Piaggio P-180 Avanti Rennes 2010 (cropped)

A three-surface aircraft or sometimes three-lifting-surface aircraft has a foreplane, a central

wing A wing is a type of fin that produces lift while moving through air or some other fluid. Accordingly, wings have streamlined cross-sections that are subject to aerodynamic forces and act as airfoils. A wing's aerodynamic efficiency is e ...

and a

tailplane A tailplane, also known as a horizontal stabiliser, is a small lifting surface located on the tail ( empennage) behind the main lifting surfaces of a fixed-wing aircraft as well as other non-fixed-wing aircraft such as helicopters and gyropl ...

. The central wing surface always provides lift and is usually the largest, while the functions of the fore and aft planes may vary between types and may include lift, control and/or stability. In civil aircraft the three surface configuration may be used to give safe stalling characteristics and short takeoff and landing (STOL) performance. It is also claimed to allow minimizing the total wing surface area, reducing the accompanying skin drag. In combat aircraft this configuration may also be used to enhance maneuverability both before and beyond the stall, often in conjunction with

vectored thrust Thrust vectoring, also known as thrust vector control (TVC), is the ability of an aircraft, rocket, or other vehicle to manipulate the direction of the thrust from its engine(s) or motor(s) to control the attitude or angular velocity of the v ...

History

An early designation used in 1911 was "three plane system". The Fernic designs of the 1920s were referred to as "tandem". While there are indeed two lifting wing surfaces in tandem, the tailplane forms a third horizontal surface.

Pioneer experiments

During the pioneer years of aviation a number of aircraft were flown with both fore and aft auxiliary surfaces. The issue of control vs. stability was poorly understood and typically pitch control was on the front surface with the rear surface also lifting, leading to instability in pitch. The

Kress Drachenflieger __NOTOC__ The Kress ''Drachenflieger'' (German: "Dragon-flier") was an experimental aircraft constructed in Austria-Hungary in 1901. While taxiing trials proved successful, the aircraft lacked sufficient power to fly, and was wrecked in the cours ...

of 1901 and

Dufaux triplane The so-called Dufaux triplane was an unnamed experimental aircraft built in Switzerland in 1908. It was constructed by the brothers Armand and Henri Dufaux who had previously experimented with a model helicopter. This new aircraft incorporated a ...

of 1908 had insufficient power to take off. More successful types included the

Voisin-Farman I The 1907 Voisin biplane (designated the Voisin II by the 1913 edition of ''Jane's All the World's Aircraft''), was the first successful powered aircraft designed by aeronautical engineer and manufacturer Gabriel Voisin. It was used by the F ...

(1907) and Curtiss No. 1 (1909). The Wright Brothers too experimented on the basic Flyer design in an effort to obtain both controllability and stability, flying it at various times in first canard, then three surface and finally conventional configurations. By the outbreak of the

First World War World War I (28 July 1914 11 November 1918), often abbreviated as WWI, was List of wars and anthropogenic disasters by death toll, one of the deadliest global conflicts in history. Belligerents included much of Europe, the Russian Empire, ...

in 1914, the main wing with smaller rear tail surface had become the conventional configuration and few three surface types would be flown for many years. The Fokker V.8 of 1917 and

Caproni Ca.60 The Caproni Ca.60 Transaereo, often referred to as the Noviplano (nine-wing) or Capronissimo, was the prototype of a large nine-wing flying boat intended to become a 100-passenger transatlantic airliner. It featured eight engines and three sets ...

Noviplano of 1921 were both failures.

Soft stall and STOL

In 1920s George Fernic developed the idea of two lifting surfaces in tandem, together with a conventional tailplane. The small foreplane was highly loaded and as the angle of attack increased it was designed to stall first, causing the nose to drop and allowing the aircraft to recover safely without stalling the main wing. This "soft" stall provides a level of safety in the stall which is not usually present in conventional designs. The Fernic T-9, a three-surface monoplane, flew in 1929. Fernic was killed in an accident while flying its successor the FT-10 Cruisaire. It is possible to achieve such a soft stall with a pure canard design, but it is then difficult to control the pitching and oscillations can develop as the foreplane repeatedly lifts the nose, stalls and recovers. Also, care must be taken in the design that the turbulent wake from the stalled foreplane does not in itself disturb the airflow over the main wing sufficiently to cause significant loss of lift and cancel out the nose-down pitching moment. In the three-surface design the third, tail surface does not stall and provides better controllability. In the 1950s James Robertson developed his experimental Skyshark. This was a broadly conventional design but with a variety of features, including a small canard foreplane, intended to give not only a safe stall but good Short takeoff and landing (STOL) performance. The foreplane allowed STOL performance to be achieved without the high angles of attack and accompanying dangers of stalling required by conventional STOL designs. The aircraft was evaluated by the US Army. Robertson's system was commercialised as the Wren 460, a modified Cessna light aircraft. This in turn was later licensed and produced during the 1980s as the

Peterson 260SE The Wren 460 is a STOL conversion of a Cessna 180 or 182 airframe. Design and development The Wren 460 traces its history to the Skyshark, a modification of the earlier Robertson Skylark SRX-1, built by James Robertson, son of Robertson Aircra ...

and with the foreplane modification only as the 230SE. In 2006 a ruggedised variant, the Peterson Katmai, entered production. A broadly similar approach is taken by the 1988 Eagle-XTS and its derivatives, the Eagle 150 series.

Manoeuvrability beyond the stall

X-29 at High Angle of Attack with Smoke Generators

Around 1979, military jet designers began studying three-surface configurations as a way to provide enhanced manoeuvrability and control, especially at low speeds and high angles of attack such as during takeoff and combat. In the United States the experimental

Grumman X-29 The Grumman X-29 was an American experimental aircraft that tested a forward-swept wing, canard control surfaces, and other novel aircraft technologies. The X-29 was developed by Grumman, and the two built were flown by NASA and the United St ...

flew in 1984 and a modified McDonnell Douglas F-15, the F-15 STOL/MTD, in 1988 but these designs were not followed up. In the

Soviet Union The Soviet Union,. officially the Union of Soviet Socialist Republics. (USSR),. was a transcontinental country that spanned much of Eurasia from 1922 to 1991. A flagship communist state, it was nominally a federal union of fifteen nationa ...

Sukhoi Su-27 The Sukhoi Su-27 (russian: Сухой Су-27; NATO reporting name: Flanker) is a Soviet-origin twin-engine supermaneuverable fighter aircraft designed by Sukhoi. It was intended as a direct competitor for the large US fourth-generation je ...

modified with canard foreplanes flew in 1985Green, W. & Swanborough, S.; ''The complete book of fighters'', Salamander (1994). and derivatives of this design became the only military three-surface types to enter production.

Minimum wing surface

Also in 1979,

Piaggio Piaggio & C. SpA (Piaggio ) is an Italian motor vehicle manufacturer, which produces a range of two-wheeled motor vehicles and compact commercial vehicles under seven brands: Piaggio, Vespa, Gilera, Aprilia, Moto Guzzi, Derbi, and Scarabeo. ...

began design studies on a three-surface civil twin turboprop which, in collaboration with Learjet, would emerge as the Piaggio P.180 Avanti. This type first flew in 1986 and entered service in 1990, with production continuing today. In the Avanti, the three-surface configuration is claimed to significantly reduce wing size, weight and drag compared to the conventional equivalent. Two experimental aircraft adopting this configuration were subsequently built by

Scaled Composites Scaled Composites (often called simply Scaled) is an American aerospace company founded by Burt Rutan and currently owned by Northrop Grumman. It is located at the Mojave Air and Space Port in Mojave, California, United States. Founded to deve ...

under the lead of Burt Rutan and flown in 1988. The

Triumph The Roman triumph (Latin triumphus) was a celebration for a victorious military commander in ancient Rome. For later imitations, in life or in art, see Trionfo. Numerous later uses of the term, up to the present, are derived directly or indirectl ...

was a twin-turbofan

very light jet A very light jet (VLJ), entry-level jet or personal jet, previously known as a microjet, is a category of small business jets seating four to eight people. VLJs are considered the lightest business jets and are approved for single-pilot operati ...

aircraft designed for

Beechcraft Beechcraft is an American brand of civil aviation and military aircraft owned by Textron Aviation since 2014, headquartered in Wichita, Kansas. Originally, it was a brand of Beech Aircraft Corporation, an American manufacturer of general avi ...

. Flight testing validated the targeted performance range. The

Catbird Several unrelated groups of songbirds are called catbirds because of their wailing calls, which resemble a cat's meowing. The genus name ''Ailuroedus'' likewise is from the Greek for "cat-singer" or "cat-voiced". Australasian catbirds are the ...

was a single-engined propeller-driven aircraft, envisioned by Rutan as a replacement for the

Beechcraft Bonanza The Beechcraft Bonanza is an American general aviation aircraft introduced in 1947 by Beech Aircraft Corporation of Wichita, Kansas. The six-seater, single-engined aircraft is still being produced by Beechcraft and has been in continuous pro ...

. It holds the world record for speed over a closed circuit of without payload of set in 2014.

Fighter aircraft design

Some advanced jet aircraft have a three-surface configuration, often in conjunction with

thrust vectoring Thrust vectoring, also known as thrust vector control (TVC), is the ability of an aircraft, rocket, or other vehicle to manipulate the direction of the thrust from its engine(s) or motor(s) to control the attitude or angular velocity of the ve ...

. This is typically intended to enhance control and manoeuvrability, especially at very high

angles of attack In fluid dynamics, angle of attack (AOA, α, or \alpha) is the angle between a reference line on a body (often the chord line of an airfoil) and the vector representing the relative motion between the body and the fluid through which it is ...

beyond the stall point of the main wing. Some advanced combat manoeuvres such as

Pugachev's Cobra In aerobatics, the cobra maneuver (or just the ''cobra''), also called ''dynamic deceleration'', among other names (see Etymology), is a dramatic and demanding maneuver in which an airplane flying at a moderate speed abruptly raises its nose mom ...

and the

Kulbit The "Kulbit" (also known as the "Frolov chakra") is an aerial maneuver developed by Russian pilots in which the aircraft performs an extremely tight loop, often not much wider than the length of the aircraft itself. It differs from the traditional ...

were first performed on Sukhoi three-surface aircraft. The experimental

was of basic "tail-first" canard configuration, with unusual forward-swept wings and strakes extending rearwards from the main wing roots. Movable flaps at the ends of the strakes effectively made it a three-surface design. The X-29 demonstrated exceptional high-angle of attack manoeuvrability. A more straightforward three-surface design is seen in several variants of the otherwise conventional

. Following the successful addition of canard foreplanes to a development aircraft, these were incorporated into a number of subsequent production variants including the naval Su-33 (Su-27K), some Su-30s, the Su-35 and the Su-37. The Chinese

Shenyang J-15 The Shenyang J-15 (wikt:歼, Chinese: 歼-15), also known as ''Flying Shark'' (; NATO reporting name: Flanker-X2, is a Chinese night fighter, all-weather, twinjet, carrier-based aircraft, carrier-based fourth-generation fighter, fourth-generation ...

also inherits the configuration of the Su-33. The

McDonnell Douglas F-15 STOL/MTD The McDonnell Douglas F-15 STOL/MTD (Short Takeoff and Landing/Maneuver Technology Demonstrator) is a modified F-15 Eagle. Developed as a technology demonstrator, the F-15 STOL/MTD carried out research for studying the effects of thrust vectori ...

was an F-15 airframe modified with canard foreplanes and thrust vectoring, designed to demonstrate these technologies for both STOL performance and high manoeuvrability.

Reduced surface area design

The three-surface configuration is claimed to reduce total aerodynamic surface area compared to the conventional and canard configurations, thus enabling drag and weight reductions.

Pitch equilibrium

On most aircraft, the wing centre of pressure moves forward and backward according to flight conditions. If it does not align with the

centre of gravity In physics, the center of mass of a distribution of mass in space (sometimes referred to as the balance point) is the unique point where the weighted relative position of the distributed mass sums to zero. This is the point to which a force may ...

, a corrective or ''trim'' force must be applied to prevent the aircraft pitching and thus to maintain equilibrium. On a conventional aircraft this pitch trim force is applied by a

. On many modern designs, the wing centre of pressure is normally aft of the centre of gravity, so the tailplane must exert a downward force. Any such negative lift generated by the tail must be compensated by additional lift from the main wing, thus increasing wing area, drag, and weight requirements. On a three-surface aircraft, the pitch trim forces can be shared, as needed in flight, between the foreplane and tailplane. Equilibrium can be achieved with lift from the foreplane rather than downforce from the tailplane. Both effects, the reduced downforce and the extra lifting force, reduce the load on the main wing. The Piaggio P.180 Avanti has flaps on both its forward wing and main wing. Both flaps deploy in concert to maintain pitch neutrality for take-off and landing.

Static stability and the stall

On a

canard aircraft In aeronautics, a canard is a wing configuration in which a small forewing or foreplane is placed forward of the main wing of a fixed-wing aircraft or a weapon. The term "canard" may be used to describe the aircraft itself, the wing configurati ...

, to allow natural static pitch stability in normal flight, the foreplane must provide lift. Also, in order for the aircraft to have safe stall characteristics the foreplane must stall before the main wing, pitching the aircraft down and allowing the aircraft to recover. This means that a safety margin must be used on the main wing area so that its maximum

lift coefficient In fluid dynamics, the lift coefficient () is a dimensionless quantity that relates the lift generated by a lifting body to the fluid density around the body, the fluid velocity and an associated reference area. A lifting body is a foil or a com ...

and wing loading are never attained in practice. This in turn means that the main wing must be increased in size. On a three-surface aircraft, the tailplane acts as a conventional horizontal stabiliser. In the stall condition, even if the main wing is stalled the tailplane can provide a pitch-down moment and allow recovery. The wing may thus be used up to its maximum lift coefficient, an advantage that may translate into a reduction of its area and weight. A lifting foreplane is positioned ahead of the centre of gravity, so its lift moment acts in the same direction as any movement in pitch. If the aircraft is to be naturally stable, the foreplane's size, lift slope and moment arm must be chosen so that it does not overpower the stabilizing moment provided by the wing and tailplane. Stability constraints thus limit the foreplane's volume ratio (a measure of its effectiveness in trim and stability terms), which may in turn limit its ability to share pitch trim forces as described above.

Wing area reduction

The minimum size of the lifting wings of an aircraft is determined by: the weight of the aircraft, the force required to oppose the negative lift produced by the horizontal stabilizer, the targeted take off and landing speeds, and the coefficient of lift of the wings. Most modern aircraft use trailing edge flaps on the main wing to increase the wings lift coefficient during takeoff and landing; thus allowing the wing to be smaller than it would otherwise need to be. This may reduce the weight of the wing, and it always reduces the surface area of the wing. The reduction of surface area proportionately reduces skin drag at all speeds. A drawback of the use of trailing edge flaps is that they produce significant negative pitching moment when in use. In order to balance this pitching moment the horizontal stabilizer must be somewhat larger than it would otherwise be, so that it can produce enough force to balance the negative pitching moment created by the trailing edge flaps. This, in turn, means that the main wing must be somewhat larger than it would otherwise have to be to balance the larger negative lift produced by the larger horizontal stabilizer. On a canard aircraft the foreplane can provide positive lift at takeoff, reducing some of the down force the rear stabilizer would otherwise have to create. However, the main wing must be large enough to not only lift the aircraft's remaining weight at takeoff but also to provide adequate safety margin to prevent stalling. On a three-surface aircraft, neither of these handicaps is present and the main wing can be reduced in size, so also reducing weight and drag. It is claimed that the total area of all wing surfaces of a three-surface aircraft can be less than that of the equivalent two-surface aircraft, so reducing both weight and drag. Minimum area in cruise can be further reduced through the use of conventional high-lift devices such as flaps, allowing a three-surface design to have minimum surface area at all points in the flight envelope. Examples of reduced-area three-surface aircraft include the Piaggio P.180 Avanti, and the Scaled Composites Triumph and

. These aircraft were designed to expose a minimum of total surface area to the slipstream; thus reducing surface drag for speed and fuel efficiency. Several reviews compare the Avanti's top speed and service ceiling to that of lower-end jet aircraft, and report significantly better fuel efficiency at cruise speed. Piaggio attributes this performance in part to the layout of the aircraft, claiming a 34% reduction in total wing area compared to a conventional layout.

List of three-surface aircraft

, - , Aceair AERIKS 200 , , Switzerland , , Propeller , , Private , , 2002 , , Prototype , , , , Designed as a homebuild kit. , - , Curtiss/AEA June Bug , , US , , Propeller , , Experimental , , 1908 , , Prototype , , , , , - ,

Noviplano , , Italy , , Propeller , , Transport , , 1921 , , Prototype , , , , Three triplane stacks, making nine wings in all. Flying boat. , - , Curtiss No. 1 , , US , , Propeller , , Experimental , , 1909 , , Prototype , , , , Also known as the Curtiss Gold Bug or Curtiss Golden Flyer. , - , de la Farge Pulga , , Argentina , , Propeller , , Private , , circa 1990 , , , , , , Modified Flying Flea , - , Dufaux , , Switzerland , , Propeller , , Experimental , , 1908 , , Prototype , , , , First Swiss aircraft to fly. , - , Eagle-XTS , , Australia , , Propeller , , Private , , 1988 , , , , , , , - ,

Eagle Aircraft Eagle 150 The Eagle Aircraft 150 is an Australian designed two-seat Piston engine, single-engine Composite construction, composite material Trainer (aircraft), training, touring and sport aircraft. It utilizes a three lifting surface design consisting of a ...

, , Australia , , Propeller , , Private , , 1997 , , , , , , , - , Farman three wing monoplane , , France , , Propeller , , Experimental , , 1908 , , Prototype , , , , Jane, F.T.; ''All the world's aircraft 1913'', Sampson Low, 1913, facsimile reprint David & Charles, 1969. , - , Fernic T-9 , , US , , Propeller , , Private , , 1929 , , , , , , , - , Fernic-Cruisaire FT-10 , , US , , Propeller , , Private , , 1930 , , , , , , , - , Fokker V.8 , , Germany , , Propeller , , Experimental , , 1917 , , Prototype , , , , , - ,

, , US , , Jet , , Experimental , , 1984 , , Prototype , , , , Forward-swept wing with canard foreplane and tailboom flaps. , - , Herring-Burgess , , US , , Propeller , , , , 1910 , , , , , , Biplane. , - ,

, , Austria-Hungary , , Propeller , , Experimental , , 1901 , , Prototype , , , , Failed to fly: engine lacked sufficient power to take off. , - ,

, , US , , Jet , , Experimental , , 1988 , , Prototype , , , , technology demonstrator of enhanced maneuverability including use of thrust vectoring , - ,

Mikoyan-Gurevich Ye-8 The Mikoyan-Gurevich Ye-8 was a supersonic jet fighter developed in the Soviet Union, intended to replace the MiG-21 (originally named ''MiG-23''). Only two prototypes were built in 1960-61. The original MiG-21's air intakes were moved under th ...

, , Soviet Union , , Jet , , Experimental , , 1962 , , Prototype , , , , , - , Miller-Bohannon JM-2 Pushy Galore , , US , , Propeller , , Private , , 1989 , , Operational , , 1 , , Racer in pusher configuration , - , NPO Molniya 1 , , Russia , , , , Transport , , 1992 , , , , , , , - ,

and 230SE , , US , , Propeller , , Private , , 1986 , , , , , , , - , Peterson Katmai , , US , , Propeller , , Private , , , , , , , , , - , Piaggio P.180 Avanti , , Italy , , Propeller , , Transport , , 1986 , , Production , , , , , - , Robertson Skyshark , , US , , Propeller , , Private , , , , , , , , , - , Rutan Scaled Model 120 'Predator' , , US , , Propeller , , Experimental , , 1984 , , Prototype , , , , , - , Scaled Composites ATTT (model 133) , , US , , Propeller , , Experimental , , 1987 , , Prototype , , , , , - , Scaled Composites Triumph (model 143) , , US , , Jet , , Experimental , , 1988 , , Prototype , , , , , - ,

Scaled Composites Catbird The Scaled Composites Model 81 Catbird is a high-efficiency five-seat single-engine all-composite general aviation aircraft designed by Burt Rutan. It is unusual in that it incorporates both a small forward wing and a small conventional horizont ...

(model 181) , , US , , Propeller , , Experimental , , 1988 , , Prototype , , , , , - ,

, , China , , Jet , , High-manoeuvrability combat , , 2009 , , , , , , , - , Short No.1 biplane , , UK , , Propeller , , Experimental , , 1910 , , Prototype , , , , Not flown. , - ,

M , , Soviet Union , , Jet , , High-manoeuvrability combat , , , , , , , , Some examples fitted with a foreplane in addition to the standard tailplane. , - ,

Sukhoi Su-30 MKI The Sukhoi Su-30MKI (NATO reporting name: Flanker-H) is a twinjet multirole air superiority fighter developed by Russia's Sukhoi and built under licence by India's Hindustan Aeronautics Limited (HAL) for the Indian Air Force (IAF). A variant ...

, , India , , Jet , , Fighter , , 1989 , , Production , , , , License-built variant of the Sukhoi Su-30 , - ,

Sukhoi Su-33 The Sukhoi Su-33 (russian: Сухой Су-33; NATO reporting name: ''Flanker-D'') is an all-weather carrier-based twin-engine air superiority fighter designed by Sukhoi and manufactured by Komsomolsk-on-Amur Aircraft Production Association ...

, , Soviet Union , , Jet , , Fighter , , 1987 , , Production , , , , , - , Sukhoi Su-34 , , Russia , , Jet , , Attack , , 1990 , , Production , , , , , - , Sukhoi Su-37 , , Russia , , Jet , , Fighter , , 1996 , , Prototype , , , , , - ,

Sukhoi Su-47 The Sukhoi Su-47 ''Berkut'' (russian: Сухой Су-47 Беркут, translation=Golden Eagle) (NATO reporting name Firkin), also designated S-32 and S-37 (not to be confused with the twin-engined delta canard designButtler, Tony and Gordon, ...

, , Russia , , Jet , , Experimental , , 1997 , , Prototype , , , , Main wing is forward-swept. , - ,

, , France , , Propeller , , Experimental , , 1907 , , , , , , , - , Wren 460 , , US , , Propeller , , Private , , 1963 , , , , , , , - , Wright Model A (Modified) , , US , , Propeller , , Experimental , , 1909 , , , , , ,

References

Notes

{{Reflist, 30em

Bibliography

* Garrison, P
''TECHNICALITIES: Three's Company''
''Flying'', December 2002, pp85–86 Aircraft configurations Wing configurations Scaled Composites Rutan aircraft Lists of aircraft by design configuration