Vuichard technique for settling with power?
Between the point you make there, and the post by dammyneckhurts, the takeaway is "catch it early and recover" to avoid it getting worse ... regardless of your recovery technique.
"Just a pilot"
Recently flew with a utility guy who also instructs. discussing VRS, he argued that most pilots will encounter it at low altitude, so conventional rcovery is problematic. Utility is frequently in that low/slow/high power, so often tried alternates. His point was get out of the VRS losing as little altitude as possible, lateral cyclic, that's it.
On my expressing doubt, we did a full VRS, conventional recovery, lots of altitude lost, perhaps a couple thousand feet.
Repeat maneuver, VRS, right cyclic and almost immediate recovery. Jaw drop. I can't say that the VRS was as fully developed the second time...
Explanation offered was that maneuvering laterally adds airspeed, but unlike reducing power and nosing down, the lateral move gets you into a normal airflow with minimal altitude loss.
On my expressing doubt, we did a full VRS, conventional recovery, lots of altitude lost, perhaps a couple thousand feet.
Repeat maneuver, VRS, right cyclic and almost immediate recovery. Jaw drop. I can't say that the VRS was as fully developed the second time...
Explanation offered was that maneuvering laterally adds airspeed, but unlike reducing power and nosing down, the lateral move gets you into a normal airflow with minimal altitude loss.
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Still yet to be convinced that this technique works in fully developed VRS any better than the conventional recovery.
How did Mr Vuichard get into VRS so often that he needed to develop a 'new' technique for recovery from it?
Lets see some empirical testing with proper criteria for entry, steady state (if that can be described as steady) VRS and then a comparison of recovery techniques.
The big danger with this technique is that it will lull pilots into a false sense of security that they can push their RoD limits at low speed and altitude believing they have a magic bullet of a recovery to save them if they screw it up.
As ever - avoidance of VRS is the real skill of a helicopter pilot, not the recovery from it.
How did Mr Vuichard get into VRS so often that he needed to develop a 'new' technique for recovery from it?
Lets see some empirical testing with proper criteria for entry, steady state (if that can be described as steady) VRS and then a comparison of recovery techniques.
The big danger with this technique is that it will lull pilots into a false sense of security that they can push their RoD limits at low speed and altitude believing they have a magic bullet of a recovery to save them if they screw it up.
As ever - avoidance of VRS is the real skill of a helicopter pilot, not the recovery from it.
suggestion (for side cyclic instead fwd.): rotational inertia
A helicopter requires much less force to turn around its longitudinal axis (a.k.a. roll) than around its vertical (yaw) or lateral (pitch) axis.
(Only in part due to the horizontal stabilizer, it's mainly a question of mean distance of affected mass from the rotational axis)
Proof: grab your household broom and
first twist it 90° along its broomstick's axis
then twist it 90° perpendicular to said axis (watch out for your ceiling lamps).
If undecided remove brush and repeat with the stick alone.
Thus if we want to redirect rotor downwash away from our VRS descend path
rolling the ac might work much faster than pitching.
A helicopter requires much less force to turn around its longitudinal axis (a.k.a. roll) than around its vertical (yaw) or lateral (pitch) axis.
(Only in part due to the horizontal stabilizer, it's mainly a question of mean distance of affected mass from the rotational axis)
Proof: grab your household broom and
first twist it 90° along its broomstick's axis
then twist it 90° perpendicular to said axis (watch out for your ceiling lamps).
If undecided remove brush and repeat with the stick alone.
Thus if we want to redirect rotor downwash away from our VRS descend path
rolling the ac might work much faster than pitching.
Last edited by Reely340; 21st Oct 2015 at 10:18.
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How effective is this technique in an ac with a fenestron TR?
From the description, the lateral thrust produced by the tail rotor is an important factor of this recovery. A fenestron has different characteristics to a TR, and also the tail of of a fenestron equipped ac will act as a blade which would(?) oppose any lateral thrust more than a traditional TR ac.
I can't see any references to using this technique in any other aircraft than a R22\R44.
Matthew
From the description, the lateral thrust produced by the tail rotor is an important factor of this recovery. A fenestron has different characteristics to a TR, and also the tail of of a fenestron equipped ac will act as a blade which would(?) oppose any lateral thrust more than a traditional TR ac.
I can't see any references to using this technique in any other aircraft than a R22\R44.
Matthew
Reely - that might be an issue in a rotor system with limited control power - eg teetering head (or close to) on R22 but anything with even a slight hinge offset will have control power to spare.
Also, any helo with a horizontal stabiliser will have natural nose-down pitch in a low speed descent.
Also, any helo with a horizontal stabiliser will have natural nose-down pitch in a low speed descent.
suggestion (for side cyclic instead fwd.): rotational inertia
A helicopter requires much less force to turn around its longitudinal axis (a.k.a. roll) than around its vertical (yaw) or lateral (pitch) axis.
(Only in part due to the horizontal stabilizer, it's mainly a question of mean distance of affected mass from the rotational axis)
Proof: grab your household broom and
first twist it 90° along its broomstick's axis
then twist it 90° perpendicular to said axis (watch out for your ceiling lamps).
If undecided remove brush and repeat with the stick alone.
Thus if we want to redirect rotor downwash away from our VRS descend path
rolling the ac might work much faster than pitching.
A helicopter requires much less force to turn around its longitudinal axis (a.k.a. roll) than around its vertical (yaw) or lateral (pitch) axis.
(Only in part due to the horizontal stabilizer, it's mainly a question of mean distance of affected mass from the rotational axis)
Proof: grab your household broom and
first twist it 90° along its broomstick's axis
then twist it 90° perpendicular to said axis (watch out for your ceiling lamps).
If undecided remove brush and repeat with the stick alone.
Thus if we want to redirect rotor downwash away from our VRS descend path
rolling the ac might work much faster than pitching.
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My first FI, a veteran of 2 wars, would frequently tell me that while training for emergency procedures were necessary, the fundamental approach was not to get the helicopter into a situation that led to you needing to implement those procedures. Obviously he was referring to thing like VRS, SWP etc but his advice has stuck with me.
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Vuichard Recovery?
I stumbled upon this article describing an alternate way of getting out of vortex ring state. The conventional recovery I've been taught is to reduce collective and establish forward airspeed. The article suggests applying left pedal, right cyclic and cruise torque to fly out with minimal altitude loss (on a CCW rotor system).
Anyone had experience utilizing this type of recovery? For some reason I find it difficult to believe that no one's considered sideward cyclic application before, but the idea seems to make sense. Link below:
Aviation Today
Thanks!
Edit: forgot to search before asking... Sorry folks!
Anyone had experience utilizing this type of recovery? For some reason I find it difficult to believe that no one's considered sideward cyclic application before, but the idea seems to make sense. Link below:
Aviation Today
Thanks!
Edit: forgot to search before asking... Sorry folks!
Last edited by Chucklehead; 15th Nov 2015 at 03:33. Reason: Didn't search
VR
You need (again) air speed, so then; why pole Left or Right to recover to only again need to pole forward to regain critical speed? 'if it ain't broke, don't fix it" The old basics of pole forward for air-speed whilst leaving power ON, is the fastest & most effective recovery from VR & regain a Safe Flight configuration
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You can't always "pole forward"...approach to elevated pad etc. Always nice to have another trick in the bag. I was taught this by Bristow back in '07, to avoid smashing into a deck offshore should you get into vortex ring state on short final. So it's hardly a new trick at all.
Last edited by TIMTS; 15th Nov 2015 at 02:58.
Hey TIMTS, yep good point, similar to making a confined mountain pad approach with no way out forward or to the side........so approach in a way to avoid the risk of VR, yep it's another technique that in a confined I'd use actually in 30 years only had it once whilst HOGEing for a film shoot when I over flew an area of massive updraft which inducing VR & not ROD but I had somewhere to pole forward too, so walked away on wobbly legs
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@VR
That is not correct (assuming you have HOGE power). All you need is to get into undisturbed air which doesn't exert a downward force on you through recirculation.
You need (again) air speed
Hey jyml; so the Vuichard stops the VR, great news & now You have now airspeed & a high rate of descent & then.......the circle begins again; VR due high rate of descent, no airspeed & power on hmmmmmmm
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Seems as if you have a misconception of the procedure somehow. The rate of descent is quickly stopped to zero, so you cannot get into another vortex.
This might also help:
Rotor & Wing Magazine :: Flying Through the Vortex
This might also help:
Rotor & Wing Magazine :: Flying Through the Vortex