EMD 567
An EMD 16-567B on display at the North Carolina Transportation Museum. Shown in the foreground is an exploded power assembly, with the piston, piston carrier and piston rod (fork type) on the left, and the cylinder liner and cylinder head on the right.
Overview
ManufacturerElectro-Motive Division of General Motors
Also calledA-Engine, B-Engine, C-Engine, and D-Engine
Production1938–1966
Layout
Configuration45° Vee in V6, V8, V12, or V16
Displacement3,405 to 9,080 cu in
(55.8 to 148.8 L)
567.5 cu in (9.3 L) per cylinder
Cylinder bore8+12 in (216 mm)
Piston stroke10 in (250 mm)
ValvetrainOverhead camshaft, one per bank
Compression ratio
RPM range
Idle speed180
Max. engine speed900
Combustion
SuperchargerOne or two Roots-type
TurbochargerSingle, clutch driven
Fuel systemUnit injector actuated by engine camshaft
ManagementWoodward governor
Fuel typeDiesel
Oil systemWet sump
Cooling systemLiquid cooled
Output
Power output600 to 2,500 hp
(450 to 1,860 kW)
Chronology
PredecessorWinton 201A
SuccessorEMD 645

The EMD 567 is a line of large medium-speed diesel engines built by General Motors' Electro-Motive Division. This engine, which succeeded Winton's 201A, was used in EMD's locomotives from 1938 until its replacement in 1966 by the EMD 645. It has a bore of 8+12 in (216 mm), a stroke of 10 in (254 mm) and a displacement of 567 cu in (9.29 L) per cylinder. Like the Winton 201A, the EMD 645 and the EMD 710, the EMD 567 is a two-stroke engine.

GE now makes EMD-compatible replacement parts.[1]

History

Eugene W. Kettering, son of Charles F. Kettering, joined Winton Engine in 1930. He moved to Detroit in 1936, and was a central figure in the development of the 567 and the Detroit Diesel 6-71. He moved to EMD in 1938, became chief engineer at EMD in 1948, then division director in 1956 and subsequently research assistant to the general manager in 1958 until his retirement in 1960.[2] The 567 was released in 1938.[3]

In 1951, Eugene Kettering presented a paper to the American Society of Mechanical Engineers entitled History and Development of the 567 Series General Motors Locomotive Engine,[4] which goes into great detail about the technical obstacles that were encountered during the development of the 567 engine (these same considerations apply to the 645 and 710). The 567's designers started with a tabula rasa,[5] systematically eliminating each of the 201A's many deficiencies which were preventing the earlier design from becoming successful in freight service, although the 201A was relatively successful in the less-demanding passenger and switching services. The 567 design had nothing in common with the 201A except the two-stroke cycle itself: each and every component of the 201A was replaced with a new design, even the "dipstick", to paraphrase one of Kettering's off-handed comments. The 567 proved to be exceptionally successful in passenger, switching, freight, marine and stationary services, and, counting its two successors, the 645 and 710, which are not materially different from the 567 (all have the same external dimensions, differing mainly in per cylinder displacement), collectively have given nearly 80 years of exceptionally reliable service to those applications. As but one example of the achievements of the tabula rasa design: whereas the Winton 201A was doing very well with a 50,000-to-100,000-mile (80,000 to 161,000 km) piston lifetime, the 567 immediately achieved a 400,000-to-500,000-mile (640,000 to 800,000 km) piston lifetime, and in at least one case, reached a 1,000,000-mile (1,600,000 km) piston lifetime, a 10:1 to 20:1 improvement.[6]

Specification

An EMD 16-567A at the Florida Central Railroad locomotive shops

All 567 engines are two-stroke V-engines with an angle of 45° between cylinder banks. The 201A was 60° between cylinder banks; 45° later proved to be significant when EMD subsequently adapted the road switcher concept for most of its locomotives, and which required the narrower (albeit taller) engine which 45° provides.[3] The 710, 645, and 567 are the only two-stroke engines commonly used today in locomotives.

The engine is a uniflow design with four poppet-type exhaust valves in the cylinder head. For maintenance, a power assembly, consisting of a cylinder head, cylinder liner, piston, piston carrier, and piston rod, can be individually and relatively easily and quickly replaced. The block is made from flat, formed and rolled structural steel members and steel forgings welded into a single structure (a "weldment"). Blocks may, therefore, be easily repaired, if required, using conventional shop tools. Each bank of cylinders has an overhead camshaft which operates the exhaust valves and the unit injectors.[7]

The 567 is laid out with engine accessories (oil and water pumps and governors) at the "forward" end and the power take off at the "rear" end. The blowers and camshafts are at the "rear" end of the engine, with the blowers mounted above the power take off.[8]

All engines have mechanically-controlled unit injectors (patented in 1934 by General Motors, EMD's former owner).

All 567 engines utilize forced induction, with either a Roots blower or a turbocharger. The turbocharger (a combination turbo-compressor system) follows EMD's innovative design that uses a gear train and over-running clutch to drive the compressor rotor during low engine speed, when exhaust gas temperature (and, correspondingly, heat energy) alone is insufficient to drive the turbine. At higher engine speeds, increased exhaust gas temperature is sufficient to drive the turbine and the clutch disengages, turning the turbo-compressor system into a true turbocharger. The turbo-compressor can revert to compressor mode momentarily during demands for large increases in engine output power. While more expensive to maintain than Roots blowers, the turbocharger significantly reduces fuel consumption and emissions, while improving high-altitude performance. Additionally, EMD's turbo-compressor can provide a 50 percent increase in maximum rated horsepower over Roots-blown engines for the same engine displacement.

Output for naturally aspirated engines (including Roots-blown two-stroke engines) is usually derated 2.5 percent per 1,000 feet (300 m) above mean sea level. Turbocharging effectively eliminates this derating.

Modifications

567AC engines (an "A" block upgraded to "C" block specifications) and 567BC engines (a "B" block upgraded to "C" block specifications), both of which modifications eliminate the engine's "water deck" and substitute a "water manifold", as well as 567C and 567D engines, may be upgraded to use 645 power assemblies, theoretically achieving an increase in horsepower, but not without corresponding changes to the engine's Woodward governor which activates and controls the engine's "fuel rack". Although this power increase is not recommended, horsepower-for-horsepower updates (e.g., 2,000 hp or 1,500 kW 567D to 2,000 hp or 1,500 kW "645D"—645 power assemblies in a 567 block) are quite successful and common.

As 645 power assemblies are more readily available than 567 power assemblies, this upgrade may also be employed in so-called "life extension" programs, in which case the power assemblies would be upgraded, and the engine may be de-turbo-ed, without corresponding changes to the engine's Woodward governor, hence without a corresponding power increase.

Because of their age, 567 engines are generally exempt from emissions rules. EMD manufactures a special series of 645 power assemblies which are particularly useful in updating these exempt 567 engines and also certain exempt 645 engines.

Versions

Numerous early improvements were aimed at increasing reliability and life, including a switch from the U-shaped top (exhaust) well to a V-shaped top well. This eliminated the cast top deck, which had been the source of some early-life failures, in favor of a top deck fabricated from plate steel.[9] The 567 gave way to the 567A in 1941, which incorporated further top deck improvements and camshaft gear train changes.[10] The 567B followed in 1946 with minor improvements.[11] The 567C was released to further improve reliability and manufacturability. Visually, the 567C may be distinguished from earlier models by the presence of round (instead of square) handholes.[12]

The cost of a 16-567 in 1941 was US$24,000, and a 16-567B in 1951 was US$32,905.[4]

Engine model Max RPM Aspiration Dates built Compression
ratio
6-cylinder 8-cylinder 12-cylinder. 16-cylinder Notes
hpkW hpkW hpkW hpkW
567 800 Roots blown 9/38-3/43 16:1 600 447 1,000 746 1,350 1,007 "U" Deck or "V" Deck versions were built with rectangular hand hole covers.[13]
567A 800 Roots blown 5/43-9/53 16:1 600 447 1,000
1,200
746
895
1,350 1,007 Rectangular hand hole covers.[13]
567B 800 Roots blown 7/45-3/54 16:1 600 447 800 597 1,000
1,125
1,200
746
839
895
1,350
1,500
1,600
1,007
1,119
1,193
Rectangular hand hole covers.[13]
567C 800
835
Roots blown 3/53-2/66 16:1 600 447 900 671 1,125
1,200
839
895
1,500
1,750
1,119
1,305
New crankcase design with round hand hole covers and replacing the water deck with water manifold piping.[13]
567AC 800 Roots blown 8/53-6/61 16:1 600 447 1,000 746 Rebuild of 567A block to incorporate water manifold piping and to use 567C or certain 645 power assemblies
567BC 800 Roots blown 9/53-10/63 16:1 1,125
1,200
839
895
1,500 1,119 Production engine from September 1953 to May 1954 then used to rebuild 567Bs block to incorporate water manifold piping and to use 567C or certain 645 power assemblies
567CR 835 Roots blown 10/56-11/65 16:1 900 671 "Rebalanced" [14]
567D1 835 Roots blown 12/59-11/65 20:1 1,325 988 1,800 1,342
567D2 835 Turbocharged 11/59-4/62 14.5:1 2,000 1,491 De-turbo-ed versions using 645 power assemblies, but still rated 2,000 hp are quite common[15]
567D3 835 Turbocharged 7/58-11/63 14.5:1 2,250
2,400
1,678
1,790
De-turbo-ed versions using 645 power assemblies, but re-rated 2,000 hp are very rare
567D3A 900 Turbocharged 7/63-1/66 14.5:1 2,500 1,864 De-turbo-ed versions using 645 power assemblies, but re-rated 2,000 hp are somewhat common
567E 835 Roots blown 2/66-4/66 16:1 1,200 895 2,000[16]
[lower-alpha 1]
1,491 645E block with 567C power assemblies[17]

Stationary/marine versions

A GM EMD 12-567ATLP diesel engine as installed in LST 393 (Landing Ship Tank), located in Muskegon, Michigan, July 2017
Engine ID tag from the LST393 port engine, showing the power rating of 900 hp at 744 rpm

Like most EMD engines, the 567 was also sold for stationary and marine applications. Stationary and marine installations were available with either a left or right-hand rotating engine.

Marine engines differ from railroad and stationary engines mainly in the shape and depth of the engine's oil sump, which was altered to accommodate the rolling and pitching motions encountered in marine applications.

567 locomotive models

An EMD locomotive catalog, contemporary with the 567, lists the following models:

Locomotive Prime Mover Horsepower Kilowatts Purpose Notes
F9 16-567C 1,750 1,305 4-motor Freight or Passenger (Blomberg B trucks)[lower-alpha 2] Derivatives FP9 and FL9 also produced, FL9 using Flexicoil Trucks
G8 8-567C 1,067 796 4-motor General Purpose Road Switcher (Blomberg B trucks)
G12 12-567C 1,067 796 4-motor General Purpose Road Switcher (Blomberg B trucks)
GP7 16-567B 1,750 1,305 4-motor General Purpose Road Switcher (Blomberg B trucks)
GP9 16-567C 1,750 1,305 4-motor General Purpose Road Switcher (Blomberg B trucks)
SD7 16-567B 1,750 1,305 6-Motor Special Duty Road Switcher (Blomberg Flexicoil C trucks)
SD9 16-567C 1,750 1,305 6-Motor Special Duty Road Switcher (Blomberg Flexicoil C trucks)
SD18 16-567D1 1,750 1,305 6-Motor Special Duty Road Switcher (Blomberg Flexicoil C trucks)
SD24 16-567D3 2,400 1,790 6-Motor Special Duty Road Switcher (Blomberg Flexicoil C trucks)
SD28 16-567D1 1,750 1,305 6-Motor Special Duty Road Switcher (Blomberg Flexicoil C trucks)
SDP28 16-567D1 1,750 1,305 6-Motor Special Duty Road Switcher (Blomberg Flexicoil C trucks)
SD35 16-567D3A 1,750 1,305 6-Motor Special Duty Road Switcher (Blomberg Flexicoil C trucks)
SDP35 16-567D3A 1,750 1,305 6-Motor Special Duty Road Switcher (Blomberg Flexicoil C trucks)
E9 12-567C (x2) 2,400 1,790 4-Motor Passenger Locomotive (Blomberg A1A trucks)
NW2 16-567A 900 671 115-Ton Yard Switcher (AAR type A truck, Flexicoil B optional)
NW3 16-567 900 671 115-Ton Yard Switcher (AAR type A truck, Flexicoil B optional)
NW5 16-567B 900 671 115-Ton Yard Switcher (AAR type A truck, Flexicoil B optional)
SW1 6-567B 900 671 115-Ton Yard Switcher (AAR type A truck, Flexicoil B optional)
SW7 12-567B 900 671 115-Ton Yard Switcher (AAR type A truck, Flexicoil B optional)
SW8 8-567B 900 671 115-Ton Yard Switcher (AAR type A truck, Flexicoil B optional)
SW9 12-567B 900 671 115-Ton Yard Switcher (AAR type A truck, Flexicoil B optional)
SW600 6-567C 600 447 100-Ton Yard Switcher (Blomberg AAR Type A switcher trucks)[lower-alpha 3]
SW900 8-567C 900 671 115-Ton Yard Switcher (AAR type A truck, Flexicoil B optional)
SW1200 12-567C 1,200 895 125-Ton Yard Switcher (AAR type A truck, Flexicoil B optional)
GP18 16-567D1 2,000 1,491 4-motor General Purpose Road Switcher (Blomberg B trucks)
GP20 16-567D2 2,000 1,491 4-motor General Purpose Road Switcher (Blomberg B trucks)
GP28 16-567D1 2,000 1,491 4-motor General Purpose Road Switcher (Blomberg B trucks)
GP30 16-567D3 2,500 1,864 4-Motor Freight Locomotive (AAR type A truck, Flexicoil B optional)
GP35 16-567D3A 2,500 1,864 4-Motor Freight Locomotive (AAR type A truck, Flexicoil B optional)
BL2 16-567B 1,500 1,100 4-Axle Road Switcher (B-B Configuration)
Indian locomotive class YDM-5 12-567C 1390 1037 Mainline Export meter Gauge mixed traffic locomotive
NOHAB AA16 (built with license from EMD/GM) 16-567B, 16-567C and 16-567D 1,500 (567B), 1,700 (567C), 1,950 (567D) 1,100 (567B) (A1A)(A1A) configuration diesel electric locomotives built for passenger and freight services. The locomotives are based on the EMD F7. It was designed for DSB, Denmark as Class MY and was first built in 1954, with number 1101 to be the first unit of all AA16's. Later exported around Europe as Di3 (NSB, Norway) and M61 (MAV, Hungary), 202 (SNCB, Belgium) 1600 (CFL, Luxembourg).
Nohab AA12 (Class MX) (Built with license from EMD/GM) 12-567C (Mx 1001 - 1021), 12-567D (Mx 1022 - 1045) 1,425 (567C), 1,445 (567D) Locomotives based on the design of Nohab AA16, slightly lighter due to use for branchlines in Denmark. The locomotives were initially built for use in Denmark, but some units have been sold to Sweden under the designation TMX.
SJ class T43 (Built by Nohab with license from GM 1961-1963) 12-567D1 1450 1065 Bo'Bo' road switcher. One locomotive was equipped with heating for passenger coaches. Mostly used for freight service and switching.
ÖBB 2050 (Build by Henschel with license from EMD/GM) 12-567C 1520 1119 Bo'Bo' Locomotives based on Prototype G12 7707 for passenger and goodstrains, later only goodservice only Engine, Generator and Motors from GM

Most 567C locomotive models used D37B traction motors until mid 1959 when the D47B traction motor was used in production locomotives. Very early 567C locomotives from 1953 used the D27B traction motor.

567C and 567D engine maintenance

These two models are by far the most maintainable, with many 645 service parts being rather easily fitted to C and D engines.

The 567D's turbocharger is perhaps the least maintainable part of such an engine, and the 567D turbo has many more maintenance issues than 645E and later turbos. A common choice is conversion of a 567D turbo engine to Roots-blown, thereby abandoning the turbo and its many issues. Installation of 645 power assemblies will still allow Roots-converted 4-axle locomotives (GP20s) to produce 2,000 hp (1,500 kW), as does a Roots-blown 16-645E, thereby becoming the functional equivalent of a GP38, although with older electrical equipment and controls, and, of course, the older carbody.

Many EMD locomotives with C and D engines are still operating, particularly as their relatively light weight (about 260,000 pounds or 120,000 kilograms) is of significant benefit to shortline and industrial operators.

See also

Notes

  1. Figure from 16V 567E engine installed in RENFE Class 319.2
  2. Blomberg B trucks are common on competitive road switchers, e.g. early ALCo and GE four-axle road switchers, as many purchasers elected to re-use traded-in Blomberg B trucks; otherwise AAR Type B road trucks are often found; Indeed a few EMD road locomotives were supplied with reclaimed AAR Type B road trucks, mainly to save cost.
  3. Blomberg Flexicoil B lightweight road trucks were optional.

References

  1. "Stationary Parts". GE Transportation. Archived from the original on 3 December 2010. Retrieved 6 January 2015.
  2. "Biography of Charles F., Eugene, and Virginia Kettering". OhioLINK. Retrieved 6 January 2015.
  3. 1 2 General Motors 567-C Engines Diesel Railway Traction November 1955 pages 325-332
  4. 1 2 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. Retrieved 6 January 2015.
  5. Kettering (1951); p.14.
  6. Kettering (1951); p. 29.
  7. Challen, Bernard; Baranescu, Rodica, eds. (1999). Diesel Engine Reference Book (Second ed.). Butterworth-Heinemann. p. 598. ISBN 0-7506-2176-1.
  8. Kettering (1951); p. 17.
  9. Kettering (1951); pp. 57–58.
  10. Kettering (1951); p. 59.
  11. Kettering (1951) pp.59–60.
    "In 1946 a new line of crankcases, designated as the 567B, were introduced which were basically the same as the 567A except for a change to permit the mounting of the auxiliary generator drive gear. About three or four months after the introduction of the "B" engine the cylinder head retainer castings, which had been a continuous source of production problems, were replaced with steel forgings."
  12. Kettering (1951); pp. 61–64.
  13. 1 2 3 4 Cook, Preston (1 March 2006). "The EMD 567 Engine in the 21st Century". Railway Preservation News. Archived from the original on 19 October 2013. Retrieved 6 January 2015.
  14. EMD Pointers publication, October 17, 1956, "NEW MODEL 8-567CR ENGINE" "Due to expanding usage in a wide variety of applications, the 8 cylinder 567C engine is now being manufactured with certain design changes to provide a better total balance. This "rebalanced" engine has the model designation 8-567CR and supersedes the previous standard 8-567C in all applications. The major change is in firing order which requires a new design crankshaft #8235623 for the 8-567CR engine. This crankshaft has 2 relocated crankpin throws as well as larger counterweights."
  15. Pinkepank, Jerry A.; Marre, Louis A. (1979). Diesel Spotters Guide Update. Kalmbach Books. pp. 128–129. ISBN 0-89024-029-9.
  16. "Anexo I, Características de los Vehículos" (PDF). www.vialibre-ffe.com (in Spanish). Renfe. 7 March 2010. pp. 2–3.
  17. These "composite" engines were constructed using 645E blocks and all the remaining components from 567C or D engines, as required to meet contracts for 567-powered locomotives after the 567 engine had been discontinued, and all new block production was 645E.

Bibliography

  • Pinkepank, Jerry A (1973). The Second Diesel Spotter's Guide. Milwaukee, Wisconsin: Kalmbach Books. ISBN 0-89024-026-4. LCCN 66-22894.
  • Service Department (1954?). The Complete Line of General Motors Diesel Locomotives. La Grange, IL: Electro-Motive Division of General Motors Corporation
  • 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. Retrieved 6 January 2015.
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