enigma said:
... If the designer is able to ignore all outside factors, he will be able to design a wing that doesn't need winglets. The Falcon series of business jets, and the Citation X are good examples...
...I would guess that the question is asked in an attempt to determine the applicant understanding of aero structures and aerodynamics. I'd answer it like this: "Winglets do a good job of making an existing wing more efficient without increasing it's span and taking up more ramp space.
Some airplanes come from the factory with winglets because they are outgrowth designs (like the 747-400) where the original wing is being asked to be more efficient without a complete redesign; and some like the 777 come without winglets. Those that come without winglets do so because a properly designed, no-compromise, wing is more efficient without a big add-on winglet. "
regards,
enigma
You are spectacularly misinformed.
The 93.47 foot GV wing was developed
with winglets by Gulfstream scientists on the same Boeing computers that had been used for 777 development. Final development was accomplished at the NASA Langley wind tunnel where the wing was idealized for it's operating environment. It is a beautiful design unmatched by any T-category aircraft wing in the industry. The entire top surface is a single bonded piece of extruded aluminum. It is an all lifting design including the radius going into the winglet, there are no washed-in or washed-out areas and no stalled regions. The winglets provide a forward thrust vector. There are no leading edge devices required to provide a min. Vref of 110 knots or any canoes needed to hide flap gear. The wing develops even more lift than the computers had predicted necessitating the addition of vortices generators to the horizontal stabilizer.
The GV was flown to Mach 1.07 during developmental test with no buffet or adverse Mach effects. Aerodynamic center of pressure moved to 50% MAC and a shock wave formed ahead of the aileron trim tab rendering aileron trim inoperative. Another shock wave formed ahead of the elevators with the same effect, but the all moving tail remained effective for pitch control.
In my book, the true proof of a wing design is in how the aircraft performs. The G550 at maximum gross weight, 91,000 lbs., will always initially climb to at least 41,000 feet. 51,000 feet is available for up to the last 3 hours of flight. With 8 passengers, the G550 will fly 6750 nm at M.80, 6500 nm at M.83, 6000 nm at M.85 and 5,000 nm at M.87.
The Citation X is such an aeronautical blunder that with 8 passengers on board range is reduced by two-thirds at max speed. Low speed controlability has been such an issue that a series of aerodynamic patchs have been applied to improve safety.
There is no existing Falcon, nor one in development or on the drawing boards that will fly either as fast or as far as the Gulfstream.
Is it simply the absence of a winglet that, in your mind, constitutes "a properly designed, no-compromise, wing" or is performance a factor in your equation?
GV
