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The American Federal Aviation Administration certified the engine for commercial operation on January 4, 2006. [4] The engine was ground run for the first time on an A380 on August 14, 2006, in Toulouse. [5] On August 25, 2006, the same aircraft, A380-861 test aircraft (MSN 009), made the first flight of an Engine Alliance powered A380.
The A380 is offered with the Rolls-Royce Trent 900 (A380-841/-842) or the Engine Alliance GP7000 (A380-861) turbofan engines. [153] The Trent 900 is a combination of the 3 m (118 in) fan and scaled IP compressor of the 777-200X/300X Trent 8104 technology demonstrator derived from the Boeing 777's Trent 800 , and the Airbus A340-500/600's Trent ...
The Rolls-Royce Trent 900 is a high-bypass turbofan produced by Rolls-Royce plc to power the Airbus A380, competing with the Engine Alliance GP7000.Initially proposed for the Boeing 747-500/600X in July 1996, [2] this first application was later abandoned but it was offered for the A3XX, [3] launched as the A380 in December 2000. [4]
Meanwhile, the first time that ETOPS-330 approval was given to a four-engine aircraft was in February 2015, to the Boeing 747-8 Intercontinental. [15] It is the only ETOPS-compliant aircraft allowed to run non-stop overflights over Antarctica with proper alternates, alongside the Airbus A340 and A380. [citation needed]
The aircraft has fairly lengthy runway requirements with a standard day sea level take-off distance of 1,200 ft (366 m) and a landing distance of 1,500 ft (457 m). [1] The kit included prefabricated assemblies, the engine and scale fixed pitch propeller, instruments and avionics. The manufacturer estimated the construction time from the ...
A 4-foot-long tool was left inside the engine of an Airbus A380, a safety report found. The Qantas jet flew 294 hours of flights with the tool still inside, Australian authorities said.
French investigators have called for a review of the design and maintenance of titanium alloy engine parts to ensure they guard against the risks of metal fatigue following an engine blowout on an ...
engine thrust – affected by temperature and air pressure, but reduced thrust can also be deliberately selected by the pilot; density altitude – reduced air pressure or increased temperature increases minimum take off speed; aircraft configuration such as wing flap position; runway slope and runway wind component