Why is Dreamliner so good?

Thanks to its composite structure and revolutionary engines, the plane is more fuel-efficient and emits less CO2 – about 20 per cent less carbon on a flight from Britain to America. The 787 Dreamliner can fly about 8,000 miles without stopping, which means it can go direct to destinations other planes can't reach.



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We call it the Dreamliner effect. The airplane's unparalleled fuel efficiency and range flexibility enables carriers to profitably open new routes as well as optimize fleet and network performance. And for their passengers, an experience like none other in the air, with more comfort and less fatigue.

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The more-electric architecture of the 787 Dreamliner family eliminates the pneumatic and bleed-air system. The electric system improves efficiency by extracting only the power actually needed during each phase of flight.

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The 787 Dreamliner really has changed flying for passengers, pilots and airlines alike. Even though you may not have not noticed it, there are several small differences that all add up to making it one of the best aircraft to fly long-haul on.

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The Air Inside The cabin pressure on the 787 is higher and the humidity higher than other airplanes. Basically, passengers on board will feel like they are at an altitude of 6,000 feet, 2,000 feet lower than a standard flight.

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The Dreamliner's lightweight composite structure contributes to reduced noise levels, both inside and outside the aircraft. The use of advanced soundproofing materials and quieter engines keeps the cabin environment more tranquil for passengers.

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The carbon-fibre structure of the 787 allows the aircraft to be pressurized to a much higher level than on many other aircraft types. The lower the cabin altitude, the better you feel both during and after the flight, allowing your body to adjust to your new time zone more quickly.

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This advanced fly-by-wire system also is the key to Smoother Ride Technology – unique to the 787 family -- which senses turbulence and adjusts control surfaces automatically to dampen its effects before it reaches the passengers.

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2 Boeing 787 Dreamliner The Dreamliner's lightweight composite structure contributes to reduced noise levels, both inside and outside the aircraft. The use of advanced soundproofing materials and quieter engines keeps the cabin environment more tranquil for passengers.

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Allowing the wings to flex improves aerodynamic stability. The aircraft is more streamlined and experiences less drag. It helps provide a smoother ride for passengers and minimize turbulence. The 787 fly-by-wire technology also helps here to automatically raise or lower the wing trailing edge during the cruise.

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Yes, it's true that jetliners are certified for automatic landings — called “autolands” in pilot-speak. But in practice they are rare.

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The 787's latest problem mirrors production issues discovered over 2020 and 2021 that included improperly fitted shimming that led to paper-thin gaps between surfaces on the Dreamliner's fuselage.

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In July 2003, a public naming competition was held for the 7E7, for which out of 500,000 votes cast online the winning title was Dreamliner. Other names included eLiner, Global Cruiser, and Stratoclimber. All Nippon Airways launched the 787 program with an order for 50 aircraft in 2004.

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The Boeing 777 series is larger than the 787 and thus can carry more passengers.

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The Dreamliner is a successful aircraft, still in production with more than 1600 delivered or on order. The list price for a new Boeing 787-8 is $239 million dollars.

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The 787 can easily and more efficiently operate many of the routes the 777 was designed for. As such, many airlines have either upgraded to the 787 or are awaiting the arrival of the next-generation 777X.

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Airplanes are built very sturdily. In fact, there's a lot of countermeasures built into the engineering of an airplane much like a car has different things to make a smooth ride on a bumpy road, airplanes have so many parts to it that's built into the aircraft to be able to deal with and safely handle the turbulence.

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Incredibly safe. The 787–8, —9 & —10 are as safe as it's going to get in aviation. The issue with the 787 spacing issues — where gaps are larger than 0.005 inches — is a fatigue and cycles related issue. In normal manufacturing, their are manufacturing tolerances to account for slight differences in part builds.

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Pilots are capable of identifying areas of potential turbulence by using their knowledge of meteorology and weather patterns. One of the simplest ways we avoid turbulence is by avoiding areas with thunderstorms. Convective activity is associated with unstable air, as well as strong updrafts and downdrafts.

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But Delta flies the Boeing 777, which, while powerful and reliable, feels like any plane you've ever flown. The 787 is different, and Boeing engineered it so passengers could fly 16 hours and still feel (relatively) refreshed.

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But pilots are not robots, and they rarely become completely adjusted, says Landells. “Sensible rostering helps but if you are a long-haul pilot you know that for at least half your days off between flights you are going to feel awful.

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For a rough estimate, most jet airliners takeoff and land at , roughly, 140–150 mph. Of course we deal with knots, but for a “civilian”, 150 mph. Has the 787 Dreamliner been a success for Boeing and its customers?

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