The Detroit Diesel Series 110, with displacement per cylinder, was introduced in 1945 as more-powerful alternative to the existing

Series 71 The Detroit Diesel Series 71 is a two-stroke diesel engine series, available in both inline and V configurations, manufactured by Detroit Diesel. The number 71 refers to the nominal displacement per cylinder in cubic inches, a rounding off of ...

engines. It was used in a variety of applications, including construction equipment, marine propulsion and power generation. The most popular use was in the

Budd RDC The Budd Rail Diesel Car, RDC, Budd car or Buddliner is a self-propelled diesel multiple unit (DMU) railcar. Between 1949 and 1962, 398 RDCs were built by the Budd Company of Philadelphia, Pennsylvania, United States. The cars were primarily adop ...

self-powered rail car. It was also heavily used in

Euclid Euclid (; grc-gre, Εὐκλείδης; BC) was an ancient Greek mathematician active as a geometer and logician. Considered the "father of geometry", he is chiefly known for the '' Elements'' treatise, which established the foundations of ...

construction machinery. In 1951 a marine version was also introduced.

Overview

The Detroit Diesel Series 110 is a

two-stroke cycle 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 ...

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 ...

series, available in straight-6 cylinder configuration (in keeping with the standard Detroit Diesel practice at the time, engines were referred to using a concatenation of the number of cylinders and the displacement, so this was a model 6-110). It was introduced as the second mass-market product of the Detroit Diesel Engine Division of General Motors in 1945. The 6-110 series engines utilize

uniflow scavenging 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 ...

, where a blower mounted to the exterior of the engine provides intake air through cored passages in the engine block and ports in the cylinder walls at slightly greater than atmospheric pressure. The engine exhausts through push-rod operated poppet valves in the cylinder head, with either two or four valves per cylinder. Unit fuel injection is employed, one injector per cylinder, with no high fuel pressure outside of the injector body. The injectors are cycled from the same camshaft responsible for opening the exhaust valves. As a two stroke cycle Diesel engine cannot naturally aspirate, or draw in its own intake air, the blower is necessary to provide air in an amount sufficient both for scavenging of exhaust gasses from the cylinder and to support combustion. Initial versions of the 6-110 engine used a centrifugal-type supercharger. This was very practical for fixed-speed applications such as marine or generator service, but proved a failure in automotive applications. "The engine was developed on the dyno and was never operated above rated RPM. The first application was in Euclid mining trucks, where the driver's income depends on how fast he drives the empty truck back down into the pit. The centrifugal blower ran about 10 times engine speed. Exceeding that RPM was fatal, and in a truck a single missed downshift could mean a failed engine."''Wheels of Time'' (Antique Truck Historical Society, www.aths.org), Jan/Feb 2004 Pg. 17 For that reason a Roots type blower was made available as an option after about 1952. Later high performance versions were available with

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 ...

s. The initial Series 71 engines from Detroit Diesel were produced in 1-, 2-, 3-, 4- and 6-cylinder versions. The most powerful version, the 6-71, displaced and produced at 1800 rpm. While these engines with their low cost and relatively light weight were highly successful, there was also great demand for higher horsepower, especially for non-highway applications such as power generation and construction equipment. Since inline engines of more than 6 cylinders tend to have substantial technical problems, and since GM was not to perfect V-block engine technology for another decade, they took two divergent approaches to achieving higher horsepower. One was to couple together multiple 6-71 engines in twin (side-by-side), tandem (fore-and-aft) and the quad (four 6-71s all driving a single shaft). While these did produce high horsepower and even added some redundancy, they were mechanically complex and relatively expensive. The alternative approach was to design a new engine and increase the displacement from the existing , or roughly a 50% increase. This resulted in the model 6-110, with total displacement, that produced a continuous rating of at 1800 rpm. While the basic engine components (block, crankshaft, pistons, etc.) were all new, many of the additional components (injectors, governors, accessories, marine gears) were simply shared with the Series 71 engines. Since the 6-110 was designed from the outset for heavy-duty high-horsepower applications, it was never produced in a four-cylinder version (that would have displaced , very close to the displaced by the 6-71). The introduction of the V-71 series in 1957 effectively doomed the 6-110, as both the 8-71 ( displacement) and 12-71 ( displacement) offered higher horsepower in a more compact form factor. However the high torque and great reliability of the 6-110 was still valued for heavy-duty applications. The Series 110 was last produced in 1965, after which the manufacturing rights were purchased by th
W. W. Williams Distribution Company
which continues to provide parts for these engines.

Specifications

The 6-110 was a remarkably flexible engine. The same basic block was available in both clockwise and counterclockwise rotation, and the exhaust manifold was also available on either the left or right side. A turbocharged model was on the market by 1958, boosting the power to at 2000 RPM. All 6-110 engines were designated a Unit Model Number 62200, with 62200 RA designating starboard rotation and 62200 LA designating port rotation. Other specifications include:

Advertising

Quoting from an introductory ad (Yachting Magazine, January 1951): "Here's the newest member of the General Motors Diesel family - the brawny 6-110 engine that develops . It is 50% more powerful than the famous 6-cylinder GM " 71" engine that powers so many of America's fine yachts, tugs and fishing vessels -- yet it weighs less than per horsepower, including the famous GM hydraulic reverse gear." Quoting from an introductory article (Motor Boating Magazine, August 1950): "A new compact, light weight Diesel engine, now being manufactured by Detroit Diesel Engine Division of General Motors, promises the economy and efficiency of Diesel power in scores of applications where such power could not be used before because of size and weight. The new engine, designated the "110" because of its displacement per cylinder, is a 6-cylinder, 2-cycle unit rated at . The engine has undergone extensive testing in U. S. Coast Guard vessels. The new 110 engine embodies the same advanced principles of high-speed, two-cycle design as the 71 series, of which more than 45,000,000 horsepower have been produced by Detroit Diesel since 1937. The horsepower rating of at 1800 r.p.m. is attained with a b.m.e.p. of per square inch. Bore and stroke is . Features include blower scavenging with a new and highly efficient gear-driven centrifugal blower furnishing considerably more air for the cylinders than is needed for combustion. GM unit injectors (one for each cylinder) pump, meter and atomize the fuel, and are easily removed for inspection or exchange. Cylinder block and head are one-piece castings, both being symmetrical about a vertical plane between the No. 3 and 4 cylinders. This symmetry allows the cylinder head and block to be reversed, giving a choice of rotational directions and making possible a variety of accessory locations to suit installation requirements. The engine is of rugged heavy-duty construction throughout. All wearing parts such as

cylinder liner In a reciprocating engine, the cylinder is the space in which a piston travels. The inner surface of the cylinder is formed from either a thin metallic liner (also called "sleeve") or a surface coating applied to the engine block. A piston is se ...

s, bearings, valve guides and inserts are precision parts and are readily replaceable, which adds to engine life and ease of repair. Large

main bearing Main may refer to: Geography * Main River (disambiguation) **Most commonly the Main (river) in Germany * Main, Iran, a village in Fars Province *"Spanish Main", the Caribbean coasts of mainland Spanish territories in the 16th and 17th centuries ...

and

crankpin A crankpin or crank pin, also known as a rod bearing journal, is a mechanical device in an engine which connects the crankshaft to the connecting rod for each cylinder. It has a cylindrical surface, to allow the crankpin to rotate relative to the ...

journals assure long bearing life."

References

{{Reflist 110 Two-stroke diesel engines Straight-six engines Diesel engines by model