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The sleeve valve is a type of
valve A valve is a device or natural object that regulates, directs or controls the flow of a fluid (gases, liquids, fluidized solids, or slurries) by opening, closing, or partially obstructing various passageways. Valves are technically fitting ...
mechanism for
piston engine A reciprocating engine, also often known as a piston engine, is typically a heat engine that uses one or more reciprocating pistons to convert high temperature and high pressure into a rotating motion. This article describes the common fea ...
s, distinct from the usual
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, usual ...
. Sleeve valve engines saw use in a number of pre-
World War II World War II or the Second World War, often abbreviated as WWII or WW2, was a world war that lasted from 1939 to 1945. It involved the World War II by country, vast majority of the world's countries—including all of the great power ...
luxury cars and in the United States in the
Willys-Knight Willys-Knight is an automobile that was produced between 1914 and 1933 by the Willys-Overland Company of Toledo, Ohio. John North Willys purchased the Edwards Motor Car Company of Long Island, New York, in 1913, moving the operation to Elyr ...
car and light truck. They subsequently fell from use due to advances in poppet-valve technology, including sodium cooling, and the Knight system double sleeve engine's tendency to burn a lot of lubricating oil or to seize due to lack of it. The Scottish
Argyll Argyll (; archaically Argyle, in modern Gaelic, ), sometimes called Argyllshire, is a historic county and registration county of western Scotland. Argyll is of ancient origin, and corresponds to most of the part of the ancient kingdom of ...
company used its own, much simpler and more efficient, single sleeve system (Burt-McCollum) in its cars, a system which, after extensive development, saw substantial use in British
aircraft engine An aircraft engine, often referred to as an aero engine, is the power component of an aircraft propulsion system. Most aircraft engines are either piston engines or gas turbines, although a few have been rocket powered and in recent years ma ...
s of the 1940s, such as the Napier Sabre, Bristol Hercules,
Centaurus Centaurus is a bright constellation in the southern sky. One of the largest constellations, Centaurus was included among the 48 constellations listed by the 2nd-century astronomer Ptolemy, and it remains one of the 88 modern constellations. I ...
, and the promising but never mass-produced Rolls-Royce Crecy, only to be supplanted by the jet engines.


Description

A sleeve valve takes the form of one or more machined sleeves. It fits between the piston and the cylinder wall in the cylinder of an internal combustion engine, where it rotates and/or slides. The cylinder wall has inlet and exhaust ports, identical to a two-stroke motor. Ports (holes) in the side of the sleeves come into alignment with the cylinder's inlet and exhaust ports at the appropriate stages in the engine's cycle.


Types of sleeve valve

The first successful sleeve valve was patented by Charles Yale Knight, and used twin alternating sliding sleeves. It was used in some luxury automobiles, notably Willys,
Daimler Daimler is a German surname. It may refer to: People * Gottlieb Daimler (1834–1900), German inventor, industrialist and namesake of a series of automobile companies * Adolf Daimler (1871–1913), engineer and son of Gottlieb Daimler * Paul Da ...
,
Mercedes-Benz Mercedes-Benz (), commonly referred to as Mercedes and sometimes as Benz, is a German luxury and commercial vehicle automotive brand established in 1926. Mercedes-Benz AG (a Mercedes-Benz Group subsidiary established in 2019) is headquarter ...
,
Minerva Minerva (; ett, Menrva) is the Roman goddess of wisdom, justice, law, victory, and the sponsor of arts, trade, and strategy. Minerva is not a patron of violence such as Mars, but of strategic war. From the second century BC onward, the R ...
, Panhard, Peugeot and Avions Voisin.
Mors Mors may refer to: *Mors (mythology), the personification of death in Roman mythology *Mors, Latin for death *Mors (automobile), a French car manufacturer from 1895 to 1925 :* American Mors, Mors vehicles produced under licence in America by the S ...
adopted double sleeve-valve engines made by Minerva. The higher oil consumption was heavily outweighed by the quietness of running and the very high mileages without servicing. Early poppet-valve systems required decarbonization at very low mileages. The Burt-McCollum sleeve valve was named for the two inventors who applied for similar patents within a few weeks of each other. The Burt system was an open sleeve type, driven from the crankshaft side, while the McCollum design had a sleeve in the head and upper part of the cylinder, and a more complex port arrangement (Source: 'Torque Meter' Magazine, AEHS). The design that entered production was more 'Burt' than 'McCollum.' It was used by the Scottish company
Argyll Argyll (; archaically Argyle, in modern Gaelic, ), sometimes called Argyllshire, is a historic county and registration county of western Scotland. Argyll is of ancient origin, and corresponds to most of the part of the ancient kingdom of ...
for its cars, and was later adopted by
Bristol Bristol () is a city, ceremonial county and unitary authority in England. Situated on the River Avon, it is bordered by the ceremonial counties of Gloucestershire to the north and Somerset to the south. Bristol is the most populous city i ...
for its radial aircraft engines. It used a single sleeve driven by an eccentric from a timing axle set at 90 degrees to the cylinder axis. Mechanically simpler and more rugged, the Burt-McCollum valve had the additional advantage of reducing oil consumption (compared to other sleeve valve designs), while retaining the combustion chambers and big, uncluttered, porting area possible in the
Knight A knight is a person granted an honorary title of knighthood by a head of state (including the Pope) or representative for service to the monarch, the church or the country, especially in a military capacity. Knighthood finds origins in the G ...
system. A small number of designs used a "cuff" sleeve in the cylinder head instead of the cylinder proper, providing a more "classic" layout compared to traditional poppet valve engines. This design also had the advantage of not having the piston within the sleeve, although in practice this appears to have had little practical value. On the downside, this arrangement limited the size of the ports to that of the cylinder head, whereas in-cylinder sleeves could have much larger ports.


Advantages/disadvantages


Advantages

The main advantages of the sleeve-valve engine are: * High volumetric efficiency due to very large port openings. Sir Harry Ricardo also demonstrated better mechanical and thermal efficiency. * The size of the ports can be readily controlled. This is important when an engine operates over a wide RPM range, since the speed at which gas can enter and exit the cylinder is defined by the size of the duct leading to the cylinder, and varies according to the cube of the RPM. In other words, at higher RPM the engine typically requires larger ports that remain open for a greater proportion of the cycle; this is fairly easy to achieve with sleeve valves, but difficult in a poppet valve system. *Good exhaust scavenging and controllable swirl of the inlet air/fuel mixture in single-sleeve designs. When the intake ports open, the air/fuel mixture can be made to enter tangentially to the cylinder. This helps scavenging when exhaust/inlet timing overlap is used and a wide speed range required, whereas poor poppet valve exhaust scavenging can dilute the fresh air/fuel mixture intake to a greater degree, being more speed dependent (relying principally on exhaust/inlet system resonant tuning to separate the two streams). Greater freedom of combustion chamber design (few constraints other than the spark plug positioning) means that fuel/air mixture swirl at top dead centre (TDC) can also be more controlled, allowing improved ignition and flame travel which, as demonstrated by H. Ricardo, allows at least one extra unit of compression ratio before detonation, compared with the poppet valve engine. *The
combustion chamber A combustion chamber is part of an internal combustion engine in which the fuel/air mix is burned. For steam engines, the term has also been used for an extension of the firebox which is used to allow a more complete combustion process. Intern ...
formed with the sleeve at the top of its stroke is ideal for complete, detonation-free combustion of the charge, as it does not have to contend with compromised chamber shape and hot exhaust (poppet) valves. *No springs are involved in the sleeve valve system, therefore the power needed to operate the valve remains largely constant with the engine's RPM, meaning that the system can be used at very high speeds with no penalty for doing so. A problem with high-speed engines that use poppet valves is that as engine speed increases, the speed at which the valve moves also has to increase. This in turn increases the loads involved due to the inertia of the valve, which has to be opened quickly, brought to a stop, then reversed in direction and closed and brought to a stop again. Large poppet valves that allow good air-flow have considerable mass and require a strong spring to overcome their inertia when closing. At higher engine speeds, the valve spring may be unable to close the valve effectively for the required amount of crankshaft degree rotation before the next opening event, resulting in a failure to completely and/or remain closed. Harmonic frequency vibration produced at certain RPM can also cause a resonance with the poppet valve spring greatly reducing its spring strength and ability to quickly and maintain the valve closed and be correctly in time with the reciprocating mass (this phenomenon can be countered by the use of dual valve springs as the secondary spring can assist the primary through the very narrow rpm range where such harmonic failure can occur allowing the engine to continue building RPM). These effects, called valve float and/or valve bounce could result in the valve being struck by the top of the rising piston. In addition, camshafts, push-rods, and valve rockers can be eliminated in a sleeve valve design, as the sleeve valves are generally driven by a single gear powered from the crankshaft. In an aircraft engine, this provided desirable reductions in weight and complexity. *Longevity, as demonstrated in early automotive applications of the Knight engine. Prior to the advent of leaded gasolines, poppet-valve engines typically required grinding of the valves and valve seats after 20,000 to 30,000 miles (32,000 to 48,000 km) of service. Sleeve valves did not suffer from the wear and recession caused by the repetitive impact of the poppet valve against its seat. Sleeve valves were also subjected to less intense heat build-up than poppet valves, owing to their greater area of contact with other metal surfaces. In the Knight engine, carbon build-up actually helped to improve the sealing of the sleeves, the engines being said to "improve with use", in contrast to poppet valve engines, which lose compression and power as valves, valve stems, and guides wear. Due to the continuous motion of the sleeve (Burt-McCollum type), the high wear points linked to poor lubrication in the TDC/BDC ( bottom dead centre) of piston travel within the cylinder are suppressed, so rings and cylinders lasted much longer. *The cylinder head is not required to host valves, allowing the spark plug to be placed in the best possible location for efficient ignition of the combustion mixture. For very big engines, where flame propagation speed limits both size and speed, the swirl induced by ports, as described by Harry Ricardo can be an additional advantage. In his research with two-stroke single sleeve valve compression ignition engines, Harry Ricardo proved that an open sleeve was feasible, acting as a second annular piston with 10% of the central piston area, that transmitted 3% of the power to the output shaft through the sleeve driving mechanism. This highly simplifies construction, as the ' junk head' is no longer needed. *Lower operating temperatures of all power-connected engine parts, cylinder and pistons. Harry Ricardo showed that as long as the clearance between sleeve and cylinder is adequately settled, and the lubricating oil film is thin enough, sleeves are 'transparent to heat'. *Continental in the United States conducted extensive research in single sleeve valve engines, pointing out that they were eventually of lower production cost and easier to produce. However, their aircraft engines soon equaled the performance of single-sleeve-valve engines by introducing improvements such as sodium-cooled poppet valves, and it seems also that the costs of this research, along with the October 1929 crisis, led to the Continental single-sleeve-valve engines not entering mass production. A book (''Continental! Its Motors and Its People'', W. Wagner, 1983. ) on Continental engines reports that General Motors had conducted tests with single sleeve valve engines, rejecting this kind of arrangement, and, according to M.
Hewland Hewland is a British engineering company, founded in 1957 by Mike Hewland, which specialises in racing-car gearboxes. Hewland currently employ 130 people at their Maidenhead facility and have diversified into a variety of markets being particul ...
(''Car & Driver'', July 1974) also Ford around 1959. Most of these advantages were evaluated and established during the 1920s by Roy Fedden and Harry Ricardo, possibly the sleeve valve engine's greatest advocate. He conceded that some of these advantages were significantly eroded as fuels improved up to and during World War II and as sodium-cooled exhaust valves were introduced in high-output aircraft engines.


Disadvantages

A number of disadvantages plagued the single sleeve valve: * Perfect, even very good, sealing is difficult to achieve. In a poppet valve engine, the piston possesses piston rings (at least three and sometimes as many as eight) which form a seal with the cylinder bore. During the "breaking in" period (known as "running-in" in the UK) any imperfections in one are scraped into the other, resulting in a good fit. This type of "breaking in" is not possible on a sleeve-valve engine, however, because the piston and sleeve move in different directions and in some systems even rotate in relation to one another. Unlike a traditional design, the imperfections in the piston do not always line up with the same point on the sleeve. In the 1940s this was not a major concern because the poppet valve stems of the time typically leaked appreciably more than they do today, so that oil consumption was significant in either case. To one of the 1922–1928 Argyll single sleeve valve engines, the 12, a four-cylinder 91 cu. in. (1,491 cc) unit, was attributed an oil consumption of one gallon for 1,945 miles, and 1,000 miles per gallon of oil in the 15/30 four-cylinder 159 cu. in. (2,610 cc). Some proposed an added ring in the base of the sleeve, between sleeve and cylinder wall. Single-sleeve-valve engines had a reputation of being much less smoky than the Daimler with engines of Knight double-sleeve engines counterparts. *The high oil consumption problem associated with the Knight double sleeve valve was fixed with the Burt-McCollum single sleeve valve, as perfected by Bristol. The models that had the complex ' junk head' installed a non-return purging valve on it; as liquids cannot be compressed, the presence of oil in the head space would result in problems. At top dead centre (TDC), the single-sleeve valve rotates in relation to the piston. This prevents boundary lubrication problems, as piston ring ridge wear at TDC and bottom dead centre (BDC) does not occur. The Bristol Hercules time between overhauls (TBO) life was rated at 3,000 hours, very good for an aircraft engine, but not so for automotive engines. Sleeve wear was located primarily in the upper part, inside the 'junk head'. *An inherent disadvantage is that the piston in its course partially obscures the ports, thus making it difficult for gases to flow during the crucial overlap between the intake and exhaust valve timing usual in modern engines. The 1954 printing of the book by Harry Ricardo ''The High-Speed Internal Combustion Engine'', and also some patents on sleeve valve production, point out that the available zone for ports in the sleeve depends on the type of sleeve drive and bore/stroke ratio; Ricardo tested successfully the 'open sleeve' concept in some two-stroke, compression ignition engines. It not only eliminated the head rings, but also allowed a reduction in height of the engine and head, thus reducing frontal area in an aircraft engine, the whole circumference of the sleeve being available for exhaust port area, and the sleeve acting in phase with the piston forming an annular piston with an area around 10% of that of the piston, that contributed to some 3% of power output through the sleeve driving mechanism to the crankshaft. The German-born engineer Max Bentele, after studying a British sleeve valve aero engine (probably a
Hercules Hercules (, ) is the Roman equivalent of the Greek divine hero Heracles, son of Jupiter and the mortal Alcmena. In classical mythology, Hercules is famous for his strength and for his numerous far-ranging adventures. The Romans adapted th ...
), complained that the arrangement required more than 100 gearwheels for the engine, too many for his taste. * A serious issue with large single-sleeve aero-engines is that their maximum reliable rotational speed is limited to about 3,000 RPM, but the M Hewland car engine was raced above 10,000 rpm without toil. * Improved fuel octanes, above about 87 RON, have assisted poppet-valve engines’ power output more than to the single-sleeve engines’. * The increased difficulty with oil consumption and cylinder-assembly lubrication was reported as never having been solved in series-produced engines. Railroad and other large single sleeve-valve engines emit more smoke when starting; as the engine reaches operating temperature and tolerances enter the adequate range, smoke is greatly reduced. For two-stroke engines, a three-way catalyst with air injection in the middle was proposed as best solution in a SAE Journal article around the year 2000. * Some (Wifredo Ricart, Alfa-Romeo) feared the build-up of heat inside the cylinder, however Ricardo proved that if only a thin oil film is retained and working clearance between the sleeve and the cylinder barrel was kept small, moving sleeves are almost transparent to heat, actually transporting heat from upper to lower parts of the system. *If stored horizontally, sleeves tend to become oval, producing several types of mechanical problems. To avoid this, special cabinets were developed to store sleeves vertically. *Equivalent implementations of modern variable valve timing and variable lift are impossible due to the fixed sizes of the port holes and essentially fixed rotational speed of the sleeves. It may theoretically be possible to alter the rotational speed through gearing that is not linearly related to the engine speed, however it seems this would be impractically complex even compared to the complexities of modern valve control systems.


History


Charles Yale Knight

In 1901 Knight bought an air-cooled, single-cylinder three-wheeler whose noisy valves annoyed him. He believed that he could design a better engine and did so, inventing his double sleeve principle in 1904. Backed by Chicago entrepreneur L.B. Kilbourne, a number of engines were constructed, followed by the "Silent Knight" touring car, which was shown at the 1906 Chicago Auto Show. Knight's design had two cast-iron sleeves per cylinder, one sliding inside the other with the piston inside the inner sleeve. The sleeves were operated by small connected rods actuated by an eccentric shaft. They had ports cut out at their upper ends. The design was remarkably quiet, and the sleeve valves needed little attention. It was, however, more expensive to manufacture due to the precision grinding required on the sleeves' surfaces. It also used more oil at high speeds and was harder to start in cold weather. Although he was initially unable to sell his Knight Engine in the United States, a long sojourn in England, involving extensive further development and refinement by
Daimler Daimler is a German surname. It may refer to: People * Gottlieb Daimler (1834–1900), German inventor, industrialist and namesake of a series of automobile companies * Adolf Daimler (1871–1913), engineer and son of Gottlieb Daimler * Paul Da ...
supervised by their consultant Dr Frederick Lanchester,Lord Montagu and David Burgess-Wise ''Daimler Century'' ; Stephens 1995 eventually secured Daimler and several luxury car firms as customers willing to pay his expensive premiums. He first patented the design in England in 1908. The patent for the US was granted in 1910. As part of the licensing agreement, "Knight" was to be included in the car's name. Six-cylinder Daimler sleeve valve engines were used in the first British tanks in WW1, up to and including the Mark IV. As a result of the tendency of the engines to smoke and hence give away the tank positions, Harry Ricardo was brought in, and devised a new engine which replaced the sleeve valve starting with the Mark V tank. Among the companies using Knight's technology were Avions Voisin, Daimler (1909–1930s) including their V12 Double Six, Panhard (1911–39),
Mercedes Mercedes may refer to: People * Mercedes (name), a Spanish feminine name, including a list of people and fictional characters with the given name or last name Automobile-related * Mercedes (marque), the pre-1926 brand name of German automobile m ...
(1909–24), Willys (as the
Willys-Knight Willys-Knight is an automobile that was produced between 1914 and 1933 by the Willys-Overland Company of Toledo, Ohio. John North Willys purchased the Edwards Motor Car Company of Long Island, New York, in 1913, moving the operation to Elyr ...
, plus the associated Falcon-Knight), Stearns,
Mors Mors may refer to: *Mors (mythology), the personification of death in Roman mythology *Mors, Latin for death *Mors (automobile), a French car manufacturer from 1895 to 1925 :* American Mors, Mors vehicles produced under licence in America by the S ...
, Peugeot, and Belgium's Minerva company that was forced to stop their sleeve-valve line of engines as a result of the limitations imposed on them by the winners of WWII, some thirty companies in all. Itala also experimented with rotary and sleeve valves in their 'Avalve' cars. Upon Knight's return to America he was able to get some firms to use his design; here his brand name was " Silent Knight" (1905–1907) — the selling point was that his engines were quieter than those with standard poppet valves. The best known of these were the F.B. Stearns Company of Cleveland, which sold a car named the
Stearns-Knight F. B. Stearns and Company, later known as F.B. Stearns Company was an American manufacturer of luxury cars in Cleveland, Ohio marketed under the brand names Stearns from 1900 to 1911 then Stearns-Knight from 1911 until 1929. History Frank Bal ...
, and the Willys firm which offered a car called the
Willys-Knight Willys-Knight is an automobile that was produced between 1914 and 1933 by the Willys-Overland Company of Toledo, Ohio. John North Willys purchased the Edwards Motor Car Company of Long Island, New York, in 1913, moving the operation to Elyr ...
, which was produced in far greater numbers than any other sleeve-valve car.


Burt-McCollum

The Burt-McCollum sleeve valve, having its name from the surnames of the two engineers that patented the same concept with weeks of difference, Peter Burt and James Harry Keighly McCollum, patent applications are of August 6 and June 22, 1909, respectively, both engineers hired by the Scottish car maker Argyll, consisted of a single sleeve, which was given a combination of up-and-down and partial rotary motion. It was developed in about 1909 and was first used in the 1911
Argyll Argyll (; archaically Argyle, in modern Gaelic, ), sometimes called Argyllshire, is a historic county and registration county of western Scotland. Argyll is of ancient origin, and corresponds to most of the part of the ancient kingdom of ...
car. The initial 1900 investment in Argyll was £15,000 and building the magnificent Scotland plant cost £500,000 in 1920. It is reported that litigation by the owners of the Knight patents cost Argyll £50,000, perhaps one of the reasons for the temporary shutdown of their plant. Another car maker that used the Argyll SSV patents, and others of their own (patent GB118407), was Piccard-Pictet (Pic-Pic); Louis Chevrolet and others founded Frontenac Motors in 1923 with the aim of producing an 8-L SSV engined luxury car, but this never reached production for reasons connected to the time limits to the Argyll patents in the USA. The greatest success for single sleeve valves (SSV) was in Bristol's large aircraft engines, it was also used in the Napier Sabre and
Rolls-Royce Eagle The Rolls-Royce Eagle was the first aircraft engine to be developed by Rolls-Royce Limited. Introduced in 1915 to meet British military requirements during World War I, it was used to power the Handley Page Type O bombers and a number of o ...
engines. The SSV system also reduced the high oil consumption associated with the Knight double sleeve valve. Barr and Stroud Ltd of Anniesland, Glasgow, also licensed the SSV design, and made small versions of the engines that they marketed to motorcycle companies. In an advertisement in Motor Cycle magazine in 1922 Barr & Stroud promoted their 350cc sleeve valve engine and listed Beardmore-Precision, Diamond, Edmund, and Royal Scot as motorcycle manufacturers offering it. This engine had been described in the March edition as the 'Burt' engine. Grindlay-Peerless started producing a SSV Barr & Stroud engined 999cc V-twin in 1923

and later added a 499cc single SSV as well as the 350cc. Vard Wallace, known for his aftermarket forks for motorcycles, presented in 1947 drawings of a Single Cylinder, Air-Cooled, 250 cc SSV engine. Some small SSV auxiliary boat engines and electric generators were built in the UK, prepared for burning 'paraffin' from start, or after a bit of heat-up with more complex fuels. (Petter Brotherhood, Wallace. 'The Engineer', Dec 9, 1921, pg 618) A number of sleeve valve aircraft engines were developed following a seminal 1927 research paper from the Royal Aircraft Establishment, RAE by Harry Ricardo. This paper outlined the advantages of the sleeve valve and suggested that poppet valve engines would not be able to offer power outputs much beyond 1500 hp (1,100 kW).
Napier Napier may refer to: People * Napier (surname), including a list of people with that name * Napier baronets, five baronetcies and lists of the title holders Given name * Napier Shaw (1854–1945), British meteorologist * Napier Waller (1893–19 ...
and
Bristol Bristol () is a city, ceremonial county and unitary authority in England. Situated on the River Avon, it is bordered by the ceremonial counties of Gloucestershire to the north and Somerset to the south. Bristol is the most populous city i ...
began the development of sleeve-valve engines that would eventually result in limited production of two of the most powerful piston engines in the world: the Napier Sabre and Bristol Centaurus. The Continental Motors Company, around the years of the Great Depression, developed prototypes of single sleeve-valve engines for a range of applications, from cars to trains to airplanes, and thought that production would be easier, and costs would be lower, than its counterpart poppet valve engines. Due to the financial problems of Continental, this line of engines never entered production. ('Continental! Its motors and its people', William Wagner, Armed Forces Journal International and Aero Publishers, 1983, ) Potentially the most powerful of all sleeve-valve engines (though it never reached production) was the Rolls-Royce Crecy V-12 (oddly, using a 90-degree V-angle), two-stroke, direct-injected, turbocharged (force-scavenged) aero-engine of 26.1 litres capacity. It achieved a very high specific output, and surprisingly good specific fuel consumption (SFC). In 1945 the single-cylinder test-engine (Ricardo E65) produced the equivalent of 5,000 HP (192 BHP/Litre) when water injected, although the full V12 would probably have been initially type rated at circa . Sir Harry Ricardo, who specified the layout and design goals, felt that a reliable 4,000 HP military rating would be possible. Ricardo was constantly frustrated during the war with
Rolls-Royce Rolls-Royce (always hyphenated) may refer to: * Rolls-Royce Limited, a British manufacturer of cars and later aero engines, founded in 1906, now defunct Automobiles * Rolls-Royce Motor Cars, the current car manufacturing company incorporated ...
's (RR) efforts.
Hives Hives, also known as urticaria, is a kind of skin rash with red, raised, itchy bumps. Hives may burn or sting. The patches of rash may appear on different body parts, with variable duration from minutes to days, and does not leave any long-lasti ...
& RR were very much focused on their Merlin, Griffon then Eagle and finally Whittle's jets, which all had a clearly defined production purpose. Ricardo and Tizard eventually realized that the Crecy would never get the development attention it deserved unless it was specified for installation in a particular aircraft but by 1945, their "
Spitfire The Supermarine Spitfire is a British single-seat fighter aircraft used by the Royal Air Force and other Allies of World War II, Allied countries before, during, and after World War II. Many variants of the Spitfire were built, from the Mk 1 ...
on steroids" concept of a rapidly climbing interceptor powered by the lightweight Crecy engine had become an aircraft without a purpose. Following World War II, the sleeve valve became utilised less, Roy Fedden, very early involved in the S-V research, built some flat-six single sleeve-valve engines intended for general aviation around 1947; after this, just the French SNECMA produced some SSV engines under Bristol license that were installed in the
Noratlas The Nord Noratlas was a dedicated military transport aircraft, developed and manufactured by French aircraft manufacturer Nord Aviation. Development commenced during the late 1940s with the aim of producing a suitable aircraft to replace the nu ...
transport airplane, also another transport aircraft, the Azor built by the Spanish CASA installed SSV Bristol engines post-WWII. Bristol sleeve valve engines were used however during the post-war air transport boom, in the Vickers Viking and related military
Varsity Varsity may refer to: *University, an institution of higher (or tertiary) education and research which awards academic degrees in various academic disciplines Places *Varsity, Calgary, a neighbourhood in Calgary, Alberta, Canada * Varsity Lakes ...
and Valetta,
Airspeed Ambassador The Airspeed AS.57 Ambassador is a British twin piston-engined airliner that was designed and produced by the British aircraft manufacturer Airspeed Ltd. It was one of the first postwar airliners to be produced. The Ambassador was developed i ...
, used on BEA's European routes, and Handley Page Hermes (and related military
Hastings Hastings () is a large seaside town and borough in East Sussex on the south coast of England, east to the county town of Lewes and south east of London. The town gives its name to the Battle of Hastings, which took place to the north-west a ...
), and
Short Solent The Short Solent is a passenger flying boat that was produced by Short Brothers in the late 1940s. It was developed from the Short Seaford, itself a development of the Short Sunderland military flying boat design. The first Solent flew in 1 ...
airliners and the Bristol Freighter and Superfreighter. The Centaurus was also used in the military Hawker Sea Fury, Blackburn Firebrand, Bristol Brigand, Blackburn Beverly and the Fairey Spearfish. The poppet valve's previous problems with sealing and wear had been remedied by the use of better materials and the
inertia Inertia is the idea that an object will continue its current motion until some force causes its speed or direction to change. The term is properly understood as shorthand for "the principle of inertia" as described by Newton in his first law o ...
problems with the use of large valves were reduced by using several smaller valves instead, giving increased flow area and reduced mass, and the exhaust valve hot spot by Sodium-cooled valves. Up to that point, the single sleeve valve had won every contest against the poppet valve in comparison of power to displacement. The difficulty of Nitride hardening, then finish-grinding the sleeve valve for truing the circularity, may have been a factor in its lack of more commercial applications.


The Knight-Argyll Patent Case

When the Argyll car was launched in 1911, the Knight and Kilbourne Company immediately brought a case against Argyll for infringement of their original 1905 patent. This patent described an engine with a single moving sleeve, whereas the Daimler engines being built at the time were based on the 1908 Knight patent which had engines with two moving sleeves. As part of the litigation an engine was built according to the 1905 specification and developed no more than a fraction of the rated RAC horsepower. This fact coupled with other legal and technical arguments led the judge to rule, at the end of July 1912, that the holders of the original Knight patent could not be supported in their claim that it gave them master rights encompassing the Argyll design. Costs of litigation against claims by Knight patent holders seem having substantially contributed to bankrupt of Argyll in Scotland.


Modern usage

The sleeve valve has begun to make something of a comeback, thanks to modern materials, dramatically better engineering tolerances and modern construction techniques, which produce a sleeve valve that leaks very little oil. However, most advanced engine research is concentrated on improving other internal combustion engine designs, such as the
Wankel Wankel may refer to: * Wankel engine, a type of internal combustion engine using an eccentric rotary design instead of reciprocating pistons * Wankel AG, a German company that produces Wankel engines for ultralight aircraft and racing cars People ...
. Mike Hewland with his assistant John Logan, and also independently Keith Duckworth, experimented with a single-cylinder sleeve-valve test engine when looking at Cosworth DFV replacements. Hewland claimed to have obtained from a 500 cc single-cylinder engine, with a specific fuel consumption of 177-205 g/HP/hr (0.39 - 0.45 lb/HP/hr), the engine being able to work on creosote, and with no specific lubrication supply for the sleeve. An unusual form of four-stroke model engine that uses what is essentially a sleeve-valve format, is the British RCV series of "SP" model engines, which use a rotating cylinder liner driven through a bevel gear at the cylinder liner's "bottom", which is actually at the aft end of the cylinder; and, even more unusually, have the propeller shaft — as an integrally machined part of the rotating cylinder liner — emerging from what would normally be the
cylinder head In an internal combustion engine, the cylinder head (often abbreviated to simply "head") sits above the cylinder (engine), cylinders and forms the roof of the combustion chamber. In sidevalve engines, the head is a simple sheet of metal; whereas ...
, which in this design is placed at the extreme front of the engine, achieving a 2:1 gear reduction ratio compared to the vertically oriented crankshaft's rotational speed. The same firm's "CD" series of model engines use a conventional upright single cylinder with the crankshaft used to spin the propeller directly and also use the rotating cylinder valve. As a parallel with the earlier Charles Knight-designed sleeve-valved automotive powerplants, any RCV sleeve-valved model engine that is run on model glow engine fuel using castor oil (about 2% to 4% content) of the maximum 15%-content lubricant in the fuel allows the "varnish" created through engine operation to provide a better pneumatic seal between the rotating cylinder valve and the unitized engine cylinder/head castings, initially formed while the engine is being broken in. Another concept, the Rotating Liner Engine has been developed, where the wear and friction benefit of the sleeve valve is exploited in a conventional engine layout. A friction reduction of the order of 40% has been reported for a Heavy Duty diesel. The same company can also supply somewhat larger engines for use in military drones, portable generators and equipment such as lawn mowers.


Steam engine

Sleeve valves have occasionally, but unsuccessfully, been used on steam engines, for example the
SR Leader class The Leader was a class of experimental articulated steam locomotive, produced in the United Kingdom to the design of the innovative engineer Oliver Bulleid. The Leader was an attempt to extend the life of steam traction by eliminating many of ...
.


See also

* :Sleeve valve engines * Slide valve * Piston valve *
Corliss valve Corliss is both a surname and a given name. People Given name * Corliss Lamont (1902–1995), American philosopher, political activist, and philanthropist * C. C. Moseley (1894–1974), American aviator and aviation businessman * Corliss Palme ...


References

* * * Aircraft Engine Historical Society www.enginehistory.org -AEHS- publication: "Torque Meter", Vol 7, issues 2, 3, 4. * Robert J. Raymond: "Comparison of Sleeve and Poppet-Valve Aircraft Piston Engines", AEHS 2005 * Car&Driver, July 1974, pp, 26-29, 112-114 (cover shows a Bricklin car): 'A trick up his sleeve', Charles Fox interviews Mike Hewland. * * * H E Carroll: GB Patent 24.232; 1908 * J B Hull: "Non-Poppet Valve Motors at the 1911 Olympia Show", SAE paper 120011. * 'The Knight-Argyll Patent Case', The Automotor Journal, 3rd August, 1912, pp 919-920 * Ateliers Piccard, Pictet & Cie: GB Patent 118.407; 1917 * Harry Ricardo: "Recent Research Work on the Internal Combustion Engine", SAE Journal, May 1922, pp 305–336 (ends in p. 347) * R Abell: "Single Valve Internal Combustion Engine Design and Operation", SAE Journal, Oct 1923, pp 301–309 (Another type of non-poppet valve, used also by Lotus in a 2-stroke engine -SAE paper 920779) * P M Heldt: "Sleeve-Valve Engines", SAE Journal, March 1926, pp 303–314 * W.A. Frederick: "The Single-Sleeve-Valve Engine", SAE Journal, May 1927, pp 661–678 (Calculations). * G L Ensor: "Some Notes on the Single-Sleeve Valve", The Institution of Automobile Engineers (London) Proceedings, Vol XXII, Session 1927-28, pp 651–719. * A M Niven: "Internal combustion engine", Patent US 1739255, 1929. * Frank Jardine: "Thermal Expansion in Automotive Engine Design", SAE Journal, Sept 1930, pp 311–318, and SAE paper 300010. * A M Niven: "Sleeve valve actuating mechanism", Patent US 1764972, 1930. * A M Niven: "Internal combustion engine", Patent US 1778911, 1930. * A M Niven: "Sleeve valve cylinder head", Patent US 1780763, 1930. * A M Niven: "Sleeve valve driving mechanism", Patent US 1789341, 1931. * R Fedden: Patents GB425060, GB584525, and CA353554 on Sleeve materials, production and hardening. * A M Niven: "Sleeve valve and method of making same", Patent Nº US1814764A; 1931 * A M Niven: "Sleeve valve and method of making same", U.S. Patent N º 1,820,629; 1931 * A. H. R. Fedden: "The Single Sleeve as a Valve Mechanism for the Aircraft Engine", SAE paper 380161. * Ashley C Hewitt: "Small High-Speed Single Sleeve Valve Engine", SAE paper 390049 (Single cylinder, air cooled 4.21 ci., 70 cc. engine). * W P Ricart: "Some European Comments on High-Output Automobile and Aero-Engines", SAE paper 390099. * P V Lamarque, "The design of Cooling Fins for Motor-Cycle Engines", Report of the Automobile Research Committee, Institution of Automobile Engineers Magazine, March 1943 issue, and also in "The Institution of Automobile Engineers Proceedings-London-", Vol. XXXVII, Session 1942-43, pp 99–134 and 309-312. * Robert Insley & Arthur W. Green: "Method for making valve sleeves", U.S. Patent Nº 2,319,546; 1943 * Marcus C Inman Hunter: "Rotary Valve Engines', Hutchinson, 1946 (In Scribd) * G F Hiett and J VB Robson: "A High-Power Two-Cycle Sleeve-Valve Engine for Aircraft", Aircraft Engineering and Aerospace Technology (1950), Vol 22, Iss 1, pp. 21–23, same authors, magazine and title, 2nd part, in Vol 22, Iss 2, pp. 32–45 * Harry Ricardo: "The Sleeve-Valve Diesel Engine", '19 Andrew Laing Lecture', North East Coast Instit. of Engineers and Shipbuilders, transact 67 Session, 1950–51, p. 69-88. * Harry Ricardo: ''The High-Speed Internal Combustion Engine'', London, 1953 ed. (Materials, see also in talk) * 'Unorthodox I.C. Engines -Rotary and Sleeve-Valve Types', Model Engineer, Vol 122, nº 3056, 4 February 1960, pgs 136-138 * Peter R. March: 'The Sleeve-Valve Engine', airextra, nº 27, 1977, pgs 11-19 * William Wagner: ''Continental! Its Motors and Its People'', Aero Publishers, CA, 1983. * Strictly I.C. Magazine, Vol 14, Numbers 83 & 84 (Construction of a 1/3 scale model of a Barr&Stroud SSV Motorcycle Engine). * Michael Worthington-Williams: 'Something Up their Sleeve', The Automobile (UK), Vol 21 Nº 3, May 2003, pags 48-51 * Robert J. Raymond: "Comparison of Sleeve and Poppet-Valve Aircraft Piston Engines", AEHS, April 2005

* Kimble D. McCutcheon: "The Liquid-Cooled Engines of Pratt & Whitney", AEHS, 2006

* Muhammad Hafdiz Rahmat et al. (PETRONAS): "Side Opening Intake Strategy Simulation and Validation of a Sleeve-Valve Port Application", SAE paper 2009-32-0130/20097130 * Anish Gokhale et al.: "Optimization of Engine Cooling through Conjugate Heat Transfer Simulation and Analysis of Fins", SAE Paper 2012-32-0054 * YouTube: Videos by ChargerMiles007, Anson Engine Museum and others, search keyword: Sleeve Valve. * Anson Engine Museum: YouTube video on the Petter Brotherhood engine, a railroad single-sleeve-valve engine designed around 1930 in the company participated by J. B. Mirrlees. * Bristol Engines' Manual

* Nahum, Foster-Pegg, and Birch: 'The Rolls-Royce Crecy', The Rolls-Royce Heritage Trust, 2013. * K McCutcheon: 'American Sleeve-Valve Aircraft Engines', Weak Force Press, Hunstville, AL; 2020. * 'The piston engine revolution'; NEWCOMEN.com, Text of a 2011 Conference. Patrick Hassell, Rolls-Royce Heritage Trust: 'The Bristol Sleeve Valve Aero Engines', pp 112-132. Includes descriptions on materials and machining of sleeves.


External links


Video showing a cutaway Knight Sleeve-Valve Engine


A Briggs & Stratton lawnmower engine modified to Single-Sleeve-Valve Distribution type

1931 Edition of Harry Ricardo: 'The High-Speed Internal Combustion Engine'

Douglas Self site: 'Rotary Valves in Internal Combustion Engines' {{Authority control Engine valves Engine valvetrain configurations Sleeve valve engines