Yakovlev MC-21

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The Yakovlev MC-21 (Template:Langx) is a single-aisle airliner, under development in Russia by the Yakovlev Corporation (formerly known as Irkut Corporation), a branch of the United Aircraft Corporation (UAC), itself a 92%-owned subsidiary of Russia's state-owned aviation giant Rostec.[1] The variant MC-21-310 of the airliner powered by the Russian-made Aviadvigatel PD-14 engine made its maiden flight on 15 December 2020 from Irkutsk.[2]

Project history

The program to build the MC-21 was launched in 2007. Irkut rolled out the first MC-21-300 with Pratt & Whitney engines on 8 June 2016 and first flew the aircraft on 28 May 2017. The twinjet has a carbon fibre reinforced polymer wing and was to be powered by Aviadvigatel PD-14 turbofans or Pratt & Whitney PW1000G engines. By July 2018, the company had received 175 firm orders.

In early 2022, international sanctions against Russia were imposed due to the Russian invasion of Ukraine. Irkut Corporation was placed on the sanctions lists of the United States, Canada, Switzerland and Ukraine,[3] while United Aircraft Corporation was placed on the sanctions lists of the United States, European Union, Japan, Switzerland, France, Belgium and Ukraine,[4] and the European Union Aviation Safety Agency (EASA) suspended all work on type certification of the MC-21.[5] To circumvent the sanctions, Irkut decided to use only Russian avionics and engines.

By early 2024, it had become clear that the design work and additional testing necessary to use Russian-made equipment would delay the launch date to 2025–2026, and that the aircraft would not meet its original weight, range and operating altitude specifications; additionally, industry analysts questioned the feasibility of the revised delivery timeline because the Russian-designed PD-14 engines were unproven and it was unclear if other parts suppliers could meet production targets.[6]

In 2025 the first mass produced Aviadvigatel PD-14 engines were delivered, ready for fitment into serial produced MC-21 aircraft. Rostec head Sergei Chemezov told the press that series production was expected to begin in 2026. Aeroflot is to receive the first 18 aircraft. [7]

Naming

In Template:Langx Magistral'nyj Samoljot 21 veka translates as "mainline aircraft of the 21st century".[8] It is marketed in the West as the MC-21,[9][10] though the aircraft's Russian-language designation transliterates as Script error: No such module "Lang"..

In 2013, Russian deputy premier Dmitry Rogozin indicated that it would be designated Yak-242 once it enters serial production, the name of a 1990s proposal of an aircraft of similar size.[11] In 2014, Oleg Demchenko, the president of Irkut at the time, also preferred the Yak-242 name, claiming it would better reflect the design bureau behind the aircraft, however, he has also said that any of these renaming decisions would be made after the aircraft first flight and certification work.[12]

In August 2023, Irkut Corporation formally rebranded the entire company as Yakovlev.[13]

Development

File:MC-21 on the assembly line at Irkut.jpg
Assembly of prototype in January 2016

The program was launched in 2007, planning a 2016 introduction.[8] In 2009, the MC-21 was in the "pre-design" phase, with projected completion of the first prototype in 2013 and the first flight in 2014.[14] By June 2011, the "pre-design" phase was completed and the "working design" stage was under way with three-dimensional models and drawings for subcontractors and suppliers, to be completed by mid-2012.[15] In February 2012, Russian deputy prime minister Dmitry Rogozin announced it was slated to begin certification tests in 2015/2016 and to enter production in 2020.[16] The unit cost of the MC-21-200 is US$ 72 million,[9] and US$91 million for the MC-21-300.[17]

On 8 June 2016, the -300 was rolled-out in Irkutsk, East Siberia, six years after program launch and with 175 orders. It could be the first commercial aircraft to use out of autoclave composite manufacturing for its wings. The program faces domination of the single-aisle market by Airbus and Boeing. Russian protectionism is hampering access to critical western suppliers for the avionics, landing gear, hydraulics, power systems and engines. Its introduction was delayed to the end of 2018.[18][19] It is comparable to the Airbus A320neo or Boeing 737 MAX and could replace the outgoing Tupolev Tu-134, Tu-154, Tu-204 and Yak-42.

Ground testing

File:MC-21-presentation-governmentru.jpg
Behind Russian Prime Minister Dmitry Medvedev at the June 2016 roll-out

In February 2017, it passed 90% of the static ultimate load test (150% of the highest load in operation) at the TsAGI but failed the 100% test for which the wingbox will need Template:Convert reinforcements: this is common for new airliners like the Airbus A380, Boeing 787 or Mitsubishi MRJ, aiming for the smallest possible margin to avoid excess weight; it passed the limit load test (highest load during flight) which enables flight testing which should start in April.[20] Cracks developed at the point of contact between the titanium beam and the composite wing skin in the wingbox.[8] The reinforced wingbox withstood a load exceeding specifications without damage in mid-November at TsAGI Moscow.[21]

In May 2017, it was undergoing systems ground testing including its auxiliary power unit and taxiing tests.[22] After completing taxi and runway roll tests, its maiden flight was scheduled for late May 2017 with Pratt & Whitney Geared Turbofan engines, certified in September 2016 in Russia. The Russian certification was targeted for 2018 and the European Aviation Safety Agency certificate for 2019.[8]

Flight testing with P&W engine

File:Первый полет нового пассажирского лайнера МС-21.webm
Video of maiden flight, May 2017

On 28 May 2017, the MC-21-300 completed its successful maiden flight in Irkutsk.[23] Compared with recent 3-to-4-hour maiden flights of western types, this first flight was brief at 30-minute and low, reaching a Template:Convert altitude and Template:Convert.[24] The maiden flight was originally scheduled for December 2016, then to April before finally taking place in May.[25]

Following this maiden flight, trade and industry minister Denis Manturov claimed it will have 12–15% lower operating costs than contemporaries, generating a demand for over 1,000 MC-21s between 2017 and 2037.[26] Aeroflot expected delivery of the first P&W-powered aircraft through Rostec subsidiary Aviakapital leasing in 2019.[8] Its early production rate was projected for 20 aircraft per year.[27]

In August 2017, the first prototype performed nine test flights, analysing stability and controllability in various configurations, altitude, altitude/speed sensors accuracy and engine operation. Its software was adjusted by the results as it was fitted with over 500 strain gauges measuring in-flight loading on the airframe, to verify the initial design, for "several weeks". A second prototype was finalised while three other prototypes were undergoing construction; production of 70 MC-21s annually was initially planned for 2024.[28] Irkut began the second testing phase on 13 September with an eventless 2-hour flight.[29] The phase extended the mass, centering, speed and altitude envelope.[30]

In October 2017, the first prototype flew from Irkutsk Aviation Plant to Moscow Ramenskoye Airport to continue testing at the Gromov Flight Research Institute, a 6-hour flight over Template:Cvt at Template:Convert.[31] The flight test programme started on 2 November with a 3-hour flight reaching Template:Convert.[32] Before being flown to Moscow, 20 flights were conducted in Irkutsk. In November, the second prototype was prepared for flight-tests, followed in 2018 by the third for which final assembly has started.[33]

EASA approval was targeted for mid-2020.[33] Certification testing was to start at the end of 2018 for a mid-2019 Russian type certification after a 1,150 flights effort. Entry into service was then planned for the second half of 2019 with the first five deliveries; within five years, UAC planned to ramp up production to 70 aircraft per year.[34]

The second test aircraft was in final assembly in January 2018 and was to join the flight-test campaign in the first quarter.[34] It was to fly in late February or early March 2018.[35] Its construction was completed by the end of March.[36] It was scheduled to fly in April 2018, and the third test aircraft was to fly in the 2018 fourth quarter.[37] It made its first flight on 12 May for 1 hour 7 minutes, reaching Template:Convert and Template:Convert, checking its landing gear retraction and testing wing configurations.[38] On 20 July 2018, it flew from Irkutsk to the Gromov Flight Research Institute near Moscow in six hours.[39]

Initial production steps started in 2018, certification slipped into late 2019 and the first delivery to 2020.[37] For three years after 2018, UAC planned to invest ₽56.4 billion ($899 million) for the MC-21.[40] By October 2018, two EASA test pilots and a test engineer test flew the plane in preparation for European certification.[41] On 3 December, a fuselage was delivered to the Central Aerohydrodynamic Institute at Moscow-Zhukovsky for fatigue testing: repetitive loads will simulate 180,000 cycles. By then, the third flying prototype was assembled, its systems installed and it was undergoing final adjustments, a fourth test aircraft was in assembly, as the first production fuselage.[42] After completing assembly, the third MC-21 was transferred to the flight-test station on 25 December.[43]

By early 2019, the two prototypes had completed 122 test sorties, and following international sanctions against Russia, 1.6 billion roubles ($24.2 million) of additional subsidies were allocated to the program for 2019, followed by 4.11 billion roubles in 2020 and 4.81 billion roubles in 2021: Russian technical content was aimed to be 97% by 2022.[44] The program cost is 438 billion rubles (US$6.6 Bn)[44] In February 2019, the EASA completed initial certification testing with 2.5-to-4-hour flights up to Template:Convert, including high angle-of-attack and stall onset.[45] By then, certification trials were expected to end in the second half of 2020 before first delivery to Aeroflot by the end of the year.[46]

On 18 February 2019, Rostec delayed entry into service for another year to 2021 due to US sanctions, while another 240–250 billion rubles ($3.62–3.78 billion) was needed to complete development.[47] On 16 March 2019, the third test aircraft, which had been fully fitted out with a passenger cabin, made its maiden flight.[48] After painting at Ulyanovsk, on 13 May 2019 it joined the other two test aircraft at Moscow-Zhukovsky Airport, where the certification programme was being conducted.[49]

On 17 September 2019, the third test aircraft made its first international flight from Moscow-Zhukovsky to Istanbul Atatürk Airport.[50] The aircraft was presented to Turkish Airlines at Teknofest Istanbul, and co-production projects were proposed to Turkey.[51] The fourth flight-test aircraft was rolled out on 28 November 2019,[52] and performed its first flight on 25 December 2019.[53]

Transition to Russian-produced parts

In January 2020, Irkut received the first Russian-designed PD-14 engines for installation.[54] A PD-14-powered MC-21-310 made its maiden flight on 15 December 2020 from Irkutsk.[2] In December 2021, Irkut carried out the maiden flight of the first MC-21 to be manufactured with domestically produced composite wings.[55] By October 2022, Irkut had fitted the first flight-test aircraft with PD-14 engines and other domestically produced components and flown a test sortie in the new configuration. The aircraft was to participate in the certification programme, targeted to be completed by the end of 2022.[56]

In 2022, after international sanctions against Russia were imposed due to the 2022 Russian invasion of Ukraine, Rosaviatsia announced that Russia would only use domestic engines.[57][58] The original model – the MC-21-300 powered by Pratt & Whitney PW1000G engines – would not enter service, and instead production would have to wait for the MC-21-310, powered by the Russian Aviadvigatel PD-14 engine, built by the United Engine Corporation.[58]

The production MC-21-300 was initially planned to consist of between 40% and 50% imported parts, and Irkut needed to replace parts that were to be supplied by the sanctioning countries.[59] The need to use Russian avionics was said to delay the first shipment of an aircraft to late 2024 or to 2025.[58] However, as part of a plan announced in June 2022, aimed at bringing the proportion of domestically produced aircraft to 80% of the Russian fleet by the end of the decade, deliveries of the MC-21 were expected to start in 2024 and reach a delivery rate of 72 aircraft per year by 2029.[60]

In April 2025, according to UAC the aircraft has received several set of new Russian-made avionics equipment, including computers, navigation systems and radio communications equipment, as well as a domestic auxiliary power unit, air conditioning and pressure control systems, among others.[61]

Introduction

Pre-sanctions plans

Aeroflot expected to lease 50 MC-21-300s from Aviakapital for 12 to 18 years and a monthly lease of less than $437,282 each.[62] By 2018, they were to be delivered from the first quarter of 2020 to the third quarter of 2026, with EASA certification targeted for early 2021.[62] Powered by PW1400Gs or possibly PD-14s for the second half of the delivery, Irkut guaranteed less than Template:Cvt fuel burn on a Template:Cvt route with a Template:Convert tailwind.[62] They were guaranteed to reach 2,100h and a dispatch reliability of 96% for the first year, rising to 2,900h and 97% in the second year then 3,750h and 98.5% in the third year.[62]

In October 2018, fuselage panels for the first customer MC-21 were completed by United Aircraft Corporation subsidiary Aviastar.[63] In early 2019, the annual output was targeted to start with 20 airframes initially, rising to 72 airframes in 2025, with 100 and possibly 120 later for a forecast of 850 deliveries.[44]

In July 2021 it was reported that Aeroflot would launch the MC-21-300 with its regional subsidiary Rossiya Airlines in summer 2022.Script error: No such module "Unsubst". In September 2021, Evgeny Ditrikh, CEO of GTLK (Public Transport Leasing Company of Russia), stated that the MC-21 project was in need of new government grants.[64]Template:Better source neededTemplate:Importance inline

By the end of December 2021, Russian type certification was granted for the MC-21-300 variant powered by Pratt & Whitney PW1000G engines, ahead of its planned introduction with its launch operator Rossiya.[65] Additional testing was still needed for high-altitude, strong crosswinds, and low and high temperatures operations.[65] The initial target market was for 800 airframes in Russia over the next 20 years.[65] The aircraft was denied European certification on 14 March 2022.[66]

Post-sanctions plans

In March 2024, Kommersant reported that the design and testing of new Russian-made equipment would delay the aircraft's service introduction until 2025–2026 and that the MC-21 was currently overweight by Template:Cvt, rendering it incapable of meeting its original specifications for operating weight, range, and altitude.[6] With a maximum commercial load of Template:Cvt, range will be reduced to less than Template:Cvt, and the service ceiling will only be Template:Cvt.[67] The original specifications reportedly could not be met unless engine thrust increased by 20%, an increase thought to be infeasible in commercial operations.[6]

Industry analysts in 2024 questioned the revised delivery schedule due to UAC's reliance on unproven engines and parts from Russian suppliers that also provided parts to the Russian military. Analysts said suppliers were generally struggling to procure enough components to satisfy military orders, suggesting that civil MC-21 deliveries would be delayed by parts-shortages if military parts-deliveries had higher priority.[6]

The PD-14 engines passed certification and entered mass production in early 2025.[68] Serial production of the MC-21 airliner was then authorised on 28 March 2025.[69] Deliveries are scheduled to begin with launch customer Aeroflot in 2026.[70]

Design

File:MS-21 cabin mock up Beltyukov.jpg
Cabin mock-up in 2011
File:MS-21 cockpit mock up Beltyukov.jpg
Flight deck mock-up with a HUD

The design is based on the never-realized, twin-engine Yakovlev Yak-242 as a development of the three-engine Yakovlev Yak-42.[11]

Airframe

United Aircraft Corporation (UAC) subsidiary AeroComposit, a Russian firm, developed the vacuum infusion process to produce the wingbox and wing panels. The vertical and horizontal fins and wingbox are also composite and the high aspect ratio wing is a supercritical airfoil.[8] The MC-21 design is more innovative than the C919: it is the only airliner with a carbon fibre wingbox made with resin infused dry fibre, cured in an oven out of autoclave.[71] The initial design included roughly 33% composite materials, increasing to 40–45% with the composite wing.

By January 2019, U.S. sanctions against Russia had interrupted the supply of foreign raw materials, on which the UAC relied to produce the composite parts. The UAC started looking for either domestically produced or Chinese replacements, maintaining that the wing box and consoles would still consist of polymeric composites. By then, a metal wing was "no longer on the agenda" according to the Central Aerohydrodynamic Institute (TsAGI).[72] In March 2019, AeroComposit reported that it had produced the first fuselage centre section and wing box from domestic materials.[73]Template:Better source needed

The fuselage of the MC-21 is mostly made of lightweight aluminium–lithium alloy, which accounts for 40% of the airframe's structural weight.[74] It is Template:Cvt wider than the A320/C919 and Template:Cvt wider than the 737, for a Template:Cvt aisle allowing passing others or a trolley.[71] Its Template:Cvt MTOW is the same as the almost 5 m (16.5 ft.) shorter A320neo and is Template:Cvt lighter than the almost Template:Cvt shorter 737-8, for similar two-class layouts of 162 to 165, while the 737-8 and A320neo have Template:Cvt more range.[34] The MC-21-300 has a capacity of 132–163 passengers in a two-class configuration and a capacity of 165–211 in a single class.

Engines

File:Two MC-21 with engines PW1000G and PD-14.jpg
A МС-21-300 powered by PW1400Gs (right) and a МС-21-310 powered by PD-14 engines (left)

Pratt & Whitney (development phase)

The Template:Cvt thrust class Pratt & Whitney PW1000G was selected in December 2009.[75] The design configuration at one stage called for the PW1400G-JM geared turbo fan engine to be installed on one version.Script error: No such module "Unsubst". Russia decided to have both an internal and external supplier for the engine and nacelle for greater flexibility in controlling rate and price.Script error: No such module "Unsubst".

Aviadvigatel (production engine)

The Russian-designed engine used for actual production is the Template:Cvt Aviadvigatel PD-14.[76] United Engine Corporation (UEC) planned to deliver five PD-14s for the MC-21 by the end of 2018, to start flight tests in 2019 for the MC-21 variant certification in 2021.[77] By October 2018, the PD-14 had received its Rosaviatsia type certification.[78] In October 2019, PD-14 flight-testing on the MC-21 was delayed until 2020.[79] The project conducted at least 100 flight tests after that, but further delays occurred due to sanctions in 2022.[80] In early 2025, the first batch of mass-produced engines incorporating 16 new technologies was finally delivered to the UAC factory, with qualification testing scheduled to begin shortly thereafter.[81][82]

Systems

In August 2009, Hamilton Sundstrand, a subsidiary of United Technologies, announced it would provide electric power generation and distribution equipment for $2.3 billion over 20 years of production.[83] Rockwell Collins and its Russian partner Avionika were selected to supply the MC-21's avionics.[84] Honeywell, Thales and Elbit Systems were to supply avionics with nine 12-inch multifunction displays, electronic flight bags, synthetic vision and enhanced vision systems. The MC-21 was planned to be the first airliner with active side-sticks, supplied by UTC Aerospace Systems.[8] It was to have fly-by-wire controls.[71] Its design features a glass cockpit with side-stick controls and an optional head-up display.

Goodrich Corporation, also a subsidiary of United Technologies, along with Aviapribor was initially selected to provide the flight control system actuators.[85] Zodiac Aerospace, Eaton and Meggitt were planned to provide other components.[8] Interior furnishings were planned to come from Zodiac Aerospace, coordinated from C&D Zodiac in Huntington Beach, California. Innovations from Zodiac Aerospace in Carson, California, were to be incorporated in the water and waste systems.

There were two types of auxiliary power units (APU) designed with specifications suitable for MC-21: the HGT750 from Honeywell Aerospace[86] and the TA18-200 developed by Aerosila.[87]

Component suppliers

Initially it was assumed that the share of domestic components for the MC-21 would be 38%,Script error: No such module "Unsubst". but due to sanctions in the wake of the 2022 Russian invasion of Ukraine the Russian government ordered a target figure of 98% by 2023, making it independent of imported components.[88]

In July 2021 the first composite wing made from Russian materials was joined with a fuselage.[89] The fuselage was designed and manufactured by Irkut Corporation and Yakovlev Design.[90] The landing gear was supplied by the company Hydromash from Nizhny Novgorod.[91]

The cockpit and part of the aircraft's avionics were developed and supplied by the Concern Radio-Electronic Technologies and Rockwell Collins with the participation of personnel from the Russian company Avionika.[92] Both foreign-made and Russian auxiliary power units can be used in the MC-21 (developed and produced in NPP Aerosila).[93]

For personnel training, the Russian scientific and production company Systems of Complex Simulators developed and manufactured a number of simulators, including a number of flight simulators of different degrees of realism, emergency procedures simulator, firefighting simulator, service simulator, engineering simulator for technician training.[94]

Variants

In 2009, the MC-21-200 was designed with around 150 passengers in a single-class configuration, to be followed by a 181-seat -300 and 212-seat -400 with basic and extended-range models, plus a very-long-range -200LR.[14]

MC-21-300
Standard model with PW1400G engines, 163 passengers in two classes, up to 211, up to Template:Cvt range, powered by Pratt & Whitney PW1400G engines. The first flight was made on 28 May 2017; six aircraft were built before sanctions prevented purchase of further PW1400G engines.Template:Fact This variant was not put into commercial service.
MC-21-310
Standard model with Aviadvigatel PD-14 engines.[95] The first flight was made on 15 December 2020. The second aircraft tested in October 2022 was a remotorization of a previous MC-21 that had initially been fitted with imported Pratt & Whitney engines.[96]

Proposed variants

Initially, a 132-seat MC-21-100 variant was planned but then superseded by the Superjet 100 development.[97] The small variant with a capacity of 130- to 150-seat was proposed with commonality with the Sukhoi Superjet 130.[98]

UAC is said to be considering further development of the MC-21 by 2035. These include: a -400 with Template:Convert engines for a Template:Convert MTOW, a -500, a -600 with Template:Convert engines, and a -700 with Template:Convert engines, as well as a MC-21X with a Template:Convert tons MTOW for a Template:Convert range.[99]Template:Better source needed Ilyushin Finance wants an MC-21-400 stretch for up to 256 seats and plans to buy 20 to 60 of them.[100] The 250-passenger MC-21-400 single-aisle twinjet could be jointly produced in the United Arab Emirates.[101]

Variants with PD-14 engines will be designated MC-21-310 and MC-21-210.[102]

МС-21-210
Shortened version with 132 passengers in two classes, up to 165, up to Template:Cvt range, powered by Aviadvigatel PD-14 engines.
МС-21-300LR
Modification of MC-21-300 with increased range up to Template:Cvt and Aviadvigatel PD-18R engines.Script error: No such module "Unsubst".
МС-21-400
Lengthened version with a capacity of up to 256 seats in a single-class configuration, to be powered by Aviadvigatel PD-14M engines.
МС-21-400LR
Modification of MC-21-400 with increased range up to Template:Cvt and Aviadvigatel PD-18R engines.Script error: No such module "Unsubst".

Orders

By the end of the 2013 MAKS Air Show, there were 175 firm orders including 50 for Rostec subsidiary Aviakapital leased to Aeroflot and 35 more with PD-14 engines for governmental customers, 50 for Ilyushin Finance (10 to be leased to Red Wings Airlines and six to Transaero), 30 for Vnesheconombank Leasing (10 to be leased to UTair Aviation and 6 to Transaero) and 10 for IrAero with an agreement for 20 others leased from Sberbank of Russia, for a potential 195 orders.[103] Transaero bankrupted in 2015.Template:Fact

In June 2016, Azerbaijan Airlines tentatively signed to lease ten -300s from Ilyushin Finance.[104] By July 2018, 175 firm orders and nearly 150 intentions had been recorded.[105]

At the 2019 MAKS Air Show, at Zhukovsky International Airport, Moscow, Bek Air signed a letter of intent for ten Irkut MC-21 aircraft, Yakutia Airlines likewise signed for five aircraft and an undisclosed customer for a further five aircraft. Delivery of the new aircraft was expected to be in the second half of 2021.[106]

In the fall of 2022, Russia's largest air carrier, the Aeroflot Group ordered 89 SJ-100 regional jets, 210 MC-21 medium-range jets, and another 40 Tu-214 narrow-body jets. 18 MC-21 & 34 SJ-100 Aircraft From Rostec was confirmed later in 2023. But chief executive Sergei Aleksandrovsky suggested the other two types might be dropped, and transfer of the entire fleet to MC-21s.[107]

Date Airline EIS Orders
-200 -300 Options Total
21 Jul 2010 Template:Flagicon Nordwind Airlines TBA 3 2 5
21 Jul 2010 Template:Flagicon VEB Leasing TBA 30 30 60
1 Sep 2010 Template:Flagicon Aeroflot 2024[108] 50 50[109]
18 Aug 2011 Template:Flagicon Ilyushin Finance 2024 28 22 50[110]
23 Aug 2011 Template:Flagicon Rostec 2024 15 35 35 85[111]
16 Sep 2011 Template:Flagicon IrAero 2024[112][113] 10 10 20[114]Template:Efn
27 Aug 2013 Template:Flagicon Utair TBA 10 10Template:Efn
29 Aug 2013 Template:Flagicon Sberbank Leasing TBA 20 20[115]
30 Aug 2013 Template:Flagicon Red Wings Airlines 2024 16 16[116]Template:Efn
8 Jun 2016 Template:Flagicon Azerbaijan Airlines TBA 10 10[104]
19 Jul 2017 Template:Flagicon Angara Airlines TBA 3 3[117]
19 Jul 2017 Template:Flagicon ALROSA 2023 3 3 6[118][119]Template:Efn
Total without duplicates 175[105]
Letters of Intention signed
30 August 2019 Template:Flagicon Yakutia Airlines 2024[120] 5+ 5[121]
7 Jun 2022 Template:Flagicon Aeroflot TBA 100+ 100+[122]Template:Bsn
30 August 2019 Unknown customer TBA 5[123] 5[124]
Total without duplicates 140+[125]

Template:Notelist

Incidents

Specifications

MC-21 aircraft family specifications and performance[127]
Variant MC-21-200 MC-21-300 MC-21-310
Cockpit crew 2
2-class seats 132 (12J + 120Y) 163 (16J + 147Y)
1-class seats 165 @ 29–28" 211 @ 29–28"
Cargo capacity Template:Cvt – 5 LD3-45 Template:Cvt – 9 LD3-45
Length Template:Cvt Template:Cvt
Wingspan Template:Cvt
Height Template:Cvt
Fuselage width Template:Cvt
Cabin width Template:Cvt
Runway Length 2,200m
Maximum take-off weight Template:Cvt Template:Cvt
Maximum landing weight Template:Cvt Template:Cvt
Maximum payload Template:Cvt Template:Cvt
Fuel capacity Template:Cvt
Turbofans (x 2) Pratt & Whitney PW1000G Aviadvigatel PD-14
Max. thrust (x 2) PW1428G: Template:Cvt PW1431G: Template:Cvt PD-14: Template:Cvt
2-class range Template:Cvt Template:Cvt Template:Cvt

See also

Script error: No such module "Portal". Aircraft of comparable role, configuration, and era

Related lists

References

Template:Reflist

External links

Template:Sister project

Template:Yakovlev aircraft

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  53. Script error: No such module "citation/CS1".
  54. Script error: No such module "citation/CS1".
  55. Script error: No such module "citation/CS1".
  56. Script error: No such module "citation/CS1".
  57. Script error: No such module "citation/CS1".
  58. a b c Script error: No such module "citation/CS1".
  59. Script error: No such module "citation/CS1".
  60. Script error: No such module "citation/CS1".
  61. Script error: No such module "citation/CS1".
  62. a b c d Script error: No such module "citation/CS1".
  63. Script error: No such module "citation/CS1".
  64. Script error: No such module "citation/CS1".
  65. a b c Script error: No such module "citation/CS1".
  66. Script error: No such module "citation/CS1".
  67. Script error: No such module "citation/CS1".
  68. Script error: No such module "citation/CS1".
  69. Script error: No such module "citation/CS1".
  70. https://interfax.com/newsroom/top-stories/109382/#:~:text=2025%2020%3A43-,Rostec%20head%20announces%20launch%20of%20MC%2D21%20serial%20production%20in,yet%20to%20complete%20certification%20trials.
  71. a b c Script error: No such module "citation/CS1".
  72. Script error: No such module "citation/CS1".
  73. Script error: No such module "citation/CS1".
  74. Script error: No such module "citation/CS1".
  75. Script error: No such module "citation/CS1".
  76. Script error: No such module "citation/CS1".
  77. Script error: No such module "citation/CS1".
  78. Script error: No such module "citation/CS1".
  79. Script error: No such module "citation/CS1".
  80. Script error: No such module "citation/CS1".
  81. Script error: No such module "citation/CS1".
  82. Script error: No such module "citation/CS1".
  83. Script error: No such module "citation/CS1".
  84. Script error: No such module "citation/CS1".
  85. Script error: No such module "citation/CS1".
  86. Script error: No such module "citation/CS1".
  87. Script error: No such module "citation/CS1".
  88. Script error: No such module "citation/CS1".
  89. Script error: No such module "citation/CS1".
  90. Script error: No such module "citation/CS1".
  91. Script error: No such module "citation/CS1".
  92. Script error: No such module "citation/CS1".
  93. Script error: No such module "citation/CS1".
  94. Script error: No such module "citation/CS1".
  95. Script error: No such module "citation/CS1".
  96. Script error: No such module "citation/CS1".
  97. Script error: No such module "citation/CS1".
  98. Script error: No such module "citation/CS1".
  99. Script error: No such module "citation/CS1".
  100. Script error: No such module "citation/CS1".
  101. Script error: No such module "citation/CS1".
  102. Script error: No such module "citation/CS1".
  103. Script error: No such module "citation/CS1".
  104. a b Script error: No such module "citation/CS1".
  105. a b Script error: No such module "citation/CS1".
  106. Script error: No such module "Citation/CS1".
  107. Script error: No such module "citation/CS1".
  108. Script error: No such module "citation/CS1".
  109. Script error: No such module "citation/CS1".
  110. Script error: No such module "citation/CS1".
  111. Script error: No such module "citation/CS1".
  112. Script error: No such module "citation/CS1".
  113. Script error: No such module "citation/CS1".
  114. Script error: No such module "citation/CS1".
  115. Script error: No such module "citation/CS1".
  116. Script error: No such module "citation/CS1".
  117. Script error: No such module "citation/CS1".
  118. Script error: No such module "citation/CS1".
  119. Script error: No such module "citation/CS1".
  120. Script error: No such module "citation/CS1".
  121. Script error: No such module "citation/CS1".
  122. Script error: No such module "citation/CS1".
  123. Script error: No such module "citation/CS1".
  124. Script error: No such module "citation/CS1".
  125. Script error: No such module "citation/CS1".
  126. Irkut MC-21 Suffers Runway Overrun Template:Webarchive, AINonline, by Gregory Polek, 18 January 2021, 3:54 PM
  127. Script error: No such module "citation/CS1".
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