A two-stroke diesel engine is an

internal combustion engine An internal combustion engine (ICE or IC engine) is a heat engine in which the combustion of a fuel occurs with an oxidizer (usually air) in a combustion chamber that is an integral part of the working fluid flow circuit. In an internal c ...

that uses

compression ignition 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-call ...

, with a

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 ...

combustion cycle. It was invented by Hugo Güldner in 1899.Mau (1984) p.7 In

, air is first compressed and heated; fuel is then injected into the cylinder, causing it to self-ignite. The two-stroke cycle ignites the fuel to deliver a power stroke each time the piston rises and falls in the cylinder, without any need for the additional exhaust and induction strokes of the four-stroke cycle.

History

According to the designer of the first operational diesel engine, Imanuel Lauster,

Rudolf Diesel Rudolf Christian Karl Diesel (, ; 18 March 1858 – 29 September 1913) was a German inventor and mechanical engineer who is famous for having invented the diesel engine, which burns diesel fuel; both are named after him. Early life and educat ...

did not originally intend using the two-stroke principle for the diesel engine. Hugo Güldner designed what is believed to be the first operational two-stroke diesel engine in 1899, and he convinced

MAN A man is an adult male human. Prior to adulthood, a male human is referred to as a boy (a male child or adolescent). Like most other male mammals, a man's genome usually inherits an X chromosome from the mother and a Y chromo ...

, Krupp and Diesel to fund building this engine with ℳ 10,000 each. Güldner's engine had a 175 mm

work Work may refer to: * Work (human activity), intentional activity people perform to support themselves, others, or the community ** Manual labour, physical work done by humans ** House work, housework, or homemaking ** Working animal, an animal t ...

cylinder, and a 185 mm scavenging cylinder; both had a stroke of 210 mm. The indicated power output was . In February 1900, this engine ran under its own power for the first time. However, with its actual power output of only and high fuel consumption of 380 g·PS⁻¹·h⁻¹ (517 g·kW⁻¹·h⁻¹), it did not prove to be successful; Güldner's two-stroke diesel engine project was abandoned in 1901. In 1908, MAN Nürnberg offered single-acting piston two-stroke diesel engines for marine use,Mau (1984) p. 16 the first double-acting piston engine from MAN Nürnberg was made in 1912 for an electric power plant.Mau (1984) p. 9 In collaboration with Blohm + Voss in

Hamburg (male), (female) en, Hamburger(s), Hamburgian(s) , timezone1 = Central (CET) , utc_offset1 = +1 , timezone1_DST = Central (CEST) , utc_offset1_DST = +2 , postal ...

, MAN Nürnberg built the first double-acting piston two-stroke engine for marine use in 1913/1914.Mau (1984) p. 10 Paul Henry Schweitzer argues that the opposed piston two-stroke diesel engine was originally invented by

Hugo Junkers Hugo Junkers (3 February 1859 – 3 February 1935) was a German aircraft engineer and aircraft designer who pioneered the design of all-metal airplanes and flying wings. His company, Junkers Flugzeug- und Motorenwerke AG (Junkers Aircraft and ...

. During World War I, MAN Nürnberg built a six-cylinder, double-acting piston, two-stroke diesel engine with a rated power of . MAN moved their two-stroke diesel engine department from Nürnberg to Augsburg in 1919.Mau (1984) p. 17 By 1939, several two-stroke diesel types were in widespread use, and others were being developed for high-power applications,. Of several two-stroke aircraft diesel engine concepts, the

Junkers Jumo 205 The Jumo 205 aircraft engine was the most famous of a series of aircraft diesel engines produced by Junkers. The Jumo 204 first entered service in 1932. Later engines of this type comprised the experimental Jumo 206 and Jumo 208, with the Jumo 2 ...

was the only type to be made in significant quantities, with approximately 900 units in all. Introduced in 1939, the design concept had first been proposed in 1914. The design was license-manufactured in several countries. Subsequent advances in petrol fuel injection technology rendered the two-stroke aircraft engine obsolete.Konrad Reif: ''Dieselmotor Management – Systeme, Komponenten, Steuerung und Regelung'' (Diesel Engine Management – Systems, Components, Control and Regulation), 5th edition, Springer, Wiesbaden 2012, ISBN 978-3-8348-1715-0, p. 102 Although the Napier Culverin, a licensed version of the larger Jumo 204, was not put into production, the later

Napier Deltic The Napier Deltic engine is a British opposed-piston valveless, supercharged uniflow scavenged, two-stroke diesel engine used in marine and locomotive applications, designed and produced by D. Napier & Son. Unusually, the cylinders were disp ...

incorporated a redesigned triangular arrangement with three cylinders per bank, and was successfully adopted in locomotive and marine applications, well into the postwar era. From 1923 until 1982, MAN had been using reverse flow scavenging for their marine two-stroke engines. From 1945, a slide valve for the ram induction effect was installed, and from 1954, constant gas flow supercharging with intercooling was used.Mau (1984) p. 151 The supercharging was achieved with the combination of four supercharging methods: a crankshaft-driven roots type supercharger, a turbo supercharger, the engine pistons' undersides, and a supercharger powered by an electric motor.Mau (1984) p. 23 The slide valve for the ram induction effect eventually proved to be prone to failure and was rendered obsolete by increasing supercharging rates in the early 1960s. In the early 1980s, all major two-stroke diesel engine manufacturers switched from reverse flow scavenging to uniflow scavenging, because the latter, despite being more complicated, allows a higher engine efficiency and thus lower fuel consumption. Charles F. Kettering and colleagues, working at the General Motors Research Corporation and GM's subsidiary Winton Engine Corporation during the 1930s, designed two-stroke diesel engines for on-road use with much higher power-to-weight ratios and output range than contemporary four-stroke diesels. The first mobile application of the two-stroke diesel engine was with the diesel streamliners of the mid-1930s. Continued development work resulted in improved two-stroke diesels for locomotive and marine applications in the late 1930s. This work laid the foundation for the

dieselisation Dieselisation (US: dieselization) is the process of equipping vehicles with a diesel engine or diesel engines. It can involve replacing an internal combustion engine powered by petrol (gasoline) fuel with an engine powered by diesel fuel, as o ...

of railroads in the 1940s and 1950s in the United States. Towards the end of the twentieth century, interest in

aircraft diesel engine An aircraft is a vehicle that is able to fly by gaining support from the air. It counters the force of gravity by using either static lift or by using the dynamic lift of an airfoil, or in a few cases the downward thrust from jet engines. ...

s revived, with two-stroke examples such as the Superior Air Parts Gemini Diesel 100 under development as of 2015.

Characteristics

Diesel or oil engines

The defining characteristic of the diesel engine is that it relies on

. As air is compressed it heats up. Fuel is then injected into the hot, compressed air and ignites spontaneously. This allows it to operate with a lean mixture comprising mainly air. Together with the high compression ratio, this makes it more economical than the petrol or gasoline

Otto engine The Otto engine was a large stationary single-cylinder internal combustion four-stroke engine designed by the German Nicolaus Otto. It was a low-RPM machine, and only fired every other stroke due to the Otto cycle, also designed by Otto. Typ ...

. It also does not require either a carburettor to mix the air and fuel before delivery, or a spark plug or other ignition system. Another consequence is that to control speed and power output, the airflow is not throttled but only the amount of fuel injected at each cycle is varied.

Two-stroke cycle

In the two-stroke cycle, the four stages of internal combustion engine operation (intake, compression, ignition, exhaust) occur in one 360° revolution of the crank shaft, whereas in a four-stroke engine they take two complete revolutions. Consequently, in the two-stroke cycle the stages overlap through most of the engine's operation. This makes its

thermodynamic Thermodynamics is a branch of physics that deals with heat, work, and temperature, and their relation to energy, entropy, and the physical properties of matter and radiation. The behavior of these quantities is governed by the four laws of the ...

and

aerodynamic Aerodynamics, from grc, ἀήρ ''aero'' (air) + grc, δυναμική (dynamics), is the study of the motion of air, particularly when affected by a solid object, such as an airplane wing. It involves topics covered in the field of fluid dyn ...

processes more complex. Because the four-stroke cylinder fires only every other revolution, the power output of the two-stroke cycle is theoretically twice as much. However, the scavenging losses make this advantage difficult to achieve in practice. * ''Intake'' begins when the piston is near the bottom dead center (BDC). Air is admitted to the

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 ...

through ports in the cylinder wall (there are no intake valves). All two-stroke diesel engines require artificial aspiration to operate, and will either use a mechanically driven blower or a turbo-compressor to charge the cylinder with air. In the early phase of intake, the air charge is also used to force out any remaining combustion gases from the preceding power stroke, a process referred to as

scavenging Scavengers are animals that consume dead organisms that have died from causes other than predation or have been killed by other predators. While scavenging generally refers to carnivores feeding on carrion, it is also a herbivorous feeding ...

. * As the piston rises, the intake charge of air is compressed. Near top dead center, fuel is injected, resulting in combustion due to the charge's extremely high pressure and heat created by compression, which drives the piston downward. As the piston moves downward in the cylinder, it will reach a point where the exhaust port is opened to expel the high-pressure combustion gasses. However, most current two-stroke diesel engines use top-mounted

poppet valve A poppet valve (also called mushroom valve) is a valve typically used to control the timing and quantity of gas or vapor flow into an engine. It consists of a hole or open-ended chamber, usually round or oval in cross-section, and a plug, usua ...

s and uniflow scavenging. Continued downward movement of the piston will expose the air intake ports in the cylinder wall, and the cycle will start again.

Two-stroke diesels

In most EMD and GM (i.e. Detroit Diesel) two-stroke engines, very few parameters are adjustable and all the remaining ones are fixed by the mechanical design of the engines. The scavenging ports are open from 45 degrees before BDC, to 45 degrees after BDC. However, some manufacturers make the scavenging port timing asymmetric by offsetting the crankshaft. The remaining, adjustable, parameters have to do with exhaust valve and injection timing (these two parameters are not necessarily symmetrical about TDC or, for that matter, BDC), they are established to maximize combustion gas exhaust and to maximize charge air intake. A single camshaft operates the poppet-type exhaust valves and the Unit injector, using three lobes: two lobes for exhaust valves (either two valves on the smallest engines or four valves on the largest, and a third lobe for the unit injector). Specific to EMD two-stroke engines ( 567, 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 ...

): * The power stroke begins at TDC ( ° injection of fuel leads TDC by 4° 56° such that injection of fuel will be completed by TDC or very shortly thereafter; the fuel ignites as fast as it is injected), after the power stroke the exhaust valves are opened, thereby greatly reducing combustion gas pressure and temperature, and preparing the cylinder for scavenging, for a ''power stroke'' duration of 103°. * Scavenging begins 32° later, at BDC–45° 35° and ends at BDC+45° 25° for a ''scavenging'' duration of 90 degrees; the 32° delay in opening the scavenging ports (constraining the length of the power stroke), and the 16° delay after the scavenging ports are closed (thereby initiating the compression stroke), maximizes scavenging effectiveness, thereby maximizing engine power output, while minimizing engine fuel consumption. * Towards the end of scavenging, all products of combustion have been forced out of the cylinder, and only "charge air" remains (scavenging may be accomplished by Roots blowers, for charge air induction at slightly above ambient, or EMD's proprietary turbo-compressor, which acts as a blower during start-up and as a turbocharger under normal operational conditions, and for charge air induction at significantly above ambient, and which turbocharging provides a 50-percent maximum rated power increase over Roots-blown engines of the same displacement). * The compression stroke begins 16° later, at BDC+61° 41° for a ''compression stroke'' duration of 119°. * In EFI-equipped engines, the electronically-controlled unit injector is still actuated mechanically; the amount of fuel fed into the plunger-type injector pump is under the control of the engine control unit (in locomotives, locomotive control unit), rather than the traditional Woodward PGE governor, or equivalent engine governor, as with conventional unit injectors. Specific to GM two-stroke ( 6-71) and related on-road/off-road/marine two-stroke engines: * The same basic considerations are employed (the GM/EMD 567 and the GM/Detroit Diesel 6-71 engines were designed and developed at the same time, and by the same team of engineers and engineering managers). * Whereas all EMD and Detroit Diesel engines employ turbocharging, only some EMD engines employ a turbo-compressor system; some Detroit Diesel engines employ a conventional turbocharger, in some cases with intercooling, followed by the usual Roots blower, as a turbo-compressor system would be too costly for certain very cost-sensitive and highly competitive applications.

Fuels

Fuels used in diesel engines can be composed of heavier hydrocarbon oils than the petrol or

gasoline Gasoline (; ) or petrol (; ) (see ) is a transparent, petroleum-derived flammable liquid that is used primarily as a fuel in most spark-ignited internal combustion engines (also known as petrol engines). It consists mostly of organi ...

used in spark-ignition engines, making them less volatile with a higher flash point and giving them higher energy density. They are therefore easier and safer to handle and occupy less volume for a given amount of energy. Two stroke diesels usually burn even heavier grades of fuel oil than standard

diesel fuel Diesel fuel , also called diesel oil, is any liquid fuel specifically designed for use in a diesel engine, a type of internal combustion engine in which fuel ignition takes place without a spark as a result of compression of the inlet air and ...

s. In two-stroke marine diesel engines for sea-going craft, the most common fuels are residue oils.Mau (1984) p. 311 Günter Mau argues that no uniform standards for such fuels exist, which is why they have several different colloquial names, including ''Marine Intermediate Fuel'', ''Heavy Fuel Oil'', ''Marine Bunker Fuel'', and ''Bunker C Fuel''.Mau (1984) p. 309 Heavy fuel oils were also used in the Jumo 205 two-stroke diesel aircraft engine. In the 1960s, residue oils were "concocted on the basis of refinery waste". Residue oils are of very low quality with high viscosity and low

cetane number Cetane number (cetane rating) is an indicator of the combustion speed of diesel fuel and compression needed for ignition. It plays a similar role for diesel as octane rating does for gasoline. The CN is an important factor in determining the quali ...

s, but cheap and thus economical to use.Virgil B. Guthrie (ed.) :''Petroleum Products Handbook'', McGraw-Hill, New York/Toronto/London 1960, section 6–26.

Manufacturers

Burmeister & Wain Burmeister & Wain was a large established Danish shipyard and leading diesel engine producer headquartered in Copenhagen, Denmark. Founded by two Danes and an Englishman, its earliest roots stretch back to 1846. Over its 150-year history, it ...

(part of MAN Diesel since 1980), double-acting diesels for marine propulsion from 1930 onwards, also made by shipbuilders under licence * Detroit Diesel, uniflow engines for on- and off-road trucks, on-road buses and stationary applications * Doxford, opposed piston slow speed marine diesel engines. *

Electro-Motive Diesel 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 s ...

, uniflow diesel engines for marine, railway and stationary applications *

Fairbanks-Morse Fairbanks, Morse and Company was an American manufacturing company in the late 19th and early 20th century. Originally a weighing scale manufacturer, it later diversified into pumps, engines, windmills, coffee grinders, radios, farm tractors, fee ...

opposed-piston An opposed-piston engine is a piston engine in which each cylinder has a piston at both ends, and no cylinder head. Petrol and diesel opposed-piston engines have been used mostly in large-scale applications such as ships, military tanks, and f ...

diesel engines for marine and stationary applications. An upscaled unlicensed copy of the

aero engine. * Foden, FD series of diesel engines for commercial vehicle, marine and industrial power. * Junkers, patent from 1892, opposed piston design for stationary, marine and automotive (single crankshaft) engines, later aircraft usage with dual crankshaft layout (Junkers Jumo 205). * Gray Marine, 6-71 uniflow diesel engines. *

MAN Diesel & Turbo MAN Energy Solutions SE is a German multinational company based in Augsburg that produces large-bore gas and diesel engines and also turbomachinery for marine, rail and stationary applications, as locomotive and marine propulsion systems, power ...

, crosshead diesel engines for marine propulsion *

Mitsubishi Heavy Industries is a Japanese multinational engineering, electrical equipment and electronics corporation headquartered in Tokyo, Japan. MHI is one of the core companies of the Mitsubishi Group and its automobile division is the predecessor of Mitsubishi Mo ...

, crosshead diesel engines for marine propulsion *

Napier & Son D. Napier & Son Limited was a British engineering company best known for its luxury motor cars in the Edwardian era and for its aero engines throughout the early to mid-20th century. Napier was founded as a precision engineering company in 1 ...

and Napier Culverin opposed-piston valveless, supercharged uniflow scavenged, two-stroke diesel engines. Starting out with licensed

derivative. *

Rootes Group The Rootes Group or Rootes Motors Limited was a British automobile manufacturer and, separately, a major motor distributors and dealers business. Run from London's West End, the manufacturer was based in the Midlands and the distribution and de ...

, the Commer TS3 engine for trucks *

Wärtsilä Wärtsilä Oyj Abp (), trading internationally as Wärtsilä Corporation, is a Finnish company which manufactures and services power sources and other equipment in the marine and energy markets. The core products of Wärtsilä include technolo ...

, crosshead diesel engines for marine propulsion *

Waukesha Engine Waukesha is a brand of large stationary reciprocating engines produced by INNIO Waukesha Gas Engines, a business unit of the INNIO Group. For 62 years, Waukesha was an independent supplier of gasoline engines, diesel engines, multifuel engines ...

, large stationary reciprocating engines produced by INNIO Waukesha Gas Engines ** Brons, a former Dutch engine manufacturer in

Appingedam Appingedam (; gos, n Daam) is a city and former municipality in the northeastern Netherlands. Although there is no certainty as to the exact age of Appingedam, historical research demonstrates that the place in which the city would eventually b ...

(now represented by Waukesha Engine)

Notes

References

Citations

Bibliography

* Mau, Günter (1984), ''Handbuch Dieselmotoren im Kraftwerks- und Schiffsbetrieb'', Springer-Vieweg, Braunschweig/Wiesbaden 1984, . * Sass, Friedrich (1962), ''Geschichte des deutschen Verbrennungsmotorenbaus von 1860 bis 1918'', Springer, Berlin/Heidelberg 1962, .

History

Characteristics

Diesel or oil engines

Two-stroke cycle

Two-stroke diesels

Fuels

Manufacturers

Notes

References

Citations

Bibliography

Further reading