The inference of the article was that the flight was to demonstrate the performance of the aircraft flying on a single engine.
Which begs the question, probably known to ferry pilots faced with a long flight. I used to argue with my maintenance officer that I could extend the range and ferry distance of a CH-47, if we but just shut down one engine, fly at lower airspeed, yet extend our distance and of course time enroute. I was told I could not do it, as it was en emergency condition. I argued back that I must have been in an emergency every time I flew a single engine Huey.
With one engine out, only half the fuel is being consumed. Adjust for some lack of performance and the range should be increased.
It works for cars, it should work for aircraft......................
With one engine off, wouldn’t the other be driving both rotors? I can’t imagine that would be very fuel efficient if the engine is doing a lot more work than it was designed for.
“... I used to argue with my maintenance officer that I could extend the range and ferry distance of a CH-47, if we but just shut down one engine, fly at lower airspeed, yet extend our distance and of course time enroute. I was told I could not do it, as it was en emergency condition. I argued back that I must have been in an emergency every time I flew a single engine Huey.
With one engine out, only half the fuel is being consumed. Adjust for some lack of performance and the range should be increased.”
Doesn’t work that way for a multi-engined fixed wing when it’s one engine inop (with no engines on the centerline of the a/c) because the operating engine is creating a condition of asymetric thrust.
As I’m sure you know, best performance (and usually the best directional control, too) is always in a zero sideslip condition. When you’re all engines operating, wings level and a centered trim ball indicates zero sideslip. But when you’re OEI, the operating engine is constantly exerting a yawing force on the airframe which, left unchecked, will expose more of the a/c’s profile and increase overall drag. So when you’re OEI, because thrust is being applied asymetricaly, zero sideslip in created by trimming to 1/3 to 1/2 of the ball toward the operating engine and banking 2-3° toward the operating engine.
Although it’s the OEI best performance condition, it’s still compromised (compared to all engines operating) because it was achieved by using unbalanced aerodynamic forces to counteract the asymetric thrust. Either AEO or OEI, best range will be at the same Vy airspeed, but drag will always be higher OEI because you’re using opposing forces to null each other out (= loss of efficiency). So shutting one engine down is always going to result in a shortened range, even if you could maintain Vy.
What you suggest might work with a ‘Hook, provided you can maintain your max range airspeed when you’re OEI because OEI won’t result in asymetric thrust. It worked with Rutan’s Voyager (flew around the world on one tank of fuel) because both of its engines are on the centerline (like the Cessna O-2 “Pushme-Pullyou”) and the OEI didn’t result in any asymetric thrust. In fact, they did shut one down when in cruise to extend their range.
If you want to see how one of the best aero engineers yet to draw breath sought to deal with OEI asymetric thrust in a FW light twin (and gain some appreciation for what a compromised condition it is, not to mention how far “outside the box” he thinks), check out Burt Rutan’s “Boomerang”: http://bit.ly/2weUijc
As for the Chinook, I never got a warm fuzzy from flying in any a/c that can have a mid-air collision with itself. :-P