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The '''ALCO 251''' is a 4-stroke [[diesel engine]] that was developed by the [[American Locomotive Company]] to replace its [[ALCO 244|244]] and [[ALCO 539T|539]] engines. The 251 was developed to be used in diesel locomotives, as a [[marine propulsion|marine power plant]] in ships, and as a [[diesel generator|stationary power generator]].
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{{refimprove|date=June 2011}}
{{More footnotes|date=June 2011}}
The '''ALCO 251''' is a 4-stroke [[diesel engine]] that was developed by the [[American Locomotive Company]] to replace its [[ALCO 244|244]] and [[ALCO 539T|539]] engines. The 251 was developed to be used in diesel locomotives, as a [[marine propulsion|marine power plant]] in ships, and as a [[diesel generator|stationary power generator]].


==Development==
==Development==
The model 251 engine design was initiated in 1949 and, like the 244 engine, it had a [[Bore (engine)|bore]] ([[Cylinder (engine)|cylinder]] [[diameter]]) of {{convert|9|in|mm|0}}, and a [[Stroke (engine)|stroke]] of {{convert|10.5|in|mm|0}}. Its designation combines [[American Locomotive Company|Alco]]'s identifier for that bore and stroke - 2 - with the year its design was approved for laboratory testing - 1951. Chief Engineer of Diesel Engine Design, Paul Vaughan, designed the 251 to improve upon the major weaknesses of the 244. A wet block design was used to overcome severe thermal differences which existed in the dry block 244. The welded block and base was kept, as was the four-point mounting. New in the 251 was an [[intercooler]] for the [[turbocharger]], which minimized temperature differentials and also benefited performance. Many small improvements were made to the crankshaft, bearings, pistons, injectors and camshafts.
The model 251 engine design was initiated in 1949 and, like the 244 engine, it had a [[Bore (engine)|bore]] ([[Cylinder (engine)|cylinder]] [[diameter]]) of {{convert|9|in|mm|0}}, and a [[Stroke (engine)|stroke]] of {{convert|10.5|in|mm|0}}. Its designation combines [[American Locomotive Company|Alco]]'s identifier for that bore and stroke - 2 - with the year its design was approved for laboratory testing - 1951. Chief Engineer of Diesel Engine Design, Paul Vaughan, designed the 251 to improve upon the major weaknesses of the 244. A wet block design was used to overcome severe thermal differences which existed in the dry block 244. The welded block and base was kept, as was the four-point mounting. New in the 251 was an [[intercooler]] for the [[turbocharger]], which minimized temperature differentials and also benefited performance. Many small improvements were made to the crankshaft, bearings, pistons, injectors and camshafts.


To avoid the problems caused by rushing the 244 into production, the 251 was put through an extensive testing process. The first 251 engines installed in locomotives for testing were [[inline-6]] designs of {{convert|800|hp|abbr=on|lk=in|sigfig=3}}.{{sfn|Kirkland|1989|p=152}} A simple, safe design, it also offered a direct replacement for the aged 539, which was still used in [[Switcher|switch]] engines and the [[ALCO RS-1]] [[road switcher]]. Like the 539, it was produced in [[Auburn, New York]].{{sfn|Kirkland|1989|p=152}} In August 1951, Alco built the [[ALCO DL420]] test unit with a six-cylinder 800-horsepower 251 engine. Ten GE 78-ton units followed in mid-1953 and were exported to the Consolidated Railroads of Cuba. The following year seven [[ALCO S-5]], a demonstrator and six units for the [[Boston and Maine]] were built. Two GE X3341s were built in 1954 for the [[White Pass and Yukon Route]] with the 251 engines. In mid-1954 the [[Lehigh Valley Railroad]] supplied an FA-2 and FB-2 for installation of test 12-cylinder 251A engines. The Lehigh Valley units were tested for a year.
To avoid the problems caused by rushing the 244 into production, the 251 was put through an extensive testing process. The first 251 engines installed in locomotives for testing were [[inline-6]] designs of {{convert|800|hp|abbr=on|lk=in|sigfig=3}}.{{sfn|Kirkland|1989|p=152}} A simple, safe design, it also offered a direct replacement for the aged 539, which was still used in [[Switcher|switch]] engines and the [[ALCO RS-1]] [[road switcher]]. Like the 539, it was produced in [[Auburn, New York]].{{sfn|Kirkland|1989|p=152}} In August 1951, Alco built the [[ALCO DL420]] test unit with a six-cylinder 800-horsepower 251 engine.{{sfn|Kirkland|1989|p=107}} Ten GE 78-ton units followed in mid-1953 and were exported to the Consolidated Railroads of Cuba.{{sfn|Kirkland|1989|p=153}} The following year seven [[ALCO S-5]], a demonstrator and six units for the [[Boston and Maine]] were built.{{sfn|Kirkland|1989|p=109}} Two GE X3341s were built in 1954 for the [[White Pass and Yukon Route]] with the 251 engines.{{sfn|Kirkland|1989|p=107}} In mid-1954 the [[Lehigh Valley Railroad]] supplied an FA-2 and FB-2 for installation of test 12-cylinder 251A engines. The Lehigh Valley units were tested for a year.


In 1954, the 251 went into production with the [[inline-6]] at [[Auburn, New York]]. The next year production of the [[V12 engine|V-12]] followed at [[Auburn, New York]] - where the 539 engine was built - and a [[V16 engine|V-16]] version built at [[Schenectady, New York]], replacing the 244. Engine manufacturing at Schenectady was terminated in 1962, after which all non-Canadian production was moved to Auburn.{{sfn|Kirkland|1989|p=152}}. Engines for [[A. E. Goodwin]], Alco's Australian licensee, were built at Auburn or Schenectady;{{sfn|Kirkland|1989|p=152}} engines for [[Montreal Locomotive Works]] were, until 1961, assembled by MLW using parts supplied by Auburn and Schenectady. After that date, they were built under licence in Canada by the [[Dominion Engineering Works]].{{sfn|Kirkland|1989|p=152}}
In 1954, the 251 went into production with the [[inline-6]] at [[Auburn, New York]]. The next year production of the [[V12 engine|V-12]] followed at [[Auburn, New York]] - where the 539 engine was built - and a [[V16 engine|V-16]] version built at [[Schenectady, New York]], replacing the 244. Engine manufacturing at Schenectady was terminated in 1962, after which all non-Canadian production was moved to Auburn.{{sfn|Kirkland|1989|p=152}} Engines for [[A. E. Goodwin]], Alco's Australian licensee, were built at Auburn or Schenectady;{{sfn|Kirkland|1989|p=152}} engines for [[Montreal Locomotive Works]] were, until 1961, assembled by MLW using parts supplied by Auburn and Schenectady. After that date, they were built under licence in Canada by the [[Dominion Engineering Works]].{{sfn|Kirkland|1989|p=152}}


==Power generation==
==Power generation==
Line 20: Line 17:
A pair of Alco 251C engines is also used for powering the {{convert|6000000|lbs|kg|0|abbr=on}} [[NASA]] [[Crawler Transporter]] that transport rockets and their platforms from the [[Vehicle Assembly Building]] to the [[Kennedy Space Center Launch Complex 39|Launch Complex 39]].
A pair of Alco 251C engines is also used for powering the {{convert|6000000|lbs|kg|0|abbr=on}} [[NASA]] [[Crawler Transporter]] that transport rockets and their platforms from the [[Vehicle Assembly Building]] to the [[Kennedy Space Center Launch Complex 39|Launch Complex 39]].


Ultimately a refined and successful design, the 251 outlived Alco. For a time it was built in [[Canada]] by [[Montreal Locomotive Works]]. As of September 2020, [[Fairbanks Morse]] still lists the 251 on its website for power generation.
Ultimately a refined and successful design, the 251 outlived Alco. For a time it was built in [[Canada]] by [[Montreal Locomotive Works]]. As of November 2023, [[Fairbanks Morse]] still lists the 251 on its website for power generation.<ref>{{cite web |title=FM ALCO 251F |url=https://www.fairbanksmorsedefense.com/solutions/engines/fm-alco-251f |website=Our Solutions: Engines |publisher=Fairbanks Morse Defense |access-date=1 December 2023}}</ref>


==North American locomotive uses==
==North American locomotive uses==
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!Engine type!!Power (hp)!!class="unsortable" | Locomotive(s)
!Engine type!!Power (hp)!!class="unsortable" | Locomotive(s)
|-
|-
|[[inline-6]] 251A||800||[[ALCO S-5|S-5]], GE 78 Ton, GE X3341.
|[[inline-6]] 251A||800||[[ALCO S-5|S-5]],{{sfn|Kirkland|1989|p=107}} GE 78 Ton,{{sfn|Kirkland|1989|p=108}} GE X3341.{{sfn|Kirkland|1989|p=107}}
|-
|-
|[[inline-6]] 251B||900||[[ALCO S-6|S-6]].
|[[inline-6]] 251B||900||[[ALCO S-6|S-6]].,{{sfn|Kirkland|1989|p=109}} [[ALCO S-6|SB-8/SSB-9]].{{sfn|Kirkland|1989|p=111}}
|-
|-
|[[inline-6]] 251B||1,000||[[ALCO T-6|T-6]]. [[ALCO DL531|DL531]]. DL532
|[[inline-6]] 251B||1,000||[[ALCO T-6|T-6]].{{sfn|Kirkland|1989|p=111}} [[ALCO DL531|DL531]]. DL532
|-
|-
|[[inline-6]] 251C||1,000||[[MLW S-13|S-13]], [[MLW RS-23|RS-23]].
|[[inline-6]] 251C||1,000||[[MLW S-13|S-13]],{{sfn|Kirkland|1989|p=115}} [[MLW RS-23|RS-23]].
|-
|-
|[[inline-6]] 251D||1,200||[[MLW DL535E|DL535E]].
|[[inline-6]] 251D||1,200||[[White Pass and Yukon Route Class DL-535E|DL535E]].
|-
|-
|[[V8 engine|V-8]] 251F||1,500||[[ALCO Century 415|C415]].
|[[V8 engine|V-8]] 251D||1,500||[[ALCO Century 415|C-415]].{{sfn|Kirkland|1989|p=178}}
|-
|-
|[[V12 engine|V-12]] 251B||1,800||[[ALCO RS-11|RS-11]],{{sfn|Kirkland|1989|p=155–156}} [[ALCO RSD-12|RSD-12]],{{sfn|Kirkland|1989|p=157–158}} [[MLW RS-18|RS-18]],{{sfn|Kirkland|1989|p=161}} [[ALCO RS-36|RS-36]],{{sfn|Kirkland|1989|p=164–165}} [[MLW FPA-4|FPA-4]], [[MLW FPB-4|FPB-4]].
|[[V12 engine|V-12]] 251B||1,800||[[ALCO RS-11|RS-11]],{{sfn|Kirkland|1989|p=155–156}} [[ALCO RSD-12|RSD-12]],{{sfn|Kirkland|1989|p=157–158}} [[MLW RS-18|RS-18]],{{sfn|Kirkland|1989|p=161}} [[ALCO RS-36|RS-36]],{{sfn|Kirkland|1989|p=164–165}} [[ALCO FA|FPA-4]],{{sfn|Kirkland|1989|p=127}} [[ALCO FA|FPB-4]].{{sfn|Kirkland|1989|p=127}}
|-
|-
|[[V12 engine|V-12]] 251C||2,000||[[ALCO RS-32|RS-32]],{{sfn|Kirkland|1989|p=163–164}} [[ALCO Century 420|C420]], [[ALCO DH643|DH643]], [[MLW M420|M420]].
|[[V12 engine|V-12]] 251C||2,000||[[ALCO RS-32|RS-32]],{{sfn|Kirkland|1989|p=163–164}} [[ALCO Century 420|C420]],{{sfn|Kirkland|1989|p=170}} [[ALCO DH643|DH643]], [[MLW M-420|M-420]].
|-
|-
|[[V12 engine|V-12]] 251E||2,400||M424, [[Bombardier HR-412|HR412]].
|[[V12 engine|V-12]] 251E||2,400||M424, [[Bombardier HR-412|HR-412]].
|-
|-
|[[V16 engine|V-16]] 251B||2,400||[[ALCO RS-27|RS-27]],{{sfn|Kirkland|1989|p=163}} [[ALCO RSD-15|RSD-15]],{{sfn|Kirkland|1989|p=159–160}} [[MLW RSD-17|RSD-17]],{{sfn|Kirkland|1989|p=160–161}} [[ALCO Century 424|C424]].
|[[V16 engine|V-16]] 251B||2,400||[[ALCO RS-27|RS-27]],{{sfn|Kirkland|1989|p=163}} [[ALCO RSD-15|RSD-15]],{{sfn|Kirkland|1989|p=159–160}} [[MLW RSD-17|RSD-17]],{{sfn|Kirkland|1989|p=160–161}} [[ALCO Century 424|C-424]].{{sfn|Kirkland|1989|p=170–172}}
|-
|-
|[[V16 engine|V-16]] 251C||2,500||[[ALCO Century 425|C425]].
|[[V16 engine|V-16]] 251C||2,500||[[ALCO Century 425|C-425]].{{sfn|Kirkland|1989|p=172–173}}
|-
|-
|[[V16 engine|V-16]] 251C||2,750||[[ALCO Century 628|C628]], [[ALCO Century 855|C855]], [[ALCO C855B|C855B]].
|[[V16 engine|V-16]] 251C||2,750||[[ALCO Century 628|C-628]],{{sfn|Kirkland|1989|p=179}} [[ALCO Century 855|C-855]],{{sfn|Kirkland|1989|p=177}} [[ALCO C855B|C-855B]].{{sfn|Kirkland|1989|p=177}}
|-
|-
|[[V16 engine|V-16]] 251E||3,000||[[ALCO Century 430|C430]], [[ALCO Century 630|C630]], [[M630]].
|[[V16 engine|V-16]] 251E||3,000||[[ALCO Century 430|C-430]],{{sfn|Kirkland|1989|p=177}} [[ALCO Century 630|C-630]],{{sfn|Kirkland|1989|p=180}} [[ALCO Century 630|M-630]].
|-
|-
|[[V16 engine|V-16]] 251E||3,200||[[Bombardier HR-616|HR616]].<ref>{{Cite web|url=http://www.cnrphotos.com/gallery2/main.php?g2_itemId=50895&g2_imageViewsIndex=1|title = 2100-2119}}</ref>
|[[V16 engine|V-16]] 251E||3,200||[[Bombardier HR-616|HR-616]].<ref>{{Cite web|url=http://www.cnrphotos.com/gallery2/main.php?g2_itemId=50895&g2_imageViewsIndex=1|title = 2100-2119}}</ref>
|-
|-
|[[V16 engine|V-16]] 251F||3,600||[[ALCO Century 636|C636]], [[MLW M-636|M636]].
|[[V16 engine|V-16]] 251F||3,600||[[ALCO Century 636|C636]],{{sfn|Kirkland|1989|p=185}} [[MLW M-636|M-636]].
|-
|-
|[[V16 engine|V-16]] 251F||3,700||[[MLW LRC-2|LRC-2]], [[MLW LRC-3|LRC-3]].
|[[V16 engine|V-16]] 251F||3,700||[[LRC (train)|LRC-2]], [[LRC (train)|LRC-3]].
|-
|-
|[[V18 engine|V-18]] 251F||4,000||[[MLW M640|M640]].
|[[V18 engine|V-18]] 251F||4,000||[[MLW M-640|M-640]].{{sfn|Kirkland|1989|p=185}}
|-
|-
|}
|}


==Marine Uses==
==Marine Uses==
*{{sclass|Martha L. Black|icebreaker}}s built in 1985-1986, 3 × V16-251F per ship, 8,847hp
*{{sclass|Martha L. Black|icebreaker}}s built in 1985-1986, 3 × V16-251F per ship, 8,847&nbsp;hp
*[[CCGS Hudson]] [[research vessel]] built 1963, 4 x V16-251B, 8,675hp
*[[CCGS Hudson]] [[research vessel]] built 1963, 4 x V16-251B, 8,675&nbsp;hp<ref>{{Cite web |title=Vessel - CCG Fleet |url=https://inter-j01.dfo-mpo.gc.ca/fdat/vessels/71 |access-date=2023-09-29 |website=inter-j01.dfo-mpo.gc.ca}}</ref> (Note, cited link misidentifies engines as ALCO 251D)
*[[United States Coast Guard]] Famous-class [[medium endurance cutter]]s, launched 1980-1988, 2 x 18V-251E per ship, 7,200&nbsp;bhp<ref>{{cite book |last=Polmar |first=Norman |author-link=Norman Polmar |date=2013 |title=The Naval Institute Guide to the Ships and Aircraft of the U.S. Fleet |location=Annapolis, Maryland |publisher=Naval Institute Press |page=589 |isbn=978-1-59114-687-2}}</ref>
*[[United States Coast Guard]] ''Reliance''-class [[medium endurance cutter]]s, launched 1964-1969, 2 x 251B per ship, 5,000&nbsp;bhp<ref>{{cite book |last=Polmar |first=Norman |author-link=Norman Polmar |date=2013 |title=The Naval Institute Guide to the Ships and Aircraft of the U.S. Fleet |location=Annapolis, Maryland |publisher=Naval Institute Press |page=590 |isbn=978-1-59114-687-2}}</ref>

==References==
==References==
{{reflist}}
{{reflist}}

Latest revision as of 15:43, 5 October 2024

The ALCO 251 is a 4-stroke diesel engine that was developed by the American Locomotive Company to replace its 244 and 539 engines. The 251 was developed to be used in diesel locomotives, as a marine power plant in ships, and as a stationary power generator.

Development

[edit]

The model 251 engine design was initiated in 1949 and, like the 244 engine, it had a bore (cylinder diameter) of 9 inches (229 mm), and a stroke of 10.5 inches (267 mm). Its designation combines Alco's identifier for that bore and stroke - 2 - with the year its design was approved for laboratory testing - 1951. Chief Engineer of Diesel Engine Design, Paul Vaughan, designed the 251 to improve upon the major weaknesses of the 244. A wet block design was used to overcome severe thermal differences which existed in the dry block 244. The welded block and base was kept, as was the four-point mounting. New in the 251 was an intercooler for the turbocharger, which minimized temperature differentials and also benefited performance. Many small improvements were made to the crankshaft, bearings, pistons, injectors and camshafts.

To avoid the problems caused by rushing the 244 into production, the 251 was put through an extensive testing process. The first 251 engines installed in locomotives for testing were inline-6 designs of 800 hp (597 kW).[1] A simple, safe design, it also offered a direct replacement for the aged 539, which was still used in switch engines and the ALCO RS-1 road switcher. Like the 539, it was produced in Auburn, New York.[1] In August 1951, Alco built the ALCO DL420 test unit with a six-cylinder 800-horsepower 251 engine.[2] Ten GE 78-ton units followed in mid-1953 and were exported to the Consolidated Railroads of Cuba.[3] The following year seven ALCO S-5, a demonstrator and six units for the Boston and Maine were built.[4] Two GE X3341s were built in 1954 for the White Pass and Yukon Route with the 251 engines.[2] In mid-1954 the Lehigh Valley Railroad supplied an FA-2 and FB-2 for installation of test 12-cylinder 251A engines. The Lehigh Valley units were tested for a year.

In 1954, the 251 went into production with the inline-6 at Auburn, New York. The next year production of the V-12 followed at Auburn, New York - where the 539 engine was built - and a V-16 version built at Schenectady, New York, replacing the 244. Engine manufacturing at Schenectady was terminated in 1962, after which all non-Canadian production was moved to Auburn.[1] Engines for A. E. Goodwin, Alco's Australian licensee, were built at Auburn or Schenectady;[1] engines for Montreal Locomotive Works were, until 1961, assembled by MLW using parts supplied by Auburn and Schenectady. After that date, they were built under licence in Canada by the Dominion Engineering Works.[1]

Power generation

[edit]
ALCO 18-251 V18 engine used as a backup generator at a wastewater plant in Montreal.

The inline-6 designs of 800 hp (597 kW) version of the 251 engine replaced the 539 engine in 1954 in Alco's low-end line of power generation packages. The 244 engine was still used in higher-end power generation packages until it too was replaced by 251-engined power generation equipment in 1956.

A pair of Alco 251C engines is also used for powering the 6,000,000 lb (2,721,554 kg) NASA Crawler Transporter that transport rockets and their platforms from the Vehicle Assembly Building to the Launch Complex 39.

Ultimately a refined and successful design, the 251 outlived Alco. For a time it was built in Canada by Montreal Locomotive Works. As of November 2023, Fairbanks Morse still lists the 251 on its website for power generation.[5]

North American locomotive uses

[edit]
Engine type Power (hp) Locomotive(s)
inline-6 251A 800 S-5,[2] GE 78 Ton,[6] GE X3341.[2]
inline-6 251B 900 S-6.,[4] SB-8/SSB-9.[7]
inline-6 251B 1,000 T-6.[7] DL531. DL532
inline-6 251C 1,000 S-13,[8] RS-23.
inline-6 251D 1,200 DL535E.
V-8 251D 1,500 C-415.[9]
V-12 251B 1,800 RS-11,[10] RSD-12,[11] RS-18,[12] RS-36,[13] FPA-4,[14] FPB-4.[14]
V-12 251C 2,000 RS-32,[15] C420,[16] DH643, M-420.
V-12 251E 2,400 M424, HR-412.
V-16 251B 2,400 RS-27,[17] RSD-15,[18] RSD-17,[19] C-424.[20]
V-16 251C 2,500 C-425.[21]
V-16 251C 2,750 C-628,[22] C-855,[23] C-855B.[23]
V-16 251E 3,000 C-430,[23] C-630,[24] M-630.
V-16 251E 3,200 HR-616.[25]
V-16 251F 3,600 C636,[26] M-636.
V-16 251F 3,700 LRC-2, LRC-3.
V-18 251F 4,000 M-640.[26]

Marine Uses

[edit]

References

[edit]
  1. ^ a b c d e Kirkland 1989, p. 152.
  2. ^ a b c d Kirkland 1989, p. 107.
  3. ^ Kirkland 1989, p. 153.
  4. ^ a b Kirkland 1989, p. 109.
  5. ^ "FM ALCO 251F". Our Solutions: Engines. Fairbanks Morse Defense. Retrieved 1 December 2023.
  6. ^ Kirkland 1989, p. 108.
  7. ^ a b Kirkland 1989, p. 111.
  8. ^ Kirkland 1989, p. 115.
  9. ^ Kirkland 1989, p. 178.
  10. ^ Kirkland 1989, p. 155–156.
  11. ^ Kirkland 1989, p. 157–158.
  12. ^ Kirkland 1989, p. 161.
  13. ^ Kirkland 1989, p. 164–165.
  14. ^ a b Kirkland 1989, p. 127.
  15. ^ Kirkland 1989, p. 163–164.
  16. ^ Kirkland 1989, p. 170.
  17. ^ Kirkland 1989, p. 163.
  18. ^ Kirkland 1989, p. 159–160.
  19. ^ Kirkland 1989, p. 160–161.
  20. ^ Kirkland 1989, p. 170–172.
  21. ^ Kirkland 1989, p. 172–173.
  22. ^ Kirkland 1989, p. 179.
  23. ^ a b c Kirkland 1989, p. 177.
  24. ^ Kirkland 1989, p. 180.
  25. ^ "2100-2119".
  26. ^ a b Kirkland 1989, p. 185.
  27. ^ "Vessel - CCG Fleet". inter-j01.dfo-mpo.gc.ca. Retrieved 2023-09-29.
  28. ^ Polmar, Norman (2013). The Naval Institute Guide to the Ships and Aircraft of the U.S. Fleet. Annapolis, Maryland: Naval Institute Press. p. 589. ISBN 978-1-59114-687-2.
  29. ^ Polmar, Norman (2013). The Naval Institute Guide to the Ships and Aircraft of the U.S. Fleet. Annapolis, Maryland: Naval Institute Press. p. 590. ISBN 978-1-59114-687-2.
  • Kirkland, John F. (1989). The Diesel Builders, volume 2: American Locomotive Company and Montreal Locomotive Works. Glendale, CA: Interurban Press. ISBN 0-916374-81-5.
  • Pinkepank, Jerry A. (1973). The Second Diesel Spotter's Guide. Milwaukee, Wisconsin: Kalmbach Publishing. ISBN 978-0-89024-026-7.
  • Steinbrenner, Richard T. (2003). The American Locomotive Company - A Centennial Remembrance. Warren, NJ: On Track Publishers, LLC. ISBN 0-911122-07-9.