In 1971, design work commenced on the project, which was initially referred to as Izdeliye 400 (Product #400), at the
Antonov Design Bureau in response to a shortage in heavy airlift capability within the
Military Transport Aviation Command (Komandovaniye voyenno-transportnoy aviatsii or VTA) arm of the
Soviet Air Forces. Two separate final assembly lines plants setup for the aircraft, one at
Aviastar-SP (ex. Ulyanovsk Aviation Industrial Complex) in
Ulyanovsk,
Russia and the other was the
Kyiv Aviation Plant AVIANT, in Ukraine. Assembly of the first aircraft begun in 1979; the An-124 (which was sometimes referred to as the An-40 in
the West) performed its
maiden flight on 24 December 1982. The type made its first appearance in the Western world at the 1985
Paris Air Show. Oleg Tolmachev was the Chief engineer of An-124 and An-225.[6] After the dissolution of the
Soviet Union, commercial operations were quickly pursued for the An-124, leading to civil certification being obtained by Antonov on 30 December 1992. Various commercial operators opted to purchase the type, often acquiring refurbished ex-military airlifters or stored fuselages rather than new-build aircraft.
By July 2013, 26 An-124s were reportedly in commercial service while a further ten airlifters were on order.[7] During 2008, it was announced that Russia and Ukraine were to jointly resume production of the type. At one point, it looked as if Russia would order 20 new-build airlifters. However, in August 2014, it was reported that the planned resumption of manufacturing had been shelved due to the ongoing
political tensions between Russia and Ukraine.[8] The sole remaining production facility is Russia's Aviastar-SP in Ulyanovsk.[citation needed] The various operators of the An-124 are in discussions with respect to the continuing airworthiness certification of the individual An-124 planes. The original designer of the An-124 is responsible for managing the certification process for its own products, but the Russia-Ukraine conflicts are making this process difficult to manage.[citation needed] In 2019, there were 26 An-124s in commercial service.
Development
Background
During the 1970s, the
Military Transport Aviation Command (Komandovaniye voyenno-transportnoy aviatsii or VTA) arm of the
Soviet Air Forces had a shortfall in strategic heavy airlift capacity. Its largest aircraft consisted of about 50
Antonov An-22 turboprops, which were used heavily for tactical roles. A declassified 1975 CIA analysis concluded that the USSR did "...not match the US in ability to provide long-range heavy lift support."[9] Soviet officials sought not only additional airlifters, a substantial increase in payload capacity was also desirable so that the same task could be completed with fewer trips.[10]
In 1971, design work on the project commenced at the
Antonov Design Bureau; the lead designer of the An-124 (and the enlarged
An-225 derivative) was
Viktor Tolmachev.[11][12] During development, it was known as Izdeliye 400 (Product #400) in house, and An-40 in
the West. The design produced broadly resembled the
Lockheed C-5 Galaxy, an American strategic airlifter, but also incorporated numerous improvements, the greater use of
carbon-fibrecomposites in its construction (comprising around 5% of the aircraft's total weight) and the more extensive use of
titanium being amongst these benefits.
Aluminiumalloys make up the primary material used in its construction, limited use of
steel and titanium alloys were also made.[10] Unlike the C-5, it lacks a fully-pressurised cargo bay or the ability to
receive fuel in-flight.[13]
In 1973, the construction of the necessary facilities to produce the new airlifter began. Two separate final assembly lines plants were established to produce the airlifter: the company
Aviastar-SP (ex. Ulyanovsk Aviation Industrial Complex) in
Ulyanovsk,
Russia and by the
Kyiv Aviation Plant AVIANT, in Ukraine. Furthermore, the programme used components, systems, and various other elements drawn from in excess of 100 factories across the Eastern world. In 1979, manufacturing activity on the first airframe began.[14]
On 24 December 1982, the type performed its
maiden flight. Three years later, the An-124 made its first appearance in the Western world when an example was displayed at the 1985
Paris Air Show.[10] Following the fall of the
Soviet Union, commercial operations of the An-124 became an increasingly important area of activity; to this end, civil certification was sought for the type by Antonov; this was issued on 30 December 1992.[15]
Post-Soviet developments
Sales of the An-124 to various commercial operators proceeded throughout the 1990s and into the mid 2000s; many of these were former military aircraft that were refurbished by Antonov prior to delivery, or unfinished fuselages that had been preserved, rather than producing new-build aircraft.[16] During the early 2000s, the cargo operator
Volga-Dnepr opted to upgrade its An-124 freighter fleet, these works included engine modifications to conform with chapter four
noise regulations, various structural improvements that increased service life, and numerous avionics and systems changes to facilitate four person operations, reducing the crew needed from six or seven.[17]
During April 2008, it was announced that Russia and Ukraine had agreed to resume the production of the An-124 in the third quarter of 2008.[18] One month later, a new variant — the An-124-150 — was announced; it featured several improvements, including a maximum lift capacity of 150
tonnes.[19] However, in May 2009, Antonov's partner, the Russian
United Aircraft Corporation announced it did not plan to produce any An-124s in the period 2009–2012.[20] During late 2009, Russian President
Dmitry Medvedev ordered production of the aircraft resumed; at this point, Russia was expected to procure 20 new-build An-124s.[21][22] In August 2014,
Jane's reported that, Russian Deputy Minister of Industry and Trade Yuri Slusar announced that production of the An-124 had been stopped as a consequence of the ongoing
political tensions between Russia and Ukraine.[8]
In late 2017, multiple An-124s were upgraded by the
Aviastar-SP plant in
Ulyanovsk, Russia, three of which were reportedly scheduled to return to flight during the following year.[citation needed] As
Russia–Ukraine relations continued to sour, Antonov begun to source new suppliers while also pushing to
westernize the An-124.[17] During 2018, the American engine manufacturer
GE Aviation was studying
reengining it with
CF6s for
CargoLogicAir, a Volga-Dnepr subsidiary. It was believed that this would likely provide a
range increase; as Volga-Dnepr Group operated 12 aircraft, the change would imply purchasing between 50 and 60 engines with
spares.[17] The Russian engine specialist
Aviadvigatel also indicated that a further development of its PD-14, which was intended for use on an upgraded model of the Russian-manufactured An-124, designated PD-35, generated 50% more power than the present Ukrainian
Progress D-18T engines.[citation needed]
During January 2019, Antonov revealed its plans to restart production of the An-124 without support from Russia.[23]
Russian replacement design
At
MAKS Air Show in 2017, the
Central Aerohydrodynamic Institute (TsAGI) announced its An-124-102
Slon (Elephant) design to replace the similar An-124-100. The design was detailed in January 2019 before
wind tunnel testing scheduled for August–September. It is intended to be produced at the
Aviastar-SP factory in Ulyanovsk. It should transport 150 t (330,000 lb) over 3,800 nmi (7,000 km) (up from 1,675 nmi, 3,102 km), or 180 t (400,000 lb) over 2,650 nmi (4,910 km) at 460 kn (850 km/h). The
Russian MoD wants a range of 4,100 nmi (7,600 km) with five
Sprut-SDM-1 light tanks, their 100 crew[clarification needed] and 300 armed soldiers.[24]
The planned An-124-102 is larger at 82.3 m (270 ft) long from 69 m (227 ft), with an 87–88 m (286–290 ft) span versus 73.3 m (240.5 ft) and 24.0 m (78.7 ft) high compared with 21.0 m (68.9 ft).[25] A new higher
aspect ratio, composite wing and a 214–222 t (472,000–489,000 lb) airframe would allow a 490–500 t (1,080,000–1,100,000 lb)
gross weight. It should be powered by Russian
PD-35s developed for the
CR929 widebody, producing 35 tf (77,000 lbf) up from 23 tf (51,000 lbf). Two fuselages are planned, one for Volga-Dnepr with a width of 5.3 m (17.4 ft) from the An-124's 4.4 m (14.4 ft), and one for the Russian MoD of 6.4 m (21 ft) wide to carry vehicles in two lines.[24]
On 5 November 2019, the TsAGI released pictures of a 1.63 m (5 ft 4 in) long and 1.75 m (5 ft 9 in) wide model, ahead of
windtunnel testing.[26][27][28] On 26 March 2020, TsAGI released new pictures of a wind tunnel model, announcing that the researchers of the Institute had completed the first cycle of aerodynamic testing; the results confirmed the characteristics laid down during preliminary studies.[29]
Design
An-124-100 kneeling with front ramp down (nose undercarriage retracted)
Kneeling detail
Not kneeling – nose gear extended
The Antonov An-124 Ruslan is a large,
strategic airlift,
four-engined aircraft. Externally, it bears numerous similarities to the American
Lockheed C-5 Galaxy, having a double fuselage to allow for a rear cargo door (on the lower fuselage) that can open in flight without affecting
structural integrity.[30][13] The An-124 has a slightly shorter fuselage, has a slightly greater wingspan, and is capable of carrying a 17 percent larger payload. In place of the C-5's
T-tail, the An-124 is furnished with a conventional
empennage, similar in design to that of the
Boeing 747. Many of the flight control surfaces, such as the
slats,
flaps, and
spoilers, closely resemble or are identical to those of the C-5. The An-124 features a
fly-by-wire control system.[31] This is a hybrid control system, as it also implements conventional mechanical controls for some aspects; these have been arranged in a manner that provides redundancy against the failure of a single
hydraulic circuit.[10]
A single An-124 is capable of carrying up to 150 tonnes (150 long tons; 170 short tons) of cargo internally in a standard military configuration; it can also carry 88 passengers in an upper deck behind the wing centre section. The forward area of this upper deck is where the flight deck and the crew area accommodated; movement between the upper and lower decks is via a pair of foldable internal ladders.[10] The cargo compartment of the An-124 is 36×6.4×4.4 m (118×21×14 ft), ca. 20% larger than the main cargo compartment of the C-5 Galaxy, which is 36.91×5.79×4.09 m (121.1×19.0×13.4 ft). Largely due to the limited pressurisation of its main cargo compartment (24.6 kPa, 3.57 psi),[32][31] the airlifter has seldom been used to deploy
paratroopers or to carry passengers, as they would typically require oxygen masks and cold-weather clothing in such conditions.[33] In comparison, the upper deck is fully pressurised.[10] The floor of the cargo deck is entirely composed of
titanium, a measure that is usually prohibited by the material cost.[31] It is suitable for carrying almost any heavy vehicle, including multiple
main battle tanks.[10]
The An-124 is powered by four
Lotarev D-18turbofan engines, each capable of generating up to 238–250 kN of thrust. To reduce the landing distance required,
thrust reversers are present.[10] Pilots have stated that the airlifter is relatively light on the controls and is easy to handle for an aircraft of its size.[34] A pair of TA18-200-124
auxiliary power units (APUs) are accommodated within the main landing gear fairings.[10] As a consequence of the heat and blast effects produced by these APUs, some airports require pavement protection to be deployed.[35] The
landing gear of the An-124 is outfitted with an
oleo strut suspension system for its 24 wheels. This suspension has been calibrated to allow for landing on rough terrain and is able to kneel, which allows for easier loading and unloading via the front cargo door.[30][10] Other features intended to ease loading including an onboard
overhead crane in the cargo deck, capable of lifting up to 30 tonnes, while items up to 120 tonnes can be
winched on board.[36][10] Two separate
radar units are typically present, one is intended for ground mapping and navigation purposes, while the other is for
weather.[10]
Operational history
During the 2000s, Germany headed an initiative to lease An-124s for
NATOstrategic airlift requirements. Two aircraft were leased from SALIS GmbH as a stopgap until the
Airbus A400M became available.[37] Under NATO
SALIS programme
NAMSA is chartering six An-124-100 transport aircraft. According to the contract An-124-100s of
Antonov Airlines and
Volga-Dnepr are used within the limits of NATO SALIS programme to transport cargo by requests of 18 countries: Belgium, Hungary, Greece, Denmark, Canada, Luxembourg, Netherlands, Norway, United Kingdom, Poland, Portugal, Slovakia, Slovenia, Finland, France, Germany, Czech Republic and Sweden. Two An-124-100s are constantly based on full-time charter in the
Leipzig/Halle airport, but the contract specifies that if necessary, two more aircraft will be provided at six days' notice and another two at nine days' notice.[38] The aircraft proved extremely useful for NATO especially with ongoing operations in Iraq and Afghanistan.[39]
United Launch Alliance (ULA) contracts the An-124 to transport the
Atlas V launch vehicle from its facilities in
Decatur, Alabama to
Cape Canaveral. ULA also uses the An-124 to transport the Atlas V launch vehicle and
Centaur upper stage from their manufacturing facility in Denver, Colorado to Cape Canaveral and
Vandenberg Space Force Base.[40] Two flights are required to transfer each launch vehicle (one for the Atlas V main booster stage and another for the Centaur upper stage).[41] It is also contracted by
Space Systems Loral to transport satellites from Palo Alto, CA to the Arianespace spaceport in Kourou, French Guiana[42] and by
SpaceX to transport payload fairings between their factory in
Hawthorne, California and Cape Canaveral.[43]
By 2013, the An-124 had reportedly visited 768 airports in over 100 countries.[44]
By late 2020, three civil operators of the An-124 remained.
Antonov Airlines with seven aircraft,
Volga-Dnepr Airlines with 12, and
Maximus Air Cargo with one. In November 2020, Volga-Dnepr reported that it was indefinitely grounding its fleet of An-124 aircraft to inspect the 60 engines (including spares) following the 13 November 2020 unconfined engine failure at
Novosibirsk.[45] As of 29 December 2020, the first Volga-Dnepr An-124-100 was back in service.[46]
Significant activities
In May 1987, an An-124 set a world record, covering the distance of 20,151 km (10,881 nmi) without refuelling.[47] The flight took 25 hours and 30 minutes; the takeoff weight was 455,000 kg.[citation needed]
In July 1985, an An-124 carried 171,219 kg (377,473 lb) of cargo to an altitude of 2,000 m (6,600 ft) and 170,000 kg to an altitude of 10,750 m (35,270 ft).[48]
In July 2010, an An-124 was used to transport four 35-foot and three 21-foot skimmer boats from France to the US to assist with the clean-up of the
Deepwater Horizon oil spill.[52]
An An-124 was used in April 2011 to airlift a large
Putzmeisterconcrete pump from Germany to Japan to help cool reactors damaged in the
Fukushima nuclear accident.[53] The
An-225 was used to transport an even larger Putzmeister concrete pump to Japan from the US.[54]
An An-124 was used in May 2018 to transport an 87,000 lb die tool from Eaton Rapids, Michigan, US to Nottingham, England to restart Ford F-150 production after a fire in the Eaton Rapids Magnesium Casting Facility.[55]
Several An-124s were used by the German
Bundeswehr to airlift military equipment from
Mazar-i-Sharif to
Leipzig during the 2021 German troop withdrawal from Afghanistan. Among the equipment were two
NH-90 helicopters.[56][57]
During the
COVID-19 pandemic, several An-124s were used to cargo masks and other medical equipment from
China to foreign countries. For example, Terio International Inc. dispatched their first one on June 7, 2020 between
Nanjing and
Montréal, which was done as a direct flight.[58][59]
On 24 February 2022, an An-124 with registration number UR-82009 was confirmed to be destroyed by Russian artillery during the
Battle of Antonov Airport, Kyiv.[60] Five other Ukrainian An-124s were diverted to Leipzig at the conclusion of their commercial flights.[61]
On 3 March 2023, an An-124 delivered 101 tons of humanitarian aid for
earthquake victims in Turkey and Syria.[62][63]
On 9 June 2023, an An-124 was seized by Canadian government authorities at
Toronto Pearson Airport. It had been stranded following closure of Canadian
airspace to Russian air navigation.[64]
Variants
An-124 Ruslan
Strategic heavy airlift transport aircraft
An-124-100
Commercial transport aircraft
An-124-100M-150
Version with a payload increased to 150 tonnes (maximum take-off weight 420 tonnes), with uprated
Lotarev D-18T series 4 engines; one An-124-100 converted[65]
Joint proposal with
Air Foyle to meet UK's Short Term Strategic Airlifter (STSA) requirement, with
Rolls-Royce RB211-524H-T engines, each rated 60,600 lbf (264 kN) and
Honeywell avionics—STSA competition abandoned in August 1999, reinstated, and won by the
Boeing C-17A.
An-124-300
The -300 is planned variant with upgraded engines with higher thrust. Variant was ordered by the
Russian Aerospace Forces in 2020.[66]
As of June 2019[update], five accidents with An-124
hull losses have been recorded involving a total of 97 fatalities,[82][81] including:
On 13 October 1992, CCCP-82002, operated by
Antonov Airlines crashed near
Kyiv, Ukraine during flight testing, suffering nose cargo door failure during high-speed descent (part of test program) resulting in total loss of control. The airplane came down in a forest near Kyiv, killing eight of the nine crew on board.[83]
On 15 November 1993, RA-82071, operated by
Aviastar Airlines crashed into a mountain at 11,000 feet (3,400 m) while in a holding pattern at
Kerman, Iran. There were 17 fatalities.[84]
On 13 November 2020, the second engine of
RA-82042, operated by
Volga-Dnepr Airlines, suffered an
uncontained engine failure after takeoff from
Novosibirsk, Russia. Subsequently, after landing there, the aircraft suffered a runway excursion and the nose landing gear collapsed.[87] On 25 November, the airline voluntarily grounded its entire fleet of An-124 aircraft.[88] By 29 December, the first Volga-Dnepr An-124-100 was back in service.[46]
Specifications (An-124-100M)
Data fromJane's all the World's Aircraft 2006-07,[89] Volga-Dnepr[90]
General characteristics
Crew: Eight (pilot, copilot, navigator, chief flight engineer, electrical flight engineer, radio operator, two loadmasters)
Capacity: 88 passengers in upper aft fuselage, or the hold can take an additional 350 pax on a palletised seating system / 150,000 kg (330,693 lb)
^Although the enlarged An-124-100M-150 version has a 7% higher payload than the operational
Boeing 747-8F, the 747-8F has over two times the range at 5,050 mi (8,130 km) with a payload of 295,800 lb (134,200 kg) compared to the An-124-100M-150 at the same payload. The An-124-100M-150 is able to carry less than half the payload at the same range.[3]
^Antonov's Heavy Transports. Midland Publishing. [page needed]
^Phillips, W. Scott (31 August 1999).
"Fixed-Wing Aircraft". Federation of American Scientists Military Analysis Network.
Archived from the original on 27 February 2006. Retrieved 22 February 2006.
^Élise, Paradis; Thériault, Vincent; Thériault, François (November 2021). Made-To-Deliver: An inspiring entrepreneurial story of boldness and resilience during the COVID-19 pandemic (1st ed.). Quebec, Canada: Self-Published.
ISBN979-8-4824-0659-5.
^"Антонов Ан-124". russianplanes.net.
Archived from the original on 26 March 2019. Retrieved 13 January 2019.
^"Петр Бутовски об Ан-124 "Руслан"" [Peter Butovskaya about AN-124 "Ruslan"] (in Russian). bmpd.livejournal.com. 9 May 2013.
Archived from the original on 16 November 2013. Retrieved 14 January 2019.