|An Emirates A380 on final approach to land at Paris-Charles de Gaulle International Airport|
|Role||Wide-body, double-deck jet airliner|
|First flight||27 April 2005|
|Introduction||25 October 2007
with Singapore Airlines
|Number built||135 as of 30 June 2014[update]|
The Airbus A380 is a double-deck, wide-body, four-engine jet airliner manufactured by Airbus. It is the world's largest passenger airliner, and many airports have upgraded facilities to accommodate it. It was initially named Airbus A3XX and designed to challenge Boeing's monopoly in the large-aircraft market. The A380 made its first flight on 27 April 2005 and entered commercial service in October 2007 with Singapore Airlines.
The A380's upper deck extends along the entire length of the fuselage, with a width equivalent to a wide-body aircraft. This gives the A380-800's cabin 478 square metres (5,145.1 sq ft) of usable floor space, 40% more than the next largest airliner, the Boeing 747-8, and provides seating for 525 people in a typical three-class configuration or up to 853 people in an all-economy class configuration. The A380-800 has a design range of 15,700 kilometres (8,500 nmi; 9,800 mi), sufficient to fly nonstop from Dubai to Los Angeles, and a cruising speed of Mach 0.85 (about 900 km/h, 560 mph or 490 kn at cruising altitude).
- 1 Development
- 2 Design
- 3 Future variants
- 4 Market
- 5 Orders and deliveries
- 6 Operators
- 7 Incidents and accidents
- 8 Specifications
- 9 See also
- 10 References
- 11 External links
In mid-1988, a group of Airbus engineers led by Jean Roeder began work in secret on the development of an ultra-high-capacity airliner (UHCA), both to complete its own range of products and to break the dominance that Boeing had enjoyed in this market segment since the early 1970s with its 747. McDonnell Douglas unsuccessfully offered its smaller, double-deck MD-12 concept for sale. Roeder was given approval for further evaluations of the UHCA after a formal presentation to the President and CEO in June 1990. The megaproject was announced at the 1990 Farnborough Air Show, with the stated goal of 15% lower operating costs than the 747-400. Airbus organised four teams of designers, one from each of its partners (Aérospatiale, British Aerospace, Deutsche Aerospace AG, CASA) to propose new technologies for its future aircraft designs. The designs were presented in 1992 and the most competitive designs were used.
In January 1993, Boeing and several companies in the Airbus consortium started a joint feasibility study of an aircraft known as the Very Large Commercial Transport (VLCT), aiming to form a partnership to share the limited market. This joint study was abandoned two years later, Boeing's interest having declined because analysts thought that such a product was unlikely to cover the projected $15 billion development cost. Despite the fact that only two airlines had expressed public interest in purchasing such a plane, Airbus was already pursuing its own large plane project. Analysts suggested that Boeing would instead pursue stretching its 747 design, and that air travel was already moving away from the hub and spoke system that consolidated traffic into large planes, and toward more non-stop routes that could be served by smaller planes.
In June 1994, Airbus announced its plan to develop its own very large airliner, designated the A3XX. Airbus considered several designs, including an unusual side-by-side combination of two fuselages from the A340, which was Airbus's largest jet at the time. The A3XX was pitted against the VLCT study and Boeing's own New Large Aircraft successor to the 747. From 1997 to 2000, as the East Asian financial crisis darkened the market outlook, Airbus refined its design, targeting a 15–20% reduction in operating costs over the existing Boeing 747-400. The A3XX design converged on a double-decker layout that provided more passenger volume than a traditional single-deck design, in line with traditional hub-and-spoke theory as opposed to the point-to-point theory of the Boeing 777, after conducting an extensive market analysis with over 200 focus groups. Although early marketing of the huge cross-section touted the possibility of duty-free shops, restaurant-like dining, gyms, casinos & beauty parlours on board, the realities of airline economics have kept such dreams grounded.
On 19 December 2000, the supervisory board of newly restructured Airbus voted to launch an €8.8-billion programme to build the A3XX, re-christened as the A380, with 50 firm orders from six launch customers. The A380 designation was a break from previous Airbus families, which had progressed sequentially from A300 to A340. It was chosen because the number 8 resembles the double-deck cross section, and is a lucky number in some Asian countries where the aircraft was being marketed. The aircraft configuration was finalised in early 2001, and manufacturing of the first A380 wing box component started on 23 January 2002. The development cost of the A380 had grown to €11 billion when the first aircraft was completed.
Major structural sections of the A380 are built in France, Germany, Spain, and the United Kingdom. Due to the sections' large size, traditional transportation methods proved infeasible, so they are brought to the Jean-Luc Lagardère Plant assembly hall in Toulouse, France by specialised surface transportation, though some parts are moved by the A300-600ST Beluga aircraft used in the construction of other Airbus models. A380 components are provided by suppliers from around the world; the four largest contributors, by value, are Rolls-Royce, Safran, United Technologies and General Electric.
For the surface movement of large A380 structural components, a complex route known as the Itinéraire à Grand Gabarit was developed. This involved the construction of a fleet of roll-on/roll-off (RORO) ships and barges, the construction of port facilities and the development of new and modified roads to accommodate oversized road convoys. The front and rear fuselage sections are shipped on one of three RORO ships from Hamburg in northern Germany to the United Kingdom. The wings are manufactured at Broughton in North Wales, then transported by barge to Mostyn docks, where the ship adds them to its cargo.
In Saint-Nazaire in western France, the ship exchanges the fuselage sections from Hamburg for larger, assembled sections, some of which include the nose. The ship unloads in Bordeaux. The ship then picks up the belly and tail sections from Construcciones Aeronáuticas SA in Cádiz in southern Spain, and delivers them to Bordeaux. From there, the A380 parts are transported by barge to Langon, and by oversize road convoys to the assembly hall in Toulouse. In order to avoid damage from direct handling, parts are secured in custom jigs carried on self-powered wheeled vehicles.
After assembly, the aircraft are flown to Hamburg Finkenwerder Airport (XFW) to be furnished and painted. It takes 3,600 L (950 US gal) of paint to cover the 3,100 m2 (33,000 sq ft) exterior of an A380. Airbus sized the production facilities and supply chain for a production rate of four A380s per month.
Five A380s were built for testing and demonstration purposes. The first A380, registered F-WWOW, was unveiled in Toulouse 18 January 2005. Its first flight took place at 10:29 am local time (08:29 UTC) on 27 April 2005. This plane, equipped with Rolls-Royce Trent 900 engines, flew from Toulouse Blagnac International Airport with a crew of six headed by chief test pilot Jacques Rosay. After landing, 3 hours 54 minutes later, Rosay said flying the A380 had been "like handling a bicycle".
On 1 December 2005, the A380 achieved its maximum design speed of Mach 0.96, over its design cruise speed of Mach 0.85, in a shallow dive, completing the opening of the flight envelope. In 2006, the A380 flew its first high-altitude test at Bole International Airport, Addis Ababa. It conducted its second high-altitude test at the same airport in 2009. On 10 January 2006, it flew to José María Córdova International Airport in Colombia, accomplishing the transatlantic testing, and then it went to El Dorado International Airport to test the engine operation in high-altitude airports. It arrived in North America on 6 February 2006, landing in Iqaluit, Nunavut in Canada for cold-weather testing.
On 14 February 2006, during the destructive wing strength certification test on MSN5000, the test wing of the A380 failed at 145% of the limit load, short of the required 150% level. Airbus announced modifications adding 30 kg to the wing to provide the required strength. On 26 March 2006, the A380 underwent evacuation certification in Hamburg. With 8 of the 16 exits arbitrarily blocked, 853 mixed passengers and 20 crew left the darkened aircraft in 78 seconds, less than the 90 seconds required for certification. Three days later, the A380 received European Aviation Safety Agency (EASA) and United States Federal Aviation Administration (FAA) approval to carry up to 853 passengers.
The first A380 using GP7200 engines—serial number MSN009 and registration F-WWEA—flew on 25 August 2006. On 4 September 2006, the first full passenger-carrying flight test took place. The aircraft flew from Toulouse with 474 Airbus employees on board, in the first of a series of flights to test passenger facilities and comfort. In November 2006, a further series of route-proving flights demonstrated the aircraft's performance for 150 flight hours under typical airline operating conditions.
Airbus obtained type certificates for the A380-841 and A380-842 model from the EASA and FAA on 12 December 2006 in a joint ceremony at the company's French headquarters, receiving the ICAO code A388. The A380-861 model obtained its type certificate on 14 December 2007.
Production and delivery delays
Initial production of the A380 was troubled by delays attributed to the 530 km (330 mi) of wiring in each aircraft. Airbus cited as underlying causes the complexity of the cabin wiring (98,000 wires and 40,000 connectors), its concurrent design and production, the high degree of customisation for each airline, and failures of configuration management and change control. The German and Spanish Airbus facilities continued to use CATIA version 4, while British and French sites migrated to version 5. This caused overall configuration management problems, at least in part because wiring harnesses manufactured using aluminium rather than copper conductors necessitated special design rules including non-standard dimensions and bend radii; these were not easily transferred between versions of the software.
Airbus announced the first delay in June 2005 and notified airlines that deliveries would be delayed by six months. This reduced the total number of planned deliveries by the end of 2009 from about 120 to 90–100. On 13 June 2006, Airbus announced a second delay, with the delivery schedule slipping an additional six to seven months. Although the first delivery was still planned before the end of 2006, deliveries in 2007 would drop to only 9 aircraft, and deliveries by the end of 2009 would be cut to 70–80 aircraft. The announcement caused a 26% drop in the share price of Airbus' parent, EADS, and led to the departure of EADS CEO Noël Forgeard, Airbus CEO Gustav Humbert, and A380 programme manager Charles Champion. On 3 October 2006, upon completion of a review of the A380 program, Airbus CEO Christian Streiff announced a third delay, pushing the first delivery to October 2007, to be followed by 13 deliveries in 2008, 25 in 2009, and the full production rate of 45 aircraft per year in 2010. The delay also increased the earnings shortfall projected by Airbus through 2010 to €4.8 billion.
As Airbus prioritised the work on the A380-800 over the A380F, freighter orders were cancelled by FedEx and UPS, or converted to A380-800 by Emirates and ILFC. Airbus suspended work on the freighter version, but said it remained on offer, albeit without a service entry date. For the passenger version Airbus negotiated a revised delivery schedule and compensation with the 13 customers, all of which retained their orders with some placing subsequent orders, including Emirates, Singapore Airlines, Qantas, Air France, Qatar Airways, and Korean Air.
On 13 May 2008, Airbus announced reduced deliveries for the years 2008 (12) and 2009 (21). After further manufacturing setbacks, Airbus announced its plan to deliver 14 A380s in 2009, down from the previously revised target of 18. A total of 10 A380s were delivered in 2009. In 2010 Airbus delivered only 18 of the expected 20 A380s, due to Rolls-Royce engine availability problems. Airbus planned to deliver "between 20 and 25" A380s in 2011 before ramping up to three a month in 2012. In the event, Airbus delivered 26 units, thus outdoing its predicted output for the first time. As of July 2012[update], production was 3 aircraft per month. Among the production problems are challenging interiors, interiors being installed sequentially rather than concurrently like in smaller planes, and union/government objections to streamlining.
Entry into service
Dubbed the Superjumbo by the media the first aircraft, MSN003, (registered as 9V-SKA) was delivered to Singapore Airlines on 15 October 2007 and entered service on 25 October 2007 with flight number SQ380 between Singapore and Sydney. Passengers bought seats in a charity online auction paying between $560 and $100,380. Two months later, Singapore Airlines CEO Chew Choong Seng stated the A380 was performing better than both the airline and Airbus had anticipated, burning 20% less fuel per passenger than the airline's 747-400 fleet. Emirates' Tim Clark claims that the A380 has better fuel economy at Mach 0.86 than at 0.83, and that its technical dispatch reliability (a measure of reliability) is at 97%, same as those of Singapore Airlines. Airbus is committed to reach the industry standard of 98.5%.
Emirates was the second airline to receive the A380 and commenced services between Dubai and New York in August 2008. Qantas followed on 19 September 2008, starting flights between Melbourne and Los Angeles in October 2008. By the end of 2008, 890,000 passengers had flown on 2,200 flights totalling 21,000 hours.
In February 2009, the one millionth passenger was flown with Singapore Airlines and by May of that year 1,500,000 passengers had flown on 4,200 flights totalling 41,000 hours. Air France received its first A380 in October 2009. Lufthansa received its first A380 in May 2010. By July 2010, the 31 A380s then in service had transported 6 million passengers on 17,000 flights totalling over 156,000 hours between 20 international destinations.
Airbus delivered the 100th A380 on 14 March 2013 to Malaysia Airlines.
Until June 2014 more than 55 million passengers had flown the A380 .
During repairs following the Qantas Flight 32 engine failure incident, cracks were discovered in fittings within the wings. As a result of the discovery, EASA issued an Airworthiness Directive in January 2012 affecting 20 A380 aircraft that had accumulated over 1,300 flights. A380s with under 1,800 flight hours were to be inspected within 6 weeks or 84 flights; aircraft with over 1,800 flight hours were to be examined within four days or 14 flights. Fittings found to be cracked were being replaced following the inspections to maintain structural integrity. On 8 February 2012, the checks were extended to cover all 68 A380 aircraft in operation. The problem is considered to be minor and is not expected to affect operations. EADS acknowledged that the cost of repairs would be over $130 million, to be borne by Airbus. The company said the problem was traced to stress and material used for the fittings. Additionally, major airlines are seeking compensation from Airbus for revenue lost as a result of the cracks and subsequent grounding of fleets. Airbus has switched to a different type of aluminium alloy so aircraft delivered from 2014 onwards will not have this issue.
Airbus is changing about 10% of all doors, as some became leaky during flight and caused a drop in cabin pressure. One occurrence resulted in dropped oxygen masks and an emergency landing in Baku. The switch is expected to cost over €100 million. Airbus states that safety is sufficient, as the air pressure pushes the door into the frame.
The A380 was initially offered in two models, the A380-800 and the A380F. The A380-800's original configuration carried 555 passengers in a three-class configuration or 853 passengers (538 on the main deck and 315 on the upper deck) in a single-class economy configuration. Then in May 2007, Airbus began marketing a configuration with 30 fewer passengers, (525 total in three classes), traded for 370 km (200 nmi) more range, to better reflect trends in premium class accommodation. The design range for the −800 model is 15,700 km (8,500 nmi); capable of flying from Hong Kong to New York or from Sydney to Istanbul non-stop. The second model, the A380F freighter, would carry 150 tonnes of cargo 10,400 km (5,600 nmi). The freighter development was put on hold as Airbus prioritised the passenger version and all cargo orders were cancelled. Future variants may include an A380-900 stretch seating about 656 passengers (or up to 960 passengers in an all economy configuration) and an extended-range version with the same passenger capacity as the A380-800.
The lack of engine noise—it's 50% quieter than a 747-400 on takeoff—was downright eerie. The A380 is so big it's difficult to sense its speed, and its upper deck is so far away from the engines the noise dissipates.—Time magazine, 
The A380's wing is sized for a maximum take-off weight (MTOW) over 650 tonnes to accommodate these future versions, albeit with some strengthening required. The optimal wingspan for this weight is about 90 m (300 ft), but airport restrictions limited it to less than 80 m (260 ft), lowering aspect ratio to 7.8 which reduces fuel efficiency about 10% and increases operating costs a few percent. The stronger wing (and structure) would be used on the A380F freighter.
The common wing design approach sacrifices fuel efficiency (due to a weight penalty) on the A380-800 passenger model, but Airbus estimates that the size of the aircraft, coupled with the uses of advanced technology, will provide lower operating costs per passenger than the 747-400 and older 747 variants. The A380 also includes wingtip devices similar to those found on the A310 and A320 to reduce induced drag, increasing fuel efficiency and performance.
The A380 is available with two types of turbofan engines, the Rolls-Royce Trent 900 (variants A380-841, −842 and −843F) or the Engine Alliance GP7000 (A380-861 and −863F). The Trent 900 is a derivative of the Trent 800, and the GP7000 has roots from the GE90 and PW4000. The Trent 900 core is a scaled version of the Trent 500, but incorporates the swept fan technology of the stillborn Trent 8104. The GP7200 has a GE90-derived core and PW4090-derived fan and low-pressure turbo-machinery. Noise reduction was an important requirement in the A380 design, and particularly affects engine design. Both engine types allow the aircraft to achieve well under the QC/2 departure and QC/0.5 arrival noise limits under the Quota Count system set by London Heathrow Airport, which is a key destination for the A380. The A380 has received an award for its reduced noise. However, field measurements suggest the approach quota allocation for the A380 may be overly generous compared to the older Boeing 747, but still quieter. Rolls-Royce is supporting CAA in understanding the relatively high A380/Trent 900 monitored noise levels.
The A380 was initially planned without thrust reversers, incorporating sufficient braking capacity to do without them. However Airbus elected to equip the two inboard engines with thrust reversers in a late stage of development, helping the brakes when the runway is slippery. The two outboard engines do not have reversers, reducing the amount of debris stirred up during landing. The A380 has electrically actuated thrust reversers, giving them better reliability than their pneumatic or hydraulic equivalents, in addition to saving weight.
The A380 was used to demonstrate the viability of a synthetic fuel comprising standard jet fuel with a natural-gas-derived component. On 1 February 2008, a three-hour test flight operated between Britain and France, with one of the A380's four engines using a mix of 60% standard jet kerosene and 40% gas to liquids (GTL) fuel supplied by Shell. The aircraft needed no modification to use the GTL fuel, which was designed to be mixed with normal jet fuel. Sebastien Remy, head of Airbus SAS's alternative fuel programme, said the GTL used was no cleaner in CO2 terms than standard fuel but it had local air quality benefits because the GTL portion contains no sulphur.
The Auxiliary power unit comprises the Auxiliary Power Unit (APU), the electronic control box (ECB), and mounting hardware. The APU in use on the A380 is the PW 980A APU. It is the world's most powerful APU, providing 1.3MW, which is 20 percent more powerful than the next largest APU in service. The APU primarily provides air to power the Analysis Ground Station (AGS) on the ground and to start the engines. The AGS is a semi-automatic analysis system of flight data that helps to optimise management of maintenance and reduce costs. The APU also powers electric generators which provide auxiliary electric power to the aircraft.
While most of the fuselage is aluminium, composite materials comprise more than 20% of the A380's airframe. Carbon-fibre reinforced plastic, glass-fibre reinforced plastic and quartz-fibre reinforced plastic are used extensively in wings, fuselage sections (such as the undercarriage and rear end of fuselage), tail surfaces, and doors. The A380 is the first commercial airliner to have a central wing box made of carbon fibre reinforced plastic. It is also the first to have a smoothly contoured wing cross section. The wings of other commercial airliners are partitioned span-wise into sections. This flowing, continuous cross section optimises aerodynamic efficiency. Thermoplastics are used in the leading edges of the slats. The composite material GLARE (GLAss-REinforced fibre metal laminate) is used in the upper fuselage and on the stabilisers' leading edges. This aluminium-glass-fibre laminate is lighter and has better corrosion and impact resistance than conventional aluminium alloys used in aviation. Unlike earlier composite materials, GLARE can be repaired using conventional aluminium repair techniques.
Newer weldable aluminium alloys are also used. This enables the widespread use of laser beam welding manufacturing techniques, eliminating rows of rivets and resulting in a lighter, stronger structure. High-strength aluminium (type 7449) reinforced with carbon fibre was used in the wing brackets of the first 120 A380s to reduce weight, but cracks have been discovered and new sets of the more critical brackets will be made of regular aluminium 7010, increasing weight by 90 kg. Repair costs for earlier aircraft are expected to be around EUR€500 million (USD$629 million).
The A380 employs an Integrated Modular Avionics (IMA) architecture, first used in advanced military aircraft, such as the F-22 Raptor, F-35 Lightning II, and Dassault Rafale. The main IMA systems on the A380 were developed by the Thales Group. Designed and developed by Airbus, Thales and Diehl Aerospace, the IMA suite was first used on the A380. The suite is a technological innovation, with networked computing modules to support different applications. The data communication networks use Avionics Full-Duplex Switched Ethernet, an implementation of ARINC 664. The data networks are switched, full-duplex, star-topology and based on 100baseTX fast-Ethernet. This reduces the amount of wiring required and minimises latency.
Airbus used similar cockpit layout, procedures and handling characteristics to other Airbus aircraft, reducing crew training costs. The A380 has an improved glass cockpit, using fly-by-wire flight controls linked to side-sticks. The cockpit has eight 15 by 20 cm (5.9 by 7.9 in) liquid crystal displays, all physically identical and interchangeable; comprising two primary flight displays, two navigation displays, one engine parameter display, one system display and two multi-function displays. The MFDs were introduced on the A380 to provide an easy-to-use interface to the flight management system—replacing three multifunction control and display units. They include QWERTY keyboards and trackballs, interfacing with a graphical "point-and-click" display system.
The Network Systems Server (NSS) is the heart of A380's paperless cockpit; it eliminates bulky manuals and charts traditionally used. The NSS has enough inbuilt robustness to eliminate onboard backup paper documents. The A380's network and server system stores data and offers electronic documentation, providing a required equipment list, navigation charts, performance calculations, and an aircraft logbook. This is accessed through the MFDs and controlled via the keyboard interface.
Power-by-wire flight control actuators have been used for the first time in civil aviation to back up primary hydraulic actuators. Also, during certain manoeuvres they augment the primary actuators. They have self-contained hydraulic and electrical power supplies. Electro-hydrostatic actuators (EHA) are used in the aileron and elevator, electric and hydraulic motors to drive the slats as well as electrical backup hydrostatic actuators (EBHA) for the rudder and some spoilers.
The A380's 350 bar (35 MPa or 5,000 psi) hydraulic system is a significant difference from the typical 210 bar (21 MPa or 3,000 psi) hydraulics used on most commercial aircraft since the 1940s. First used in military aircraft, high-pressure hydraulics reduce the weight and size of pipelines, actuators and related components. The 350 bar pressure is generated by eight de-clutchable hydraulic pumps. The hydraulic lines are typically made from titanium; the system features both fuel- and air-cooled heat exchangers. Self-contained electrically powered hydraulic power packs serve as backups for the primary systems, instead of a secondary hydraulic system, saving weight and reducing maintenance.
The A380 uses four 150 kVA variable-frequency electrical generators, eliminating constant-speed drives and improving reliability. The A380 uses aluminium power cables instead of copper for weight reduction. The electrical power system is fully computerised and many contactors and breakers have been replaced by solid-state devices for better performance and increased reliability.
The cabin has features to reduce traveller fatigue such as a quieter interior and higher pressurisation than previous generation of aircraft; the A380 is pressurised to the equivalent altitude of 1,520 m (5,000 ft) up to 12,000 m (39,000 ft). It has 50% less cabin noise, 50% more cabin area and volume, larger windows, bigger overhead bins, and 60 cm (2.0 ft) extra headroom versus the 747-400. Seating options range from 4-abreast in first class to 11-across in economy. On other aircraft, economy seats range from 41.5 cm (16.3 in) to 52.3 cm (20.6 in) in width, A380 economy seats are up to 48 cm (19 in) wide in a 10-abreast configuration; compared with the 10-abreast configuration on the 747-400 which typically has seats 44.5 cm (17.5 in) wide.
The A380's upper and lower decks are connected by two stairways, fore and aft, wide enough to accommodate two passengers side-by-side; this cabin arrangement allows multiple seat configurations. The maximum certified carrying capacity is 853 passengers in an all-economy-class layout, Airbus lists the "typical" three-class layout as accommodating 525 passengers, with 10 first, 76 business, and 439 economy class seats. Airline configurations range from Korean Air's 407 passengers to Air Austral's 840 passengers. and average around 480–490 seats. The A380's interior illumination system uses bulbless LEDs in the cabin, cockpit, and cargo decks. The LEDs in the cabin can be altered to create an ambience simulating daylight, night, or intermediate levels. On the outside of the aircraft, HID lighting is used for brighter illumination.
Airbus's publicity has stressed the comfort and space of the A380 cabin, and advertised onboard relaxation areas such as bars, beauty salons, duty-free shops, and restaurants. Proposed amenities resembled those installed on earlier airliners, particularly 1970s wide-body jets, which largely gave way to regular seats for more passenger capacity. Airbus has acknowledged that some cabin proposals were unlikely to be installed, and that it was ultimately the airlines' decision how to configure the interior. Industry analysts suggested that implementing customisation has slowed the production speeds, and raised costs. Due to delivery delays, Singapore Airlines and Air France debuted their seat designs on different aircraft prior to the A380.
Initial operators typically configured their A380s for three-class service, while adding extra features for passengers in premium cabins. Launch customer Singapore Airlines introduced partly enclosed first class suites on its A380s in 2007, each featuring a leather seat with a separate bed; center suites could be joined to create a double bed. A year later, Qantas debuted a new first class seat-bed and a sofa lounge at the front of the upper deck on its A380s. In late 2008, Emirates introduced "shower spas" in first class on its A380s allowing each first class passenger five minutes of hot water, drawing on 2.5 tonnes of water although only 60% of it were used. Emirates also has a bar lounge and seating area on the upper deck, and in 2009 Air France unveiled an upper deck electronic art gallery. In addition to lounge areas, some A380 operators have installed amenities consistent with other aircraft in their respective fleets, including self-serve snack bars, premium economy sections, and redesigned business class seating. Emirates states that their A380 fleet has load factors of 90-100%.
Integration with infrastructure and regulations
In the 1990s, aircraft manufacturers were planning to introduce larger planes than the Boeing 747. In a common effort of the International Civil Aviation Organization, ICAO, with manufacturers, airports and its member agencies, the "80-metre box" was created, the airport gates allowing planes up to 80 m (260 ft) wingspan and length to be accommodated. Airbus designed the A380 according to these guidelines, and to operate safely on Group V runways and taxiways with a 60 metres (200 ft) loadbearing width. The US FAA initially opposed this, then in July 2007, the FAA and EASA agreed to let the A380 operate on 45 m (148 ft) runways without restrictions. The A380-800 is approximately 30% larger in overall size than the 747-400. Runway lighting and signage may need changes to provide clearance to the wings and avoid blast damage from the engines. Runways, runway shoulders and taxiway shoulders may be required to be stabilised to reduce the likelihood of foreign object damage caused to (or by) the outboard engines, which are more than 25 m (82 ft) from the centre line of the aircraft, compared to 21 m (69 ft) for the 747-400, and 747-8.
Airbus measured pavement loads using a 540-tonne (595 short tons) ballasted test rig, designed to replicate the landing gear of the A380. The rig was towed over a section of pavement at Airbus' facilities that had been instrumented with embedded load sensors. It was determined that the pavement of most runways will not need to be reinforced despite the higher weight, as it is distributed on more wheels than in other passenger aircraft with a total of 22 wheels (that is, its ground pressure is lower). The A380 undercarriage consists of four main landing gear legs and one noseleg (a similar layout to the 747), with the two inboard landing gear legs each supporting six wheels.
The A380 requires service vehicles with lifts capable of reaching the upper deck, as well as tractors capable of handling the A380's maximum ramp weight. Using two jetway bridges the boarding time is 45 min, using an extra jetway to the upper deck it is reduced to 34 min. The A380 has an airport turnaround time of 90-110 minutes. The A380 test aircraft have participated in a campaign of airport compatibility testing to verify the modifications already made at several large airports, visiting a number of airports around the world.
Takeoff and landing separation
In 2005, the ICAO recommended that provisional separation criteria for the A380 on takeoff and landing be substantially greater than for the 747 because preliminary flight test data suggested a stronger wake turbulence. These criteria were in effect while the ICAO's wake vortex steering group, with representatives from the JAA, Eurocontrol, the FAA, and Airbus, refined its 3-year study of the issue with additional flight testing. In September 2006, the working group presented its first conclusions to the ICAO.
In November 2006, the ICAO issued new interim recommendations. Replacing a blanket 10 nautical miles (19 km) separation for aircraft trailing an A380 during approach, the new distances were 6 nmi (11 km), 8 nmi (15 km) and 10 nmi (19 km) respectively for non-A380 "Heavy", "Medium", and "Light" ICAO aircraft categories. These compared with the 4 nmi (7.4 km), 5 nmi (9.3 km) and 6 nmi (11 km) spacing applicable to other "Heavy" aircraft. Another A380 following an A380 should maintain a separation of 4 nmi (7.4 km). On departure behind an A380, non-A380 "Heavy" aircraft are required to wait two minutes, and "Medium"/"Light" aircraft three minutes for time based operations. The ICAO also recommends that pilots append the term "Super" to the aircraft's callsign when initiating communication with air traffic control, to distinguish the A380 from "Heavy" aircraft.
In August 2008, the ICAO issued revised approach separations of 4 nmi (7.4 km) for Super (another A380), 6 nmi (11 km) for Heavy, 7 nmi (13 km) for medium/small, and 8 nmi (15 km) for light. In November 2008, an incident on a parallel runway during crosswinds made the Australian authorities change procedures for those conditions.
Singapore Airlines describe the A380's landing speed of 130-135kt (240-250km/h) as "impressively slow".
In 2010, Airbus announced a new A380 build standard incorporating a strengthened air frame structure and a 1.5° increase in wing twist. Airbus will also offer, as an option, an improved maximum take-off weight, thus providing a better payload/range performance. Maximum take-off weight is increased by 4 t (8,800 lb), to 573 t (1,263,000 lb) and an additional 100 nautical miles (190 km) in range. This is achieved by reducing flight loads, partly from optimising the fly-by-wire control laws. British Airways and Emirates are the first two customers to have received this new option in 2013. Emirates has asked for an update with new engines for the A380 to be competitive with the 777X around 2020, and Airbus is studying 11 abreast seating. Vietnam Airlines has shown interest in the higher-weight variant.
In 2012, Airbus announced another increase in the A380's maximum take-off weight, to 575 t (1,268,000 lb), a 6t hike on the initial variant and 2t higher than the increased-weight proposal of 2010. It will stretch the range by some 150 nautical miles (280 km), taking its capability to around 8,350 nautical miles (15,460 km) at current payloads. The higher-weight version was offered for introduction to service early in 2013.
In November 2007 Airbus top sales executive and chief operating officer John Leahy confirmed plans for an enlarged variant, the A380-900, with more seating space than the A380-800. This version would have a seating capacity for 650 passengers in standard configuration, and approximately 900 passengers in an economy-only configuration. Airlines that have expressed interest in the −900 include Emirates, Virgin Atlantic, Cathay Pacific, Air France-KLM, Lufthansa, Kingfisher Airlines, and leasing company ILFC. In May 2010, Airbus announced that A380-900 development was postponed, until production of the A380-800 has stabilised.
Airbus originally accepted orders for the freighter version, offering the largest payload capacity of any cargo aircraft in production, exceeded only by the single Antonov An-225 Mriya in service. An aerospace consultant has estimated that the A380F would have 7% better payload and better range than the 747-8F, but also higher trip costs. However, production has been suspended until the A380 production lines have settled with no firm availability date.
In 2006, industry analysts Philip Lawrence of the Aerospace Research Centre in Bristol and Richard Aboulafia of the consulting Teal Group in Fairfax anticipated 880 and 400 A380 sales respectively by 2025. According to Lawrence, parallel to the design of the A380, Airbus conducted the most extensive and thorough market analysis of commercial aviation ever undertaken, justifying its VLA (very large aircraft, those with more than 400 seats) plans, while according to Aboulafia, the rise of mid-size aircraft and market fragmentation reduced VLAs to niche market status, making such plans unjustified. The two analysts' market forecasts differed in the incorporation of spoke-hub and point-to-point models. The difference was illustrated in 2014 when British Airways replaced three B777 flights between London and Los Angeles with two A380, per day.
In 2007, Airbus estimated a demand for 1,283 passenger planes in the VLA category for the next 20 years if airport congestion remains at the current level. According to this estimate, demand could reach up to 1,771 VLAs if congestion increases. Most of this demand will be due to the urbanisation and rapid economic growth in Asia. The A380 will be used on relatively few routes, between the most saturated airports. Airbus also estimates a demand for 415 freighters in the category 120-tonne plus. Boeing, which offers the only competition in that class, the 747-8, estimates the demand for passenger VLAs at 590 and that for freighter VLAs at 370 for the period 2007–2026.
At one time the A380 was considered as a potential replacement for the existing Boeing VC-25 serving as Air Force One, but in January 2009 EADS declared that they were not going to bid for the contract, as assembling only three planes in the US would not make financial sense.
The break-even for the A380 was initially supposed to be reached by selling 270 units, but due to the delays and the falling exchange rate of the US dollar, it increased to 420 units. In 2010, EADS CFO Hans Peter Ring said that break-even (on the aircraft that are delivered) could be achieved by 2015, despite the delays; there should be around 200 deliveries by that time, on current projections. In 2012, Airbus clarified that in 2015, production costs to build the aircraft would be less than the sales price. As of March 2010[update] the average list price of an A380 was US$ 375.3 million (about €261 million or £229 million), depending on equipment installed. As of July 2012[update] this list price was US$ 390 million, but negotiated discounts made the actual prices much lower, and industry experts questioned whether the A380 project would ever pay for itself.
Orders and deliveries
Twenty customers have ordered the A380, including one VIP order. Total orders for the A380 stand at 324 as of February 2014[update]. The biggest customer is Emirates, which has ordered or committed to order a total of 140 A380s as of February 2014. The A380F version totalled 27 orders before they were either cancelled (20) or converted to A380-800 (7), following the production delay and the subsequent suspension of the freighter programme.
Delivery takes place in Hamburg for customers from Europe and the Middle East and in Toulouse for customers from the rest of the world. EADS explained that deliveries in 2013 were to be slowed temporarily to accommodate replacement of the wing rib brackets where cracks were detected earlier in the existing fleet.
Cumulative orders and deliveries:
There were 124 aircraft in service with 11 operators as of 13 June 2014. The shortest regular commercial route that the A380 flies is from Guangzhou Baiyun International Airport to Shanghai Pudong International Airport (1,202 km or 747 miles great circle distance) with China Southern, a flight averaging 2 hours 20 minutes although Air France briefly operated the A380 on the even shorter Paris-Charles de Gaulle to London-Heathrow route (344 km or 214 miles) in mid-2010. The longest route is from Dubai International Airport to Los Angeles International Airport (13,420 km or 8,339 miles great circle distance) with Emirates, which averages 16 hours 20 minutes. In September 2014, Qantas Flight 7 from Sydney International Airport to Dallas-Fort Worth International Airport is to become the longest A380 flight and longest commercial flight in the world.
- Singapore Airlines first service on 25 October 2007
- Emirates first service on 1 August 2008
- Qantas first service on 20 October 2008
- Air France first service on 20 November 2009
- Lufthansa first service on 6 June 2010
- Korean Air first service on 17 June 2011
- China Southern Airlines first service on 17 October 2011
- Malaysia Airlines first service on 1 July 2012
- Thai Airways International first service on 6 October 2012.
- British Airways first service on 24 September 2013.
- Asiana Airlines first service on 13 June 2014
Incidents and accidents
- On 4 November 2010, Qantas Flight 32, en route from Singapore Changi Airport to Sydney Airport, suffered an uncontained engine failure, resulting in a series of related problems, and forcing the flight to return to Singapore. There were no injuries to the passengers, crew or people on the ground despite debris falling onto the Indonesian island of Batam. The A380 was damaged sufficiently for the event to be classified as an accident. Qantas subsequently grounded all of its A380s that day subject to an internal investigation taken in conjunction with the engine manufacturer Rolls-Royce plc. A380s powered by Engine Alliance GP7000 were unaffected but other operators of Rolls-Royce Trent 900-powered A380s were also affected. Investigators later determined the cause of the explosion to be an oil leak in the Trent 900 engine. Repairs cost an estimated A$139 million (~US$145m). As other Rolls-Royce Trent 900 engines also showed problems with the same oil leak, Rolls-Royce ordered many engines to be changed, including about half of the engines in the Qantas A380 fleet. During the aeroplane's repair, cracks were discovered in wing structural fittings which also resulted in mandatory inspections of all A380s and subsequent design changes.
|Seating capacity||525–555 (3-class)
|Length overall||72.73 m (238 ft 7 in)|
|Wingspan||79.75 m (261 ft 8 in)|
|Height||24.45 m (80 ft 3 in)|
|Wheelbase||31.88 m (104 ft 7 in)|
|Wheel track||12.46 m (40 ft 11 in), 14.34 m (47 ft 1 in) total width|
|Outside fuselage width||7.14 m (23 ft 5 in)|
|Outside fuselage height||8.41 m (27 ft 7 in)|
|Maximum cabin width||6.54 m (21 ft 5 in) main deck
5.80 m (19 ft 0 in) upper deck
|Cabin length||49.9 m (163 ft 9 in) main deck
44.93 m (147 ft 5 in) upper deck
|Wing area||845 m2 (9,100 sq ft)|
|Maximum taxi/ramp weight||577,000 kg (1,272,000 lb)||592,000 kg (1,305,000 lb)|
|Maximum take-off weight||575,000 kg (1,268,000 lb)||590,000 kg (1,300,000 lb)|
|Maximum landing weight||394,000 kg (869,000 lb)||427,000 kg (941,000 lb)|
|Maximum zero fuel weight||369,000 kg (814,000 lb)||402,000 kg (886,000 lb)|
|Typical operating empty weight||276,800 kg (610,200 lb)||252,200 kg (556,000 lb)|
|Maximum structural payload||89,200 kg (196,700 lb)||149,800 kg (330,300 lb)|
|Maximum cargo volume||184 m3 (6,500 cu ft)||1,134 m3 (40,000 cu ft)|
|Maximum operating speed
at cruise altitude
(945 km/h, 587 mph, 510 knots)
|Maximum design speed
in dive at cruise altitude
(at cruise altitude: 1020 km/h, 634 mph, 551 knots)
|Cruise speed||Mach 0.85|
|Take off run at MTOW/SL ISA||2,950 m (9,680 ft)|
|Landing speed||130-135kt (240-250km/h)|
|Range at design load||15,700 km (8,500 nmi, 9,755 mi)||10,400 km (5,600 nmi, 6,400 mi)|
|Service ceiling||13,136 m (43,097 ft)|
|Maximum fuel capacity||323,546 l (85,472 US gal)|
|Engines (4 ×)||GP7270 (A380-861)
Trent 970/B (A380-841)
Trent 972/B (A380-842)
Trent 977/B (A380-843F)
|Thrust (4 ×)||310 kN (70,000 lbf) – GP7270
320 kN (72,000 lbf) – GP7272
310 kN (70,000 lbf) – Trent 970/B
320 kN (72,000 lbf) – Trent 972/B
|340 kN (76,000 lbf) – GP7277
340 kN (76,000 lbf) – Trent 977/B
- Related development
- Aircraft of comparable role, configuration and era
- Related lists
- List of aerospace megaprojects
- List of Airbus A380 orders and deliveries
- Seat configurations of the Airbus A380
- Final assembly in France
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