The EMD 645 is a family of
diesel engine
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-ca ...
s that was designed and manufactured by the
Electro-Motive Division
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 sub ...
of
General Motors. While the 645 series was intended primarily for
locomotive,
marine and
stationary engine use, one 16-cylinder version powered the
33-19 "Titan" prototype haul
truck
A truck or lorry is a motor vehicle designed to transport cargo, carry specialized payloads, or perform other utilitarian work. Trucks vary greatly in size, power, and configuration, but the vast majority feature body-on-frame constructi ...
designed by GM's
Terex
Terex Corporation is an American worldwide manufacturer of lifting and material-handling plant for a variety of industries including construction, infrastructure, quarrying, recycling, energy, mining, shipping, transportation, refining and ut ...
division.
The 645 series was an evolution of the earlier
567 series and a precursor to the later
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 ...
series. First introduced in 1965, the EMD 645 series remained in production on a by-request basis long after it was replaced by the 710, and most 645 service parts are still in production. The EMD 645 engine series is currently supported by
Electro-Motive Diesel, Inc., which purchased the assets of the Electro-Motive Division from General Motors in 2005.
In 1951, E. W. Kettering wrote a paper for the
ASME
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, as these engines were a logical extension of the 567C, by applying a cylinder bore increase, 645, and a cylinder bore increase ''and'' a stroke increase, 710, to achieve a greater power output, without changing the external size of the engines, or their weight, thereby achieving significant improvements in horsepower per unit volume and horsepower per unit weight.
History
The 645 series engines entered production in 1965. As the 567 series had reached its limits in horsepower increases, a larger displacement was needed; this was accomplished by increasing the
bore from on the 567 series to on the 645 series, while maintaining the same
stroke and deck height. While the crankcase was modified from the 567 series, 567C and later engines (or 567 engines which have been modified to 567C specifications, sometimes referred to as 567AC or 567BC engines) can accept 645 series service parts, such as
power assemblies. Conversely, the 567E engine employs a 645E series block with 567 series power assemblies.
All 645 engines utilize 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 for cylinder scavenging. For turbocharged engines, the turbocharger is gear-driven and has a centrifugal clutch that allows it to act as a centrifugal blower at low engine speeds (when exhaust gas flow and temperature alone are insufficient to drive the turbine) and a purely exhaust-driven turbocharger at higher speeds. The turbocharger can revert to acting as a supercharger during demands for large increases in engine output power. While more expensive to maintain than Roots blowers, EMD claims that this design allows "significantly" reduced fuel consumption and emissions, improved high-altitude performance, and even up to a 50 percent increase in maximum rated horsepower over Roots-blown engines for the same engine displacement.
Horsepower for
naturally aspirated engines (including Roots-blown two-stroke engines) is usually derated 2.5 percent per above mean sea level, a tremendous penalty at the or greater elevations which several Western U.S. and Canada railroads operate, and this can amount to a 25 percent power loss. Turbocharging effectively eliminates this derating.
The 645 series has a maximum engine speed of between 900 and 950 revolutions per minute (rpm), an increase over the 800 to 900 rpm maximum speed for the 567 series. An engine speed of 900 rpm was essential for 60 Hz stationary power generator applications and certain passenger locomotives equipped with 60 Hz, 480-volt three-phase "head-end power" systems. When used solely for traction purposes, the engine speed varies depending on the throttle position. The 950 rpm maximum speed of the 645F engine proved to be too high, thereby compromising its reliability, and the replacement engine, the 710G, reverted to 900 rpm maximum speed.
EMD built an SD40 demonstrator (number 434) in July 1964 to field test the 16-645E3 engine, followed by another eight SD40 demonstrators (numbers 434A through 434H) and a GP40 demonstrator (number 433A) in 1965. In December 1965 and January 1966, EMD built three SD45 demonstrators (numbers 4351 through 4353) to field test the 20-645E3 engine.
When the 645 engine entered production in 1965, a large series of new locomotive models was introduced. The turbocharged version was used in EMD's ''40 Series'' (
GP40,
SD40 SD40 may refer to:
* Canon PowerShot SD40, a digital camera
* EMD SD40
The EMD SD40 is an American 6-axle diesel-electric locomotive built by General Motors Electro-Motive Division between January 1966 and August 1972. 1,268 locomotives were buil ...
and
SD45
The SD45 is a six-axle diesel-electric locomotive built by General Motors Electro-Motive Division between 1965 and 1971. It has an EMD 645E3 twenty-cylinder engine generating on the same frame as the SD38, SD39, SD40, and SDP40. As of 2022, mos ...
) in , sixteen-cylinder form and in , twenty-cylinder form. EMD also introduced the Roots-blown ''38 Series'' (
GP38
The EMD GP38 is a four-axle diesel-electric locomotive built by General Motors Electro-Motive Division between January 1966 and December 1971. The locomotive's prime mover was an EMD 645 16-cylinder engine that generated . The company built 70 ...
,
SD38) and turbocharged, twelve-cylinder ''39 Series'' (
GP39,
SD39). All of these locomotive models extensively share common components and subsystems, thereby significantly reducing cost and increasing interchangeability. The
GP38-2
The EMD GP38-2 is an American four-axle diesel-electric locomotive built by General Motors, Electro-Motive Division. Part of the EMD Dash 2 line, the GP38-2 was an upgraded version of the earlier GP38. Power is provided by an EMD 645E 16-cyl ...
and
SD40-2
The EMD SD40-2 is a C-C diesel-electric locomotive built by EMD from 1972 to 1989.
The SD40-2 was introduced in January 1972 as part of EMD's '' Dash 2'' series, competing against the GE U30C and the ALCO Century 630. Although higher-horsepowe ...
became the most popular models of the series and among the most popular locomotive models ever built.
Starting with the introduction of the 645 series engines, EMD's model naming convention generally increased model designs by ten (such as with the 40, 50, 60 and 70 series). The number was reduced by one for twelve-cylinder versions (such as the 39, 49 and 59 series); reduced by two for Roots-blown versions (for the 38 series); and increased by five for higher-horsepower versions (such as the 45 and 75 series).
Unlike the 645 series, the 710 is not offered from the factory as a Roots-blown model, but nothing in the basic design of that engine prevents such an offering. However, a pair of Roots blowers which would be required for a Roots-blown 710 series likely would be too large (too long) to fit in the available carbody space, and making a special carbody just for the very few likely to be ordered would be economically unsound. Therefore, any 710 engine using Roots blowers would need the blowers added to the engine after delivery.
Specifications (many are common to 567 and 710 engines)
All 645 engines are
two-stroke
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 ...
45-degree
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. Each
cylinder
A cylinder (from ) has traditionally been a three-dimensional solid, one of the most basic of curvilinear geometric shapes. In elementary geometry, it is considered a prism with a circle as its base.
A cylinder may also be defined as an infin ...
is of
displacement
Displacement may refer to:
Physical sciences
Mathematics and Physics
* Displacement (geometry), is the difference between the final and initial position of a point trajectory (for instance, the center of mass of a moving object). The actual path ...
, hence the name; with a
bore of , a
stroke of and a
compression ratio of 14.5:1. 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 and charge air scavenging ports within the sides of the cylinders. All engines use a
single overhead camshaft
An overhead camshaft (OHC) engine is a piston engine where the camshaft is located in the cylinder head above the combustion chamber. This contrasts with earlier overhead valve engines (OHV), where the camshaft is located below the combustion cha ...
per bank, with exhaust valves operated by two cam lobes (each of which operates two exhaust valves through a "bridge") and one cam lobe to operate the
Unit injector which is in the center of the four exhaust valves. Rocker arms are roller-equipped to reduce friction while hydraulic valve actuators are used to reduce valve lash. Post-1995 710 engines employ
Electronic Unit injectors, however these injectors still utilize a camshaft-actuated piston pump, as on non-EFI injectors.
Cylinders in each V-pair are directly opposite each other, and the connecting rods are of a fork-and-blade arrangement, with "fork" rods on one bank of cylinders and "blade" rods on the other (with the same stroke on both banks). (In contrast,
General Electric's 7FDL and 7FDM engines use "articulated" master-and-slave connecting rods, essentially two adjacent cylinders on a
radial engine
The radial engine is a reciprocating type internal combustion engine configuration in which the cylinders "radiate" outward from a central crankcase like the spokes of a wheel. It resembles a stylized star when viewed from the front, and is ...
, and have a slightly longer stroke on the bank using slave rods.)
[Service power assemblies are available from EMD, and from competitors, as "Fork", "Blade", and "Partial" (neither "Fork" nor "Blade"), P/N 40173918.] The engines are provided with either a single or twin
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 single mechanically-assisted turbocharger, depending on required power output.
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 replaced relatively easily and quickly. The engine block is made from flat, formed and rolled
structural steel members and steel forgings welded into a single structure (a "weldment"), so it can easily be repaired using conventional shop tools.
*Orientation: The "front" of the engine (the engine governor and fluid pump end) is actually at the rear end of the locomotive, immediately adjacent to the locomotive's coolant supply and cooling system; the "rear" of the engine (the induction system and traction generator or alternator end) is at the front end of the locomotive, immediately adjacent to the locomotive's electrical cabinet.
*Rotation: Engine rotation is in the conventional clockwise direction, as viewed from the "front" of the engine, but is in a counterclockwise direction, as viewed from the front of the locomotive. Marine and stationary installations are available with either a left or a right-hand rotating engine.
*Firing order
**Eight cylinder: 1, 5, 3, 7, 4, 8, 2, 6
[Even firing: an ignition event every 45 degrees of crankshaft rotation; directly opposite pairs of cylinders always fire 45° apart.]
**Twelve cylinder: 1, 7, 4, 10, 2, 8, 6, 12, 3, 9, 5, 11
[Odd firing: ideally, an ignition event would occur every 30° of crankshaft rotation; however, each pair of cylinders always fires 45° apart. As a result, the firing intervals alternate between 45° and 15°.]
**Sixteen cylinder: 1, 8, 9, 16, 3, 6, 11, 14, 4, 5, 12, 13, 2, 7, 10, 15
[Even firing: an ignition event every 22.5° of crankshaft rotation. Since each pair of cylinders always fires 45° apart, the engine fires in a right-right-left-left fashion.]
**Twenty cylinder: 1, 19, 8, 11, 5, 18, 7, 15, 2, 17, 10, 12, 3, 20, 6, 13, 4, 16, 9, 14
[Odd firing: To achieve even firing, the firing intervals must be 18°. However, each pair of cylinders always fire 45° apart. As a result, the firing intervals alternate between 9° and 27°.]
*Exhaust valves: Four per cylinder
*Main bearings
**Eight cylinder: 5 (one-piece crankshaft)
**Twelve cylinder: 7 (one-piece crankshaft)
**Sixteen cylinder: 10 (two-piece crankshaft, pinned and bolted in the middle)
**Twenty cylinder: 12 (two-piece crankshaft, pinned and bolted in the middle)
*Fuel injection:
Unit injector;
Electronic unit injector in post-1995 engines
*Engine starting
**AC traction generator: Dual electric starting motors, parallel-connected 64 volt starters in early applications, series-connected 32 volt starters in late applications
**DC traction generator: Generator series field
**AC power generator: Dual pneumatic starters in most stationary engine applications
*Engine Control
**
Woodward PGE locomotive governor, or equivalent, in mechanical engines; EMD engine control unit in electronic engines
*Weight (E3B turbocharged models)
**Eight cylinder: 22,050 pounds (10.0 tonnes)
**Twelve cylinder: 28,306 pounds (12.8 tonnes)
**Sixteen cylinder: 36,425 pounds (16.5 tonnes)
**Twenty cylinder: 43,091 pounds (19.5 tonnes)
Versions
Stationary/marine versions
Like most EMD engines, the 645 is also sold for stationary and marine applications.
Stationary and marine installations are 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 has been altered to accommodate the rolling and pitching motions encountered in marine applications.
Engine Speed
*Full . . 900 RPM for 60 Hz power generation; 750 RPM for 50 Hz power generation; variable up to 900 RPM for marine applications
*Idle . . 350 RPM
*Compression Ratio . . 16:1
Brake Horsepower (ABS Rating)
*Model 645E6 Engines - 900 RPM
**8-cylinder . . . .1050
**12-cylinder . . . 1500
**16-cylinder . . . 1950
*Model 645E7C/F7B Engines - 800 RPM / 900 RPM
**8-cylinder . . . . ---- / 1525
**12-cylinder . . . .2305 / 2550
**16-cylinder . . . .3070 / 3400
**20-cylinder . . . .3600 / 4000
See also
*
EMD 567
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 ...
*
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 ...
*
EMD 1010
The EMD 1010 or EMD 265 is a line of four-stroke diesel engines manufactured by Electro-Motive Diesel. The precursor to the 1010 was introduced around 1998 as the 265H or H-Engine. The H-engine was initially designed for use as a 16 cylinder, th ...
Notes
References
External links
*
*
*
{{Progress Rail Services
Diesel locomotive engines
Marine diesel engines
Two-stroke diesel engines
V6 engines
V8 engines