EMD AEM-7
EMD AEM-7 | |||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| |||||||||||||||||||||||||||||||||||||||
| |||||||||||||||||||||||||||||||||||||||
| |||||||||||||||||||||||||||||||||||||||
| |||||||||||||||||||||||||||||||||||||||
[1][2] |
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.
Amtrak ordered the AEM-7 after the failure of the GE E60 locomotive. The first locomotives entered service in 1980 and were an immediate success, ending a decade of uncertainty on the Northeast Corridor. In the late 1990s, Amtrak rebuilt 29 of its locomotives from DC to AC traction. The locomotives continued operating through the arrival of the final Siemens ACS-64 in June 2016. MARC retired its fleet in April 2017 in favor of Siemens Chargers, and SEPTA retired all seven of its AEM-7s in November 2018 in favor of ACS-64s.
Background
[edit]Amtrak assumed control of almost all private sector intercity passenger rail service in the United States on May 1, 1971, with a mandate to reverse decades of decline. Amtrak retained approximately 184 of the 440 trains which had run the day before.[3] To operate these trains, Amtrak inherited a fleet of 300 locomotives (electric and diesel) and 1190 passenger cars, most of which dated from the 1940s–1950s.[4]
Operation on the electrified portion of the Northeast Corridor was split between the Budd Metroliner electric multiple units and PRR GG1 locomotives. The latter were over 35 years old and restricted to 85 mph (137 km/h).[5] Amtrak sought a replacement, but no US manufacturer offered an electric passenger locomotive. Importing and adapting a European locomotive would require a three-year lead time. With few other options, Amtrak turned to GE to adapt the E60C freight locomotive for passenger service.[6] GE delivered two models, the E60CP and the E60CH. However, the locomotives proved unsuitable for speeds above 90 mph (145 km/h), leaving Amtrak once again in need of a permanent solution.[7]
Amtrak then examined existing European high-speed designs, and two were imported for trials in 1976–77: the Swedish SJ Rc4 (Amtrak No. X995, SJ No. 1166), and the French SNCF Class CC 21000 (Amtrak No. X996, SNCF No. 21003).[8] Amtrak favored the Swedish design, which became the basis for the AEM-7.[9]
Design
[edit]AEM-7 | PRR GG1 | GE E60 | |
---|---|---|---|
Length | 51 ft 1+25⁄32 in (15.59 m)[10] | 79 feet 6 inches (24.23 m)[11] | 71 ft 3 in (21.7 m)[12] |
Weight[13] | 101 short tons (90 long tons; 92 t) | 193.5 short tons (173 long tons; 176 t) | 237.5 short tons (212 long tons; 215 t) |
The AEM-7 was far smaller than its predecessors, the PRR GG1 and the GE E60. It measured 51 ft 1+25⁄32 in (15.59 m) long by 10 ft 2 in (3.10 m) wide, and stood 14 ft 9.5 in (4.51 m) tall,[10] a decrease in length of over 20 ft (6.1 m).[11][12] The AEM-7's weight was half that of the E60CP or the GG1.[13][11] On its introduction it was the "smallest and lightest high horsepower locomotive in North America."[14] The Budd Company manufactured the carbodies for the initial Amtrak order, while the Austrian firm Simmering-Graz-Pauker built the carbodies for the MARC and SEPTA orders.[15]
Reflecting the varied electrification schemes on the Northeast Corridor the locomotives could operate at three different voltages: 11 kV 25 Hz AC, 12.5 kV 60 Hz AC and 25 kV 60 Hz.[16] A pair of Faiveley DS-11 two-stage pantographs, one at each end of the locomotive, collected power from the overhead catenary wire.[17] Thyristor converters stepped down the high-voltage AC to provide DC power at a much lower voltage to four traction motors, one per axle.[18] As built the AEM-7 was rated at 7,000 hp (5.2 MW), with a starting tractive effort of 51,710 lbf (230 kN) and a continuous tractive effort of 28,100 lbf (125 kN). Its maximum speed was 125 miles per hour (201.2 km/h).[14] A separate static converter supplied 500 kW 480 V head-end power (HEP) for passenger comfort.[19] This was sufficient to supply heating, lighting, and other electrical needs in 8-10 Amfleet cars.[20]
AEM-7AC
[edit]The rebuilt AEM-7ACs used AC traction instead of DC traction. The power modules used water-cooled insulated-gate bipolar transistor (IGBT) technology and provided about 5,000 kilowatts (6,700 horsepower) of traction power plus 1,000 kilowatts (1,300 horsepower) of HEP, twice the HEP capacity of the original DC units. The 6 FXA 5856 traction motors, from Alstom's ONIX family of propulsion components, had a maximum rating of 1,250–1,275 kilowatts (1,676–1,710 horsepower) each and a continuous rating of 1,080 kilowatts (1,450 horsepower). The remanufactured AEM-7ACs were the world's first passenger locomotives to incorporate IGBT technology.[1][21]
History
[edit]Amtrak planned a fleet of 53 locomotives, with an estimated cost of $137.5 million.[22] Limited funding hampered that plan, but in September 1977 Amtrak proceeded with a plan to buy 30 locomotives for $77.8 million. Five groups bid on the contract: General Motors' Electro-Motive Division (EMD)/ASEA, Morrison–Knudsen/Alstom, Brown Boveri, Siemens/KraussMaffei, and AEG/KraussMaffei.[23] Amtrak awarded the contract to the EMD/ASEA partnership in January 1978.[24] It ordered 17 more locomotives in February 1980, bringing the total to 47.[25]
The Railroad Test Track at the Transportation Test Center in Pueblo, Colorado was electrified in 1979 under sponsorship by the Northeast Corridor. The first locomotive completed, No. 900, was delivered to Amtrak in February 1980, then after acceptance testing, it was shipped to TTC for performance tests from April 1980 to May 1981.[26]: xvii Testing included evaluation of three different pantograph designs,[26]: 1, 115 instantaneous power and total energy consumed during operation,[26]: 59, 84 and reliability testing, during which the AEM-7 was operated for 156,200 mi (251,400 km).[26]: 97
Revenue service began on May 9, 1980, when No. 901 departed Washington Union Station with a Metroliner service.[27] The Swedish influence led to the nickname "Meatball", after Swedish meatballs. Railfans nicknamed the boxy locomotives "toasters".[28] Between 1980 and 1982, 47 AEM-7s (Nos. 900–946) went into service.[29] Amtrak retired the last of its PRR GG1s on May 1, 1981,[30] while most of the GE E60s were sold to other operators.[31] The new locomotives swiftly proved themselves; Car and Locomotive Cyclopedia stated that no new locomotive since the New York Central Hudson had "such an impact on speeds and schedule performance."[32]
This strong performance led to further orders. Amtrak added seven more locomotives in 1987, delivered in 1988, for a total of 54.[29] Two commuter operators in the Northeast ordered AEM-7s. MARC ordered four in 1986 for use on its Penn Line service on the Northeast Corridor between Washington, D.C., and Perryville, Maryland.[33] The Southeastern Pennsylvania Transportation Authority (SEPTA) ordered seven in 1987.[34] Amtrak also used the AEM-7s to handle the Keystone Service on the Keystone Corridor between Harrisburg and Philadelphia as the Budd Metroliners, displaced from the Northeast Corridor, reached the end of their service lives.[35]
Refurbishment
[edit]In 1999, Amtrak and Alstom began a remanufacturing program for Amtrak's AEM-7s. Alstom supplied AC propulsion equipment, electrical cabinets, transformers, HEP, and cab displays. The rebuild provided Amtrak with locomotives that had improved high end tractive effort and performance with longer trains. Amtrak workers performed the overhauls under Alstom supervision at Amtrak's shop in Wilmington, Delaware.[36] These remanufactured AEM-7s were designated AEM-7AC. Between 1999 and 2002, Amtrak rebuilt 29 of its AEM-7s.[37]
Retirement
[edit]As the locomotives passed 30 years of service their operators made plans for replacements. In 2010, Amtrak ordered 70 Siemens ACS-64 locomotives to replace both the AEM-7s and the newer but unreliable Bombardier/Alstom HHP-8s.[38] The ACS-64s began entering revenue service in February 2014.[39] The last two active AEM-7s, Amtrak Nos. 942 and 946, made their final run on June 18, 2016, on a special farewell excursion that ran between Washington, D.C., and Philadelphia.[40]
While Amtrak was replacing its AEM-7s, MARC initially decided in 2013 to phase out its electric operations on the Penn Line altogether and retire both its AEM-7 and Bombardier–Alstom HHP-8 locomotives,[41] but the railroad instead started a refurbishment program for its HHP-8s in 2017.[42] As of September 2017[update], the first HHP-8 reconditioned under this program had been delivered and was undergoing successful testing.[43] MARC selected the Siemens Charger diesel locomotive as the replacement for its AEM-7 fleet in 2015.[44] The last of the MARC AEM-7s were retired by April 2017, with the Chargers entering service in January 2018.[42]
SEPTA continues to use electric traction, replacing its seven AEM-7s and lone ABB ALP-44, an improved AEM-7, with fifteen ACS-64s.[45][46][47] The first SEPTA ACS-64, #901, entered revenue service on July 11, 2018.[48] On December 1, 2018, SEPTA held a farewell excursion for the AEM-7 and ALP-44 locomotives along the Paoli/Thorndale Line.[45][49]
Post-retirement
[edit]Two locomotives, ex-Amtrak Nos. 928 and 942, were moved to the Transportation Technology Center in July 2017.[50]
Caltrain, which operates commuter trains in the San Francisco Bay Area, purchased two retired Amtrak AEM-7s to test their electrification system once completed. The units would also serve as backup power for EMU cars.[51] On June 7, 2018, the board awarded two contracts totalling approximately $600,000: one to purchase two AEM-7ACs from Mitsui & Co, and the other to Amtrak for refurbishment, training, and transportation to the Caltrain maintenance facility in San Jose.[52][53] Locomotive Nos. 929 and 938 were delivered to California by Amtrak in June 2019.[54]
The seven SEPTA AEM-7s were leased to NJ Transit beginning in late December 2018 for the purpose of allowing NJ Transit to roster additional locomotives equipped with positive train control (PTC) in order to meet a deadline for operating PTC-capable equipment.[55] However, they were never used and subsequently returned. SEPTA then used them exclusively for overnight work service during autumn, cleaning tracks and applying traction gel.[56][57] In 2022, SEPTA sold the AEM-7s and ALP-44 for scrap.[58]
Three ex-Amtrak units have been preserved: Nos. 915 at the Railroad Museum of Pennsylvania,[59] 945 at the Illinois Railway Museum,[60] and 917 at the Danbury Railway Museum.[61]
See also
[edit]- ABB ALP-44 – A similar locomotive used by SEPTA and New Jersey Transit.
Notes
[edit]- ^ a b "ALSTOM Transport – AEM7 locomotives, USA". alstom.com. Archived from the original on March 25, 2006.
- ^ "Typbeskrivningar – AEM7 exporterade till Amtrak m fl". passagen.se. Archived from the original on May 24, 2002.
- ^ Kelly, John (June 5, 2001). "Amtrak's beginnings". Classic Trains. Archived from the original on October 15, 2015. Retrieved September 13, 2016.
- ^ Simon & Warner 2011, p. 108
- ^ GAO 1976, p. 29
- ^ GAO 1976, p. 30
- ^ USDOT 1978, p. 71
- ^ "Locomotives on the Northeast Corridor, 1977". Amtrak History. Amtrak. June 19, 2013.
- ^ Cudahy 2002, pp. 85–86
- ^ a b Ephraim 1983, p. 51
- ^ a b c Abendschein 1983, p. 5
- ^ a b General Electric. "Operating Manual – Class E-60CP Thyristor Type Locomotive (Ref: GEJ-5688B)". Bob Kise's Railroad Picture Archives (pdf). Archived from the original on February 2, 2016. Retrieved January 28, 2016.
- ^ a b "Digging into the Archives: The AEM-7 Locomotive". Amtrak. July 19, 2013. Retrieved July 9, 2017.
- ^ a b Ephraim 1982, p. 1
- ^ Trains 1986, p. 13
- ^ Ephraim 1982, p. 5
- ^ NTSB 1985, p. 15
- ^ Ephraim 1982, pp. 6–7
- ^ Ephraim 1982, p. 3
- ^ Solomon 2014, p. 309
- ^ Debruyne, Marc. "High power IGBT traction drives" (PDF). Alstom. p. 11. Archived from the original (PDF) on August 4, 2014.
- ^ USDOT 1978, p. 73
- ^ "Amtrak Commits Total of $71.1 Million For Equipment, Yards". The Wall Street Journal. September 29, 1977. p. 2.
- ^ "GM Division Receives $22 Million Contract". The Wall Street Journal. January 17, 1978. p. 35.
- ^ "Amtrak Plans to Order 150 Passenger Cars And 17 Locomotives". The Wall Street Journal. February 28, 1980. p. 23.
- ^ a b c d Peters, A. John; Washburn, Raymond P.; Kovacs, Paul E.; Grebenc, James W. AEM-7 electric locomotive testing at the Transportation Test Center, Report No. FRA/TTC-81/08 (PDF) (Report). Transportation Test Center. Retrieved October 17, 2024.
- ^ "AEM-7s enter revenue service, 1980". Amtrak: History of America's Railroad. February 5, 2014. Retrieved July 11, 2017.
- ^ Laepple, Wayne (June 12, 2015). "Amtrak AEM-7 arrives in Strasburg". Trains. Retrieved June 12, 2015. (subscription required)
- ^ a b Simon & Warner 2011, p. 78
- ^ "Digging into the Archives: The Amazing GG-1 Locomotive". Amtrak: History of America's Railroad. June 20, 2013. Retrieved July 11, 2017.
- ^ Simon & Warner 2011, p. 76
- ^ Cudahy 2002, p. 86
- ^ Middleton 1994, p. 15
- ^ Middleton 1994, p. 39
- ^ Cupper 1988, p. 55
- ^ Vantuono, William C. (May 2000). "Get ready for a great ride". Railway Age. 201 (5): 43.
- ^ "Delaware shops work to meet challenges of modern-day railroad" (PDF). Amtrak Ink. 8 (2): 3. March 2003.
- ^ Amtrak (October 28, 2010). "Amtrak Awards $466 Million Contract for 70 New Electric Locomotives". prnewswire.com.
- ^ "NEW AMTRAK LOCOMOTIVES READY FOR SERVICE AND SET TO POWER NORTHEAST ECONOMY" (PDF) (Press release). Amtrak. February 6, 2014. Retrieved March 4, 2014.
- ^ "A Fond Farewell to the AEM-7". Amtrak: History of America's Railroad. June 20, 2016. Retrieved June 6, 2019.
- ^ MARC Train (September 9, 2013). "Growth and Investment Plan Update: 2013 to 2015" (PDF). p. 21.
- ^ a b "MARC Riders Advisory Council Meeting Minutes" (PDF). MTA Maryland. April 20, 2017.
- ^ "MARC Riders Advisory Council Meeting Minutes" (PDF). MTA Maryland. September 21, 2017.
- ^ Vantuono, William C. (August 12, 2015). "MARC replacing electric locomotive fleet with high-speed diesels". Railway Age. Archived from the original on February 8, 2018. Retrieved July 11, 2017.
- ^ a b "Farewell to the SEPTA AEM-7 Locomotives". SEPTA. November 26, 2018. Archived from the original on August 13, 2022. Retrieved November 26, 2018.
- ^ Nussbaum, Paul (May 27, 2015). "SEPTA plans to spend $154 million on new locomotives". The Philadelphia Inquirer. Retrieved May 28, 2015.
- ^ Romero, Melissa (December 15, 2017). "SEPTA's first new electric locomotive has pulled into Philly". Curbed. Retrieved January 13, 2018.
- ^ Gambardello, Joseph A. (July 11, 2018). "SEPTA's new Regional Rail locomotive makes debut". The Inquirer. Retrieved January 4, 2019.
- ^ Laepple, Wayne (November 28, 2018). "SEPTA says farewell to the AEM7s". Trains. Archived from the original on January 2, 2020. Retrieved January 4, 2019.
- ^ "Amtrak By the Numbers: Updates (Electrics: AEM-7)". On Track On Line. February 1, 2018. Retrieved March 1, 2018.
- ^ "Caltrain Modernization Program, Peninsula Corridor Electrification Project (PCEP) 3rd Quarter FY 2016 Progress Report" (PDF). Peninsula Corridor Joint Powers Board. May 2016. Archived from the original (PDF) on November 7, 2016. Retrieved July 30, 2017.
- ^ "Agenda: PCJPB Meeting" (PDF). Peninsula Corridor Joint Powers Board. June 7, 2018. p. 219. Archived from the original (PDF) on June 13, 2018. Retrieved June 13, 2018.
- ^ "Minutes: PCJPB Meeting" (PDF). Peninsula Corridor Joint Powers Board. June 7, 2018. p. 9. Archived from the original (PDF) on November 1, 2018. Retrieved October 31, 2018.
- ^ Rudick, Roger (June 28, 2019). "Eyes on the Rails: Caltrain's First Electric Train Arrives". SF Streetsblog. Retrieved July 5, 2019.
- ^ "PTC requirements lead NJ Transit to run cab cars in front of locomotives". Trains Magazine. January 4, 2019. Archived from the original on January 6, 2019. Retrieved January 5, 2019.
- ^ Burkhart, M.T. (October 21, 2020). "SEPTA Revives AEM-7s For 'Leaf Train' Service". Railfan & Railroad Magazine. Retrieved November 9, 2021.
- ^ Burkhart, M.T. (November 8, 2021). "AEM-7 Electrics Back in Service on SEPTA". Railfan & Railroad Magazine. Retrieved November 9, 2021.
- ^ "End of the Line: SEPTA AEM-7s Being Sold for Scrap". February 2022.
- ^ "Amtrak AEM-7 Locomotive Becomes Newest Additon [sic] to Railroad Museum of Pennsylvania's Historic Collection" (PDF) (Press release). Railroad Museum of Pennsylvania. June 12, 2015. Archived from the original (PDF) on January 19, 2016.
- ^ "Amtrak AEM-7 locomotive built in 1982 acquired by IRM". Illinois Railway Museum. March 28, 2018. Retrieved April 14, 2018.
- ^ "President's Report" (PDF). The Railyard Dispatch. Vol. 24, no. 1. Danbury Railway Museum. p. 4.
References
[edit]- "Railroad News Photos". Trains. 47 (1): 12–17. November 1986. ISSN 0041-0934.
- Abendschein, Frederic H. (April 23, 1983). "Pennsylvania Railroad Electric Locomotive GG1 4800" (PDF). American Society of Mechanical Engineers. Archived from the original (PDF) on April 7, 2014. Retrieved December 13, 2009.
- Cudahy, Brian J. (2002), Rails Under the Mighty Hudson (2nd ed.), New York: Fordham University Press, ISBN 978-0-82890-257-1, OCLC 911046235
- Cupper, Dan (July 1988). "Amtrak's Keystone Service". Railfan & Railroad. 7 (7): 54–59. ISSN 0163-7266.
- Ephraim, Max Jr. (1982). "The AEM-7 – A New High-Speed, Light-Weight Electric Passenger Locomotive". ASME Paper: 1–7. ISSN 0402-1215. 82-RT-7.
- Ephraim, Max Jr. (1983). "Electric Locomotives for the 1980s". Transportation Research Record (939): 51–54.
- General Accounting Office (1976). How much Federal subsidy will Amtrak need? (PDF). General Accounting Office. OCLC 2282654.
- Middleton, William D. (1994). North American commuter rail 1994. Pasadena, California: Pentrex. OCLC 32665882.
- NTSB (1985). Railroad accident report: head-on collision of National Railroad Passenger Corporation (Amtrak) passenger trains nos. 151 and 168, Astoria, Queens, New York, New York, July 23, 1984 (PDF). OCLC 12734702.
- Simon, Elbert; Warner, David C. (2011). Holland, Kevin J. (ed.). Amtrak by the Numbers: A Comprehensive Passenger Car and Motive Power Roster – 1971–2011. Kansas City, Missouri: White River Productions. ISBN 978-1-932804-12-6.
- Solomon, Brian (2014). GE and EMD Locomotives: The Illustrated History. Minneapolis, Minnesota: Voyageur Press. ISBN 978-0-7603-4612-9.
- United States Department of Transportation (1978). Two-year report on the Northeast Corridor. Washington, D.C.: United States Department of Transportation. OCLC 22749371. Archived from the original (PDF) on April 29, 2017. Retrieved March 12, 2017.
Further reading
[edit]- Solomon, Brian (2003). Electric Locomotives. St. Paul, Minnesota: MBI Publishing. ISBN 978-0-7603-1359-6.
- Yough, Patrick J. (April 2013). "SEPTA at 30". Railfan & Railroad. 32 (4): 36–43. ISSN 0163-7266.
External links
[edit]- AEM-7DC power, tractive effort, and braking curve graphs on page 11-27 (figures 11.2.10 – 11.2.12).
- AEM-7AC Completion Dates and Data by On Track On Line
- "Amtrak By the Numbers: Updates (Electrics: AEM-7)". On Track On Line. February 1, 2018. Retrieved March 1, 2018.
- Pages using the JsonConfig extension
- Amtrak locomotives
- Electro-Motive Division locomotives
- ASEA locomotives
- B-B locomotives
- SEPTA Regional Rail
- 11 kV AC locomotives
- 25 kV AC locomotives
- Passenger locomotives
- Electric locomotives of the United States
- Railway locomotives introduced in 1980
- Multi-system locomotives
- Passenger trains running at least at 200 km/h in commercial operations
- Standard gauge locomotives of the United States