Miper,
Good thoughts on the "jetifying" of the Avanti. One of the things which attracted me to the aircraft in the first place was the fact that it was a turbo-prop. A turbo-prop with jet performance but prop economics, which is a hard combination to beat.
Apart from the sheer looks of the thing, one of the Avanti's biggest selling points, to me, is the combination of economy and performance. I'm not among those who will ever become careless about economy, unlike, as you said, many corporate jet owners. I have investors and it's not, in reality, my money to waste.
Intersting point about noise. I remember, back when I was young and remarkably stupid, stepping out of the door of a perfectly serviceable Hercules at 2000 ft and, before my 'chute damn near castrated me, being relieved to get out of the noise in the aircraft. It's said that the Hercules is so quiet on the outside because it concentrates all the noise inside.
Now I don't have proof of this, but I suspect that the Herc' fuselage is resonant at or near the frequency generated as the compression wave from each prop blade strikes the fuselage. I know that the noise actually varied as the RPM varied, with quiet and loud points occuring, which would tend to confirm this assumption. The flat side of the fuselage would simply act as a sounding board for the compression waves and the lack of any real damping material inside (apart from the bodies of myself and the other would be escapees)just made the situation worse. This is probably close to a worst case as far as turbo-props are concerned.
The Avanti props, on the other hand, will produce compression waves which strike the fuselage at the narrowest point as far as elevation area is concerned, that is, just before the swept back vertical stabilizer. This won't eliminate resonance effects, but the rounded fuselage and smaller area of compression wave impact will certainly reduce it.
Another factor is the fact that the Avaint is pressurised to sea level up to 24000 feet. (Which seems a bit excessive, but I'm not going to complain). This means that the fuselage, apart from its intrinsic stiffness, will increase in stiffness as the aircraft climbs. This will reduce fuselage resonance and therefore noise. Which reminds me - I must check to see if the bagage compartment is pressurised.
One other point: Piaggio themselves don't claim that the stabilator ever provides lift, so my thoughts about trimming for three airfoil lift in the cruise were wrong. The tailplane is there to ensure that the aircraft gets the best of both worlds, lack of trim drag and continuance of control if the foreplane stalls.
There have been some remarks about the possibility of the foreplane wash impinging on the mainplane. Actually, looking at the front elevation of the aircraft it can be seen that the foreplane is actually much lower than the mainplane. The foreplane actually has anhedral which, if I remember correctly, will reduce tip vortices. The downwash from the foreplane will pass safely under the mainplane even in landing configuration, unless the aircraft is in a ludicrous attitude. The stabilator is mounted at the top of the vertical stabilizer, which means that it is well out of the way of either fore or mainplane turbulance, so generally, there is a complete lack of interference between horizontal surfaces.
I had at first thought that the swept back vertical stabilizer was a bit of Italian design! About as pointless as the equivalent on the Cessna. However, if the stabilators are mounted at the top of the vertical stabilizer the sweep back increases the distance between the stabilators and the mainplane, increasing the moment of rotation on the aircraft when the stabilator is operated. So - cool and practical - very Italian!
Your points about maintenance are well taken. It may be that Piaggio have gone too far with the smooth skin effect. It needs looking into. However, I would assume (and like all assumptions this may very well be wrong) that Piaggio have got the maintenance details right as well. For example, were I to design a heated leading edge which was sealed, I wouldn't place any fail prone elements, such as temperature sensors, actually in the leading edge itself. the skin of the fuselage may not, due to compression effects, be at the exact same temperature as the wing leading edge, but a sensor placed on the fuselage skin and connected to the heater control via a very simple processor will compensate for temperature differences and still turn the heating elements on when required. The heating elements themselves would be very robust and, obviously, powered via circuit breakers. As far as the foreplane interfering with avionics maintenance, I'm pretty sure that this is something the techs will get used to. As long as they don't dent the foreplane with their heads too frequently!
The more I investigate this aircraft, the better it seems. If you throw out your preconceptions about what an aircraft "ought" to look like, its a very clever, advanced and practical design. It's gotten to the point where I'm actually looking for faults - for example, that landing gear is going to take up fuselage space, or, two thousand miles isn't THAT far!
Regards
John
