The EMD 567 is a line of large medium-speed

diesel engines The diesel engine, named after Rudolf Diesel, is an internal combustion engine in which ignition of the fuel is caused by the elevated temperature of the air in the cylinder due to mechanical compression; thus, the diesel engine is a so-calle ...

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 The EMD 645 is a family of diesel engines that was designed and manufactured by the Electro-Motive Division of General Motors. While the 645 series was intended primarily for locomotive, marine and stationary engine use, one 16-cylinder versio ...

. It has a bore of , a

stroke A stroke is a medical condition in which poor blood flow to the brain causes cell death. There are two main types of stroke: ischemic, due to lack of blood flow, and hemorrhagic, due to bleeding. Both cause parts of the brain to stop functionin ...

of and a displacement of per cylinder. Like the Winton 201A, the

and the

EMD 710 The EMD 710 is a line of diesel engines built by Electro-Motive Diesel (previously General Motors' Electro-Motive Division). The 710 series replaced the earlier EMD 645 series when the 645F series proved to be unreliable in the early 1980s 50-se ...

, the EMD 567 is a

two-stroke engine A two-stroke (or two-stroke cycle) engine is a type of internal combustion engine that completes a power cycle with two strokes (up and down movements) of the piston during one power cycle, this power cycle being completed in one revolution of t ...

. GE now makes EMD-compatible replacement parts.

History

Eugene W. Kettering, son of

Charles F. Kettering Charles Franklin Kettering (August 29, 1876 – November 25, 1958) sometimes known as Charles Fredrick Kettering was an American inventor, engineer, businessman, and the holder of 186 patents. For the list of patents issued to Kettering, see, Le ...

, joined Winton Engine in 1930. He moved to

Detroit Detroit ( , ; , ) is the largest city in the U.S. state of Michigan. It is also the largest U.S. city on the United States–Canada border, and the seat of government of Wayne County. The City of Detroit had a population of 639,111 at th ...

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. The 567 was released in 1938.General Motors 567-C Engines ''

Diesel Railway Traction ''Railway Gazette International'' is a monthly business magazine and news website covering the railway, metro, light rail and tram industries worldwide. Available by annual subscription, the magazine is read in over 140 countries by transport p ...

'' November 1955 pages 325-332 In 1951, Eugene Kettering presented a paper to the

American Society of Mechanical Engineers The American Society of Mechanical Engineers (ASME) is an American professional association that, in its own words, "promotes the art, science, and practice of multidisciplinary engineering and allied sciences around the globe" via "continuing ...

entitled ''History and Development of the 567 Series General Motors Locomotive Engine'', 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 ''Tabula rasa'' (; "blank slate") is the theory that individuals are born without built-in mental content, and therefore all knowledge comes from experience or perception. Epistemological proponents of ''tabula rasa'' disagree with the doctri ...

'', 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 __NOTOC__ Year 710 ( DCCX) was a common year starting on Wednesday (link will display the full calendar) of the Julian calendar. The denomination 710 for this year has been used since the early medieval period, when the Anno Domini calendar er ...

, 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 piston lifetime, the 567 immediately achieved a piston lifetime, and in at least one case, reached a piston lifetime, a 10:1 to 20:1 improvement.

Specification

All 567 engines are

two-stroke A two-stroke (or two-stroke cycle) engine is a type of internal combustion engine that completes a Thermodynamic power cycle, power cycle with two strokes (up and down movements) of the piston during one power cycle, this power cycle being comple ...

V-engine A V engine, sometimes called a Vee engine, is a common configuration for internal combustion engines. It consists of two cylinder banks—usually with the same number of cylinders in each bank—connected to a common crankshaft. These cylinder ...

s 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 A road switcher is a type of railroad locomotive designed to both haul railcars in mainline service and shunt them in railroad yards. Both type and term are North American in origin, although similar types have been used elsewhere. A road s ...

concept for most of its locomotives, and which required the narrower (albeit taller) engine which 45° provides. 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 In folk magic and witchcraft, a poppet (also known as poppit, moppet, mommet or pippy) is a doll made to represent a person, for casting spells on that person or to aid that person through magic. They are occasionally found lodged in chimneys ...

-type exhaust valves in the cylinder head. For maintenance, a

power assembly {{Unreferenced, date=December 2014 The term power assembly refers to an Electro-Motive Diesel (EMD) engine sub-assembly designed to be "easily" removed and replaced in order to restore engine performance lost to wear or engine failure. Typical of he ...

, 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 Structural steel is a category of steel used for making construction materials in a variety of shapes. Many structural steel shapes take the form of an elongated beam having a profile of a specific cross section. Structural steel shapes, sizes, ...

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. 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. 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 The Roots-type blower is a positive displacement lobe pump which operates by pumping a fluid with a pair of meshing lobes resembling a set of stretched gears. Fluid is trapped in pockets surrounding the lobes and carried from the intake si ...

or a

turbocharger In an internal combustion engine, a turbocharger (often called a turbo) is a forced induction device that is powered by the flow of exhaust gases. It uses this energy to compress the intake gas, forcing more air into the engine in order to pro ...

. 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 Naturally may refer to: ;Albums * ''Naturally!'', an album by Nat Adderley * ''Naturally'' (Houston Person album) * ''Naturally'' (J. J. Cale album) * ''Naturally'' (John Pizzarelli album) * ''Naturally'' (Sharon Jones album) * ''Naturally'' ...

engines (including Roots-blown two-stroke engines) is usually derated 2.5 percent per 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., 567D to "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. The 567 gave way to the 567A in 1941, which incorporated further top deck improvements and camshaft gear train changes. The 567B followed in 1946 with minor improvements. 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.Kettering (1951); pp. 61–64. The cost of a 16-567 in 1941 was US$24,000, and a 16-567B in 1951 was US$32,905.

Stationary/marine versions

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: 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

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 (

GP20 An EMD GP20 is a 4-axle diesel-electric locomotive built by General Motors' Electro-Motive Division between November 1959 and April 1962. Power was provided by an EMD 567D2 16-cylinder turbocharged engine which generated . EMD was initially hesi ...

s) to produce , 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 ) is of significant benefit to shortline and industrial operators.

Notes

References

Bibliography

* *Service Department (1954?). The Complete Line of General Motors Diesel Locomotives. La Grange, IL: Electro-Motive Division of General Motors Corporation *

External links

* * {{Progress Rail Services Diesel locomotive engines Marine diesel engines Two-stroke diesel engines V6 engines V8 engines V12 engines V16 engines