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The Airbus A320neo family (neo for new engine option) is a development of the A320 family of narrow-body airliners produced by Airbus. The original family has been renamed A320ceo, for current engine option. Launched on 1 December 2010, it made its first flight on 25 September 2014 and it was introduced by Lufthansa on 25 January 2016. Re-engined with CFM International LEAP-1A or Pratt & Whitney PW1000G engines and with large sharklets, it should be 15% more fuel efficient. The A320neo family is based on the previous A319, A320 and A321. As of February 2019, Airbus has received 6,501 orders and delivered 687 aircraft.
|A320neo family |
|An Airbus A320neo of IndiGo, the largest operator|
|Role||Narrow-body twin-engine jet airliner|
|First flight||25 September 2014|
|Introduction||25 January 2016 with Lufthansa|
|Status||In service, in production|
|Number built||687 as of 28 February 2019[update]|
|Program cost||"slightly more than €1 billion [$1.3 billion]" predicted in 2010|
A319neo: US$101.5 million (2018)
A320neo: US$110.6 million (2018)
A321neo: US$129.5 million (2018)
|Developed from||Airbus A320 family|
The Airbus A320neo family (neo for new engine option) is a development of the A320 family of narrow-body airliners produced by Airbus. The original family has been renamed A320ceo, for current engine option. Launched on 1 December 2010, it made its first flight on 25 September 2014 and it was introduced by Lufthansa on 25 January 2016. Re-engined with CFM International LEAP-1A or Pratt & Whitney PW1000G engines and with large sharklets, it should be 15% more fuel efficient. The A320neo family is based on the previous A319, A320 and A321. As of February 2019[update], Airbus has received 6,501 orders and delivered 687 aircraft.
In 2006 Airbus started the A320 Enhanced (A320E) programme as a series of improvements targeting a 4–5% efficiency gain with large winglets (2%), aerodynamic refinements (1%), weight savings and a new aircraft cabin. At the time Airbus' Sales Chief John Leahy said "Who's going to roll over a fleet to a new generation aircraft for 5% better than an A320 today? Especially if another 10% improvement might be coming in the second half of the next decade based on new engine technology".
Airbus launched the sharklet blended wingtip device during the November 2009 Dubai Airshow. Installation adds 200 kilograms (440 lb) but offers a 3.5% fuel burn reduction on flights over 2,800 km (1,500 nmi).
At the February 2010 Singapore Air Show, Airbus said its decision to launch was scheduled for the July 2010 Farnborough Air Show. The decision had still not been taken by August, but the engine choice included the CFM International LEAP-1A and the Pratt & Whitney PW1000G, with 20% lower maintenance cost than current A320 engines. The new engines burn 16% less fuel, though the actual gain is slightly less as 1–2% is typically lost when installed on an existing aircraft.
On 1 December 2010, Airbus launched the A320neo "New Engine Option' with 500 nmi (930 km) more range or 2 t (4,400 lb) more payload, and planned to deliver 4,000 over 15 years. Development costs were predicted to be "slightly more than €1 billion [$1.3 billion]". The neo list price would be $6 million more than the ceo, including $3.5 million for airframe modifications and around $0.9 million for the sharklets. The A320neo was slated for service entry in spring 2016, the A321neo six months later and the A319neo six months after that.
The 2010 order for 40 Bombardier CS300s (now known as Airbus 220-300) and 40 options from Republic Airways Holdings – then owner of exclusive A319/320 operator Frontier Airlines – pushed Airbus into the re-engine. Airbus COO-customers John Leahy decided against ignoring the CSeries and allowing it to grow, as Boeing had previously done with Airbus, and instead aggressively competed against Bombardier Aerospace.
Introduction was then advanced to October 2015. Airbus announces a 15% fuel saving thanks to those latest-generation engines and large sharklet wingtip devices, keeping over 95% airframe commonality with the current A320. Its commonality helped to reduce delays associated with large changes. In March 2013, airlines' choices between the two engines were almost equal.
The new "Space-Flex" optional cabin configuration increases space-efficiency with a new rear galley configuration and a "Smart-Lav" modular lavatory design – allowing an in-flight change of two lavatories into one accessible toilet. The rearranged cabin allows up to 20 more passengers for the A321neo without "putting more sardines in the can" with the larger "Cabin-Flex" modified exits described below. Total fuel consumption per seat is reduced by over 20%, while the rearranged cabin allows up to nine more passengers for the A320neo.
The first flight of the neo occurred on 25 September 2014. Its Pratt & Whitney PW1100G-JM geared turbofan ('GTF') engine was certified by the Federal Aviation Administration on 19 December 2014. After 36 months, the A320neo and A321neo had flown around 4,000 hours for certification of the two powerplant versions. This is about three-quarters of the certification effort of a new design.
Of these 4,000 hours flown, 2,250 were with PW GTFs and 1,770 with CFM LEAPs. The flight test programme was to conclude in 2018 with the completion of A319neo testing. The changes impact flying qualities, performance and system integration; they entailed retuning the fly-by-wire controls and meeting type certification requirements which have evolved since 1988, and helped decrease the minimum V speeds. The neo is 1.8 t heavier than the ceo, but take-off and landing performance is the same with a modified rotation law, adjusted wing flap and wing slat angles and rudder deflection increased by 5° to cope with the higher thrust.
First delivery slipped to early 2016. Lufthansa took delivery of the first A320neo on 20 January 2016. Two hundred deliveries were targeted in 2017, but as Pratt & Whitney faced ramp-up difficulties, Airbus expected that 30 aircraft would have to be parked awaiting engines. The fourth and latest final assembly line in Hamburg was to open in July 2017; 60 A320s should be produced monthly from 2019.
With 90 A320neos delivered by October 2017, Airbus acknowledged that it would not attain the 200 target, even with many deliveries in the fourth quarter: more than 40 A320neos are parked without engines, but with most of the engine issues resolved by early 2018, more than half of the A320s delivered in 2018 were expected to be neos. Airbus expected to produce 60 narrow bodies per month by the middle of 2019, and studied higher rates. Airbus confirmed plans to reach 63 monthly from 55 in 2018 and study 70 to 75 monthly beyond 2019, though Safran, one of the two partners in LEAP producer CFM, could not commit to higher volumes.
In February 2018, after in-flight failures of the PW1100G with its high pressure compressor aft hub modified, apparently caused problems with its knife edge seal, EASA and Airbus grounded some A320neo family aircraft until they were fitted with spares. As of February 2018[update], P&W engines had flown 500,000 hours since introduction and 113 P&W-powered A320neo family aircraft were operated by eight customers. Airbus then stopped accepting PW1100G engines.
Deliveries of GTF-powered A320neos resumed in May after Pratt returned to the original design seal as a quick fix. By the end of June, Airbus expected to produce around 100 A320neo awaiting engines and to deliver most of them in the second half of the year, to hand over 800 aircraft in 2018. In the first five months of 2018, 69 had been delivered: 40% of all single-aisles, and almost 80% with CFM LEAP engines, but the 22 delivered in May were equally split between the two powerplants.
After the three-month halt, the goal of 210 GTF-powered deliveries in 2018 was expected to be missed by 30–40 unless Pratt can accelerate production, exposing itself and Airbus to late penalties. Airbus COO Guillaume Faury wants to get rid of "gliders" by the end of 2018. Bernstein forecasts 50 fewer deliveries than planned and a 2019 normalisation. Delivery targets can still be met with other engine options, neo or ceo, as 210 Leap-powered jets are planned. After having peaked above 100, aircraft parked awaiting their turbofans declined to 86 by the end of June. The 500th A320neo family aircraft was delivered in October 2018.
By January 2019, three years after its introduction, 585 neos were in commercial service with over 60 operators, led by IndiGo (65), Frontier Airlines (33) and China Southern (26). Lufthansa confirms the PW 16% fuel savings, 21% per seat with denser 180-seat layout up from 168, while Avianca states its LEAPs are 15-20% more efficient, quieter, reduce oil consumption and routine maintenance. Starting both GTFs initially took 6-7 min up from the A320ceo's 2 min, improving to 2-3 min by late 2017, still longer than the ceo. LEAP production bottlenecks led to early delivery delays, with no significant repercussions at Avianca or AirAsia; AirAsia's dispatch reliability is comparable to its ceos.
Engine vibration affects one GTF in 50, leading to premature replacement, but spare engine pools compete with new production: at Lufthansa, dispatch reliability has remained stagnant since service entry and is below its 99.8% goal, with a utilization rate 20% below its ceos. P&W cites a 99.91% dispatch reliability for GTF-powered neos, higher than other new engine introductions, while Airbus reports a 99.6% dispatch reliability. With engine deliveries resuming, there were expected to be fewer than 10 engine-less neos at the end of 2018; Airbus is on track to reach its target rate of 60 deliveries per month by mid-2019. Of the 6,362 orders, 2,456 are for LEAP engines (38.6%), 1,869 for GTFs (29.4%), and 2,037 for an as-yet unspecified engine choice (32%).
Airbus offers three variants of the A320neo family: the A319, A320 and A321. A New Engine Option for the Airbus A318 is not expected but can be developed if needed.
The shortened-fuselage variant can seat up to 160 passengers or 140 in two classes, with a range of up to 3,750 nmi (6,940 km) and improved takeoff performance, while its ACJ derivative can fly eight passengers 6,750 nmi (12,500 km) or 15 hours.
Qatar Airways was the launch customer but upgraded its order to the larger A320neo in late 2013. No new launch operator has been named since.
It made its first flight on 31 March 2017, powered by CFM LEAP Engines but PW Engines are also available. After 500 flight hours, the LEAP-powered A319neo achieved FAA/EASA Type Certification by 21 December 2018, allowing it to enter service in the first half of 2019. At the time, there were 53 orders, including 17 with Leap engines: 12 for Avianca, four for an unconfirmed Chinese operator, and one ACJ319neo; and 36 with no engine selection: eight for Avianca, 26 for unannounced customers, and two ACJ319neos. Certification of the PW1100G-powered version is targeting for the end of 2019, with the same aircraft converted during the first quarter and 200h of flight testing.
Interest in the variant has been low, and in January 2019 the A319neo's order backlog was only a fraction of that of the A220, following confirmation of orders from JetBlue and Moxy for 60 A220s each. Also in January 2019, Airbus confirmed that, while it expects fewer orders due to competition with the A220-300, it has no plans to discontinue the A319neo.
The first A320neo rolled out of the Airbus factory in Toulouse on 1 July 2014. It first flew on 25 September 2014. A joint type certification from the European Aviation Safety Agency and the Federal Aviation Administration was received on 24 November 2015. Nearly 28 years after the first A320, on 25 January 2016, the A320neo entered service with Lufthansa, the type's launch customer. Lufthansa is the launch operator of this standard variant.
Six months later at Farnborough Airshow, John Leahy reported that the eight in-service aircraft had achieved 99.7% dispatch reliability. By the end of February 2017, 28,105 scheduled flights had been performed by 71 A320neo aircraft with 134 cancellations for a 99.5% completion rate. Spirit faced Pratt & Whitney PW1000G issues on four of its five A320neos and did not fly them above 30,000 ft (9,100 m) because the bleed air system froze shut on occasion due to cold temperatures, the same problem facing IndiGo.
After a year in service, Lufthansa confirmed the 20% efficiency gain per passenger with up to 180 seats, along with reduced noise and CO₂ emissions. Operators confirm the 15% per seat fuel-burn savings even counterbalanced by the added weight on short sectors, which can rise to 16–17% on longer routes and to 20% or more for Lufthansa with 180 passengers up from 168 with two more seat rows.
By March 2017, 88 A320neos had been delivered to 20 airlines, 49 with the PW1000G and 39 with the CFM International LEAP-1A, and the fleet had accumulated more than 57,600 flight hours and 37,500 cycles (1.5h average); over 142 routes the average stage length is 900 nmi (1,700 km; 1,000 mi) and like the A320ceo the neo flies an average of 8.4 block hours and up to 10 cycles a day with Lufthansa operating 45 min sectors from Frankfurt to Hamburg or Munich, up to China Southern Airlines flying close to 6 hr sectors. Airbus plans to deliver about 200 A320neos in 2017. In 2018, new A320neos have a $49 million value, rising by 1-2% per year, and are leased for $330,000-350,000 per month (0.67-0.71%) due to intense lessor competition and low financing costs, while a recent A320ceo is leased for $300,000.
In July 2018, Airbus was evaluating an A320neo variant for ISR missions, particularly maritime patrol and anti-submarine warfare, and military transport. The aircraft will be able to take roll-on/roll-off mission payloads to carry passengers, troops, VIPs, patients, or cargo. The aircraft may be fitted with a weapons bay, a self-protection system, or a magnetic anomaly detector and could be configured for signals intelligence or Airborne Early Warning and Control.
Its first customer was ILFC. The Airbus A321neo prototype, D-AVXB, first flew on 9 February 2016. It suffered a tailstrike three days later and was flown to Toulouse for repairs, delaying the certification programme for several weeks.
It received its type certification with Pratt & Whitney engines on 15 December 2016, and simultaneous EASA and FAA certification for the CFM Leap powered variant on 1 March 2017. The first A321neo, leased by GECAS, was delivered in Hamburg to Virgin America, configured with 184 seats and LEAP engines, and entered service in May 2017. Five A321neos, all leased from the same lessor, should be delivered to Virgin America in 2017 and five in 2018 if its buyer Alaska Airlines keeps two fleet types.
The neo empty weight is 1.8t more than the ceo due to new engines and associated airframe modifications: engine pylons, wing structure and bleed and oil systems were adapted. At the same maximum weight, it reaches FL310 30-nm before and 4 min earlier than the CEO.
At FL330 (10 000 m), ISA −2 °C (28 °F) and 67 t (148,000 lb), it burns 2,200 kilograms per hour (4,850 lb/h) at Mach 0.76 / 501 knots (928 km/h) long-range cruise or 2,440 kg/h (5,400 lb/h) at Mach 0.80 / 527 knots (976 km/h) high-speed cruise. To offer similar takeoff performance, pitch response to stick input is a rate-command to hit the 3°/sec rotation rate to capture the right pitch attitude and there is an "electronic tail bumper" preventing a tail-strike if the stick is less than three-quarters of the way aft; additional thrust, slower rotation and lift-off speeds require more rudder authority and its maximum deflection went from 25° to 30°.
By January 2018, the A321neo had received 1,920 orders, exceeding orders for the A321ceo. By this time the A321neo accounted for 32% of all A320neo family orders, whereas the original A321 represented just 22% of A320ceo family orders. A stretch would probably involve fore and aft plugs to keep its centre-of-gravity, but tail-strike clearance could constrain field speed and performance and a larger aircraft could need more powerful engines, while further cabin crew would be needed over 250 seats.
Stretching it by one or two rows would be needed to compete with the Boeing NMA: its take-off weight could increase to 100 t (220,000 lb) by tweaking its wing and strengthening its landing gear, requiring more engine thrust; or it could receive a lighter and larger new wing, more costly to develop but with the same thrust.
As Pratt & Whitney encountered early reliability issues with the PW1100G, retrofitting fixes is affecting the deliveries. Cebu Pacific was due to add its first three A321neos to its 40 A320ceos by the end of 2017 but agreed to postpone them; it was to receive seven A321ceos in 2018, starting in March, to upgauge A320 routes from slot-constrained Manila Airport and redeploy some of its international A330s to shorter-haul routes. Air New Zealand has at least seven A321neos in its 13 A320-family orders, increasing seating capacity by 27% over A320ceos currently used on short-haul international routes, mainly to Australia; the neos will be delayed until July 2018 for the A320neos and September 2018 for the A321neos with a new, higher density and some A320ceo leases will be extended for the interim.
Hawaiian's first two A321neos were to have been delivered in 2017 before its upcoming winter peak season but were postponed to early 2018, a “frustrating” and “irritating” delay, with another nine in 2018, mostly in the first half. They are intended to open up thinner routes to the U.S. mainland not viable with its widebodies, such as Portland to Maui, or better matched and allowing two routes to be expanded to daily service instead of seasonal, bypassing its Honolulu hub for half of the A321neo fleet. They will replace Hawaiian Airlines's last eight Boeing 767s, intended for retirement by the end of 2018, leaving more than half of its 18 ordered A321neos for fleet growth. They will also free up some Hawaiian A330s to be redeployed to international markets around the Pacific Rim.
Well suited for 2,100–2,300 nmi (3,900–4,300 km) routes to the US West Coast, Hawaiian's 189-seat A321neos are more efficient than the competing narrow-body aircraft and even have slightly lower per-seat costs than its 294-seat A330-200s.
By replacing the second door pair in front of the wing with a new second overwing exit, the capacity of the A321neo is increased from 221 seats to 240 seats and fuel efficiency per seat is increased by 6%, exceeding 20% together with the new engines and the sharklets. The modifications should weigh 100 kg more. Initial A321neos have the A321ceo exit door configuration with four exit door pairs until the Airbus Cabin-Flex (ACF) layout can be selected.
The third door pair, aft of the wings, will move four frames back and could be plugged for 195 seats or less, and one overwing exit can be plugged for 165 seats or less. In October 2017, the first A321neo ACF was in final assembly in Hamburg. It was rolled-out on 5 January 2018, and will be ground tested before first flight in the following weeks. It should be delivered in mid-2018 and the optional layout will become the A321neo default from 2020. It made its first flight on 31 January 2018.
The ACF exit limit is 250 passengers, but the aircraft is available for up to 240 passengers; it could be offered for 244 or potentially beyond by integrating flight attendant seats in the lavatories outside wall to allow additional passenger seats. The EASA allows 244 passengers with "overperforming" Type C exits at both ends, two Type III overwing exits, a Type C mid-cabin exit and a separate approval for individual customised cabin layouts. The FAA would limit it to 200 as the mid-cabin exit would be derated to a Type III exit: 65 each for Type C doors at the ends plus 70 for all the Type III exits; Airbus seeks an exemption to increase it to 105 for 235 passengers for the aircraft.
In October 2014, Airbus started marketing a 164-seat, 97 t (214,000 lb) maximum takeoff weight variant with three auxiliary fuel tanks called the A321neoLR (Long Range) with 100 nmi (190 km; 120 mi) more operational range than a Boeing 757-200 configured with 169 seats, 27% lower trip costs and 24% lower per seat costs; it was scheduled for introduction in the second half of 2018, two years after the A321neo.
Airbus launched the A321LR on 13 January 2015 with Air Lease Corporation as the launch customer, hoping to sell 1,000 examples of the variant. The initial layout of 164 seats (20 in business, 30 in premium economy and 114 in economy) was replaced by a two-class 206-seat configuration (16 in business and 190 in economy) and range is 4,000 nmi (7,400 km), 500 nmi (930 km) farther than the regular 93.5t MTOW A321. The A321LR is taking the place of the B757 in the middle of the market. The A321LR will have the Cabin Flex layout and should be first delivered in Q4 2018.
Certification is aimed for the second quarter of 2018, with a programme including tests with one, two, three, or no additional centre tanks and a transatlantic flight on 13 February. Test flights included a Leap-powered, long range 4,100 nmi (7,600 km) flight by great circle distance, flown in near 11h and the equivalent of 162 passengers over 4,700 nmi (8,700 km) including headwinds, with five crew and 11 technicians.
Airbus announced its joint FAA/EASA certification on 2 October 2018, including ETOPS up to 180 min allowing any transatlantic route. As original launch operator Primera Air ceased operations, the first will be delivered to Israeli carrier Arkia, while 120 orders have been secured from about 12 operators: Norwegian, TAP Air Portugal, Air Transat, Aer Lingus, Air Astana, Air Arabia and Azores Airlines will receive theirs from 2019, and Jetstar and Peach in 2020. On 13 November 2018, Arkia received the first A321LR, featuring 220 seats in a single-class and to be deployed to London, Paris, Barcelona for up to 5h sectors, or to Zanzibar and the Seychelles, saying it is the first narrow-body more efficient than the 757-300 it operates.
Airbus is studying an A321LR variant that has a further increased MTOW needing a strengthened landing gear. With a lower-density cabin it is expected to fly almost 5,000 nmi (9,300 km). It would cover more of the market segment likely to be targeted by the Boeing NMA. The proposed A321XLR with a range extended to 4,500 nmi (8,300 km) would be launched in 2019 to enter service in 2021 or 2022. Integrated in the fuselage to save weight, the centre fuel tank would be enlarged. As of July 2018[update], about 200-300 nmi of the targeted range increase had already been secured; additional work will be needed to achieve the remaining 200 nmi.
In October 2018, the A321XLR was proposed to Air Transat and AerCap: Air Transat could reach Eastern European destinations such as Split, Croatia, from Montreal and Toronto. In November, Airbus indicated that the A321XLR would have an MTOW over 100 t (220,000 lb) and 700 nmi (1,300 km) more range than the A321LR with the same wing and engines, increased fuel capacity and strengthened landing gear. In January 2019, Air Canada expressed interest in using narrowbodies for transatlantic routes and was considering options including the A321XLR and the Boeing 737 MAX.
Two Airbus Corporate Jets variants are offered: the ACJ319neo, carrying eight passengers up to 6,750 nmi/12,500 km, and the ACJ320neo, carrying 25 up to 6,000 nmi/11,100 km. The CFM LEAP or Pratt & Whitney PW1100G lower fuel-burn provides additional range along with lower engine noise while the cabin altitude does not exceed 6,400 ft (2,000 m). To increase its fuel capacity, the ACJ319neo is offered with up to five additional centre tanks (ACT).
By November 2018, Airbus was hiring in Toulouse and Madrid to develop a clean sheet successor for the A320. Although its launch is not guaranteed, it would arrive from the middle of the following decade, after the A321XLR and the stretched A320neo “plus” competing with the Boeing New Midsize Airplane that could be launched as early as 2019. Service entry would be determined by ultra-high bypass ratios engine developments pursued by Pratt & Whitney, testing its Geared Turbofan upgrade; Safran Aircraft Engines, ground testing a demonstrator from 2021; and Rolls-Royce Plc, targeting a 2025 Ultrafan service entry. The production target is a monthly rate of 100 narrow-bodies, up from 60.
The A320neo family received over 2,000 orders in a little over two years following launch in December 2010, making it the fastest selling commercial aircraft in history. As of May 2017[update] it had 5,052 orders : 49 A319neos (1%), 3,617 A320neos (72%) and 1,386 A321neos (27%), with 1,712 of them powered by CFM LEAPs (34%), 1,429 by PW GTFs (28%) and 1,911 undisclosed (38%).
Cumulative A320neo family orders and deliveries (as of 28 February 2019[update])
In early January 2011, Indian low-cost carrier IndiGo reached a memorandum of understanding for 150 A320neos along 30 A320ceos. On 17 January, Virgin America became the launch customer, ordering 60 A320s including 30 A320neos.
At the June 2011 Paris Air Show, it gathered 667 commitments worth US$60.9 billion, raising the backlog to 1,029. Malaysian low-cost carrier AirAsia ordered 200, the largest commercial aviation order at the time. IndiGo confirmed its 150 order. Airbus received orders from GECAS, Scandinavian Airlines, TransAsia Airways, IndiGo, LAN Airlines, AirAsia, GoAir, Air Lease Corporation and Avianca.
On 20 July 2011, American Airlines announced an order for 460 narrowbody jets including 130 A320ceos and 130 A320neos, and intended to order 100 re-engined 737 with CFM LEAPs, pending Boeing confirmation. The order broke Boeing's monopoly with the airline and forced Boeing into the re-engined 737 MAX. As this sale included a Most-Favoured-Customer Clause, the European airframer must refund any price difference to American if it sells to another airline at a lower price, so Airbus can't give a competitive price to competitor United Airlines, leaving it with a Boeing-skewed fleet.
On 27 July 2011, Lufthansa ordered 25 A320neos and 5 A321neos. The November Dubai Airshow saw a further 130 orders, raising the total to 1,420 orders and commitments, making it the fastest selling aircraft ever.
On 25 January, Norwegian and Airbus confirmed an order of 100 A320neos. In November, Virgin America deferred the deliveries of the A320neo aircraft until 2020, making ILFC the new launch customer along with the A321neo. In December 2012 Pegasus Airlines, the second largest airline in Turkey, signed a deal for up to 100 A320neo family aircraft, of which 75 (57 A320neo and 18 A321neo models) are firm orders.
Lufthansa ordered an additional 70 A320neo and A321neo aircraft on 14 March 2013. easyJet, who already operates 195 A320ceo family aircraft, intends to acquire 100 Airbus A320neo for delivery between 2017 and 2022. As part of the deal, easyJet have options on a further 100 A320neo aircraft, and the Japanese carrier ANA is to order the A320neo and A321neo. Lion Air ordered 183. On 15 March 2013, Turkish Airlines ordered 82 A320s with 35 options including four A320neo and 53 A321neo.
On 15 October 2014 IndiGo signed a memorandum of understanding (MoU) with Airbus for purchasing 250 A320neo family aircraft. The deal would be worth over $25.5 billion as per the list price per aircraft. This order will also be the largest by the airline, marking the largest number of jets ever sold by the European planemaker in a single order. The airline had earlier ordered 100 aircraft in 2005 and another 180 aircraft in 2011.
On 15 November 2017 Airbus announced the signing of a Memorandum of Understanding with Indigo Partners' four portfolio airlines for 430 A320neo family aircraft - a deal worth nearly $50 billion. On 14 December 2017 Delta Air Lines announced an order for 100 A321neo aircraft and 100 options, powered by Pratt & Whitney PW1100Gs.
As of 28 February 2019, 687 Airbus A320neo family aircraft were in service with more than 30 operators, with IndiGo operating the largest A320neo fleet of 70 aircraft.
It could require six to eight months to be converted for military missions like VIP transport, intelligence, surveillance and reconnaissance and maritime patrol for armed forces of France, Germany and the Netherlands; or Asia-Pacific nations such as Indonesia, Malaysia, New Zealand, and the Philippines.
The six month head-start of the A320neo allowed Airbus to rack up 1,000 orders before Boeing announced the MAX. By September 2018, Airbus should deliver 3,174 A320neos compared with 2,999 Boeing 737 MAX through 2022. A320neo-family maintenance should rise from $650 million in 2018 to $3.3 billion in 2022.
|2-class seats||140||165||206: 16J @36 in + 190Y @30 in|
|1-class maximum||160||195 @ 27 in||240 @ 28 in|
|Seat width||Economy at 6 abreast: 18 in (46 cm), 3.7 m (12 ft 2 in) cabin width|
|Cargo capacity||27 m3 (950 cu ft)||37 m3 (1,300 cu ft)||51 m3 (1,800 cu ft)|
|Length||33.84 m (111.0 ft)||37.57 m (123 ft 3 in)||44.51 m (146.0 ft)|
|Wingspan||35.80 m (117 ft 5 in)|
|Height||11.76 m (38 ft 7 in)|
|Max. takeoff weight||75.5 t (166,400 lb)||79 t (174,200 lb)||97 t (213,800 lb)|
|Max. payload||17.7 t (39,000 lb):3-2-1||20 t (44,100 lb):3-2-1||25.5 t (56,200 lb):3-2-1|
|Operating empty||42.6 t (93,900 lb)||44.3 t (97,700 lb)||50.1 t (110,500 lb)|
|Minimum Weight||40.3–40.6 t (89,000–90,000 lb)||46.3–46.6 t (102,000–103,000 lb)|
|Fuel capacity||26,730 l (7,060 USg)||32,940 l (8,700 USg)|
|Engines (×2)||CFM International LEAP-1A or Pratt & Whitney PW1100G|
|Fan diameter||PW1100G: 81 in (206 cm), LEAP-1A: 78 in (198 cm)|
|Max. Thrust||107 kN (24,100 lbf)||120.6 kN (27,120 lbf)||147.3 kN (33,110 lbf)|
|Speed||Cruise: Mach 0.78 (450 kn; 833 km/h), Max.: Mach 0.82 (473 kn; 876 km/h)|
|Ceiling||39,100–39,800 ft (11,900–12,100 m)|
|Typical range||6,950 km / 3,750 nmi||6,500 km / 3,500 nmi||7,400 km / 4,000 nmi|
|Takeoff||1,988 m (6,522 ft)|
|Designation||Engines||Certification||Take-off thrust||Maximum continuous|
|A320-271N||PW1127G-JM||24 Nov 2015||7005120430000000000♠12043 daN (7004122810134177500♠27075 lb)||7005117180000000000♠11718 daN (7004119498909876500♠26345 lb)|
|A320-251N||CFM LEAP-1A26||31 May 2016||7005120640000000000♠12064 daN (7004123014250744000♠27120 lb)||7005118680000000000♠11868 daN (7004121018444316000♠26680 lb)|
|A321-271N||PW1133G-JM||15 Dec 2016||7005147280000000000♠14728 daN (7004150184433707000♠33110 lb)||7005145810000000000♠14581 daN (7004148687578886000♠32780 lb)|
|A321-251N||CFM LEAP-1A32||1 Mar 2017||7005143050000000000♠14305 daN (7004145875306192000♠32160 lb)||7005140960000000000♠14096 daN (7004143743422053000♠31690 lb)|
|A321-253N||CFM LEAP-1A33||3 Mar 2017||7005143050000000000♠14305 daN (7004145875306192000♠32160 lb)||7005140960000000000♠14096 daN (7004143743422053000♠31690 lb)|
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