Sukhoi Su-27

Su-27
Su-27UB of the Russian Knights aerobatic team
Role Air superiority fighter
National origin Soviet Union / Russia
Manufacturer Sukhoi
First flight 20 May 1977
Introduction December 1984
Status In service
Primary users Russian Air Force
Chinese Air Force
Ukrainian Air Force
See operators for others
Produced 1984–current
Number built 680
Unit cost US$30 million
Variants Sukhoi Su-30
Sukhoi Su-33
Sukhoi Su-34
Sukhoi Su-35
Sukhoi Su-37
Shenyang J-11

The Sukhoi Su-27 (Russian: Сухой Су-27) (NATO reporting name: Flanker) is a twin-engine supermanoeuverable fighter aircraft designed by Sukhoi. It was intended as a direct competitor for the large United States fourth generation fighters, with 3,530-kilometre (1,910 nmi) range, heavy armament, sophisticated avionics and high manoeuvrability. The Su-27 most often flies air superiority missions, but is able to perform almost all combat operations. Complementing the smaller MiG-29, the Su-27's closest US counterpart is the F-15 Eagle.

There are several related developments of the Su-27 design. The Su-30 is a two-seat, dual-role fighter for all-weather, air-to-air and air-to-surface deep interdiction missions. The Su-33 ‘Flanker-D’ is a navy fleet defence interceptor for use on aircraft carriers. Further versions include the side-by-side 2-seat Su-34 ‘Fullback’ strike variant and the Su-35 ‘Flanker-E’ improved air defence fighter.

Contents

Development

Background

In 1969, the Soviet Union learned of the U.S. Air Force's "F-X" program, which resulted in the F-15 Eagle. The Soviet leadership soon realised that the new American fighter would represent a serious technological advantage over existing Soviet fighters. What was needed was a better-balanced fighter with both good agility and sophisticated systems. In response, the Soviet General Staff issued a requirement for a Perspektivnyy Frontovoy Istrebitel (PFI, literally "Perspective Frontline Fighter", roughly "Advanced Frontline Fighter").[1] Specifications were extremely ambitious, calling for long range, good short-field performance (including the ability to use austere runways), excellent agility, Mach 2+ speed, and heavy armament. The aerodynamic design for the new aircraft was largely carried out by TsAGI in collaboration with the Sukhoi design bureau.[1]

When the specification proved too challenging and costly for a single aircraft in the number needed, the PFI specification was split into two: the LPFI (Lyogkyi PFI, Lightweight PFI) and the TPFI (Tyazholyi PFI, Heavy PFI). The LPFI program resulted in the Mikoyan MiG-29, a relatively short-range tactical fighter, while the TPFI program was assigned to Sukhoi OKB, which eventually produced the Su-27 and its various derivatives. The TPFI program is similar to the American F-X program, which resulted in the F-15 Eagle, while the LPFI program is similar to the Lightweight Fighter program, which spawned the F-16 Fighting Falcon and the Northrop YF-17, which itself led to the F/A-18 Hornet.

Design phase

The Sukhoi design, which was altered progressively to reflect Soviet awareness of the F-15's specifications, emerged as the T-10 (Sukhoi's 10th delta wing design), which first flew on 20 May 1977. The aircraft had a large delta wing, clipped, with two separate podded engines and a twin tail. The ‘tunnel’ between the two engines, as on the F-14 Tomcat, acts both as an additional lifting surface and hides armament from radar. While being developed, it was spotted by a spy satellite at the Zhukovsky flight test center near the town of Ramenskoe, resulting in the temporary codename of 'Ram-K'. It was believed that the Ram-K was being developed in two versions: a swing-wing fighter similar in function to the Grumman F-14 and a two-seat fixed wing interceptor aircraft which in fact turned out to be the unrelated Mikoyan MiG-31.

The T-10 was spotted by Western observers and assigned the NATO reporting name 'Flanker-A'. The development of the T-10 was marked by considerable problems, leading to a fatal crash on 7 May 1978. Extensive redesigns followed, and a heavily revised version, the T-10S, made its first flight on 20 April 1981. This, too, had considerable developmental problems, leading to another fatal crash on 23 December 1981.

The production Su-27 (sometimes Su-27S, NATO designation 'Flanker-B') began to enter VVS operational service around 1984, although manufacturing difficulties kept it from appearing in strength until 1986. The Su-27 served with both the V-PVO and Frontal Aviation. In V-PVO service it was primarily an interceptor aircraft, supplanting older aircraft like the Sukhoi Su-15. Although the Su-27 has some capacity to carry air-to-ground weapons, in Frontal Aviation it was primarily tasked with fighting its way past enemy lines to destroy tanker and AWACS aircraft. The Su-27 retains that role in CIS service, with later marks capable of carrying long-range "AWACS killer" missiles such as the Vympel R-37 and, potentially, the Novator K-100 when it enters production.

From 1986 a special Su-27 designated P-42, rebuilt from the prototype T-10S-3 aircraft and stripped to minimum weight, began to set the first in a series of performance records for rate of climb and altitude, the aircraft setting 27 new class records between 1986 and 1988.

Design

The Su-27's basic design is aerodynamically similar to the MiG-29, but it is substantially larger. It is a very large aircraft, and to minimise its weight its structure has a high percentage of titanium (about 30%, more than any of its contemporaries). No composite materials were used. The swept wing blends into the fuselage at the leading edge extensions and is essentially a cropped delta (the delta wing with tips cropped for missile rails or ECM pods). The Su-27 is also an example of a tailed delta wing configuration, retaining conventional horizontal tailplanes, though it is not a true delta. It has two vertical tailfins outboard of the engines, supplemented by twofold-down ventral fins for additional lateral stability.

The Su-27’s Lyulka AL-31F turbofan engines are widely spaced, both for safety reasons and to ensure uninterrupted airflow through the intakes. The space between the engines also provides additional lift, reducing wing loading. Movable guide vanes in the intakes allow Mach 2+ speeds, and help to maintain engine airflow at high alpha. A mesh screen over each intake prevents debris from being drawn into the engines during take-off.

The Su-27 had the Soviet Union’s first operational fly-by-wire control system, developed based on Sukhoi OKB’s experience in the Sukhoi T-4 bomber project. Combined with relatively low wing loading and powerful basic flight controls, it makes for an exceptionally agile aircraft, controllable even at very low speeds and high angles of attack. In airshows the aircraft has demonstrated its manoeuvrability with a Cobra (Pugachev’s Cobra) or dynamic deceleration – briefly sustained level flight at a 120° angle of attack. Thrust vectoring has also been tested (and is incorporated on later Su-30MK and Su-37 models), allowing the fighter to perform hard turns with almost no radius, incorporate vertical somersaults into level motion and limited nose-up hovering.

The naval version of the ‘Flanker,’ the Su-27K (or Su-33), incorporates canards for additional lift, reducing take-off distances (important because the aircraft carrier Admiral Kuznetsov has no catapults). These canards have also been incorporated in some Su-30s, the Su-35, and the Su-37.

In addition to its considerable agility, the Su-27 uses its substantial internal volume for a large internal fuel capacity. In an overload configuration for maximum range, it can carry 9,400 kg (20,700 lb) of internal fuel, although its manoeuvrability with that load is limited, and normal load is 5,270 kg (11,620 lb).

The Su-27 is armed with a single 30 mm Gryazev-Shipunov GSh-30-1 cannon in the starboard wingroot, and has up to 10 hardpoints for missiles and other weapons. Its standard missile armament for air-to-air combat is a mixture of Vympel R-73 (AA-11 Archer), Vympel R-27 (AA-10 'Alamo') weapons, the latter including extended range and IR guided models. More advanced Flanker variants (such as Su-30, −35, −37) may also carry Vympel R-77 (AA-12 Adder) missiles.

The Su-27 has a high-contrast tuneable HUD and a Helmet mounted display capability.

Radar and sensors

The Su-27 is equipped with a Phazotron N001 Zhuk coherent pulse-Doppler radar with track-while-scan and look-down / shoot-down capability. The fighter also has an OLS-27 infrared search and track (IRST) system in the nose just forward of the cockpit with a 80–100 km range,[2] which also incorporates a laser rangefinder. This system can be slaved to the radar, or used independently for "stealthy" attacks with infrared missiles (such as the R-73 and R-27T/ET). It also controls the cannon, providing greater accuracy than a radar sighting mode.

The radar proved to be a major developmental problem for the Su-27. The original Soviet requirement was very ambitious, demanding a multi-target engagement capability and 200 km range against "bombers" (16 m² RCS to match a Tu-16). This would be broadly comparable to the 1-ton Zaslon phased array radar used on the MiG-31.

To achieve this at a reasonable weight, the design team came up with a radar using electronic scanning for elevation and mechanical scanning for azimuth. Unfortunately, it proved too much for the Soviet microelectronics industry in the 1970s to achieve, and by 1982, the original Myesch program had to be abandoned and a less capable alternative array was selected. To make up the lost time, many matured technologies from the N019 Topaz radar, including an enlarged version of the twist-cassegraine array, on the MiG-29 was used, and as a result, the resulting N001 radar shared the same TS100 signal processor used on N019 Topaz radar, while N001V, the successor of N001, shared the same TS101M signal processor with N019M, the successor of N019. The radar only achieved a 140 km detection range versus the Tu-16, and could only engage a single target. Even then, the radar was initially beset by reliability problems and this caused the N001 to be accepted for service in 1991, half a decade after the Su-27 first entered service in 1986.

The first of the N001 series radar, the Tikhomirov (NIIR) N001 (NATO ‘Slot Back’), is a pulse-Doppler set with track-while-scan capability, but its processor is relatively primitive, making it vulnerable to false alarms and blind spots, as well as being more difficult to use. Over the years, under the chief designer of N001 radar, Professor Viktor Konstantinovitch Grishin, the N001 radar has been upgraded many times, resulting in derivatives including N001V, N001VE, N001VEP, all of which are in service, including those exported Flankers. Professor V.K. Grishin was the chief designer of Zaslon S-800 passive phased array radar on MiG-31, and the expertise would later contribute to the design of the replacement phased array radars for the N001 series.

It was apparent that there was limited room for improvement in the N001 series radar, and the Su-30 and Su-35/37 aircraft have the vastly superior Tikhomirov (NIIR) 'Bars' (Panther) N011M with a passive electronically scanned array, improving range, multiple target capability, and sensitivity. The Bars (Panther) radar is scheduled to be replaced by an even more capable successor, Irbis (Snow leopard)-E phased array radar in the near future. Tikhomirov (NIIR)’s competitor, Phazotron (NIIP) also offered a similar radar with a passive electronically scanned array.

While the Su-27 and its immediate descendants (Su-35 and −37) have outstanding manoeuvrability and performance, the airframe design lacks stealth features, so the radar cross section (RCS) is large. To reduce the RCS, a process called "plasma stealth" has been proposed which would create a charged plasma cloud which would be hard for radar to penetrate. This process is theoretically possible but very difficult to do so in practice. A Russian plasma stealth device had been tested on a Su-27IB by June 2002;[3] But this has been widely disputed.[4]

Operational history

Russia

The Su-27 has seen limited action since it first entered service. These aircraft were used by the Russian Air Force during the 1992–1993 war in Abkhazia against Georgian forces. One fighter was reported shot down by an S-75 Dvina on 19 March 1993.[5]

In the 2008 South Ossetia War, Russia used Su-27s to gain airspace control over Tskhinvali, the capital city of South Ossetia.[6][7]

Ethiopia

Ethiopian Su-27s reportedly shot down two Eritrean MiG-29s and damaged another one[8][9] in February 1999 and destroyed another two in May 2000.[9][10] The Su-27s were also used in CAP (Combat Air Patrol) missions, suppression of air defense, and providing escort for fighters on bombing and reconnaissance missions.[11] In the War in Somalia (2006-present), the EtAF used their Su-27s to deadly effect, bombing Islamist garrisons and patrolling the airspace. The Su-27 has replaced the aging Mikoyan-Gurevich MiG-21 as Ethiopia's main air superiority fighter.

Angola

The Su-27 entered Angolan service in mid-2000. It is reported that one Su-27 in the process of landing, was shot down by SA-14 MANPADs fired by UNITA forces on 19 November 2000.[8][12]

Variants

Soviet-era

Post-Soviet era

Operators

Around 680 Su-27s were manufactured by the Soviet Union and Russia. This total includes only Su-27s and not later derivative aircraft.

 Angola 
People's Air and Air Defence Force of Angola has 7 Su-27s as of December 2010.[15]
 Belarus 
Belarusian Air Force received 23 Su-27s from Soviet Union.[16] Has 22 in service as of December 2010.[15]
 People's Republic of China 
People's Liberation Army Air Force had 53 Su-27SK and 16 Su-27UBK fighters in 2009.[17] These were purchased from Russia before signing an agreement in 1998 to licence manufacture the plane as the Shenyang J-11 in China. Approximately 102 J-11 aircraft have been built.[17]
 Eritrea 
Eritrean Air Force received about 8 Su-27SK/27UBs in 2003.[16] Has 6 Su-27s as of December 2010.[15]
 Ethiopia 
The Ethiopian Air Force operates 11 Su-27SKs, 3 Su-27Ps, and 4 Su-27UBs.[16]
 Indonesia
Indonesian Air Force (Tentara Nasional Indonesia: Angkatan Udara) has 2 Su-27SK and 3 Su-27SKM fighters in service as of September 2010.[18]
 Kazakhstan
The Military of Kazakhstan operates 30 Su-27s as of December 2010.[15] It has another 12 on order.[16]
 Russia
Russian Air Force had a fleet of 260 Su-27S/P/UBs, and 54 Su-27SMs in late 2009.[19] 12 Su-27SM3 received by December 2011.[20]
 Syria
Syrian Air Force has acquired 14 Su-27SKs.
 Ukraine
The Ukrainian Air Force has 65 Su-27s in service as of December 2010.[15]
 Uzbekistan
The Military of Uzbekistan has 25 in service.[16]
 Vietnam
Vietnam People's Air Force has 12 Su-27SKs and 3 Su-27UBKs.[21]
 United States
Two Su-27s were delivered to the United States in 1995, probably for aggressor training.[16][22] Two more were bought from Ukraine in 2009 by a private company to use as warbirds.[23]

Private ownership

According to the FAA there are 2 privately owned Su-27s in the U.S.[24]

Two Su-27s from the Ukrainian Air Force were demilitarised and sold to Pride Aircraft of Rockford, Illinois, USA. Pride Aircraft modified some of the aircraft to their own desires by remarking all cockpit controls in English and replacing much of the Russian avionics suite with Garmin, Bendix/King, and Collins avionics. The aircraft were both sold to private owners for approximately $5 million each.[25]

The Dutch private training support company ECA Program placed an order with Belarus for 15 unarmed Su-27s (with an option on 18 more) for use in dissimilar air combat training. Deliveries are to be completed by the end of 2012.[26]

Former operators

 Soviet Union
Soviet Air Force and Soviet Anti-Air Defence

See Sukhoi Su-30, Sukhoi Su-33, Sukhoi Su-34, and Sukhoi Su-35 for operators of Su-27 derivatives.

Notable accidents

Specifications (Su-27S)

Data from Gordon and Davison,[39] KNAAPO Su-27SK page,[40] Sukhoi Su-27SK page,[41]

General characteristics

Performance

Armament

Su-27S armament

Su-27SM armament

Popular culture

The Su-27 is in a starring role in the SSI flight simulator game "Su-27 Flanker" and sequel "Lock On: Modern Air Combat".

See also

Related development
Aircraft of comparable role, configuration and era

Related lists

References

References
  1. ^ a b Spick, Mike, ed. "MiG-29 'Fulcrum'". "The Flanker". Great Book of Modern Warplanes. Osceola, WI: MBI Publishing, 2000. ISBN 0-7603-0893-4.
  2. ^ Sukhoi Su-27SK FLANKER-B
  3. ^ Fiszer, Michal and Jerzy Gruszczynski. "Russia Working on Stealth Plasma". Journal of Electronic Defense, June 2002.
  4. ^ Nikolay Novichkov.Russian scientists created revolutionary technologies for reducing radar visibility of aircraft. "ITAR-TASS", 20 January 1999.
  5. ^ Moscow Defense Brief
  6. ^ Lenta.Ru: Georgian army forces falling back from Tskhinvali (Russian)
  7. ^ Lenta.Ru: Russian airplanes are bombing Georgian army positions (Russian)
  8. ^ a b "Su-27 operations". Milavia. http://www.milavia.net/aircraft/su-27/su-27_ops.htm. 
  9. ^ a b Claims with No Names, Air Aces page.
  10. ^ "Air Aces". http://users.accesscomm.ca/magnusfamily/noname.htm. 
  11. ^ "ke bahru be chilfa" (Ethiopian Air Force 2007 graduation publication, May 2007), pp. 72–3
  12. ^ "Moscow Defense Brief". http://mdb.cast.ru/mdb/2-2001/ff/atdjm/#_ednref24. 
  13. ^ [1] "Su-27P"
  14. ^ Production – Defense – Su-27SKM. KNAAPO
  15. ^ a b c d e "Directory: World Air Forces". Flight International, 14–20 December 2010.
  16. ^ a b c d e f Niels Hillebrand (11 October 2008). "Su-27 Flanker Operators List". MILAVIA. http://www.milavia.net/aircraft/su-27/su-27_operators.htm. Retrieved 12 October 2008. 
  17. ^ a b ""World Military Aircraft Inventory", Aerospace Source Book 2009". Aviation Week & Space Technology. http://www.aviationweek.com/aw/sourcebook/content.jsp?channelName=pro&story=xml/sourcebook_xml/2009/01/26/AW_01_26_2009_p0240-112924-32.xml&headline=World%20Military%20Aircraft%20Inventory%20-%20China. 
  18. ^ Russia recently handed over to Indonesia three fighters Su-27SKM
  19. ^ AirForces Monthly, Dec 2010
  20. ^ http://blogs.ottawacitizen.com/2011/12/23/sukhoi-delivers-12-new-multi-purpose-fighters-to-russian-air-force/
  21. ^ OrBat Vietnam – MilAvia Press.com: Military Aviation Publications
  22. ^ Gordon and Davison 2006, p. 101.
  23. ^ U.S. buys Su-27 fighters from Ukraine for 'aggressor' training | World | RIA Novosti
  24. ^ FAA Registry - Aircraft - Make / Model Inquiry
  25. ^ Pride Aircraft: Sukhoi SU-27 Flankers
  26. ^ Air International October 2010, p.9.
  27. ^ "Salgareda airshow crash 1990". http://www.youtube.com/watch?v=4wlnnZZsx2k. 
  28. ^ 9 September 1990 crash of Su-27. aviation-safety.net, 11 January 2011.
  29. ^ a b [2]
  30. ^ "Pilots blamed for air show crash". CNN. 7 August 2002. http://archives.cnn.com/2002/WORLD/europe/08/07/ukraine.pilots/index.html. 
  31. ^ Niels Hillebrand. "MILAVIA Aircraft - Sukhoi Su-27 Flanker Historical Events & Key Dates". Milavia.net. http://www.milavia.net/aircraft/su-27/su-27_history.htm. Retrieved 2011-08-30. 
  32. ^ "Europe | Russian jet jangles Baltic nerves". BBC News. 2005-09-20. http://news.bbc.co.uk/2/hi/europe/4264010.stm. Retrieved 2011-08-30. 
  33. ^ "Su-27 Flanker fighter crashes in Russia's Far East, 1 pilot dead". RIA Novosti. 29 July 2008. http://en.rian.ru/russia/20080729/115145935.html. 
  34. ^ a b "Pilot dies as Russia jets collide". BBC News. 17 August 2009. http://news.bbc.co.uk/1/hi/world/europe/8204072.stm. Retrieved 24 May 2010. 
  35. ^ "Pilot killed as two Su-27 fighters collide southeast of Moscow". RIA Novosti. 16 August 2009. http://en.rian.ru/russia/20090816/155824125.html. 
  36. ^ "Belarusian Air Force Sukhoi Su-27 crash". Centrum Prasowe AIR SHOW – 2009. 30 August 2009. http://www.airshow.sp.mil.pl/index.php/en/news. 
  37. ^ "Belorussian jet crashes at Polish airshow". http://www.newsobserver.com/1635/story/1668275.html. 
  38. ^ ASN Aircraft accident 06-APR-2011 Su-27SM Flanker 08 blue
  39. ^ Gordon and Davison 2006, pp. 91–92, 95–96.
  40. ^ Sukhoi Su-27SK. KNAAPO.
  41. ^ Su-27SK Aircraft performance page. Sukhoi.
  42. ^ Sukhoi Su-27 Flanker
Bibliography

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