Boeing 747-8


The Boeing 747-8 is a wide-body airliner developed by Boeing Commercial Airplanes, the latest and largest variant of the 747.
After introducing the 747-400, Boeing considered larger 747 versions as alternatives to Airbus' A3XX.
The stretched 747 Advanced was launched as the on November 14, 2005, for a market forecast of 300 aircraft.
The first 747-8F Freighter performed its maiden flight on February 8, 2010, and the passenger 747-8I Intercontinental followed suit on March 20, 2011.
The cargo version was first delivered in October 2011 and the airliner began commercial service in June 2012.
Its fuselage is stretched by 18 ft to 250 ft, the longest airliner until the 777X-9, first flown in 2020.
While keeping its basic structure and sweep, the wing is thicker and deeper, holding more fuel, and wider with raked wingtips.
Powered by the more efficient General Electric GEnx turbofan of the 787 Dreamliner, its maximum take-off weight grew to 975,000 lb, the heaviest Boeing airliner.
The Freighter version has a shorter upper deck and it can haul over 4,120 nmi.
The airliner version can carry 467 passengers in a typical three-class configuration over 7,790 nmi.
, it has 154 confirmed orders: 107 freighters, and 47 passenger airliners.

Development

Background

had considered larger-capacity versions of the 747 several times during the 1990s and 2000s. The 747-500X and -600X, proposed at the 1996 Farnborough Airshow, would have stretched the 747 and used a 777-derived wing, but it did not attract enough interest to enter development. In 2000, Boeing offered the 747X and 747X Stretch derivatives as alternatives to the Airbus A3XX. This was a more modest proposal than the previous −500X and −600X. The 747X would increase the 747's wingspan to by adding a segment at the root. The 747X was to carry 430 passengers up to. The 747X Stretch would be extended to long, allowing it to carry 500 passengers up to. However, the 747X family was unable to attract enough interest to enter production. Some of the ideas developed for the 747X were used on the 747-400ER.
After the 747X program, Boeing continued to study improvements to the 747. The 747-400XQLR was meant to have an increased range of, with better fuel efficiency and reduced noise. Changes studied included raked wingtips similar to those used on the 767-400ER and a 'sawtooth' engine nacelle for noise reduction. Although the 747-400XQLR did not move to production, many of its features were used for the 747 Advanced.
In early 2004, Boeing announced tentative plans for the 747 Advanced that were eventually adopted. Similar in nature to the 747X, the stretched 747 Advanced used technology from the Boeing 787 Dreamliner to modernize the design and its systems. In 2005, Boeing forecast a market for 300 aircraft, split evenly between freighters and passenger variants.

Design effort

On November 14, 2005, Boeing announced the launching the 747 Advanced as the "Boeing 747-8". The 747-8 was the first lengthened 747 to go into production and the second 747 version with a fuselage of modified length after the shortened 747SP. The 747-8 was intended to use the same engine and cockpit technology as that of the 787, including the General Electric GEnx turbofan and partial fly-by-wire. In 2006, Boeing said that the new design would be quieter, more economical, and more environmentally friendly than previous versions of the 747. As a derivative of the already-common 747-400, the 747-8 has the economic benefit of similar training and interchangeable parts. Boeing firmed the 747-8 Freighter's configuration in October 2006.
The, as the current new development of Boeing's largest airliner, is notably in direct competition on long-haul routes with the Airbus A380, a full-length double-deck aircraft introduced in 2007. For airlines seeking very large passenger airliners, the two have been pitched as competitors on various occasions. Boeing states that the 747-8 is more than 10 percent lighter per seat and consumes 11 percent less fuel per passenger than the A380, translating into a trip-cost reduction of 21 percent and a seat-mile cost reduction of over 6 percent.
Production of the first 747-8 Freighter began in Everett in early August 2008. On November 14, 2008, Boeing announced a delay to the 747-8 program, citing limited availability of engineering resources within Boeing, design changes, and the recent strike by factory workers.
In February 2009, only one airline customer had ordered the 747-8I passenger model, and Boeing announced it was reassessing the 747-8 project. Chief executive Jim McNerney stated that continuation of the project was not a foregone conclusion, and that the company was assessing various options.
On July 21, 2009, Boeing released a photograph of the first cargo airplane, its fuselage and main wing assembled.
In October 2009, Boeing announced that it had delayed the first flight on the 747-8 until the first quarter of 2010 and delayed 747-8I delivery. The company took a US$1-billion charge against its earnings for this delay. In response, launch customer Cargolux stated it still intended to take delivery of the thirteen freighters it had ordered; Lufthansa confirmed its commitment to the passenger version. On November 12, 2009, Boeing announced that Cargolux's first airplane was fully assembled and entering the Everett plant's paint shop. It was to undergo flight testing prior to delivery.
On December 4, 2009, Korean Air became the second airline customer for the −8I passenger model, with an order for five airliners. On January 8, 2010, Guggenheim Aviation Partners announced the reduction of its −8F order from four to two aircraft. In March 2011, Korean Air converted options into a firm order for two additional −8 freighters. It received its first -8I in late August 2015.

Flight testing and certification

The first engine runs were completed in December 2009. Boeing announced the new model had successfully completed high-speed taxi tests on February 7, 2010. On February 8, 2010, after a 2.5-hour weather delay, the 747-8 Freighter made its maiden flight, taking off from Paine Field, Washington at 12:39 PST, and landed at 4:18 pm PST. Boeing estimated that more than 1,600 flight hours would be needed in order to certify the. The second test flight in late February, a ferry flight to Moses Lake, Washington, tested new navigation equipment. Further flight testing was to take place in Moses Lake, conducting initial airworthiness and flutter tests, before moving to Palmdale, California, for the majority of flight tests, so as to not interfere with 787 flight tests based out of Boeing Field in Seattle.
By March 11, 2010, the 747-8F had flown thirteen flights covering a total of 33 hours. On March 15, 2010, the second 747-8F first flew from Paine Field to Boeing Field, where it was briefly based before moving to Palmdale to continue flight testing with the first −8F. On March 17 the third −8F made its first flight and joined the test program.
During the flight tests, Boeing discovered a buffet problem with the aircraft, involving turbulence coming off the landing gear doors interfering with the inboard flaps. Boeing undertook an evaluation of the issue, which included devoting the third test aircraft to investigating the problem. The issue was resolved by a design change to the outboard main landing gear doors. In early April 2010, Boeing identified a possible defect in one of the upper longerons, a main component of the fuselage. According to Boeing, the parts, manufactured by subcontractor Vought Aircraft Industries, were, under certain loads, susceptible to cracking. Boeing said that the issue would not affect flight testing, but other sources stated that the problem could impact the operating envelope of the aircraft until it was fully repaired. Two other issues found during testing were oscillation in the inboard aileron and a structural flutter, which had not been resolved as of 2010. Combined, these problems slowed flight testing and used up almost all the margin in Boeing's development schedule.
On April 19, 2010, the second flight-test aircraft was moved from Moses Lake to Palmdale to conduct tests on the aircraft's engines in preparation for obtaining a type certification for the aircraft. The remaining aircraft in the test fleet were scheduled to move to Palmdale during May. It was reported on June 3, 2010, that an engine on the second 747-8F was struck by a tug during a ground move. The engine cowling was damaged, but there was no damage to the engine itself. After repairs, the aircraft moved into fuel efficiency testing. It was announced on June 14, 2010, that the 747-8 had completed the initial phase of flight-worthiness testing and that the Federal Aviation Administration had given Boeing an expanded type inspection authorization for the aircraft.
By the end of June 2010, the three 747-8Fs that composed the flight-test program had flown a total of over 500 hours and had completed hot-weather testing in Arizona. In June 2010, Boeing determined that a fourth −8F aircraft was needed to help complete flight testing. It was decided to use the second production aircraft, RC503, to conduct the non-instrumented or minimally-instrumented tests, such as HIRF and Water Spray Certifications. The aircraft, painted in delivery customer Cargolux's new livery, first flew on July 23, 2010.
On August 21, 2010, a 747-8F proved the variant's capability by taking off from the runway at Victorville, California, weighing 1,005,000 pounds. Its design maximum take-off weight is 975,000 pounds. The fifth 747-8F joined the flight-test effort with its first flight on February 3, 2011. On September 30, 2010, Boeing announced a further postponement, with the delivery of the first freighter to Cargolux planned for mid-2011.
The 747-8 passenger version took to the skies over Everett, Washington, for the first time on March 20, 2011. The second 747-8I flew on April 26, 2011. Three 747-8 Intercontinentals had taken part in flight testing by December 2011.
's first 747-8F
The 747-8F received its amended type certificate jointly from the Federal Aviation Administration and European Aviation Safety Agency on August 19, 2011. Freighter deliveries were to begin on September 19, 2011. Then on September 17, 2011, Cargolux announced that it would not accept the first two 747-8Fs scheduled for delivery on September 19 and 21, 2011, due to "unresolved contractual issues between Boeing and Cargolux" with the aircraft. It entered service in October 2011.
On October 25, 2011, a 747-8 flew to Grantley Adams International Airport in Barbados to begin flight testing in the tropical climate of the Caribbean to determine its effects on the aircraft. One test −8I was used for an evaluation by Lufthansa in early December 2011 before first delivery in early 2012. On December 14, 2011, the 747-8I received its type certificate from the FAA. The aircraft noise from the 747-8 has earned it a Quota Count of 2 for takeoff and 1 for landing at London's three major airports, a significant improvement over the.
In February 2015 the Boeing 747-8 Intercontinental was given 330-minute ETOPS approval, the first time that ETOPS-330 approval was given to a four-engined aircraft.

Into service and further development

On April 21, 2010, Boeing chief executive officer Jim McNerney announced that the company would be accelerating the production of both the Boeing 747 and 777 to support increasing customer demand.
Boeing handed over the first 747-8F to Cargolux in Everett, Washington, on October 12, 2011. The first 747-8 Intercontinental was delivered to Lufthansa on May 5, 2012, and began operating the version on flights from Frankfurt to Washington, D.C., on June 1, 2012.
In 2014, Boeing embarked on an improvement program for the 747-8 named "Project Ozark", with the goal of improved range and lower fuel burn. With all improvements implemented, the resulting aircraft would have a maximum takeoff weight of greater than. The company slowly introduced aspects of Ozark over time. An engine Performance Improvement Package resulted in a 2% lower fuel burn. Boeing also improved the tail fuel tank's function and improved the flight management software. Aircraft produced beginning in 2014 weigh less than the first 747-8 coming off the production line and burns 3.5% less fuel.
Other improvements include revised fairings next to the tail and wing-to-body-fairings. The chevrons on the trailing edge of the GEnx-2B nacelle were made thinner. Boeing hoped that these improvements, which benefit both the passenger and freighter version, would help improve sales. Boeing has since updated the incremental improvements planned for the, of which include; increasing the maximum takeoff weight to, strengthening the main landing gear, and increasing the aircraft's full-payload range to.

Sales prospects

In early 2014, the director-general of the International Air Transport Association noted that slower economic growth, following the Great Recession, had led to lower demand for air freighters. The world's air cargo fleet in 2012 was smaller than it was in 2003. However, the proportion of very large freighters in that fleet has increased, and Boeing's dominant position in large, fuel-efficient freighters has offered the company an opportunity to protect its market share and its product line despite the market weakness.
Demand has been chiefly for the 747-8F, which accounts for the majority of 747-8 aircraft ordered. The large capacity of the 747-8 is an advantage for the freighter version, not the passenger version. Moreover, the freighter has no direct competitor, as Airbus' competing A380 freighter version was canceled during development.
Airlines including Emirates and British Airways considered ordering the passenger version, but opted to purchase the Airbus A380 instead. In 2013, Arik Air converted its order for two 747-8s to two 777-300ERs. At the 2013 Paris Air Show, Korean Air agreed to order five 747-8 passenger versions, in addition to five ordered in 2009. Korean Air and Boeing finalized the new -8 order in October 2013.
The overall demand for the 747-8 turned out to be below Boeing's initial projections as well, which led to several reductions in production rate. Production was initially decreased from 2 to 1.75 aircraft per month in April 2013 and then reduced further to 1.5 aircraft per month in October 2013. On June 25, 2015, The Wall Street Journal reported that the order backlog was down to 32 and Boeing had decided to reduce production to one aircraft per month in 2016. In January 2016, Boeing confirmed that it was reducing 747-8 production to 0.5 per month beginning in September 2016, incurring a $569 million post-tax charge against its fourth-quarter 2015 profits. The chief reason given was that the recovery of the air cargo market had stalled, resulting in slowed demand for the 747 freighter.
Boeing cited the 747-8F as the main driver behind potential future 747-8 orders. To help reduce production costs in the meantime and maintain the 747 production line's viability, the company plans to integrate the 747 and 767 production lines more closely with each other. Boeing expected the cargo market to improve by mid-2019 and were planning to increase the 747's production rate back to 1/month from then on. However, in July 2016, this production rate increase was cancelled, i.e. 747 production remained at 0.5 per month. At the same time, the company announced another after tax charge of $814 million, reflecting a lower estimation of frames to be produced and revenue realised. In an SEC filing submitted at the same time, Boeing stated that if they were "unable to obtain sufficient orders and/or market, production and other risks cannot be mitigated, it is reasonably possible that we could decide to end production of the 747."
shortly after take-off
The Boeing 747-8I was intended to fill a niche between the Airbus A380 and the Boeing 777-300ER. The future for the 747-8 passenger version appears limited. Airlines bought the original 747 primarily for its range, not its capacity. The advent of long-range twin-engine jets, notably Boeing's own 777, took away the 747's range advantage. Compared to the 747-8I, the upcoming 777-9X "mini-jumbo jet" is projected to have a lower fuel cost per seat mile and greater cargo capacity, though it has a lower passenger capacity and higher list price; consequently, the 777-9X has totaled more orders than the 747-8I due to airlines placing a high value on fuel efficiency.
For operators who require high capacity on routes such as Emirates Airlines, most have preferred the Airbus A380 as it is an all-new design while the 747-8's lineage is 40 years old, although some have criticized the A380's looks and complimented the 747-8I's appearance. Analysts do not see bright prospects for VLA whose orders have slowed in the mid-2010s, since there are widebody twinjets with similar range and greater fuel efficiency, giving airlines more flexibility at a lower upfront cost.
Volga-Dnepr Airlines signed a memorandum of understanding with Boeing for the purchase of 20 more 747-8Fs at the 2015 Paris Air Show. This acquisition was finalized at the 2016 Farnborough Airshow.
On October 27, 2016, UPS Airlines announced an order for 14 747-8Fs with options for an additional 14. The 14 options were then converted to official orders on February 1, 2018. Deliveries are scheduled from 2017 through 2022. On September 7, 2017, it was reported that Turkish Airlines is in negotiations with Boeing for purchasing 8 747-8Is to strengthen its widebody fleet.
On July 2, 2020, media reports state that Boeing intends to end 747 production in 2022 after the 16 outstanding orders are built and delivered. The demand for four-engine airliners has been flat for several years with most orders going to the freighter version.

Design

The 747-8 is a development of the Boeing 747 that takes advantage of improvements in technology and aerodynamics. The two 747-8 variants feature a fuselage stretch of over the, bringing the total length to. The 747-8 is the world's longest currently operational passenger airliner, surpassing the Airbus A340-600 by. With a maximum take-off weight of, the 747-8 is the heaviest aircraft, commercial or military, manufactured in the U.S.
Compared to the, the main changes have been to the wings, which have undergone a complete design overhaul. The sweep and basic structure has been kept to contain costs, but the wing is thicker and deeper, with the aerodynamics recalculated. The pressure distribution and bending moments are different, and the new wing for the passenger version holds of jet fuel, and the cargo aircraft. The increased wing span makes the 747-8 a Category F size airplane rather than Category E size, similar to the Airbus A380. The new wing features single-slotted outboard flaps and double-slotted inboard flaps.
turbofans under each wing, in a nacelle with chevrons
Raked wingtips, similar to the ones used on the 777-200LR, 777-300ER, and 787 aircraft, are used on the new 747 variant instead of winglets used on the. These wingtip structures help reduce the wingtip vortices at the lateral edges of the wings, decreasing wake turbulence and drag, and thereby improving fuel efficiency. Another effort to reduce weight is the introduction of fly-by-wire technology for the majority of the lateral controls.
The extra fuel capacity in the redesigned wing compared to the 747-400 eliminates the need to significantly change the horizontal tail unit to accommodate auxiliary tanks, further saving costs. The 747-8's vertical tail unit is largely unchanged with a height of. The wing's trailing edge and raked tip are made of carbon-fiber composites.
The General Electric GEnx is the only engine available for the. The 747 engine variant has been adapted to provide bleed air for conventional airplane systems and feature a smaller diameter to fit on the 747 wing.

Variants

747-8 Freighter

The 747-400 and earlier versions had proven to be a very popular freighter, carrying around half of the world's air freight. To maintain this position, Boeing designed a freight variant of the, named the 747-8 Freighter or 747-8F. The company launched the freighter version on November 14, 2005. The 747-8F is the initial model to enter service. As on the 747-400F, the upper deck is shorter than passenger models; the stretch is just before and just aft of the wing. 747-8 Freighter was designed with a maximum take-off weight with a payload capability of and a range of. Four extra pallet spaces were created on the main deck, with either two extra containers and two extra pallets, or three extra pallets, on the lower deck. The 747-8F is expected to have a 16% lower ton-mile operating cost than the 747-400F and offer a slightly greater range.
Cargolux and Nippon Cargo Airlines were the first customers for the, placing orders for the freighter variant in November 2005. The firm configuration of the aircraft was finalized in October 2006. Major assembly of the aircraft began on August 8, 2008, and the aircraft first left Boeing's Everett factory on November 12, 2009. The first aircraft was delivered on October 12, 2011, to Cargolux. At its six-month service mark, Boeing announced that initial 747-8F operators had achieved a 1-percent reduction in fuel burn over projections.
In June 2015, Boeing predicted new orders for the 747-8F based on its projections of a 4.7% annual increase in air cargo demand.

747-8 Intercontinental

The passenger version, named 747-8 Intercontinental or 747-8I was formally launched on November 14, 2005, by Boeing. It can carry up to 467 passengers in a typical three-class configuration over a range of at Mach 0.855. The 747-8I can carry 51 more passengers and two more freight pallets with 26% more cargo volume than the. Despite initial plans for a shorter stretch than the freighter model, the two variants were designed with the same length, increasing passenger capacity. New engine technology and aerodynamic modifications allow longer range. Boeing has stated that compared to the, the -8I is to be 30% quieter, 16% more fuel-efficient, and have 13% lower seat-mile costs with nearly the same cost per trip. Boeing states that the 747-8I is the world's fastest commercial jet.
For the, Boeing proposed some changes to the interior layout of the aircraft. The -8I's upper deck is lengthened compared to the. Most noticeable is the curved stairway to the upper deck and a more spacious main passenger entrance. The 747-8's main cabin uses an interior similar to that of the 787. Overhead bins are curved, and the center row is designed to look as though it is attached to the curved ceiling, rather than integrated into the ceiling's curve like on the 777. The windows are also of similar size to the type used on the 777, which are 8% larger than those on the current 747-400s. The 747-8 features a new solid-state light-emitting diode lighting system, which can create mood lighting.
seating on the 747-8 Intercontinental
During the initial 747-8 marketing phase, Boeing also proposed creating a revenue-generating "SkyLoft" passenger facility in the crown space above the cabin. This facility would include "SkySuites", small individual compartments with sliding doors or curtains, featuring beds, seating, and entertainment or business equipment. A common area could also be provided. Boeing also proposed smaller, more modest "SkyBunks". Access to the crown area would be via a separate stairway at the rear of the aircraft. Passengers using the SkySuites, sold at a premium price, would sit in regular economy class seats for take-off and landing, and move to the crown area during flight. However, pricing feasibility studies found the SkyLoft concept difficult to justify. In 2007, Boeing dropped the SkyLoft concept in favor of upper-deck galley storage options, which were favored by the airlines. Outfitting the crown space for sleeping remains an option on VIP aircraft, and the first 747-8 BBJ with AeroLoft was produced in 2012.
The first order for the 747-8 Intercontinental was placed by an undisclosed VIP customer in May 2006. Lufthansa became the first airline to order the 747-8 Intercontinental on December 6, 2006. In December 2009, Korean Air announced the order of five 747-8Is. Boeing stated firm configuration for the −8 was reached in November 2007.
Major assembly of the first 747-8 Intercontinental began on May 8, 2010. Assembly of first 747-8I was completed in February 2011, before being unveiled at a rollout ceremony in Everett, Washington, on February 13, 2011. At the time, deliveries were planned to begin in late 2011.
Following gauntlet ground testing the 747-8 Intercontinental's first flight occurred on March 20, 2011 from Paine Field in Everett, Washington. The second 747-8I first flew the following month. After the flight test program the 747-8I was FAA certified on December 14, 2011. At that time, −8I deliveries were planned to begin in early 2012.
During development testing aeroelastic flutter was observed during a test that measured how the aircraft performed if its wing-to-strut join fitting fails at the same time the fuel tanks in the horizontal stabilizer were filled at over 15% of their capacity. To meet FAA regulations, Boeing reported in January 2012 that the 747-8's fuel tanks in the horizontal stabilizers would be closed off to prevent their use until the flutter condition can be resolved; this reduced range by. On December 18, 2013, Boeing announced that a series of new performance packages will allow for the reactivation of the tail fuel tanks by early 2014. Earlier 747-8s can also be retrofitted with them.
The first 747-8 Intercontinental was delivered to a VIP customer on February 28, 2012. It was to be outfitted with a VIP interior before beginning service in 2014. The first 747-8I was delivered in May and began commercial service on June 1, 2012, with Lufthansa.

U.S. Presidential aircraft

In 2007, the United States Air Force was seeking to upgrade Air Force One by replacing the VC-25A. In 2009, Boeing was reported to be exploring a 747-8 proposal, along with a Boeing 787 Dreamliner variant. In January 2015, the Air Force announced the selection of the to replace the aging VC-25A for presidential transport. U.S. Air Force Secretary Deborah Lee James said, "The Boeing 747-8 is the only aircraft manufactured in the United States when fully missionized meets the necessary capabilities established to execute the presidential support mission..." In July 2016, Boeing received a second contract for pre-engineering and manufacturing development risk-reduction to address "system specification, the environmental control system, the aircraft interior, the electrical and power system and sustainment and maintenance approaches."
On August 1, 2017, Defense One reported that to pay less for the replacement program, the U.S. Air Force purchased two undelivered 747-8I ordered by a bankrupt Russian firm ; the aircraft had been stored in the Mojave Desert to prevent corrosion. Boeing and the Air Force will retrofit these aircraft with telecommunications and advanced security equipment for the required security level needed by presidential aircraft.
On February 27, 2018, the White House announced a fixed-price contract worth $3.9 billion for the development of two new 747-8I-based VC-25B aircraft to replace the aging VC-25A aircraft.
In March 2020, modifications started at Boeing's San Antonio, Texas facility, including lower lobe doors and internal airstairs, to be delivered by December 2024.

Operators

In July 2018, there were 110 Boeing 747-8 aircraft in airline service with Lufthansa, Korean Air, Cargolux, Cathay Pacific Cargo, AirBridgeCargo Airlines, UPS Airlines, Polar Air Cargo, Air China, Silk Way West Airlines, Atlas Air, Qatar Airways Cargo, Saudia Cargo, Nippon Cargo Airlines, and CargoLogicAir. Previous operators include Global Supply Systems, a contractor of British Airways.
Boeing 747-8I aircraft in special VIP configuration for state leaders have also been ordered. The Qatar Amiri Flight received three VIP Boeing 747-8Is. The State of Kuwait received one VIP in 2012. The Royal Flight of Oman received one VIP in 2012. The Brunei Government received a VIP 747-8I in 2016. The Morocco Government received one VIP 747-8I in 2017. Worldwide Aircraft Holding operated one VIP 747-8 that was sold to the Government of Turkey. One VIP 747-8I was received by the government of Saudi Arabia, and is used by Crown Prince Mohammed bin Salman.
By early 2019, the backlog and production rates were sufficient to sustain production until late 2022.

Orders and deliveries

Boeing 747-8 orders and deliveries :


ImageSize = width:auto height:250 barincrement:50
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DateFormat= yyyy
Period = from:0 till:154
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ScaleMajor= unit:year increment:100 start:0
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color:skyblue width:28
bar:2005 from:start till:18 text:18 align:center
bar:2006 from:start till:59 text:59 align:center
bar:2007 from:start till:79 text:79 align:center
bar:2008 from:start till:81 text:81 align:center
bar:2009 from:start till:86 text:86 align:center
bar:2010 from:start till:87 text:87 align:center
bar:2011 from:9 till:92 text:92 align:center
bar:2012 from:40 till:99 text:99 align:center
bar:2013 from:64 till:116 text:116 align:center
bar:2014 from:83 till:118 text:118 align:center
bar:2015 from:101 till:120 text:120 align:center
bar:2016 from:110 till:138 text:138 align:center
bar:2017 from:124 till:136 text:136 align:center
bar:2018 from:130 till:154 text:154 align:center
bar:2019 from:137 till:154 text:154 align:center
color:green width:28–
bar:2011 from:start till:9 text:9 align:center
bar:2012 from:start till:40 text:40 align:center
bar:2013 from:start till:64 text:64 align:center
bar:2014 from:start till:83 text:83 align:center
bar:2015 from:start till:101 text:101 align:center
bar:2016 from:start till:110 text:110 align:center
bar:2017 from:start till:124 text:124 align:center
bar:2018 from:start till:130 text:130 align:center
bar:2019 from:start till:137 text:137 align:center

Data as of December 31, 2019.

Incidents

On September 11, 2012, an Airbridge Cargo 747-8F experienced a major engine malfunction that spread a significant amount of metallic debris on the runway. Like in a similar event during pre-flight taxi tests, the low-pressure turbine shaft separated and moved the low-pressure turbine backward braking on surrounding hardware. The NTSB issued urgent safety recommendations to the FAA to require ultrasonic scans for midshaft fractures before use of GEnx engines and require repetitive on-wing inspections of the engine to detect cracks before it could reach a critical length.
On July 31, 2013, an Airbridge Cargo 747-8F experienced core engine icing that caused engine malfunctions and damage to three engines near Chengdu, China, while en route to Hong Kong; the aircraft landed safely at its destination. Boeing and General Electric are working on software changes to mitigate the effects of core engine icing.

Specifications