Mikoyan MiG-29

MiG-29
A Hungarian Air Force MiG-29UB at Koksijde Airshow in 2005
Role Air-superiority fighter, multirole fighter
National origin Soviet Union
Russia
Manufacturer Mikoyan
First flight 6 October 1977
Introduction August 1983
Status Active service
Primary users Russian Air Force
Indian Air Force
Ukrainian Air Force
Uzbekistan Air Force
Produced 1982–present
Number built 1,600+[1]
Unit cost US$11 million (MiG-29B, 1984)[2]
US$29 million (average cost, 2009)[3][4]
Variants Mikoyan MiG-29M
Mikoyan MiG-29K
Mikoyan MiG-35

The Mikoyan MiG-29 (Russian: Микоян и Гуревич МиГ-29; NATO reporting name: "Fulcrum") is a fourth-generation jet fighter aircraft designed in the Soviet Union for an air superiority role. Developed in the 1970s by the Mikoyan design bureau, it entered service with the Soviet Air Force in 1983, and remains in use by the Russian Air Force as well as in many other nations. The NATO name "Fulcrum" was sometimes unofficially used by Soviet pilots in service.[5]

The MiG-29, along with the Sukhoi Su-27, was developed to counter new American fighters such as the McDonnell Douglas F-15 Eagle, and the General Dynamics F-16 Fighting Falcon.[6]

Contents

Development

Origins

In 1969 the existence of the United States Air Force's "F-X" program, which would result in the McDonnell Douglas F-15 Eagle, became public knowledge.[7] At the height of the Cold War, a Soviet response was necessary to avoid the possibility of a new American fighter gaining a serious technological advantage over existing Soviet fighters, thus the development of a new air superiority fighter became a priority.[6] The Soviet General Staff issued a requirement for a Perspektivnyy Frontovoy Istrebitel (PFI, translating directly as "Perspective Frontline Fighter", roughly "Advanced Frontline Fighter").[8] 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 Russian aerodynamics institute TsAGI worked in collaboration with the Sukhoi design bureau on the aircraft's aerodynamics.[8]

However, in 1971 Soviet studies determined the need for different types of fighters. The PFI program was supplemented with the LPFI (Perspektivnyy Lyogkiy Frontovoy Istrebitel, or "Advanced Lightweight Tactical Fighter") program; the Soviet fighter force was planned to be approximately 33% PFI and 67% LPFI.[9] PFI and LPFI paralleled the USAF's decision that created the "Lightweight Fighter" program and the General Dynamics F-16 Fighting Falcon and Northrop YF-17.[10] The PFI fighter was assigned to Sukhoi, resulting in the Sukhoi Su-27, while the lightweight fighter went to Mikoyan. Detailed design work on the resultant Mikoyan Product 9, designated MiG-29A, began in 1974, with the first flight taking place on 6 October 1977. The pre-production aircraft was first spotted by United States reconnaissance satellites in November of that year; it was dubbed Ram-L because it was observed at the Zhukovsky flight test center near the town of Ramenskoye. Early Western speculations suggested that the Ram-L was very similar in appearance to the YF-17 and powered by afterburning Tumansky R-25 turbojets.

Despite program delays caused by the loss of two prototypes in engine-related accidents (third prototype on 15 June 1978 and the fifth prototype on 31 October 1980), the MiG-29B production version entered service in August 1983 at the Kubinka air base. State acceptance trials were completed in 1984, and deliveries began the same year to the Soviet Frontal Aviation.

The workload split between TPFI and LPFI became more apparent as the MiG-29 filtered into front line service with the Soviet Air Forces (Russian: Voenno-Vozdushnye Sily [VVS]) in the mid-1980s. While the heavy, long range Su-27 was tasked with the more exotic and dangerous role of deep air-to-air sweeps of NATO high-value assets, the smaller MiG-29 directly replaced the MiG-23 in the frontal aviation role. Features such as rugged landing gear and protective intake grates allowed MiG-29 operations from damaged or under-prepared airstrips that Soviet war planners expected to encounter during a rapid armored advance. The MiG-29 was to be an escort for local strike and interdiction air packages, protecting vulnerable ground attack aircraft from NATO fighters such as the F-15 and F-16. The MiG-29 was positioned relatively close to the front lines, and would have been tasked with providing local air superiority to advancing Soviet motorized army units.

Introduction and improvements

In the West, the new fighter was given the NATO reporting name "Fulcrum-A" because the pre-production MiG-29A, which should have logically received this designation, remained unknown in the West at that time. The Soviet Union did not assign official names to most of its aircraft, although nicknames were common. Unusually, some Soviet pilots found the MiG-29’s NATO reporting name, "Fulcrum", to be a flattering description of the aircraft’s intended purpose, and it is sometimes unofficially used in Russian service.[5]

The MiG-29B was widely exported in downgraded versions, known as MiG-29B 9-12A and MiG-29B 9-12B for Warsaw Pact and non-Warsaw Pact nations respectively, with less capable avionics and no capability for delivering nuclear weapons. Total production was about 840 aircraft.

In the 1980s, Mikoyan developed the improved MiG-29S to use longer range R-27E and R-77 air-to-air missiles. It added a dorsal 'hump' to the upper fuselage to house a jamming system and some additional fuel capacity. The weapons load was increased to 4,000 kg (8,800 lb) with airframe strengthening. These features were included in new-built fighters and upgrades to older MiG-29s.[11][12]

Refined versions of the MiG-29 with improved avionics were fielded by the Soviet Union, but Mikoyan’s multirole variants, including a carrier-based version designated MiG-29K, were never produced in large numbers. In the post-Soviet era, MiG-29 development was influenced by the Mikoyan bureau's apparent lesser political clout than rival Sukhoi. Some more advanced versions are still being pursued for export, and updates of existing Russian aircraft are likely. New fighter versions called MiG-29M/M2 and MiG-29SMT have been developed. Furthermore, development of the MiG-29K carrier version has been resumed for the Indian Navy's INS Vikramaditya aircraft carrier.

Design

Features

Because it was developed from the same basic parameters laid out by TsAGI for the original PFI, the MiG-29 is aerodynamically broadly similar to the Sukhoi Su-27, but with some notable differences. It is built largely out of aluminium with some composite materials. It has a mid-mounted swept wing with blended leading-edge root extensions (LERXs) swept at around 40°. There are swept tailplanes and two vertical fins, mounted on booms outboard of the engines. Automatic slats are mounted on the leading edges of the wings; they are four-segment on early models and five-segment on some later variants. On the trailing edge, there are maneuvering flaps and wingtip ailerons. At the time of its deployment, it was one of the first jet fighters in service capable of executing the Pugachev Cobra maneuver.

The MiG-29 has hydraulic controls and a SAU-451 three-axis autopilot but, unlike the Su-27, no fly-by-wire control system. Nonetheless, it is very agile, with excellent instantaneous and sustained turn performance, high-alpha capability, and a general resistance to spins. The airframe is stressed for 9-g (88 m/s²) maneuvers. The controls have "soft" limiters to prevent the pilot from exceeding the g and alpha limits, but these can be disabled manually.

Powerplant

The MiG-29 has two widely spaced Klimov RD-33 turbofan engines, each rated at 50.0 kN (11,240 lbf) dry and 81.3 kN (18,277 lbf) in afterburner. The space between the engines generates lift, thereby reducing effective wing loading, to improve maneuverability. The engines are fed through wedge-type intakes fitted under the leading-edge extensions (LERXs), which have variable ramps to allow high-Mach speeds. As an adaptation to rough-field operations, the main air inlet can be closed completely and alter using the auxiliary air inlet on the upper fuselage for takeoff, landing and low-altitude flying, preventing ingestion of ground debris. Thereby the engines receive air through louvers on the LERXs which open automatically when intakes are closed. However the latest variant of the family, the MiG-35, eliminated these dorsal louvers, and adopted the mesh screens design in the main intakes, similar to those fitted to the Su-27.[13]

Range and fuel system

The internal fuel capacity of the original MiG-29B is only 4,365 litres distributed between six internal fuel tanks, four in the fuselage and one in each wing. As a result, the aircraft has a limited range, in line with the original Soviet requirements for a point-defense fighter. For longer flights, this can be supplemented by a 1,500-litre (330 Imp gal, 395 US gal) centreline drop tank and, on later production batches, two 1,150-litre (253 Imp gal, 300 US gal) underwing drop tanks. In addition, a small number have been fitted with port-side inflight refueling probes, allowing much longer flight times by using a probe-and-drogue system. Some MiG-29B airframes have been upgraded to the "Fatback" configuration (MiG-29 9–13), which adds a dorsal-mounted internal fuel tank. Advanced variants, such as the MiG-35, can be fitted with a conformal fuel tank on the dorsal spine, although none of them have yet entered service.

Cockpit

The cockpit features a conventional centre stick and left hand throttle controls. The pilot sits in a Zvezda K-36DM zero-zero ejection seat which has had impressive performance in emergency escapes.

The cockpit has conventional dials, with a head-up display (HUD) and a Shchel-3UM helmet mounted display, but no HOTAS ("hands-on-throttle-and-stick") capability. Emphasis seems to have been placed on making the cockpit similar to the earlier MiG-23 and other Soviet aircraft for ease of conversion, rather than on ergonomics. Nonetheless, the MiG-29 does have substantially better visibility than most previous Russian jet fighters, thanks to a high-mounted bubble canopy. Upgraded models introduce "glass cockpits" with modern liquid-crystal (LCD) multi-function displays (MFDs) and true HOTAS.

Sensors

The baseline MiG-29B has a Phazotron RLPK-29 (Radiolokatsyonnui Pritselnui Kompleks) radar fire control system (FCS) which includes the N019 (Sapfir 29; NATO: 'Slot Back') look-down/shoot-down coherent pulse-Doppler radar and the Ts100.02-02 digital computer. Tracking range against a fighter-sized target was only about 70 km (38 nmi) in the frontal aspect and 35 km (19 nmi) in the rear aspect. Range against bomber-sized targets was roughly double. Ten targets could be displayed in search mode, but the radar had to lock onto a single target for semi-active homing (SARH). The MiG-29 was not able to reliably utilize the new Vympel R-27R (NATO: AA-10 "Alamo") long-range SARH missile at its maximum ranges.

These performance deficiencies stemmed largely from the fact the N019 radar was not, in fact, a new design. Instead, the system was a further development of the architecture already used in Phazotron's Sapfir-23ML system, then in use on the MiG-23ML. During the initial MiG-29 design specification period in the mid-1970s, Phazotron NIIR was tasked with producing a modern radar for the MiG-29. To speed development, Phazotron based its new design on the work undertaken by NPO Istok on the experimental "Soyuz" radar program. Accordingly, the N019 was originally intended to have a flat planar array antenna and full digital signal processing, giving a detection and tracking range of at least 100 km against a fighter-sized target. Given the state of Soviet avionics technology at the time, it was an ambitious goal. Testing and prototypes soon revealed this could not be attained in the required timeframe, at least not in a radar that would fit in the MiG-29's nose. Rather than design a completely new, albeit more modest radar, Phazotron reverted to a version of the twisted-polarization Cassegrain antenna used successfully on the Sapfir-23ML to save time and cost. This system used the same analog signal processors as their earlier designs, coupled with a NII Argon-designed Ts100 digital computer. While this decision provided a working radar system for the new fighter, it inherited all of the weak points of the earlier design. This reliance on 1960s-era technology continued to plague the MiG-29's ability to detect and track airborne targets at ranges available with the R-27 and R-77 missiles, although new designs like the digital N010 Zhuk-M address the serious signal processing shortcomings inherent in the analog design. Most MiG-29 continue to use the analog N019 or N019M radar, although VVS has indicated its desire to upgrade all existing MiG-29s to a fully digital system.

The N019 was further compromised by Phazotron designer Adolf Tolkachev’s betrayal of the radar to the CIA, for which he was executed in 1986. In response to all of these problems, the Soviets hastily developed a modified N019M Topaz radar for the upgraded MiG-29S aircraft. However, VVS was reportedly still not satisfied with the performance of the system and demanded another upgrade. The latest upgraded aircraft offered the N010 Zhuk-M, which has a planar array antenna rather than a dish, improving range, and a much superior processing ability, with multiple-target engagement capability and compatibility with the Vympel R-77 (or RVV-AE) (NATO: AA-12 'Adder'). A useful feature the MiG-29 shares with the Su-27 is the S-31E2 KOLS, a combined laser rangefinder and IRST in an "eyeball" mount forward of the cockpit canopy. This can be slaved to the radar or used independently, and provides exceptional gun-laying accuracy.

Armament

Armament for the MiG-29 includes a single GSh-30-1 30 mm cannon in the port wing root. This originally had a 150-round magazine, which was reduced to 100 rounds in later variants. Original production MiG-29B aircraft cannot fire the cannon when carrying a centerline fuel tank as it blocks the shell ejection port. This issue was corrected in the MiG-29S and later versions. Three pylons are provided under each wing (four in some variants), for a total of six (or eight). The inboard pylons can carry either a 1,150 litre (300 US gal) fuel tank, one Vympel R-27 (AA-10 "Alamo") medium-range air-to-air missile, or unguided bombs or rockets. Some Soviet aircraft could carry a single nuclear bomb on the port inboard station. The outer pylons usually carry R-73 (AA-11 "Archer") dogfight missiles, although some users still retain the older R-60 (AA-8 "Aphid"). A single 1,500-litre (400 US gal) tank can be fitted to the centerline, between the engines, for ferry flights, but this position is not used for combat stores. The original MiG-29B can carry general-purpose bombs and unguided rocket pods, but not precision-guided munitions. Upgraded models have provision for laser-guided and electro-optical bombs, as well as air-to-surface missiles.

Operational history

The Soviet Union exported MiG-29s to several countries. Because 4th-generation fighter jets require the pilots to have extensive training, air-defense infrastructure, and constant maintenance and upgrades, MiG-29s have had mixed operational history with different air forces.[14]

Soviet Union and Russia

The MiG-29 was first publicly seen in the West when the Soviet Union displayed the aircraft in Finland in July 1986. Two MiG-29s were also displayed at the Farnborough Airshow in Britain in September 1988. The following year, the aircraft conducted flying displays at the 1989 Paris Air Show where it was involved in a non-fatal crash during the first weekend of the show.[15] The Paris Air Show display was only the second display of Soviet fighters at an international air show since the 1930s. Western observers were impressed by its apparent capability and exceptional agility. Following the disintegration of the Soviet Union, most of the MiG-29s entered service with the newly-formed Russian Air Force.

In 1993, two MiG-29s of the Russian Air Force collided in mid-air and crashed away from the public at the 1993 Royal International Air Tattoo (UK). No one was hurt on the ground.[16] The two pilots ejected and landed safely.[17] Investigators later determined that a pilot error was the cause, after one pilot did a reverse loop and disappeared into the clouds, the other one lost sight of his wingman and aborted the routine.

On 20 April 2008, Georgian officials claimed a Russian MiG-29 shot down a Georgian Hermes 450 unmanned aerial vehicle and provided video footage from the ill-fated drone showing an apparent MiG-29 launching an air-to-air missile at it. Russia denies that the aircraft was theirs and says they did not have any pilots in the air that day. Abkhazia’s administration claimed its own forces shot down the drone with an L-39 aircraft "because it was violating Abkhaz airspace and breaching ceasefire agreements."[18] UN investigation concluded that the video was authentic and that the drone was shot down by a Russian MiG-29 or Su-27 using a R-73 heat seeking missile.[19]

The Russian Air Force grounded all its MiG-29s following a crash in Siberia on 17 October 2008.[20] Following a second crash with an MiG-29 in east Siberia in December 2008,[21][22] Russian officials admitted that most MiG-29 fighters in the Russian Air Force were incapable of performing combat duties due to poor maintenance. The age of the aircraft was also an important factor as about 70% of the MiGs were considered to be too old to take to the skies.[23] The Russian MiG-29s have not received updates since the collapse of the Soviet Union. This is because the Russian Air Force chose to upgrade the Su-27 and MiG-31 instead. On 4 February 2009, the Russian Air Force resumed flights with the MiG-29.[24] However, in March 2009, 91 MiG-29s of the Russian Air Force required repair after inspections due to corrosion; approximately 100 MiGs were cleared to continue flying at the time.[25][26] The Russian Air Force started an update of its early MiG-29s to the more current MiG-29SMT standard.[27]

India

India was the first international customer of the MiG-29. The Indian Air Force (IAF) placed an order for more than 50 MiG-29s in 1980 while the aircraft was still in its initial development phase. Since its induction into the IAF in 1985, the aircraft has undergone a series of modifications with the addition of new avionics, sub-systems, turbofan engines and radars.[28] The upgraded Indian version is known as Baaz (Hindi for Hawk) and forms a crucial component of the second-line offensive aircraft-fleet of the IAF after the Sukhoi Su-30MKI.

Indian MiG-29s were used extensively during the 1999 Kargil War in Kashmir by the Indian Air Force to provide fighter escort for Mirage 2000s, which were attacking targets with laser-guided bombs. According to Indian sources, two MiG-29s from the IAF's No. 47 squadron (Black Archers) gained missile lock on two F-16s of the Pakistan Air Force (PAF) which were patrolling close to the border to prevent any incursions by Indian aircraft, but did not engage them because no official declaration of war had been issued. The Indian MiG-29s were armed with beyond-visual-range air-to-air missiles whereas the Pakistani F-16s were not.[29]

The MiG-29’s good operational record prompted India to sign a deal with Russia in 2005—2006 to upgrade all of its MiG-29s for US$888 million. Under the deal, the Indian MiGs were modified to be capable of deploying the R-77RVV-AE (AA-12 'Adder') air-to-air missile, also known as the Amraamski. The missiles had been successfully tested in October 1998 and were integrated into IAF's MiG-29s. IAF has also awarded the MiG Corporation another US$900 million contract to upgrade all of its 69 operational MiG-29s. These upgrades will include a new avionics fit, with the N-109 radar being replaced by a Phazatron Zhuk-M radar. The aircraft is also being equipped to enhance beyond-visual-range combat ability and for air-to-air refuelling to increase endurance.[30] In 2007, Russia also gave India’s Hindustan Aeronautics Limited (HAL) a licence to manufacture 120 RD-33 series 3 turbofan engines for the upgrade.[31] The upgrade will also include a new weapon control system, cockpit ergonomics, air-to-air missiles, high-accuracy air-to-ground missiles and "smart" aerial bombs. The first six MiG-29s will be upgraded in Russia while the remaining 63 MiGs will be upgraded at the HAL facility in India. India also awarded a multi-million dollar contract to Israel Aircraft Industries to provide avionics and subsystems for the upgrade.[32]

In March 2009, the Indian Air Force expressed concern after 90 MiG-29s were grounded in Russia.[33] After carrying out an extensive inspection, the IAF cleared all MiG-29s in its fleet in March 2009.[34] In a disclosure in Parliament, Defence Minister A. K. Antony said the MiG-29 is structurally flawed in that it has a tendency to develop cracks due to corrosion in the tail fin. Russia has shared this finding with India, which emerged after the crash of a Russian Air Force MiG-29 in December 2008. "A repair scheme and preventive measures are in place and IAF has not encountered major problems concerning the issue," Antony said.[35] Despite concerns of Russia's grounding, India sent the first six of its 78 MiG-29s to Russia for upgrades in 2008. The upgrade program will fit the MiGs with a phased array radar (PESA) and in-flight re-fuelling capability.[14] In January 2010, India and Russia signed a US$1.2 billion deal under which the Indian Navy would acquire 29 additional MiG-29Ks, bringing the total number of MiG-29Ks on order to 45.[36] The MiG-29K entered service with the Indian Navy on 19 February 2010.[37] The upgrade of all IAF MiG-29 "Baaz" to latest MiG-29SMT standard is in process, which will include latest avionics, Zhuk-ME Radar, engine, weapon control systems etc., enhancing multirole capabilities by many-fold.[38][39]

Yugoslavia

Yugoslavia was the first European country outside the Soviet Union to operate the MiG-29. Yugoslavia received 14 MiG-29Bs and two MiG-29UBs from the USSR in 1987. MiG-29s were put into service with the 127th Fighter Aviation Squadron, based at Batajnica Air Base, north of Belgrade, Serbia.[40]

Yugoslav MiG-29s saw little combat during the breakup of Yugoslavia, and were used primarily for ground attacks. Several Antonov An-2 aircraft used by Croatia were destroyed on the ground at Čepin airfield near Osijek, Croatia in 1991 by a MiG-29, however there were no MiG-29 losses.[41] At least two MiG-29 carried out an air strike on Banski dvori, the official residence of the Croatian Government, on 7 October 1991.[42]

The MiG-29s continued their service in the subsequent Federal Republic of Yugoslavia. Because of the United Nations arms embargo against the country, the condition of the MiG-29s worsened. Before Operation Allied Force began in 1999, Yugoslav MiG-29s were over 10 years old, short of spare parts and proper maintenance. By March 1999, the Yugoslav Air Force had 11 MiG-29s considered operational.

A total of six MiG-29s were shot down during the Kosovo War, of which three were shot down by USAF F-15s, one by a USAF F-16, and one by a Dutch F-16.[43] One aircraft, according to pilot, was hit by friendly fire from the ground.[44] Another four were destroyed on the ground.[45] Some Russian sources claim that a MiG-29 shot down an F-16 on 26 March 1999,[46] but this kill is disputed, as the F-16C in question was said to have crashed in the US that same day.[47]

Most historians attribute the downing of a F-117 as being shot down by SAM commander Zoltan Dani.[48] Some sources claimed it was shot down by a MiG-29 piloted by Lt. Col. Gvozden Đukić,[49] which was the nom de guerre of Zoltan Dani.[50]

The Air Force of Serbia and Montenegro continued flying its remaining five MiG-29s at a very low rate after the war. In spring 2004, news appeared that MiG-29 operations had ceased, because the aircraft could not be maintained.[41] In 2007, all five MiG-29 were sent to Russia to be refurbished, and upgraded. In 2008, the MiG-29s began returning to service with the Serbian Air Force. In the 2009 one Serbian MiG-29 crashed, the pilot and one soldier on the ground died.

Germany

The German Democratic Republic (also known as East Germany) bought 24 MiG-29s (20 MiG-29As, four MiG-29UBs), which entered service in 1988–1989. After the fall of the Berlin Wall in November 1989 and reunification of Germany in October 1990, the MiG-29s and other aircraft of the East German Luftstreitkräfte der NVA were integrated into the West German Luftwaffe. After upgrades by DaimlerChrysler Aerospace (now EADS) for NATO compatibility, they were designated MiG-29G and MiG-29GT. In March 1991, one of the MiG-29s in German service was transferred to the USAF for evaluation, along with several Su-22s and MiG-23s.

The Federation of American Scientists claims the MiG-29 is equal or better than the F-15C in some areas such as short aerial engagements because of the Helmet Mounted Weapons Sight (HMS) and better maneuverability at slow speeds.[51] This was demonstrated when MiG-29s of the Luftwaffe participated in joint DACT exercises with U.S. fighters.[52][53] The HMS was a great help, allowing the Germans to achieve a lock on any target the pilot could see within the missile field of view, including those almost 45 degrees off boresight.[54] In contrast, the U.S. aircraft were only able to lock onto targets in a narrow window directly in front of the aircraft’s nose. It was not until late 2003 that the USAF and US Navy achieved Initial Operational Capability of the Joint Helmet Mounted Cueing System.

Since 1993 the German MiGs were stationed with 1./JG73 "Steinhoff" in Laage near Rostock. During the service in the Luftwaffe one MiG-29 ("29+09") was destroyed during an accident on 25 June 1996 due to pilot error. By 2003, Luftwaffe pilots had flown over 30,000 hours in the MiG-29. In September 2003, 22 of the 23 remaining machines were sold to the Polish Air Force for the symbolic price of €1 per item.[55] The last aircraft were transferred in August 2004.[56] The 23rd MiG-29 ("29+03") was put on display at Laage.[57]

Poland

The first 12 MiG-29 (nine MiG-29As, three MiG-29UB) were delivered to Poland in 1989–1990. The aircraft were based at Mińsk Mazowiecki and used by the 1st Fighter Aviation Regiment, which was reorganized in 2001 as 1 Eskadra Lotnictwa Taktycznego (1. elt), or 1st Tactical Squadron (TS). In 1995, 10 used examples were acquired from the Czech Republic (nine MiG-29As, one MiG-29UB). After the retirement of its MiG-21s and −23s in 2003, Poland was left for a time with only these 22 MiG-29s in the interceptor role.

In 2004 Poland received 22 ex-Luftwaffe MiG-29s. A total of 14 of these were overhauled and taken into service, equipping the 41st Tactical Squadron (41. elt) and replacing its MiG-21s. At present Poland has 32 active MiG-29s (26 MiG-29As, six MiG-29UB) which will serve at least until 2012–2015. They are currently stationed with the 1st Tactical Squadron at the 23rd Air Base near Mińsk Mazowiecki and the 41st TS at the 22nd Air Base near Malbork. As of 2008, Poland is the biggest NATO MiG-29 user. The possibility of modernising the fighters to enable them to serve until 2020–2025 is being contemplated, depending on whether cooperation with Mikoyan can be established.

There have been unconfirmed reports that Poland had at one point leased a MiG-29 from their own inventory to Israel for evaluation and the aircraft has since been returned to Poland, as suggested by photographs of a MiG-29 in Israeli use. Three Polish Mig-29A were reported in Israel for evaluation between April and May 1997 at Negev desert.[58] On 7 September 2011 the Polish Air Force awarded a contract to the WZL 2 company to modernise its MiG-29 fleet to be compatible with Polish F-16s.[59]

United States

In 1997, the United States purchased 21 Moldovan aircraft under the Nunn-Lugar Cooperative Threat Reduction programme. Fourteen were MiG-29Ss, which are equipped with an active radar jammer in its spine and are capable of being armed with nuclear weapons. Part of the United States’ motive to purchase these aircraft was to prevent them from being sold to "rogue states", especially Iran.[60] This purchase could also provide the United States Air Force with a working evaluation and data for the MiG-29. Such information may prove valuable in any future conflicts and can aid in the design and testing of current and future weapons platforms. In late 1997, the MiGs were delivered to the National Air and Space Intelligence Center (NASIC) at Wright-Patterson Air Force Base near Dayton, Ohio, though many of the former Moldovan MiG-29s are believed to have been scrapped.

Iraq

Iraq received a number of MiG-29 fighters, and used MiG-29s to engage Iranian equivalent opponents like F-14, F-4 and F-5 during the later stages of the Iran-Iraq War. In addition to MiG-29s, the Iraqi Air Force used Soviet-made fighters such as the MiG-21, MiG-23, MiG-25, Su-22, Su-24, Su-25, Mig-27, bombers such as the Soviet-made Tu-22, and other multi-role air crafts such as the Dassault Mirage F1, Dassault Mirage 2000 and Dassault-Breguet Super Étendard to fight against Iranian forces.

MiG-29s also saw combat in the 1991 Persian Gulf War with the Iraqi Air Force. Five MiG-29s were shot down by USAF F-15s.[61] Some Russian sources reported that at least one Panavia Tornado, ZA467, was shot down in northwestern Iraq by a MiG-29.[62][63] UK sources claim this Tornado to have crashed on 22 January on a mission to Ar Rutbah.[64]

Other Iraqi air-to-air kills are reported in Russian sources, where the US claims other cases of combat damage, such as the B-52 "In HARM's way", which the US claims was hit by friendly fire, when an AGM-88 High-speed, Anti-Radiation Missile (HARM) homed on the fire-control radar of the B-52's tail gun; the jet was subsequently renamed "In HARM's Way".[65] Another Russian report was that a MiG-29 shot down an F-14, but the US Navy claims it was shot down by a SAM.[66][67]

After the war Iraq's original fleet of 37 MiG-29s was reduced to 12 due to the loss of 16 aircraft during the war, one damaged and the evacuation of four to Iran where their aircraft now serve in the Iranian Air Force, which now buys MiG-29s from Russia as well. These final 12 aircraft were withdrawn from use in 1995 due to the engines reaching the TBO and Iraq could not send them for overhaul.[68]

After the 2003 US invasion of Iraq and disbandment of the Iraqi Army in May of the same year[69], the remaining Russian-made and Chinese-made fighters of Iraqi forces had been decommissioned, and to be replaced by recently ordered US-made F-16[70]

Other countries

A Cuban MiG-29UB shot down two Cessna 337s belonging to the organisation Brothers to the Rescue in 1996, after the aircraft approached Cuban airspace.[71]

According to some reports, in the 1999 Eritrean-Ethiopian War, a couple of Eritrean MiG-29s were shot down by Ethiopian Su-27s piloted by Russian mercenaries.[72] There are also some other reports of Eritrean MiG-29s shooting down two Ethiopian MiG-21s, three MiG-23s, and an Su-25.[73]

There are reports that on 14 September 2001 two Syrian Air Force MiG-29s were shot down by two IDF/AF F-15C while the MiGs were intercepting an Israeli reconnaissance aircraft off the coast of Lebanon. However, both Syria and Israel deny that this occurred.[74][75][76]

Russia moved to expand its growing military influence in the Middle East when it announced it is giving Lebanon 10 fighter jets, in the most significant upgrade of Lebanon's military since the civil war ended almost two decades ago. Russia's defence ministry said it was giving the secondhand MiG-29s to Beirut free of charge. The gift was part of a defence cooperation deal that would see Moscow train Lebanese military personnel.[77]

There have been occasional claims regarding the use of Sudanese Air Force MiG-29s against insurgent forces in Darfur. However, whereas Mi-24 'Hind' combat helicopters as well as A-5 'Fantan' or, more recently, Su-25 "Frogfoot" ground-attack aircraft have been spotted and photographed on Darfurian air fields, no MiG-29s have been observed. On 10 May 2008, a Darfur rebel group, the Justice and Equality Movement (JEM) mounted an assault on the Sudanese capital. During this action, the JEM shot down a Sudanese Air Force MiG-29 with 12.7 mm and 14.5 mm heavy machine gun fire while it was attacking a convoy of vehicles in the Khartoum suburb of Omdurman. The aircraft was piloted by a Russian mercenary. He was killed in action as his parachute did not open after ejecting. [78][79][80]

Civilian

The MiG-29 is available for flights of civilian passengers. Civilian flights started due to financial problems on Gromov Flight Research Institute in the Russian city Zhukovsky. Those flights in Mikoyan-Gurevich MiG-21, Mikoyan-Gurevich MiG-23, Mikoyan-Gurevich MiG-25, MiG-29 and Sukhoi Su-27 stopped in July 2006, when civilian flights in MiG-29 and Mikoyan MiG-31 started from Nizhny Novgorod.

Variants

There are currently several upgrade programmes conducted by the Russian Air Force for MiG-29 fighters which envisage: upgrading of the avionics suite to comply with NATO / ICAO (www.icao.int) standards, extension of the aircraft service life to 4,000 flight hours (40 years), upgrading combat capabilities and reliability, safety enhancements. In 2005 the Russian Aircraft Corporation “MiG” started production of new unified family of multirole fighters of the 4++ generation (aircraft-carrier based MiG-29K, front-line MiG-29M and MiG-35 fighters).

MiG-29 (Product 9.12)
Initial production version; entered service in 1983. NATO reporting code is "Fulcrum-A".
MiG-29B-12 (Product 9.12A)
Downgraded export version for non-Warsaw Pact nations. Lacked a nuclear weapon delivery system and possessed downgraded radar, ECM and IFF. NATO reporting code is "Fulcrum-A".
MiG-29UB-12 (Product 9.51)
Twin seat training model. Infra-red sensor mounted only, no radar. NATO reporting code is "Fulcrum-B".
MiG-29S
The MiG-29S is similar in external appearance to older MiG-29B airframes, except for the dorsal hump behind the cockpit canopy. Differences start with the improvements in the flight control system. Four new computers provide better stability augmentation and controllability with an increase of 2° in angle of attack (AoA). Its improved mechanical-hydraulic flight control system allows for greater control surface deflections. The MiG-29S's dorsal hump, earning it the nickname "Fatback" in service, was originally believed to be for additional fuel, but in fact, most of its volume is used for the new L-203BE Gardenyia-1 ECM system.
The MiG-29S can carry 1,150 liter (304 US gallon, 2,000 lb) drop tanks under each wing and a centerline tank. Inboard underwing hardpoints are upgraded to allow for a tandem pylon arrangement for a larger payload of 4,000 kg (8,820 lb). Overall maximum gross weight has been raised to 20,000 kg (44,000 lb). The GSh-30-1 cannon had its expended round ejector port modified to allow for firing while the centerline tank is still attached. Improvements also allow for new longer-range air-to-air missiles like the R-27E (AA-10 "Alamo") and R-77 (AA-12 "Adder").
Initially, the avionics of the MiG-29S only added a new IRST sighting system combined with a better imbedded training system that allowed for IR and radar target simulation. However, the final MiG-29S improvement kit also provides for the Phazotron N019M radar and more built-in test equipment (BITE) (especially for the radar) to reduce dependence on ground support equipment; MiG MAPO calls this model the MiG-29SD. Revised weapon system algorithms in the MiG-29S's software, combined with an increase in processing capacity, allows for the tracking of up to 10 targets and the simultaneous engagement of two with the R-77 missile.
The MiG-29S also has a limited ground-attack capability with unguided munitions, but in order to transform the MiG-29 into a true multirole fighter, MAPO designed the MiG-29SM variant with the improved avionics necessary to carry and employ precision-guided weapons. The "SE/SD/SM" improvements in the MiG-29S, combined with the development money made available for the naval MiG-29K, gave MAPO the incentive to forge ahead with the multirole MiG-29M "Super Fulcrum".
Flight performance of the MiG-29S is but slightly reduced due to the additional weight of the additional fuel and avionics. Only 48 MiG-29S new-built airframes were produced for the Russian VVS before funding was cut. Of this number, it is unknown how many are the standard air-superiority "S" version and how many are the multirole "SM" version. NATO reporting code is "Fulcrum-C".
MiG-29S-13 (Product 9.13)
MiG-29 variant similar to the 9.12, but with an enlarged fuselage spine containing additional fuel and a Gardeniya active jammer. Product 9.13S is also version with the same airframe as the 9.13, but with an increased external weapons load of 4,000 kg, and provision for two underwing fuel tanks. Radar upgraded to N019ME, providing an ability to track 10 targets and engage two simultaneously. Compatible with the Vympel R-77 (AA-12 "Adder") air-to-air missile (similar to the AIM-120 AMRAAM). NATO reporting code is "Fulcrum-C".
MiG-29SM (Product 9.13M)
Similar to the 9.13, but with the ability to carry guided air-to-surface missiles and TV- and laser-guided bombs. NATO reporting code is "Fulcrum-C".
MiG-29G/MiG-29GT
It was an upgrade standard for the German Luftwaffe's MiG-29 / 29UB, inherited from the former East Germany to the NATO standards. Works was done by MiG Aircraft Product Support GmbH (MAPS), a joint venture company form between MiG Moscow Aviation Production Association and DaimlerChrysler Aerospace in 1993.[81]
MiG-29AS/MiG-29UBS (MiG-29SD)
Slovak Air Force performed an upgrade on their MiG-29/-29UB for NATO compatibility. Work is done by RAC MiG and Western firms, starting from 2005. The aircraft now has navigation and communications systems from Rockwell Collins, an IFF system from BAE Systems, new glass cockpit features multi-function LC displays and digital processors and also fitted to be integrate with Western equipment in the future. However, the armaments of the aircraft remain unchanged. 12 out of 21 of the entire MiG-29 fleet were upgraded and had been delivered as of late February, 2008.[82]
MiG-29 Sniper
Upgrade planned for Romanian Air Force, by Israeli firms. First flight occurred on 5 May 2000. The program was halted along with the retiring of Romanian MiG-29s in 2003. The latter occurred because of high maintenance costs, which led to the Romanian Government's decision to halt the MiG-29 program and further invest in the MiG-21 LanceR program.
MiG-29M / MiG-33 (Product 9.15)
Advanced multirole variant, with a redesigned airframe, mechanical flight controls replaced by a fly-by-wire system and powered by enhanced RD-33 ser.3M engines. NATO reporting code is "Fulcrum-E".
MiG-29UBM (Product 9.61)
Two-seat training variant of the MiG-29M. Never built. Effectively continued under the designation 'MiG-29M2'.
MiG-29K (Product 9.31)
Naval variant based on MiG-29M, the letter "K" stands for "Korabelnogo bazirovaniya" (Deck-based ), with equipment such as folding wings, arrestor gear, and reinforced landing gear. Originally intended for the Admiral Kuznetsov class aircraft carriers, had even received series production approval from Russian Ministry of Defence but was later grounded in 1992 due to shift in military doctrine and state financial difficulty.[83] MiG Corporation restarted the program in 1999 and made vital improvement to the previous design. On 20 January 2004, Indian Navy signed a contract of 12 single-seat MiG-29K and four two-seat MiG-29KUB.[83] Modifications were made for Indian Navy requirement, now standard for all current production. Current production MiG-29K and MiG-29KUB also share a two-seater size canopy. The MiG-29K has radar absorbing coatings to reduce radar signature. Cockpit displays consist of wide HUD and three (seven on MiG-29KUB) colour LCD MFDs with a Topsight E helmet-mounted targeting system. It has a full range of weapons compatible with the MiG-29M and MiG-29SMT.[84] NATO reporting code is "Fulcrum-D".
MiG-29KUB (Product 9.47)
Identical characteristic to the MiG-29K but with tandem twin seat configuration. The design is to serve as trainer for MiG-29K pilot and is full combat capable. The first MiG-29KUB developed for the Indian Navy made its maiden flight at the Russian Zhukovsky aircraft test centre on 22 January 2007.[85] NATO reporting code is "Fulcrum-D".
MiG-29SMT (Product 9.17)
The MiG-29SMT is an upgrade package of the first-generation MiG-29s (9.12 to 9.13) containing many enhancements intended for the MiG-29M. Additional fuel tanks in a further enlarged spine provide a maximum flight range of 2,100 km (on internal fuel). The cockpit has an enhanced HOTAS design, two 152 × 203 mm (6 × 8 inch) colour liquid crystal MFDs and two smaller monochrome LCDs. The upgraded Zhuk-ME radar provides similar features to the MiG-29M. The power plant are upgraded RD-33 ser.3 engines with afterburning thrust rated the same at 8,300 kgf (81.4 kN) each. The weapons load was increased to 4,500 kg on six underwing and one ventral hardpoints, with similar weapon choices as for the MiG-29M variant. The upgraded aircraft has also a painted path for non-Russian origin avionics and weapons.[86]
MiG-29BM
"The MiG-29BM (probably Belorussian Modernised, possibly Bolyshaya Modernizaciya - large modernization) is an upgrade to the MiG-29 conducted by the ARZ-558 aircraft repair plant in Baranovichi, Belarus...The MiG-29BM is a strike variant of the MiG-29 pure fighter, the Belarussian counterpart to the Russian MiG-29SMT." It includes improvements to weapons, radar, as well as adding non-retractable air-air refueling ability.[87]
MiG-29UBT (Product 9.51T)
SMT standard upgrade for the MiG-29UB. Namely users, Algeria and Yemen.[88][89]
MiG-29UPG
The design is a new modification intended for the MiG-29s used by Indian Air Force. It made its maiden flight on 4 February 2011. The standard includes the new Zhuk-M radar, new avionics, a IFR probe as well as new enhanced RD-33 series 3 turbojet engines. The modernization is part of a $900 million contract to upgrade the 69 fighters fleet.[90]
MiG-29M2 / MiG-29MRCA
Two-seat version of MiG-29M. Identical characteristics to MiG-29M, with a slightly reduced ferry range of 1,800 km.[91] RAC MiG presented in various air shows, including Fifth China International Aviation and Aerospace Exhibition (CIAAE 2004),[92] Aero India 2005,[93][94] MAKS 2005.[95] It was once given designation MiG-29MRCA for marketing purpose and now evolved into the current MiG-35.
MiG-29OVT
The aircraft is one of the six pre-built MiG-29Ms before 1991, later received thrust-vectoring engine and fly-by-wire technology. It served as a thrust-vectoring engine testbed and technology demonstrator in various air shows to show future improvement in the MiG-29M. It has identical avionics to the MiG-29M. The only difference in the cockpit layout is an additional switch to turn on vector thrust function. The two RD-133 thrust-vectoring engines, each features unique rotating nozzles which can provide thrust vector deflection in all directions. However, despite its thrust-vectoring, other specifications were not officially emphasized. The aircraft is being demonstrated along with the MiG-29M2 in various air shows around the world for potential export. The aircraft is usually used as an aerobatic demonstrator.[96]
MiG-35
A recently unveiled mature development of the MiG-29M/M2 and MiG-29K/KUB. NATO reporting code is "Fulcrum-F".

Operators

Current

Former

Aircraft on display

There are several museums in Russia that display MiG-29s:

Several MiG-29s are on display in Europe:

MiG-29s are currently on display in the United States at the following locations:

In private ownership

Specifications (MiG-29)

Data from MiG specifications,[123]

General characteristics

Performance

Armament

Avionics

See also

Related development
Aircraft of comparable role, configuration and era

Related lists

References

Notes
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Bibliography
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External links