A wide-body aircraft, also known as a twin-aisle aircraft, is an airliner
with a fuselage
wide enough to accommodate two passenger aisle
s with seven or more seats abreast.
The typical fuselage
diameter is . In the typical wide-body economy cabin, passenger
s are seated seven to ten abreast, allowing a total capacity of 200 to 850 passengers. The largest wide-body aircraft are over wide, and can accommodate up to eleven passengers abreast in high-density configurations.
By comparison, a typical narrow-body
airliner has a diameter of , with a single aisle,
and seats between two and six people abreast.
Wide-body aircraft were originally designed for a combination of efficiency and passenger comfort and to increase the amount of cargo space. However, airlines quickly gave in to economic factors, and reduced the extra passenger space in order to maximize revenue and profits.
Wide-body aircraft are also used for the transport of commercial freight and cargo
and other special uses, described further below.
The term ''jumbo jet'' usually refers to the largest wide-body airliners due to their very large size; examples include the Boeing 747
(the first wide-body and original "jumbo jet"), Airbus A380
("superjumbo jet"), and Boeing 777X
("mini jumbo jet").
The phrase "jumbo jet" derives from Jumbo
, a circus elephant in the 19th century.
Seven-abreast aircraft typically seat 160 to 260 passengers, eight-abreast 250 to 380, nine- and ten-abreast 350 to 480.
By the end of 2017, nearly 8,800 wide-body airplanes had been delivered since 1969, peaking at 412 in 2015.
Following the success of the Boeing 707
and Douglas DC-8
in the late 1950s and early 1960s, airlines began seeking larger aircraft to meet the rising global demand for air travel. Engineers were faced with many challenges as airlines demanded more passenger seats per aircraft, longer ranges and lower operating costs.
Early jet aircraft such as the 707 and DC-8 seated passengers along either side of a single aisle, with no more than six seats per row. Larger aircraft would have to be longer, higher (such as a double-deck), or wider in order to accommodate a greater number of passenger seats. Engineers realized having two decks created difficulties in meeting emergency evacuation regulations with the technology available at that time. During the 1960s, it was also believed that supersonic airliners would succeed larger, slower planes. Thus, it was believed that most subsonic aircraft would become obsolete for passenger travel and would be eventually converted to freighters. As a result, airline manufacturers opted for a wider fuselage rather than a taller one (the 747
, and eventually the DC-10
). By adding a second aisle, the wider aircraft could accommodate as many as 10 seats across, but could also be easily converted to a freighter and carry two eight-by-eight freight pallets abreast.
The engineers also opted for creating "stretched" versions of the DC-8 (61, 62 and 63 models), as well as longer versions of Boeing's 707 (-320B and 320C models) and 727 (-200 model); and Douglas' DC-9 (-30, -40, and -50 models), all of which were capable of accommodating more seats than their shorter predecessor versions.
The wide-body age began in 1970 with the entry into service of the first wide-body airliner, the four-engined, partial double-deck Boeing 747
"The Boeing 747"
, U.S. Centennial of Flight Commission. Retrieved: 30 April 2006.
wide-body aircraft soon followed, including the McDonnell Douglas DC-10
and the Lockheed L-1011 TriStar
. The first wide-body twinjet
, the Airbus A300
, entered service in 1974. This period came to be known as the "wide-body wars".
L-1011 TriStars were demonstrated in the USSR in 1974, as Lockheed sought to sell the aircraft to Aeroflot. However, in 1976 the Soviet Union launched its own first four-engined wide-body, the Ilyushin Il-86
After the success of the early wide-body aircraft, several subsequent designs came to market over the next two decades, including the Boeing 767
, the Airbus A330
, and the McDonnell Douglas MD-11
. In the "jumbo" category, the capacity of the Boeing 747 was not surpassed until October 2007, when the Airbus A380
entered commercial service with the nickname "Superjumbo". Both the Boeing 747 and Airbus A380 "jumbo jets" have four engines each (quad-jets), but the upcoming Boeing 777X
("mini jumbo jet") is a twinjet.
In the mid-2000s, rising oil costs in a post-9/11
climate caused airlines to look towards newer, more fuel-efficient aircraft. Two such examples are the Boeing 787 Dreamliner
and Airbus A350 XWB
. The proposed Comac C929
may also share this new wide-body market.
The production of the large Boeing 747-8
and Airbus A380
four-engine, long-haul jets is coming to an end as airlines are now preferring the smaller, more efficient A350
twin-engine, long-range airliners.
Although wide-body aircraft have larger frontal areas (and thus greater form drag
) than narrow-body aircraft of similar capacity, they have several advantages over their narrow-body counterparts, such as:
* a larger cabin space for passengers, giving a more open feeling
* a lower ratio of surface area to volume, and thus lower drag per passenger or cargo volume. The only exception to this would be with very long narrow-body aircraft, such as the Boeing 757
and Airbus A321
* Twin aisles that accelerate loading, unloading, and evacuation compared to a single aisle (wide-body airliners typically have 3.5 to 5 seats abreast per aisle, compared to 5–6 on most narrow-body aircraft)
* Reduced overall aircraft length for a given capacity, improving ground manoeuvrability and reducing the risk of tail strikes
* Greater under-floor freight capacity
* Better structural efficiency for larger aircraft than would be possible with a narrow-body design
British and Russian designers had proposed wide-body aircraft similar in configuration to the Vickers VC10
and Douglas DC-9
, but with a wide-body fuselage. The British Three-Eleven
project never left the drawing board, while the Russian Il-86
wide-body proposal eventually gave way to a more conventional wing-mounted engine design, most likely due to the inefficiencies of mounting such large engines on the aft fuselage.
As jet engine power and reliability have increased over the last decades, most of the wide-body aircraft built today have only two engines. A twinjet
design is more fuel-efficient
than a trijet
of similar size. The increased reliability of modern jet engines also allows aircraft to meet the ETOPS
certification standard, which calculates reasonable safety margins for flights across oceans. The trijet design was dismissed due to higher maintenance and fuel costs compared to a twinjet. Most modern wide-body aircraft have two engines, although the heaviest wide-body aircraft are built with four engines: the Airbus A380
, Boeing 747-8
. The upcoming Boeing 777X
-9 twinjet is approaching the capacity of the earlier Boeing 747.
The Boeing 777
twinjet features the most powerful jet engine, the General Electric GE90
The early variants have a fan diameter of , and the larger GE90-115B has a fan diameter of . This is almost as wide as the Fokker 100
fuselage. Complete GE90 engines can only be ferried by outsize cargo aircraft such as the Antonov An-124
, presenting logistics problems if a 777 is stranded in a place due to emergency diversions without the proper spare parts. If the fan is removed from the core, then the engines may be shipped on a Boeing 747
The General Electric GE9X
, powering the Boeing 777X
, is wider than the GE90 by .
The maximum takeoff weight
of the Airbus A380 would not have been possible without the engine technology developed for the Boeing 777 such as contra-rotating spools. Its Trent 900
engine has a fan diameter of , slightly smaller than the GE90 engines on the Boeing 777. The Trent 900 is designed to fit into a Boeing 747-400F freighter for easier transport by air cargo
The interiors of aircraft, known as the aircraft cabin
, have been undergoing evolution since the first passenger aircraft. Today, between one and four classes of travel
are available on wide-body aircraft.
Bar and lounge areas which were once installed on wide-body aircraft have mostly disappeared, but a few have returned in first class
or business class
on the Airbus A340-600
, Boeing 777-300ER
, and on the Airbus A380
has installed showers for first-class passengers on the A380; twenty-five minutes are allotted for use of the room, and the shower operates for a maximum of five minutes.
Depending on how the airline
configures the aircraft, the size and seat pitch
of the airline seat
s will vary significantly. For example, aircraft scheduled for shorter flights are often configured at a higher seat density
aircraft. Due to current economic pressures on the airline industry, high seating densities in the economy class
cabin are likely to continue.
In some of the largest single-deck wide-body aircraft, such as the Boeing 777
, the extra space above the cabin is used for crew rest areas and galley storage.
A comparison of interior cabin widths and economy class seating layouts is shown below under wide-body specifications
. Further information can be found under external links
File:3-3-3 seat configuration of the A350 economy-class cabin.jpg|The economy class cabin of an Airbus A350
File:1-2-1 seat configuration of the A350 business class cabin.jpg|The business class cabin on an A350.
File:First class cabin B747-400 Cathay Pacific.jpg|Cathay Pacific's First Class cabin on board a Boeing 747-400
Wake turbulence and separation
Aircraft are categorized by ICAO
according to the wake turbulence
they produce. Because wake turbulence is generally related to the weight of an aircraft, these categories are based on one of four weight categories: light, medium, heavy, and super.
Due to their weight, all current wide-body aircraft are categorized as "heavy
", or in the case of the A380 in U.S. airspace, "super".
The wake-turbulence category also is used to guide the separation
of aircraft. Super- and heavy-category aircraft require greater separation behind them than those in other categories. In some countries, such as the United States
, it is a requirement to suffix the aircraft's call sign
with the word ''heavy'' (or ''super'') when communicating with air traffic control
in certain areas.
Wide-body aircraft are used in science, research, and the military. Some wide-body aircraft are used as flying command posts by the military like the Ilyushin Il-80
or the Boeing E-4
, while the Boeing E-767
is used for Airborne Early Warning and Control
. New military weapons are tested aboard wide-bodies, as in the laser weapons testing on the Boeing YAL-1
. Other wide-body aircraft are used as flying research stations, such as the joint German–U.S. Stratospheric Observatory for Infrared Astronomy
(SOFIA). Airbus A340, Airbus A380, and Boeing 747 four-engine wide-body aircraft are used to test new generations of aircraft engines in flight. A few aircraft have also been converted for aerial firefighting
, such as the DC-10
and the 747
-based Evergreen Supertanker
Some wide-body aircraft are used as VIP
transport. Canada uses the Airbus A310
, while Russia use the Ilyushin Il-96
, to transport those holding the highest offices. Germany replaced their Airbus A310
with an Airbus A340
in spring 2011. Specially-modified Boeing 747-200s (Boeing VC-25
s) are used to ferry the President of the United States
Some wide-body aircraft have been modified to enable transport of especially large cargo. Examples include the Airbus Beluga
, Airbus Beluga XL
, and the Boeing Dreamlifter
. Two specially modified Boeing 747s
were used to transport the U.S. Space Shuttle
, while the Antonov An-225
was initially built to carry the Buran
* Aircraft seat map
* Competition between Airbus and Boeing
* Large aircraft
* List of large aircraft
* Narrow-body aircraft
Official Airbus websiteOfficial Boeing websiteOfficial website of the Ilyushin Aviation Complex
* ttp://www.widebodyaircraft.nl/airindex.htm WidebodyAircraft.nl information and chronology
* Etihad Airways
br>document of their A340-600 interior
Category:Lists of aircraft by design configuration