant in London, Ontario, a development which ended locomotive production at the La Grange, Illinois plant in 1991,[note 1] although the Illinois facility continued to produce engines and generators.[citation needed]

In the late 1980s and 1990s EMD introduced AC induction motor drive in EMD locomotives using Siemens technology.[27] In the early 1990s, EMD introduced the radial steering truck, which reduced wheel and track wear. In 1995 EMD replaced mechanical unit injectors with electronically controlled unit injectors on its 710 engines.

In 1998 EMD introduced the four-stroke sixteen cylinder 265H-Engine, used as the prime mover in the EMD SD90MAC-H locomotive. Instead of completely replacing the 710 series engine, the H-engine was concurrently produced alongside EMD's two stroke engines, although mainly for export. Acceptance of the 265H was limited over reliability issues. The 265H, at 6,300 hp (4,700 kW), was the most powerful engine ever produced by EMD and the first four-stroke engine offered to the market by EMD or its ancestral companies since the Winton 201A introduced their breakthrough in two-stroke diesel power in 1934.

In 1999, Union Pacific placed the largest single order for diesel locomotives in North American railroad history when they ordered 1,000 units of the EMD SD70M. Union Pacific's fleet of SD70Ms has since been expanded by more than 450 additional units. In addition, Union Pacific also owns nearly 500 EMD SD70ACe locomotives, six of which have been painted in "Fallen Flags" (acquired/merged railroads) commemorative liveries. All of these locomotives are 710G-powered.

2000–present

The year 2004 saw CSX Transportation take delivery of the first SD70ACe units, which were advertised by EMD as more reliable, fuel efficient, and easier to maintain than predecessor model SD70MAC. The model meets the EPA Tier 2 emission requirements using the two-stroke 710 diesel engine.

The following year Norfolk Southern became the first carrier to receive the new SD70M-2 - successor to the SD70M. Like its sister roadswitcher, the SD70ACe, the SD70M-2 meets EPA Tier 2 requirements using the same engine. And like the "ACe", the "M-2" is certified to be in conformance with ISO 9001:2000 and ISO 14001:2004.[28]

In June 2004, The Wall Street Journal published an article indicating EMD was being put up for sale. On January 11, 2005, Reuters published a story indicating a sale to "two private U.S. equity groups" was likely to be announced "this week". Confirmation came the following day, with a press release issued by General Motors, stating it had agreed to sell EMD to a partnership led by Greenbriar Equity Group and Berkshire Partners. The newly spun-off company was called Electro-Motive Diesel, Inc., thus retaining the famous "EMD" initials. The sale closed on April 4, 2005.[29]

On June 1, 2010, Caterpillar announced it had agreed to buy Electro-Motive Diesel from Greenbriar, Berkshire et al. for $820 million. Caterpillar's wholly owned subsidiary, Progress Rail, completed the transaction on August 2, 2010.[3] Although Caterpillar announced that John S. Hamilton would continue in his roles of president and CEO of EMD after the close of the transaction, Mr. Hamilton left EMD for unspecified reasons in late August 2010.[30]

The U.S. Environmental Protection Agency's Tier-4 locomotive emissions regulations on new locomotives went into effect on January 1, 2015. As of that date EMD's 710-engined locomotives (e.g. SD70ACe's) could be built only for use outside the contiguous United States (i.e. Canada, Alaska, Mexico, and overseas). EMD had originally thought the 710 engine could be modified or "tuned-up" to meet Tier-4 standards, but it was not able to meet those requirements while maintaining optimum performance and reliability during rigorous "real world conditions" tests. Development of a Tier-4-compliant locomotive shifted from its original focus on the two-stroke 710 to the four-stroke 1010J engine, derived from the 265H engine.

The first (pre-production) locomotive using the 1010J engine, the SD70ACe-T4, using a 4,600 horsepower (3,400 kW) (4,400 traction hp) 12 cylinder engine was unveiled in late 2015.[31][32] Testing of the new locomotives began in the Spring of 2016.[33] The first two units of a 65 unit order for the new locomotive were delivered to Union Pacific in December 2016.[34]

EMD continues to offer 710-powered locomotives for export as well as "ECO" upgrade packages for modernizing of older locomotives, which sustained their business during the hiatus of locomotive production for the domestic market.

Manufacturing and assembly facilities

EMD currently maintains major facilities in McCook, Illinois,[note 1] and Muncie, Indiana in the United States, Sete Lagoas, Brazil and San Luis Potosí, Mexico. The company operated a manufacturing facility in London, Ontario, Canada until its closure in 2012.

EMD La Grange (McCook)

 
Postcard depiction of the plant circa late 1930s.
(Denver Zephyr train inset top left)

Since its ground breaking in 1935, the La Grange facility has been the headquarters for EMD. In addition to the corporation's administrative offices, La Grange houses design engineering, emissions testing, rebuild operations, and manufacturing of major components, including prime mover engines, traction alternators, electrical cabinets, and turbochargers. The La Grange facility includes three main buildings, with over 1,200,000 square feet (110,000 m2) of office and manufacturing space. Ancillary buildings are used to provide maintenance and testing capabilities. EMD La Grange is ISO 9001:2008 Certified for Quality and ISO 14001 Certified for Environmental Management. A large part of the property's land has been sold off including the land where the original factory building stood. With the sale of the land, the large sign of "Electro Motive Division" that stood at the corner of 55th St. and East Ave. was removed but is preserved at the Illinois Railway Museum.

EMD London

The EMD London plant, in London, Ontario, Canada, opened in 1949 under EMD's Canadian subsidiary General Motors Diesel, to produce locomotives during a time of rapidly rising demand. EMD London's Canadian location was useful for General Motors' when attempting to procure Canadian federal contracts and serve Canadian rail customers.[35] Situated on a 100-acre (0.40 km2) site, the EMD London facility included two main buildings and multiple ancillary buildings with over 500,000 square feet (46,000 m2) of office and manufacturing space, as well as a locomotive test track. Following reorganization under the Diesel Division of General Motors of Canada in 1969, the facility was at times used to produce a variety of products in the General Motors family, including transit buses (until 1979) and military vehicles.[35] Following passage of the US-Canada Free Trade Agreement in 1989, EMD London became the location where all of the construction, finishing, and testing of EMD locomotives in North America was performed. The facility also manufactured components such as locomotive underframes, traction motors, truck assemblies, and locomotive equipment racks. The rate of production was approximately one locomotive completed per day. EMD London was ISO 9001:2000 Certified for Quality and ISO 14001 Certified for Environmental Management.

In January 2012, 450 Canadian Auto Workers union workers were locked out of the EMD London facility, after refusing to ratify EMD's proposed new contract which included a pay cut of 50% for some workers - labour costs at the Canadian plant were much greater than in some of the company's US plants. In February 2012 Progress Rail announced the closure of the plant; Caterpillar's actions were criticised in Canada; the company stated it would relocate production to other sites in North and South America, including the non-unionised plant in Muncie, Indiana.[36][37][38][39] At the time of closure the plant employed approximately 775 people directly.[40]

EMD San Luis Potosí

On April 14, 2010, Electro-Motive opened a facility in San Luis Potosí, Mexico for the maintenance, rebuild, and overhaul of traction motors and other electrical equipment.[41]

EMD Muncie

In October 2010, Caterpillar announced it was investing US$50 million to acquire and to renovate an existing 740,000-square-foot (69,000 m2) building for assembly of EMD brand locomotives and to build a locomotive test track on a 75-acre (0.30 km2) site located in Muncie, Indiana. The Muncie facility allows EMD to supply locomotives to publicly funded passenger rail agencies that require their rail equipment be assembled in the United States exclusively. (see Buy America Act)[42][43]

On July 25, 2011, it was announced that production at the facility was planned to begin by the end of the year, with 125 workers having been hired and plans to add more.[44] On October 28, the plant was officially opened,[45] and the first locomotive produced at the plant, a Ferromex SD70ACe #4092, was rolled out.[46]

Subcontractors and licensees

 
Victorian Railways S class (EMD A7) locomotive, built by Australian licensee Clyde Engineering

The company also entered into subcontracting and licensing arrangements, both for whole locomotives, and diesel and electrical drivetrains (genset plus traction motors and control electronics).

In Europe, licensees included Henschel (Germany) from the 1950s-80s which manufactured locomotives for export to African, South Asian, and Scandinavian countries, as well as Austria;[47][48] NOHAB (Sweden) from the 1950s-70s,[47][49] and after NOHAB's closure Kalmar Verkstad (KVAB) (Sweden) in the 1980s.[49] When the KVAB and Henschel factories were acquired by ABB Group in 1990, EMD-licensed manufacture ended.[49]

In Belgium, EMD-engined locomotives were manufactured by Société Franco-Belge, and then by La Brugeoise et Nivelles in the 1950s and 60s.[50][51]

In Spain, MACOSA and its successors assembled and manufactured EMD locomotives, including standard EMD export designs as well as variants for the domestic market,[52] as of 2011 EMD-engined diesels are still manufactured in Spain as the Vossloh Euro series.

Đuro Đaković of Croatia (Yugoslavia) also held a license from EMD and manufactured locomotives for the Yugoslav Railways.[53]

By 2000, EMD had produced with its collaborators around 300 locomotives using EMD technology in Scandinavia, 500 in western Europe, and 400 in eastern Europe.[54] Approximately 75% of EMD's European locomotives sold by 2000 were license-built in Europe.[54] The company also entered into a collaboration (early 2000s) with Lyudinovsky Locomotive Plant (Russia) (Людиновский тепловозостроительный завод), (now part of Sinara Group) creating a single-body eight axle 3MW (Bo'Bo')'(Bo'Bo')' diesel locomotive ТЭРА1, powered by an EMD 710 16-cylinder engine.[54][55] In the early 2010s the company began a collaboration with Croatian rolling stock company TŽV Gredelj.[56]

Locomotives were also assembled by General Motors Industria Argentina, General Motors South Africa, and under license by Delta Motor Corporation (South Africa), Equipamentos Villares (Brazil), and Hyundai (Korea).[57] Bombardier Transportation has also acted as subcontractor, manufacturing units at its plant in Ciudad Sahagún, Mexico since 1998, with over 1,000 locomotives completed by 2007. The manufacturing agreement continued under Progress Rail ownership.[58]

In Australia, Clyde Engineering used EMD components in locally manufactured locomotives beginning in the 1950s.[59] That company was absorbed into what eventually became Downer Rail.[60][61]

In India, the Banaras Locomotive Works (DLW) manufactured EMD designs from the late 1990s to late 2010s. In 2010, EMD announced its intention to establish its own manufacturing facility in India, potentially in Bihar, through a PPP project with the state government, or in Uttar Pradesh.[62] As of 2011 EMD's cooperative development association with Indian Railways is ongoing.[63]

In China, CRRC Dalian has manufactured the EMD-designed units China Railway HXN3 (JT56ACe) since 2008.[64]

In 2012, the EMD formed a joint venture with Barloworld, Electro-Motive Diesel Africa (Proprietary) Limited, to supply locomotive and rail-related products to the sub-saharan African market.[65] In September 2012, EMD also signed a deal with Bombardier Transportation; Bombardier's factory in Savli, India, would assemble EMD products for Asian customers.[66]

Maintenance and support facilities

EMD also provides maintenance services, technical support, parts inventory, and sales and marketing services from many other locations spread throughout the United States, Canada, Mexico, the United Kingdom, China, India, Pakistan, Australia, Germany, Switzerland, Brazil, Egypt, and South Africa.

Engines

Locomotive engines

EMD has produced the following series of engines:

  • EMD 567 – The 567 was produced from 1938 through 1965, named for its displacement-per-cylinder of 567.45 in³ (bore 8½ inches, stroke 10 inches). Other design features: two-cycle (or two-stroke), Roots-blown, Uniflow-scavenged, Unit-injected, overhead camshafts, four exhaust valves per cylinder. Built in V-6, V-8, V-12 and V-16 configurations. 567AC, 567BC, 567C, 567D and "567E" engines may be retrofitted with 645 Power assemblies and other major components, mainly for so-called "life-extension" programs; 567E engines are actually 645E blocks which were originally manufactured with 567 power assemblies
  • EMD 645 – "E- and F-Engines"; Currently in production by request; most 645 major assemblies remain in new production for replacement purposes
  • EMD 710 – "G-Engine"; Currently in production, but locomotive versions are restricted to use outside the U.S. due to EPA Tier 4 emissions regulations taking effect in 2015; mechanical unit injectors on pre-1995 engines, electronically controlled unit injectors on post-1995 engines. The 710G engine has now passed tier 4 regulations.
  • EMD 265 – "H-Engine"; no longer in domestic production, and most existing 265-powered locomotives in North America have been removed from service.
  • EMD 1010 – "J-Engine"; Currently in production. First introduced at the Railway Interchange Expo 2015 at BNSF North Town Yard, Minneapolis, Minnesota, from October 4 to October 7, 2015. This new engine is first used on SD70ACe-T4, the new Tier 4 freight locomotive from EMD. This engine features a two-stage turbocharging system consisting of three turbochargers: one turbo (the primary/high pressure turbo) for low-mid RPM range and two turbos (the secondary/low pressure turbos) for mid-high RPM range. The results are bigger power throughout a broader RPM range, better fuel efficiency, and lower emissions.

Stationary and marine engines

Most of the above locomotive engines were available, in modified form, for stationary and marine work. Marine engines differ from railroad and stationary engines mainly in the shape and depth of the engine's oil sump, which has been altered to accommodate the rolling and pitching motions encountered in marine applications.

EMD "pancake" diesels

A new aluminum block lightweight compact engine was designed that ran at a higher rpm. These engines feature a vertical crankshaft and the cylinders were arranged in an X pattern of four cylinder banks in four cylinder rows. These were the 16-184 and 16-338 "pancake" engines. The 16-388 engine was 13.5 feet (4.1 m) from the base of the generator to the top of the air intake filter and 4 feet (1.2 m) wide. It is a mechanically injected two-stroke diesel engine that used a Roots blower. The 16-184A was installed in some 110-foot (34 m) subchasers of the SC-497 class during World War II. The two 1,540 bhp (1,150 kW) 16-184A diesel engines driving two shafts produced a faster subchaser that achieved 21 knots.[67]

The EMD 16-338 developed 1,090 bhp (810 kW) at 1600 rpm. On the top was an air intake then four layers of four cylinders each. Each cylinder had a 6-inch (15 cm) bore and a 6+12-inch (17 cm) stroke. On the bottom of the crank shaft was an Elliot generator which developed 817 kW at a maximum of 710 volts DC. This proved problematic as the engine fluids ran down into the generator. The whole engine weighed just over eight tons. Being 4 feet wide it allowed for four engines in an engine room only 22 feet (6.7 m) long and also allowed design engineers to eliminate a submarine engine room.[68] The Tang-class submarine and the research submarine USS Albacore used the troublesome EMD 16-338. On the Tang-class the Navy decided to replace the "pancake" engines with ten-cylinder Fairbanks-Morse opposed-piston 38D 8-1/8 diesels. The unreliability and lack of spares led to the decommissioning of USS Albacore in 1972 as further cannibalized parts became unavailable.[69][70]

Reporting marks

The following reporting marks are listed for rolling stock:

See also

References

  1. ^ a b Paul D. Schneider (May 1, 2006), "Who built the diesels", trn.trains.com
  2. ^ . emdiesel.com. Electro-Motive Diesel, Inc. 2010. Archived from the original on 2010-09-14.
  3. ^ a b (PDF). www.cat.com (Press release). Caterpillar Inc. 2010-08-02. Archived from the original (PDF) on 2012-03-06.
  4. ^ reporter, James P. Miller, Tribune staff. "GM to sell area locomotive unit". chicagotribune.com. Retrieved 2021-09-16.
  5. ^ 2010-08-09T13:02:00. "Progress Rail Services completes EMD acquisition". Railway Gazette International. Retrieved 2021-09-16.
  6. ^ . hoovers.com. Hoovers, Inc. 2010. Archived from the original on 2011-06-07. 2008 Employees 3,260
  7. ^ Tita, Bob (2010-06-04). . ble-t.org. Dow Jones & Company, Inc. Archived from the original on 2011-09-27. Hamilton said Electro-Motive has about 30% of the North American market...
  8. ^ a b Solomon, Brian (2006). "The Winton Era". In Pernu, Dennis; Noel, Leah (eds.). EMD Locomotives. United States of America: Voyageur Press. pp. 15–18. ISBN 0760323968.
  9. ^ a b Solomon, Brian (2011). Electro-Motive E-Units and F-Units: The Illustrated History of America's Favorite Locomotives. Voyageur Press. p. 14. ISBN 9780760340073. At Google Books
  10. ^ Kettering, E.W. (29 November 1951). History and Development of the 567 Series General Motors Locomotive Engine. ASME 1951 Annual Meeting. Atlantic City, New Jersey: Electro-Motive Division, General Motors Corporation.
  11. ^ a b Brazeau, Mike. . GM Heritage Center. Archived from the original on 2014-03-03. Retrieved 2014-02-28. {{cite web}}: External link in |publisher= (help)
  12. ^ Wesby, Vernon (1976). History and Progress of the Village of McCook. McCook, IL: Village of McCook. pp. 88–90.
  13. ^ "ALCo vs EMD". UtahRails.Net. Retrieved January 25, 2013.
  14. ^ Pinkepank, Jerry A (1973). The Second Diesel Spotter's Guide. Kalmbach Books. pp. 53–56. LCCN 66-22894.
  15. ^ Johnston, Howard; Harris, Ken (2005). Jane's Train Recognition Guide. HarperCollins Publishing. pp. 416–417. ISBN 978-0-06-081895-1.
  16. ^ Ross, David, ed. (2003). The Encyclopedia of Trains and Locomotives. p. 280. ISBN 978-0-7607-9679-5.
  17. ^ Pinkepank (1973), pp. 137, 207, 163–167, 203–206, 281, 323–324.
  18. ^ Ross (2003), p. 305.
  19. ^ a b Pinkepank (1973), p. 26.
  20. ^ "Cleveland Diesel Engine Division of General Motors Corp". 11 May 2018.
  21. ^ Pinkepank (1973), p. 51-57, 61.
  22. ^ Pinkepank, Jerry A.; Marre, Louis A. (1979). Diesel Spotters Guide Update. Kalmbach Books. pp. 51–52, 54–57. ISBN 0-89024-029-9.
  23. ^ Johnston (2003), pp. 425.
  24. ^ Johnston (2003), p. 432-433.
  25. ^ Ross (2003), pp. 360–361.
  26. ^ David Lustig (1 July 2006), "US loco market still a two-horse race", www.railwaygazette.com
  27. ^ Sources:
    • (PDF), mobility.siemens.com, Siemens, Cooperations with Electro Motive Division (EMD), pp.19-32, archived from the original (PDF) on 2012-08-29
    • "BN, EMD, Siemens win AAR Technology Achievement Award", freelibrary.com, Association of American Railroads, 21 September 1994
  28. ^ EMD:ISO Certifications
  29. ^ . emdiesels.com. Electro-Motive Diesel, Inc. 2005-04-05. Archived from the original on 2010-05-28. Greenbriar Equity Group LLC, Berkshire Partners LLC and certain related parties today announced the completion of the acquisition of Electro-Motive Division from General Motors.
  30. ^ "BREAKING: Electro-Motive President John Hamilton resigns". Trains magazine. Kalmbach Publishing Co. 2010-08-27.
  31. ^ "EMD unveils its first Tier 4 diesel locomotive", www.railwaygazette.com, 5 Oct 2015
  32. ^ Vantuono, William C. (11 Oct 2015), Take a tour of EMD's SD70ACe-T4
  33. ^ "CSX begins testing of EMD SD70ACe T4 demonstrators". Vol. Trains Magazine, June 22, 2016.
  34. ^ "Progress Rail EMD Tier 4 units headed to first customer". Vol. Trains Magazine, December 15, 2016.
  35. ^ a b Neville Britto (24 February 2012), "Canadians gearing up to derail CAT, literally!", logospathosethos.com, archived from the original on 27 January 2013, retrieved 27 February 2012
  36. ^ Austen, Ian (2012-01-02), "Caterpillar Locks Out Workers in Canada", The New York Times
  37. ^ "Progress Rail closes EMD plant in London", www.railwaygazette.com, Railway Gazette International, 3 February 2012, archived from the original on February 1, 2013
  38. ^ Sian Griffiths (15 February 2012), "Caterpillar feels force of Canada's anger as it closes country's last train plant", www.guardian.co.uk
  39. ^ James R. Hagerty; Alistair MacDonald (18 March 2012), "As Unions Lose Their Grip, Indiana Lures Manufacturing Jobs", online.wsj.com
  40. ^ Shruti Date Singh (6 February 2012), , businessweek.com, archived from the original on 13 November 2012
  41. ^ (Press release). Electro-Motive Diesel, Inc. 2010-04-14. Archived from the original on 2010-12-30. Electro-Motive Diesel, Inc. today held a ribbon cutting ceremony at its new traction motor maintenance, rebuild, and overhaul (MRO) facility in San Luis Potosí Mexico.
  42. ^ James B. Kelleher (29 October 2010), "UPDATE 3-Caterpillar unit to build rail locomotives in US", www.reuters.com, Thomson Reuters, from the original on 24 September 2015, retrieved 1 July 2017
  43. ^ Tita, Bob (2010-10-29). "CORRECT: UPDATE: Caterpillar To Build Locomotives in Muncie, Ind". The Wall Street Journal. Dow Jones & Company, Inc. Archived from the original on 2010-10-30. Caterpillar Inc. (CAT) said Friday it will open a railroad locomotive assembly plant in Muncie, Ind.,...
  44. ^ "Progress Rail Services plans to begin locomotive, production at Muncie, Ind., this fall". Trains Magazine. July 25, 2011.
  45. ^ "Progress Rail Announces Grand Opening of Muncie, Indiana Locomotive Assembly Operation", www.prnewswire.com, Progress Rail Services, 28 October 2011
  46. ^ "EMD rolls out its first U.S.-made diesel in almost 20 years". Trains Magazine. 28 October 2011.[permanent dead link]
  47. ^ a b "Worldwide Historic Overview : The origins – North America's E and F units", www.nohab-gm.hu, NOHAB-GM Foundation
  48. ^ Larry Russell, "EMD Export Page", Henschel
  49. ^ a b c Larry Russell, "EMD Export Page", NOHAB
  50. ^ Lolke Bijlsma, "GM Locomotives in Europe", Belgium
  51. ^ Larry Russell, "EMD Export Page", SAFB (Societe Anglo Franco Belge), and, BN Constructions Ferroviaires et Metalliques S.A.
  52. ^ "Devis y Macosa, las constructoras valencianas de material ferroviario", www.vialibre-ffe.com (in Spanish), from VÍA LIBRE, Nº 431, May 2000
  53. ^ Brian Solomon (2006), EMD Locomotives, Voyageur Press, p. 118, ISBN 9781610603799
  54. ^ a b c Sources:
    • "EMD GM на европейском рынке подвижного состава", Железные дороги мира (in Russian) (11), 2000, archived from the original on 2007-08-16
    • "General Motors' EMD Expands in Europe", International Railway Journal, Simmons-Boardman Publishing, 40 (10): 24–25, 2000,alternative link via findarticles.com
  55. ^ ТЭРА-1, www.tdltz.ru (in Russian), ТД Людиновотепловоз
  56. ^ , TŽV Gredelj, 20 February 2012, archived from the original on 7 March 2013, For the company Electro-Motive Diesel – EMD .. TŽV Gredelj will construct 88 bogie frames for locomotives ... this deal is the first concrete result of the recently signed agreement on joint development and promotion with the aforementioned American company, and TŽV Gredelj hopes that the collaboration with EMD will also be successful in the future
  57. ^ Larry Russell, "EMD Export Page", GMIC, GMSA, Hyundai, Villares
  58. ^ Sources:
    • "Bombardier awarded contract to assemble 100 locomotives", www.transportweekly.com, 3 April 2007
    • "Bombardier Unveils the First Progress Rail Locomotive to be Assembled in Ciudad Sahagún, Mexico", www.bombardier.com, Bombardier Transportation, 9 Sep 2011
  59. ^ "Diesel Traction (Chapter 7, page 473)". Technology in Australia 1788–1988. www.austehc.unimelb.edu.au. Retrieved 2009-09-06.
  60. ^ "Company History". Downer Group. Retrieved 2017-10-30.
  61. ^ "Manufacturers". Larry Russell's General Motors Export Pages. Retrieved 2017-10-30.
  62. ^ Sources:
    • Anandita Singh Mankotia (14 August 2010), "EMD set to build manufacturing base, supply hub in India", financialexpress.com
    • Virendra Singh Rawat (17 September 2010), "US-based EMD to invest $100 Million in India", business-standard.com
    • "US Locomotive maker EMD plans to set up india plant", hindustandtimes.com, Hindustan Times, 16 August 2010, archived from the original on 25 January 2013, retrieved 6 February 2012
  63. ^ Jagdish-Kumar (13 October 2011), , rail.co, archived from the original on 3 April 2021, retrieved 6 February 2012
  64. ^ "和谐"型大功率交流传动内燃机车下线, news.xinhuanet.com (in Chinese), 2 July 2008, archived from the original on 15 July 2012
  65. ^ Sources:
    • "EMD and Barloworld form African locomotive joint venture", www.railwaygazette.com, 2 July 2012
    • Mark Allix (26 June 2012), "Barloworld offers EMD locomotives", www.businessday.co.za
  66. ^ "Bombardier to assemble EMD locomotives for southeast Asia". Railway Gazette International. 19 September 2012.
  67. ^ "SC-499".
  68. ^ "T-class".
  69. ^ . Archived from the original on 2016-10-25. Retrieved 2016-03-26.
  70. ^ "General Motors / Electro-Motive 16-184 Diesel Engine". 18 August 2014.

Notes

  1. ^ a b c d e The plant and headquarters commonly referred to as being in "La Grange, Illinois" are actually within the Chicago suburb McCook, Illinois, but uses a postal address of La Grange.[1]

Sources

  • Lolke Bijlsma (ed.), "GM Locomotives in Europe", www.lolkebijlsma.com
  • Larry Russell (ed.), "EMD Export Page", emdexport.railfan.net

External links

 
Wikimedia Commons has media related to EMD locomotives.
  • (archived, 8 Feb 2014)
  • Progress Rail, current parent company
  • (archived, 30 Jul 2010)
  • EMD Locomotives at The-Bluprints.com]

January 15, 2023
electro, motive, diesel, progress, rail, locomotives, doing, business, american, manufacturer, diesel, electric, locomotives, locomotive, products, diesel, engines, rail, industry, company, owned, caterpillar, through, subsidiary, progress, rail, progress, rai. Progress Rail Locomotives doing business as Electro Motive Diesel EMD is an American manufacturer of diesel electric locomotives locomotive products and diesel engines for the rail industry The company is owned by Caterpillar through its subsidiary Progress Rail 2 3 Progress Rail LocomotivesTrade nameElectro Motive Diesel EMD TypeSubsidiaryIndustryRailroadFoundedAugust 31 1922 1922 08 31 Cleveland Ohio United States FounderHarold L HamiltonPaul TurnerHeadquartersLa Grange Illinois note 1 United StatesProductsLocomotivesNumber of employees3 260 2008 ParentProgress RailWebsiteprogressrail wbr comElectro Motive Diesel traces its roots to the Electro Motive Engineering Corporation a designer and marketer of gasoline electric self propelled rail cars founded in 1922 and later renamed Electro Motive Company EMC In 1930 General Motors purchased Electro Motive Company and the Winton Engine Co and in 1941 it expanded EMC s realm to locomotive engine manufacturing as Electro Motive Division EMD In 2005 GM sold EMD to Greenbriar Equity Group and Berkshire Partners which formed Electro Motive Diesel to facilitate the purchase 4 In 2010 Progress Rail completed the purchase of Electro Motive Diesel from Greenbriar Berkshire and others 5 EMD s headquarters engineering facilities and parts manufacturing operations are based in McCook Illinois note 1 while its final locomotive assembly line is located in Muncie Indiana EMD also operates a traction motor maintenance rebuild and overhaul facility in San Luis Potosi Mexico As of 2008 EMD employed approximately 3 260 people 6 and in 2010 it held approximately 30 percent of the market for diesel electric locomotives in North America 7 Contents 1 History 1 1 Early years 1 2 1940 1960 1 3 1960 1985 1 4 1985 2000 1 5 2000 present 2 Manufacturing and assembly facilities 2 1 EMD La Grange McCook 2 2 EMD London 2 3 EMD San Luis Potosi 2 4 EMD Muncie 2 5 Subcontractors and licensees 3 Maintenance and support facilities 4 Engines 4 1 Locomotive engines 4 2 Stationary and marine engines 4 2 1 EMD pancake diesels 5 Reporting marks 6 See also 7 References 7 1 Notes 7 2 Sources 8 External linksHistory EditEarly years Edit This section needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed June 2010 Learn how and when to remove this template message 1920s gasoline electric railcar Burlington Zephyr powered by EMC diesel electric drive EMC E1 one of EMC s earliest standard production model locomotives FT demonstrator unit EMD 103 at the California State Railroad Museum in 1991 Harold L Hamilton and Paul Turner founded the Electro Motive Engineering Corporation in Cleveland Ohio in 1922 soon renaming it to Electro Motive Company EMC 8 9 The company developed and marketed self propelled railcars using General Electric s newly developed internal combustion electric propulsion and control systems Hamilton started his railroading career as a fireman then locomotive engineer on the Southern Pacific Railroad then became a manager with the Florida East Coast Railway before he left railroading for a marketing position with the White Motor Company an early manufacturer of trucks and buses in Denver Training and service agreements were part of White s marketing package that Hamilton would carry over to EMC Aware of the needs of branch line services of railroads and the opportunities provided with GE s new internal combustion electric propulsion and control technology he quit his position with White and set up shop in a Chicago hotel with his partner and a designer to develop and market a new generation of self propelled railcars In 1923 EMC sold two gasoline powered rail motor cars one to the Chicago Great Western and the other to the Northern Pacific EMC subcontracted the body construction to St Louis Car Company electrical components to General Electric and the prime mover to the Winton Engine Company of Cleveland Ohio The motorcars were delivered in 1924 and worked well fortunate for the fledgling company because the sales were conditional on satisfactory performance In 1925 EMC entered full scale production selling 27 railcars In 1930 General Motors GM was seeking to enter production of diesel engines and broaden their range of applications They purchased the Winton Engine Company who had in their product line a variety of stationary and marine diesel engines and spark ignition engines for heavy vehicles GM saw EMC s role in developing and marketing Winton engined heavy vehicles as fitting their objectives and purchased the company shortly after the Winton acquisition renaming it Electro Motive Corporation EMC a subsidiary of GM Supported by the GM Research Division headed by Charles F Kettering GM s Winton Engine Corporation focused on developing diesel engines with improved power to weight ratios and output flexibility suitable for mobile use 10 Eugene W Kettering son of Charles Kettering led Winton s side of the development project In 1933 EMC designed the power setups for the Zephyr and M 10000 streamliners a breakthrough in the power and speed available with their propulsion systems The Zephyr used the first major product of the new GM Winton venture a 600 hp eight cylinder version of the Winton 201A Roots blown uniflow scavenged unit injected 2 stroke diesel engine As the Budd and Pullman Standard companies entered contracts to build more diesel powered streamliners they became major customers for EMC Diesel power had been shown suitable for small lightweight high speed trains in addition to its more established role in yard service Seeing opportunities to broaden the role of diesel in railroading EMC invested in a new locomotive factory and started development work on the locomotives that it would produce 8 9 11 The factory headquarters on 55th Street in McCook Illinois west of Chicago remains the corporate headquarters 12 note 1 The 1935 EMC 1800 hp B B development design locomotives featured the multiple unit control systems that became the basis of cab booster locomotive sets and the twin engine format that would be adopted for the newest Zephyr power units in 1936 and EMC s E series streamlined passenger locomotives that their new factory began producing in 1937 Prior to their introduction of the E units EMC was in production of switch engines which remained the mainstay of their production until dieselization of freight and passenger service hit full stride in the mid 1940s The GM Winton research and development effort continued through the mid 1930s building on experience with the Winton 201A to develop diesel engines to better meet the specific needs of locomotive use The fruit of that effort was GM s new 567 engine introduced by their renamed Cleveland Diesel Engine Division in 1938 The new engine upgraded the horsepower of EMC s E series locomotives to 2000 per locomotive unit and increased reliability substantially Also in 1938 EMC increased its reach up the chain of locomotive production by transitioning from General Electric equipment to in house produced generators and traction motors With Eugene Kettering moving to EMC that year EMC moved into a leading role in further development of GM s locomotive engines GM Winton EMC s long development efforts put the company in an advantageous position relative to other developers of diesel electric locomotion Their nearest competitor was the American Locomotive Company ALCO who had produced diesel electric switch engines since the mid 1920s provided motive power for the Rebel streamliner trainsets in 1935 and started production of development design locomotives to compete with the E units in 1939 EMC s other main competitor the Baldwin Locomotive Works had their development work with diesel delayed by their belief through the 1930s that the future of mainline service remained with steam and by financial difficulties that effectively froze their diesel development while EMC and ALCO continued theirs Baldwin started producing diesel electric switch engines in 1939 Passenger trains made little money for the railroads but replacement of steam engines with reliable diesel units could provide railroads with a crucial difference for profitability With standardized production of locomotives EMC simplified the processes for ordering manufacturing and servicing locomotives and introduced economies of scale that would lower unit costs EMC offered support services including financing training and field maintenance that would ease the transition from steam to diesel and boost their market in the last years before US entry into World War II The performance of the new 567 engine in passenger locomotives also built confidence in the viability of diesel power for freight service In 1939 the company built a four unit freight locomotive demonstrator the FT and began a tour of the continent s railroads The tour was a success Western railroads in particular saw that the diesels could free them from dependence on scarce water supplies for steam locomotives In 1940 after incorporating dynamic braking at the suggestion of customers they were receiving their first orders for the new freight locomotive 1940 1960 Edit Burlington Northern EMD F3 in service for Amtrak in 1971 General Motors moved production of locomotive engines under the authority of EMC to create the GM Electro Motive Division EMD on January 1 1941 11 With that move EMD became a fully self contained development production marketing and service entity Nonlocomotive products large marine and stationary diesel engines continued under GM s Cleveland Diesel Engine Division for another twenty years In January 1941 EMD delivered the first FT unit to the Atchison Topeka amp Santa Fe Railway numbered Unit 100 and through that year they were in full stride production of road and switch locomotives becoming the world s biggest producer America s entry into World War II temporarily slowed EMD s locomotive production United States Navy ships gained priority for diesel power and the petroleum crisis of 1942 43 made coal fired steam a more attractive option The War Production Board stopped production of new passenger equipment between September 1942 and December 1944 Later in the war diesel locomotive production for freight service was picking up as more locomotives were needed to haul wartime supplies By the time the FT model was replaced in 1945 555 cab units and 541 booster units had been produced EMD emerged from the war years with major advantages over its competitors in diesel locomotive production having entered them with fully developed lines of mainline road diesel locomotives while war production allocations restricted their competitors principally the American Locomotive Company ALCO and the Baldwin Locomotive Works to selling mainly diesel switchers and steam locomotives of pre existing designs That gave an advantage to EMD s state of technical development with higher powered diesels in the critical postwar years New model passenger locomotives were delivered starting in February 1945 New models of their freight locomotive followed later in 1945 and 1946 By the late 1940s the vast majority of American railroads had decided to dieselize their locomotive fleets Passenger services facing increasing competition from air and automotive travel rapidly replaced steam for image and cost reasons but the biggest growth market was for freight locomotives To meet post war demands EMD opened another locomotive production facility in Cleveland Ohio in 1948 ALCO GE was EMD s strongest competitor during the dieselization era having produced the first road switcher diesel locomotives in 1941 and gained about a 26 market share of diesel locomotives mostly for switching and short haul applications as of 1946 13 ALCO s higher powered locomotives for mainline service were less successful as they were plagued by reliability problems In 1948 the ALCO GE partnership developed a prototype gas turbine electric locomotive series production began in 1952 Latecomers to the diesel locomotive business Baldwin Fairbanks Morse and Lima Hamilton struggled in the market as their products failed to gain a solid reputation By 1950 it was clear that EMD s competitors could not crack their position in mainline road diesels and in 1949 their new EMD GP7 road switcher locomotive invaded the market niche previously held by ALCO and Baldwin In 1950 EMD s new plant in London Ontario Canada began production The plant was operated by the Canadian subsidiary General Motors Diesel GMD producing existing EMD as well as unique GMD designs for the Canadian domestic and export markets GMD were as a Canadian concern able to sell products to other British Commonwealth nations without the tariffs encumbering trade with non Commonwealth nations gaining the same market access as ALCO and Baldwin through their subsidiaries Montreal Locomotive Works and Canadian Locomotive Company EMD GP7 left and E9A right EMD s road switcher locomotives with power and reliability sufficient for mainline use overturned the market for freight locomotives soon displacing their competitors road switchers then later their own F series carbody locomotives The GP9 became the most produced EMD model ever with 4 112 A units and 165 B units sold between 1954 and 1963 Owing to their ease of maintenance and versatility most locomotives sold in North America since the introduction of the GP9 have been road switcher or hood units Flush sided locomotives based on a road switcher chassis or cowl units would later be produced for passenger service 14 15 16 During the mid 1950s more difficult market conditions followed the peak demand of the dieselization era The 1950s saw collapse in the positions of all of EMD s established competitors and the strong emergence of a new one the General Electric Company Lima Hamilton failed first in 1951 merging with Baldwin to form Baldwin Lima Hamilton Baldwin s own position was precarious with their market share dwindling until they left the locomotive business in 1956 Fairbanks Morse after struggling to maintain a foothold in the industry with their opposed piston marine powerplant left the locomotive field in 1963 General Electric dissolved the ALCO GE partnership in the wake of ALCO s lackluster efforts at developing reliable higher powered engines and took over the ALCO GE gas turbine electric venture in 1953 In 1956 GE was marketing its own Universal series Cooper Bessemer powered diesel electrics as export locomotives ALCO s belated introduction of improved locomotive power in 1956 provided the company little benefit they no longer had the marketing financing or service support of GE and the GP9 was a formidable competitor in the saturated domestic market In 1960 the U25B was the first of GE s road locomotives powered by their FDL 16 diesel engine which would rapidly displace ALCO s position and eventually displace EMD s position in the domestic market 17 18 Competition from the two giants with large capital resources overwhelmed ALCO until they went out of business in 1969 The 567 engine was continuously improved and upgraded The original six cylinder 567 produced 600 hp 450 kW the V 12 1 000 hp 750 kW and the V 16 1 350 hp 1 010 kW EMD began turbocharging the 567 around 1958 the final version the 567D3A built from October 1963 to about January 1966 produced 2 500 hp 1 900 kW in its V 16 form 19 1960 1985 Edit EMD SD40 2 As the 1960s opened EMD was compelled to respond to the challenge offered by GE s U25B upgrading the features of their GP General Purpose and SD Special Duty Standard Duty series locomotives boosting the power of their 567 engines then developing the more powerful 645 engines Those endeavors as well as the feature upgrades introduced with the SD40 2 were sufficient to maintain EMD s competitive advantage over GE until the mid 1980s In 1962 GM moved their remaining production of large non locomotive diesel engines from Cleveland to the EMD facility in McCook ending the existence of the Cleveland Diesel Engine Division 20 In late 1965 EMD introduced the enlarged 645 engine Power ratings were 1 500 hp 1 100 kW V 12 nonturbocharged 1 500 hp 1 100 kW V 8 turbocharged 2 300 hp 1 700 kW V 12 turbocharged 2 000 hp 1 500 kW V 16 nonturbocharged and 3 000 hp 2 200 kW V 16 turbocharged In late 1965 EMD built their first twenty cylinder engine a turbocharged 3 600 hp 2 700 kW V20 for the EMD SD45 The final variant of the sixteen cylinder 645 the 16 645F produced 3 500 hp 2 600 kW 19 In 1972 EMD introduced modular control systems with the Dash 2 line the EMD SD40 2 became one of the most successful diesel locomotive designs in history both in terms of sales and service longevity A total of 3 945 SD40 2 units were built 21 22 23 EMD introduced their new 710 engine in 1984 with the 60 Series locomotives EMD SD60 and EMD GP60 the EMD 645 engine continued to be offered in certain models such as the 50 Series until 1988 The 710 is produced as an eight twelve sixteen and twenty cylinder engine for locomotive marine and stationary applications Concurrently with the introduction of the 710 EMD s control systems on locomotives changed to microprocessors with computer controlled wheel slip prevention among other systems 24 25 1985 2000 Edit EMD SD70MACEMD s North American market share dropped below that of its main competitor General Electric in 1987 1 26 After the Canada United States Free Trade Agreement came into effect in 1989 EMD decided to consolidate all locomotive production at the Diesel Division of General Motors of Canada formerly GMD plant in London Ontario a development which ended locomotive production at the La Grange Illinois plant in 1991 note 1 although the Illinois facility continued to produce engines and generators citation needed In the late 1980s and 1990s EMD introduced AC induction motor drive in EMD locomotives using Siemens technology 27 In the early 1990s EMD introduced the radial steering truck which reduced wheel and track wear In 1995 EMD replaced mechanical unit injectors with electronically controlled unit injectors on its 710 engines In 1998 EMD introduced the four stroke sixteen cylinder 265H Engine used as the prime mover in the EMD SD90MAC H locomotive Instead of completely replacing the 710 series engine the H engine was concurrently produced alongside EMD s two stroke engines although mainly for export Acceptance of the 265H was limited over reliability issues The 265H at 6 300 hp 4 700 kW was the most powerful engine ever produced by EMD and the first four stroke engine offered to the market by EMD or its ancestral companies since the Winton 201A introduced their breakthrough in two stroke diesel power in 1934 In 1999 Union Pacific placed the largest single order for diesel locomotives in North American railroad history when they ordered 1 000 units of the EMD SD70M Union Pacific s fleet of SD70Ms has since been expanded by more than 450 additional units In addition Union Pacific also owns nearly 500 EMD SD70ACe locomotives six of which have been painted in Fallen Flags acquired merged railroads commemorative liveries All of these locomotives are 710G powered 2000 present Edit EMD SD70M 2 The year 2004 saw CSX Transportation take delivery of the first SD70ACe units which were advertised by EMD as more reliable fuel efficient and easier to maintain than predecessor model SD70MAC The model meets the EPA Tier 2 emission requirements using the two stroke 710 diesel engine The following year Norfolk Southern became the first carrier to receive the new SD70M 2 successor to the SD70M Like its sister roadswitcher the SD70ACe the SD70M 2 meets EPA Tier 2 requirements using the same engine And like the ACe the M 2 is certified to be in conformance with ISO 9001 2000 and ISO 14001 2004 28 In June 2004 The Wall Street Journal published an article indicating EMD was being put up for sale On January 11 2005 Reuters published a story indicating a sale to two private U S equity groups was likely to be announced this week Confirmation came the following day with a press release issued by General Motors stating it had agreed to sell EMD to a partnership led by Greenbriar Equity Group and Berkshire Partners The newly spun off company was called Electro Motive Diesel Inc thus retaining the famous EMD initials The sale closed on April 4 2005 29 On June 1 2010 Caterpillar announced it had agreed to buy Electro Motive Diesel from Greenbriar Berkshire et al for 820 million Caterpillar s wholly owned subsidiary Progress Rail completed the transaction on August 2 2010 3 Although Caterpillar announced that John S Hamilton would continue in his roles of president and CEO of EMD after the close of the transaction Mr Hamilton left EMD for unspecified reasons in late August 2010 30 The U S Environmental Protection Agency s Tier 4 locomotive emissions regulations on new locomotives went into effect on January 1 2015 As of that date EMD s 710 engined locomotives e g SD70ACe s could be built only for use outside the contiguous United States i e Canada Alaska Mexico and overseas EMD had originally thought the 710 engine could be modified or tuned up to meet Tier 4 standards but it was not able to meet those requirements while maintaining optimum performance and reliability during rigorous real world conditions tests Development of a Tier 4 compliant locomotive shifted from its original focus on the two stroke 710 to the four stroke 1010J engine derived from the 265H engine The first pre production locomotive using the 1010J engine the SD70ACe T4 using a 4 600 horsepower 3 400 kW 4 400 traction hp 12 cylinder engine was unveiled in late 2015 31 32 Testing of the new locomotives began in the Spring of 2016 33 The first two units of a 65 unit order for the new locomotive were delivered to Union Pacific in December 2016 34 EMD continues to offer 710 powered locomotives for export as well as ECO upgrade packages for modernizing of older locomotives which sustained their business during the hiatus of locomotive production for the domestic market Manufacturing and assembly facilities EditEMD currently maintains major facilities in McCook Illinois note 1 and Muncie Indiana in the United States Sete Lagoas Brazil and San Luis Potosi Mexico The company operated a manufacturing facility in London Ontario Canada until its closure in 2012 EMD La Grange McCook Edit Postcard depiction of the plant circa late 1930s Denver Zephyr train inset top left Since its ground breaking in 1935 the La Grange facility has been the headquarters for EMD In addition to the corporation s administrative offices La Grange houses design engineering emissions testing rebuild operations and manufacturing of major components including prime mover engines traction alternators electrical cabinets and turbochargers The La Grange facility includes three main buildings with over 1 200 000 square feet 110 000 m2 of office and manufacturing space Ancillary buildings are used to provide maintenance and testing capabilities EMD La Grange is ISO 9001 2008 Certified for Quality and ISO 14001 Certified for Environmental Management A large part of the property s land has been sold off including the land where the original factory building stood With the sale of the land the large sign of Electro Motive Division that stood at the corner of 55th St and East Ave was removed but is preserved at the Illinois Railway Museum EMD London Edit The EMD London plant in London Ontario Canada opened in 1949 under EMD s Canadian subsidiary General Motors Diesel to produce locomotives during a time of rapidly rising demand EMD London s Canadian location was useful for General Motors when attempting to procure Canadian federal contracts and serve Canadian rail customers 35 Situated on a 100 acre 0 40 km2 site the EMD London facility included two main buildings and multiple ancillary buildings with over 500 000 square feet 46 000 m2 of office and manufacturing space as well as a locomotive test track Following reorganization under the Diesel Division of General Motors of Canada in 1969 the facility was at times used to produce a variety of products in the General Motors family including transit buses until 1979 and military vehicles 35 Following passage of the US Canada Free Trade Agreement in 1989 EMD London became the location where all of the construction finishing and testing of EMD locomotives in North America was performed The facility also manufactured components such as locomotive underframes traction motors truck assemblies and locomotive equipment racks The rate of production was approximately one locomotive completed per day EMD London was ISO 9001 2000 Certified for Quality and ISO 14001 Certified for Environmental Management In January 2012 450 Canadian Auto Workers union workers were locked out of the EMD London facility after refusing to ratify EMD s proposed new contract which included a pay cut of 50 for some workers labour costs at the Canadian plant were much greater than in some of the company s US plants In February 2012 Progress Rail announced the closure of the plant Caterpillar s actions were criticised in Canada the company stated it would relocate production to other sites in North and South America including the non unionised plant in Muncie Indiana 36 37 38 39 At the time of closure the plant employed approximately 775 people directly 40 EMD San Luis Potosi Edit On April 14 2010 Electro Motive opened a facility in San Luis Potosi Mexico for the maintenance rebuild and overhaul of traction motors and other electrical equipment 41 EMD Muncie Edit In October 2010 Caterpillar announced it was investing US 50 million to acquire and to renovate an existing 740 000 square foot 69 000 m2 building for assembly of EMD brand locomotives and to build a locomotive test track on a 75 acre 0 30 km2 site located in Muncie Indiana The Muncie facility allows EMD to supply locomotives to publicly funded passenger rail agencies that require their rail equipment be assembled in the United States exclusively see Buy America Act 42 43 On July 25 2011 it was announced that production at the facility was planned to begin by the end of the year with 125 workers having been hired and plans to add more 44 On October 28 the plant was officially opened 45 and the first locomotive produced at the plant a Ferromex SD70ACe 4092 was rolled out 46 Subcontractors and licensees Edit Victorian Railways S class EMD A7 locomotive built by Australian licensee Clyde Engineering The company also entered into subcontracting and licensing arrangements both for whole locomotives and diesel and electrical drivetrains genset plus traction motors and control electronics In Europe licensees included Henschel Germany from the 1950s 80s which manufactured locomotives for export to African South Asian and Scandinavian countries as well as Austria 47 48 NOHAB Sweden from the 1950s 70s 47 49 and after NOHAB s closure Kalmar Verkstad KVAB Sweden in the 1980s 49 When the KVAB and Henschel factories were acquired by ABB Group in 1990 EMD licensed manufacture ended 49 In Belgium EMD engined locomotives were manufactured by Societe Franco Belge and then by La Brugeoise et Nivelles in the 1950s and 60s 50 51 In Spain MACOSA and its successors assembled and manufactured EMD locomotives including standard EMD export designs as well as variants for the domestic market 52 as of 2011 EMD engined diesels are still manufactured in Spain as the Vossloh Euro series Đuro Đakovic of Croatia Yugoslavia also held a license from EMD and manufactured locomotives for the Yugoslav Railways 53 By 2000 EMD had produced with its collaborators around 300 locomotives using EMD technology in Scandinavia 500 in western Europe and 400 in eastern Europe 54 Approximately 75 of EMD s European locomotives sold by 2000 were license built in Europe 54 The company also entered into a collaboration early 2000s with Lyudinovsky Locomotive Plant Russia Lyudinovskij teplovozostroitelnyj zavod now part of Sinara Group creating a single body eight axle 3MW Bo Bo Bo Bo diesel locomotive TERA1 powered by an EMD 710 16 cylinder engine 54 55 In the early 2010s the company began a collaboration with Croatian rolling stock company TZV Gredelj 56 Locomotives were also assembled by General Motors Industria Argentina General Motors South Africa and under license by Delta Motor Corporation South Africa Equipamentos Villares Brazil and Hyundai Korea 57 Bombardier Transportation has also acted as subcontractor manufacturing units at its plant in Ciudad Sahagun Mexico since 1998 with over 1 000 locomotives completed by 2007 The manufacturing agreement continued under Progress Rail ownership 58 In Australia Clyde Engineering used EMD components in locally manufactured locomotives beginning in the 1950s 59 That company was absorbed into what eventually became Downer Rail 60 61 In India the Banaras Locomotive Works DLW manufactured EMD designs from the late 1990s to late 2010s In 2010 EMD announced its intention to establish its own manufacturing facility in India potentially in Bihar through a PPP project with the state government or in Uttar Pradesh 62 As of 2011 EMD s cooperative development association with Indian Railways is ongoing 63 In China CRRC Dalian has manufactured the EMD designed units China Railway HXN3 JT56ACe since 2008 64 In 2012 the EMD formed a joint venture with Barloworld Electro Motive Diesel Africa Proprietary Limited to supply locomotive and rail related products to the sub saharan African market 65 In September 2012 EMD also signed a deal with Bombardier Transportation Bombardier s factory in Savli India would assemble EMD products for Asian customers 66 Maintenance and support facilities EditEMD also provides maintenance services technical support parts inventory and sales and marketing services from many other locations spread throughout the United States Canada Mexico the United Kingdom China India Pakistan Australia Germany Switzerland Brazil Egypt and South Africa Engines EditThis section does not cite any sources Please help improve this section by adding citations to reliable sources Unsourced material may be challenged and removed June 2010 Learn how and when to remove this template message Locomotive engines Edit EMD has produced the following series of engines EMD 567 The 567 was produced from 1938 through 1965 named for its displacement per cylinder of 567 45 in bore 8 inches stroke 10 inches Other design features two cycle or two stroke Roots blown Uniflow scavenged Unit injected overhead camshafts four exhaust valves per cylinder Built in V 6 V 8 V 12 and V 16 configurations 567AC 567BC 567C 567D and 567E engines may be retrofitted with 645 Power assemblies and other major components mainly for so called life extension programs 567E engines are actually 645E blocks which were originally manufactured with 567 power assemblies EMD 645 E and F Engines Currently in production by request most 645 major assemblies remain in new production for replacement purposes EMD 710 G Engine Currently in production but locomotive versions are restricted to use outside the U S due to EPA Tier 4 emissions regulations taking effect in 2015 mechanical unit injectors on pre 1995 engines electronically controlled unit injectors on post 1995 engines The 710G engine has now passed tier 4 regulations EMD 265 H Engine no longer in domestic production and most existing 265 powered locomotives in North America have been removed from service EMD 1010 J Engine Currently in production First introduced at the Railway Interchange Expo 2015 at BNSF North Town Yard Minneapolis Minnesota from October 4 to October 7 2015 This new engine is first used on SD70ACe T4 the new Tier 4 freight locomotive from EMD This engine features a two stage turbocharging system consisting of three turbochargers one turbo the primary high pressure turbo for low mid RPM range and two turbos the secondary low pressure turbos for mid high RPM range The results are bigger power throughout a broader RPM range better fuel efficiency and lower emissions Stationary and marine engines Edit Most of the above locomotive engines were available in modified form for stationary and marine work Marine engines differ from railroad and stationary engines mainly in the shape and depth of the engine s oil sump which has been altered to accommodate the rolling and pitching motions encountered in marine applications EMD pancake diesels Edit A new aluminum block lightweight compact engine was designed that ran at a higher rpm These engines feature a vertical crankshaft and the cylinders were arranged in an X pattern of four cylinder banks in four cylinder rows These were the 16 184 and 16 338 pancake engines The 16 388 engine was 13 5 feet 4 1 m from the base of the generator to the top of the air intake filter and 4 feet 1 2 m wide It is a mechanically injected two stroke diesel engine that used a Roots blower The 16 184A was installed in some 110 foot 34 m subchasers of the SC 497 class during World War II The two 1 540 bhp 1 150 kW 16 184A diesel engines driving two shafts produced a faster subchaser that achieved 21 knots 67 The EMD 16 338 developed 1 090 bhp 810 kW at 1600 rpm On the top was an air intake then four layers of four cylinders each Each cylinder had a 6 inch 15 cm bore and a 6 1 2 inch 17 cm stroke On the bottom of the crank shaft was an Elliot generator which developed 817 kW at a maximum of 710 volts DC This proved problematic as the engine fluids ran down into the generator The whole engine weighed just over eight tons Being 4 feet wide it allowed for four engines in an engine room only 22 feet 6 7 m long and also allowed design engineers to eliminate a submarine engine room 68 The Tang class submarine and the research submarine USS Albacore used the troublesome EMD 16 338 On the Tang class the Navy decided to replace the pancake engines with ten cylinder Fairbanks Morse opposed piston 38D 8 1 8 diesels The unreliability and lack of spares led to the decommissioning of USS Albacore in 1972 as further cannibalized parts became unavailable 69 70 Reporting marks EditThe following reporting marks are listed for rolling stock EMDX Electro Motive Division Leasing EMLX Electro Motive Division Leasing GMCX General Motors Corporation GMDX General Motors Diesel CanadaSee also EditList of GM EMD locomotivesReferences Edit a b Paul D Schneider May 1 2006 Who built the diesels trn trains com EMD Company Company Overview About Electro Motive Diesel emdiesel com Electro Motive Diesel Inc 2010 Archived from the original on 2010 09 14 a b Progress Rail Services Finalizes Electro Motive Diesel Acquisition PDF www cat com Press release Caterpillar Inc 2010 08 02 Archived from the original PDF on 2012 03 06 reporter James P Miller Tribune staff GM to sell area locomotive unit chicagotribune com Retrieved 2021 09 16 2010 08 09T13 02 00 Progress Rail Services completes EMD acquisition Railway Gazette International Retrieved 2021 09 16 Company profile from Hoover s Electro Motive Diesel Inc hoovers com Hoovers Inc 2010 Archived from the original on 2011 06 07 2008 Employees 3 260 Tita Bob 2010 06 04 Caterpillar expected to make Electro Motive more competitive ble t org Dow Jones amp Company Inc Archived from the original on 2011 09 27 Hamilton said Electro Motive has about 30 of the North American market a b Solomon Brian 2006 The Winton Era In Pernu Dennis Noel Leah eds EMD Locomotives United States of America Voyageur Press pp 15 18 ISBN 0760323968 a b Solomon Brian 2011 Electro Motive E Units and F Units The Illustrated History of America s Favorite Locomotives Voyageur Press p 14 ISBN 9780760340073 At Google Books Kettering E W 29 November 1951 History and Development of the 567 Series General Motors Locomotive Engine ASME 1951 Annual Meeting Atlantic City New Jersey Electro Motive Division General Motors Corporation a b Brazeau Mike The Electro Motive Story GM Heritage Center Archived from the original on 2014 03 03 Retrieved 2014 02 28 a href Template Cite web html title Template Cite web cite web a External link in code class cs1 code publisher code help Wesby Vernon 1976 History and Progress of the Village of McCook McCook IL Village of McCook pp 88 90 ALCo vs EMD UtahRails Net Retrieved January 25 2013 Pinkepank Jerry A 1973 The Second Diesel Spotter s Guide Kalmbach Books pp 53 56 LCCN 66 22894 Johnston Howard Harris Ken 2005 Jane s Train Recognition Guide HarperCollins Publishing pp 416 417 ISBN 978 0 06 081895 1 Ross David ed 2003 The Encyclopedia of Trains and Locomotives p 280 ISBN 978 0 7607 9679 5 Pinkepank 1973 pp 137 207 163 167 203 206 281 323 324 Ross 2003 p 305 a b Pinkepank 1973 p 26 Cleveland Diesel Engine Division of General Motors Corp 11 May 2018 Pinkepank 1973 p 51 57 61 Pinkepank Jerry A Marre Louis A 1979 Diesel Spotters Guide Update Kalmbach Books pp 51 52 54 57 ISBN 0 89024 029 9 Johnston 2003 pp 425 sfnp error no target CITEREFJohnston2003 help Johnston 2003 p 432 433 sfnp error no target CITEREFJohnston2003 help Ross 2003 pp 360 361 David Lustig 1 July 2006 US loco market still a two horse race www railwaygazette com Sources Diesel Electric Locomotives Reference list PDF mobility siemens com Siemens Cooperations with Electro Motive Division EMD pp 19 32 archived from the original PDF on 2012 08 29 BN EMD Siemens win AAR Technology Achievement Award freelibrary com Association of American Railroads 21 September 1994 EMD ISO Certifications Greenbriar Equity Group and Berkshire Partners Complete Acquisition of Electro Motive from General Motors John Hamilton Named President and CEO emdiesels com Electro Motive Diesel Inc 2005 04 05 Archived from the original on 2010 05 28 Greenbriar Equity Group LLC Berkshire Partners LLC and certain related parties today announced the completion of the acquisition of Electro Motive Division from General Motors BREAKING Electro Motive President John Hamilton resigns Trains magazine Kalmbach Publishing Co 2010 08 27 EMD unveils its first Tier 4 diesel locomotive www railwaygazette com 5 Oct 2015 Vantuono William C 11 Oct 2015 Take a tour of EMD s SD70ACe T4 CSX begins testing of EMD SD70ACe T4 demonstrators Vol Trains Magazine June 22 2016 Progress Rail EMD Tier 4 units headed to first customer Vol Trains Magazine December 15 2016 a b Neville Britto 24 February 2012 Canadians gearing up to derail CAT literally logospathosethos com archived from the original on 27 January 2013 retrieved 27 February 2012 Austen Ian 2012 01 02 Caterpillar Locks Out Workers in Canada The New York Times Progress Rail closes EMD plant in London www railwaygazette com Railway Gazette International 3 February 2012 archived from the original on February 1 2013 Sian Griffiths 15 February 2012 Caterpillar feels force of Canada s anger as it closes country s last train plant www guardian co uk James R Hagerty Alistair MacDonald 18 March 2012 As Unions Lose Their Grip Indiana Lures Manufacturing Jobs online wsj com Shruti Date Singh 6 February 2012 Caterpillar to Close Canadian Locomotive Plant Due to Costs businessweek com archived from the original on 13 November 2012 EMD Launches New Traction Motor MRO Facility Press release Electro Motive Diesel Inc 2010 04 14 Archived from the original on 2010 12 30 Electro Motive Diesel Inc today held a ribbon cutting ceremony at its new traction motor maintenance rebuild and overhaul MRO facility in San Luis Potosi Mexico James B Kelleher 29 October 2010 UPDATE 3 Caterpillar unit to build rail locomotives in US www reuters com Thomson Reuters archived from the original on 24 September 2015 retrieved 1 July 2017 Tita Bob 2010 10 29 CORRECT UPDATE Caterpillar To Build Locomotives in Muncie Ind The Wall Street Journal Dow Jones amp Company Inc Archived from the original on 2010 10 30 Caterpillar Inc CAT said Friday it will open a railroad locomotive assembly plant in Muncie Ind Progress Rail Services plans to begin locomotive production at Muncie Ind this fall Trains Magazine July 25 2011 Progress Rail Announces Grand Opening of Muncie Indiana Locomotive Assembly Operation www prnewswire com Progress Rail Services 28 October 2011 EMD rolls out its first U S made diesel in almost 20 years Trains Magazine 28 October 2011 permanent dead link a b Worldwide Historic Overview The origins North America s E and F units www nohab gm hu NOHAB GM Foundation Larry Russell EMD Export Page Henschel a b c Larry Russell EMD Export Page NOHAB Lolke Bijlsma GM Locomotives in Europe Belgium Larry Russell EMD Export Page SAFB Societe Anglo Franco Belge and BN Constructions Ferroviaires et Metalliques S A Devis y Macosa las constructoras valencianas de material ferroviario www vialibre ffe com in Spanish from VIA LIBRE Nº 431 May 2000 Brian Solomon 2006 EMD Locomotives Voyageur Press p 118 ISBN 9781610603799 a b c Sources EMD GM na evropejskom rynke podvizhnogo sostava Zheleznye dorogi mira in Russian 11 2000 archived from the original on 2007 08 16 General Motors EMD Expands in Europe International Railway Journal Simmons Boardman Publishing 40 10 24 25 2000 alternative link via findarticles com TERA 1 www tdltz ru in Russian TD Lyudinovoteplovoz Gredelj signes export deals amounting to 34 million kunas TZV Gredelj 20 February 2012 archived from the original on 7 March 2013 For the company Electro Motive Diesel EMD TZV Gredelj will construct 88 bogie frames for locomotives this deal is the first concrete result of the recently signed agreement on joint development and promotion with the aforementioned American company and TZV Gredelj hopes that the collaboration with EMD will also be successful in the future Larry Russell EMD Export Page GMIC GMSA Hyundai Villares Sources Bombardier awarded contract to assemble 100 locomotives www transportweekly com 3 April 2007 Bombardier Unveils the First Progress Rail Locomotive to be Assembled in Ciudad Sahagun Mexico www bombardier com Bombardier Transportation 9 Sep 2011 Diesel Traction Chapter 7 page 473 Technology in Australia 1788 1988 www austehc unimelb edu au Retrieved 2009 09 06 Company History Downer Group Retrieved 2017 10 30 Manufacturers Larry Russell s General Motors Export Pages Retrieved 2017 10 30 Sources Anandita Singh Mankotia 14 August 2010 EMD set to build manufacturing base supply hub in India financialexpress com Virendra Singh Rawat 17 September 2010 US based EMD to invest 100 Million in India business standard com US Locomotive maker EMD plans to set up india plant hindustandtimes com Hindustan Times 16 August 2010 archived from the original on 25 January 2013 retrieved 6 February 2012 Jagdish Kumar 13 October 2011 EMD amp Indian Railways to develop high power locomotive rail co archived from the original on 3 April 2021 retrieved 6 February 2012 和谐 型大功率交流传动内燃机车下线 news xinhuanet com in Chinese 2 July 2008 archived from the original on 15 July 2012 Sources EMD and Barloworld form African locomotive joint venture www railwaygazette com 2 July 2012 Mark Allix 26 June 2012 Barloworld offers EMD locomotives www businessday co za Bombardier to assemble EMD locomotives for southeast Asia Railway Gazette International 19 September 2012 SC 499 T class USS ALBACORE AGSS 569 Pioneering Research Vessel Albacore Park Portsmouth NH Archived from the original on 2016 10 25 Retrieved 2016 03 26 General Motors Electro Motive 16 184 Diesel Engine 18 August 2014 Notes Edit a b c d e The plant and headquarters commonly referred to as being in La Grange Illinois are actually within the Chicago suburb McCook Illinois but uses a postal address of La Grange 1 Sources Edit Lolke Bijlsma ed GM Locomotives in Europe www lolkebijlsma com Larry Russell ed EMD Export Page emdexport railfan netExternal links Edit Wikimedia Commons has media related to EMD locomotives EMD website archived 8 Feb 2014 Progress Rail current parent company EMD China archived 30 Jul 2010 EMD Locomotives at The Bluprints com Retrieved from https en wikipedia org w index php title Electro Motive Diesel amp oldid 1129335566, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.