Airline Business Covid-19 recovery tracker.Yes, the outside shape is important to management to express their brand. This is like a brand label.ĭisgruntled Boeing engineers told me once that they spent three months optimizing the tailplane-fuselage intersection of the Boeing 767, only to have their design rejected by upper management because it looked "too much like McDonnell-Douglas". Or take the canopy shape of Glaser-Dirks gliders which stand out with their stretched-out shape which allows even the feet of the pilots to be bathed in sunlight (see picture of a DG-300 below). Which is better depends on the particular flow situation. The shorter nose will incur higher induced speeds, but a shorter boundary layer and less wetted surface. Look at the Schleicher gliders (the left picture shows an ASW-20) and compare their pointed nose to those of Schempp-Hirth, which is distinctively more blunt (the right picture shows a Discus). they are both attempts to make the planes cross-section conform to a Sears-Haack body more closely.Īirbus and Boeing are not the only airplane manufacturers who see the nose shape as something to sharpen their brand. it is also why there are strange bulges under the wing roots of the A380. Wave Drag can be reduced by attempting to match the cross sectional proportions of an aircraft as closely as possible to those of a Sears-Haack body (an aerodynamically perfect shape for supersonic flight) This is why Airbus planes have blunter nose. "Two airplanes with the same longitudinal cross-sectional area distribution have the same wave drag, independent of how the area is distributed laterally" A more recent innovation is the Transonic or 'Whitcomb' Area Rule which states that: The optimum angle of wing sweep is determined by the cruising speed of the aircraft. There are several methods of combating wave drag, the first of these is the swept wing that has been a feature of trans and supersonic aircraft since WW2. The effect of wave drag is to drastically increase the overall drag affecting the aircraft, increasing the power output required from the engines. At these speeds aircraft begin to encounter a phenomenon called 'Wave Drag' which is the incremental build-up of compressive shockwaves along the wings and fuselage as the aircraft approaches the speed of sound. The science side is related to the speed that modern airliners travel at (around 0.85mach). They tend to embrace new design techniques like CFD computer modelling to a greater extent and this leads to slightly more efficient but less aesthetically pleasing nose and wing designs. This isn't surprising as lead designer of the 747, Joe Sutter, started working for Boeing on the 707 project under the direction of the engineers that designed the early flying forts.Īirbus is a newer company with a different corporate culture. If you look at the nose of a 747 and the nose of a B-17 you'll see some distinctive similarities that follow through all the major Boeing aircraft. The corporate culture and history part is that Boeing have always built their noses that way and senior engineers have a tendency to return to designs they have used successfully before. The answer to this is, in part to do with corporate culture and part aerodynamics.
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