Hand_Grenade_Pilot Posted June 5, 2019 Report Share Posted June 5, 2019 No typo. But you are changing the rules of the game. I said "dangerous'. You said "more power" and "not a good position". I never claimed it was the best idea or even mentioned power. If you are cognizant of the situation you put yourself in and the inherent risks and limitations that imposes on you and thereby how to get yourself out of it there is nothing "dangerous" about the maneuver. Idiot pilots make it dangerous not the maneuver. In a rush to be right though everyone wants to change the rules of the game, instead of taking a deep breath and allowing there brains to wrap around a new thought. For whatever its worth, my instructor won many awards including the Art Scholl for his Helibatic Airshow Act. I have been privileged with getting to explore the edges of the envelope with him.I understand the point you are making now. And I agree; as long as the pilot maintains situational awareness in regards to their environment, power margin, power pedal travel remaining, etc it is not dangerous operating downwind. But if a pilot is ignorant of any of the variables, or becomes fixated/distracted, it can quickly turn into an unfavorable situation. 2 Quote Link to comment Share on other sites More sharing options...
iChris Posted June 5, 2019 Report Share Posted June 5, 2019 (edited) Lack of Training and Experience (LTE) He’s coming in to land, everything looks pretty good. Probably dancing on the pedals because he’s downwind; nevertheless, everything is still under control. Then he decides to go around. Instead of flying it around and coming back in, giving himself room for his landing approach, he gives up his airspeed and slows into an OGE hover and tries to pedal turn back toward his landing pad. Very surprising to me why he would do that since he stated he knew the wind conditions. It all turns bad at 0:13 in the video. The helicopter is talking to the pilot, in its own way, giving him clues to what’s about to happen, if he continues with this madness. The helicopter is saying, I don’t want to make this right pedal turn, the weathervane effect is too strong, and once the turn starts, I won't be able to stop it, unless you're super-fast with full left pedal. You can see the pilot fighting with the helicopter trying to make that right hovering pedal turn work. I bet he had almost full right pedal trying to break through the weathervane effect. Two problems with this situation. One, right pedal decreases tail rotor pitch, thereby decreasing anti-torque thrust. Two, the left side of the helicopter is perpendicular to the wind. The wind in combination with a bit of main rotor vortex is now in opposition the tail rotor's induced velocity, thereby further reducing anti-torque thrust. The Pilot has unwittingly relinquished most of his anti-torque thrust, just seconds before it's going to be needed. It wasn’t a Lack of Tail-rotor Effectiveness, he relinquished most of that, it was due to his Lack of Training and Experience He’s ignored the helicopter’s clues and warnings. So, around they go. He’s become a passenger along for the ride, out of this control. The pilot had no clue what was about to happen, if he had, he wouldn't be in this situation. In fact, he’s probably so surprised from the abrupt uncommanded right yaw, being he was already applying right pedal, he subconsciously freezes, doing little or nothing with respect to pedal input. There's no deceleration evident in that spin, he never applied full left pedal in a timely fashion. If you’re late with the pedal, its too late. Fortunately, he survived. ADM maybe, but ADM assumes you have the prerequisite knowledge to make the right decision in the first place. The basic prerequisites would’ve prevented this accident. just one simple thing, everyone should've been taught, when hovering in windy conditions, always make your first hovering turn to the left in counterclockwise (US) rotor systems and to the right in clockwise (UK) rotor systems. Had that been done in this case, he most likely would have run out of left pedal or close to it before breaking through the weathervane effect. Taking heed to that clue, moving on to Plan B, avoiding low-speed maneuvering downwind. Being extremely careful when performing out of ground effect pedal turns with winds above 10 knots. You need to fly the helicopter in the direction it needs to go, not hover it, maintaining airspeed above translational whenever possible. It’s not the helicopter, the tail-rotor never lost effectiveness Bell 206L4-FM - Satisfactory stability and control have been demonstrated in each area of the Hover Ceiling charts with winds as depicted on the Maximum Safe Relative Winds chart (Figure 4-5). AREA A (unshaded area) 3000 FEET AND BELOW IGE — winds from any direction up to 35 knots. OGE — for azimuths from 150° clockwise to 060°, winds up to 35 knots; for all other azimuths, winds up to 30 knots. FAA AC90-95 - LTE is not related to a maintenance malfunction and may occur in varying degrees in all single main rotor helicopters at airspeeds less than 30 knots. LTE is not necessarily the result of a control margin deficiency. The anti-torque control margin established during Federal Aviation Administration (FAA) testing is accurate and has been determined to adequately provide for the approved sideward/ rearward flight velocities plus counteraction of gusts of reasonable magnitudes. This testing is predicated on the assumption that the pilot is knowledgeable of the critical wind azimuth for the helicopter operated and maintains control of the helicopter by not allowing excessive yaw rates to develop. Accident Preliminary Report https://youtu.be/qxzVzTObbw8 Edited June 6, 2019 by iChris 2 Quote Link to comment Share on other sites More sharing options...
iChris Posted June 5, 2019 Report Share Posted June 5, 2019 (edited) In almost all of these so-called LTE/loss of control accidents, pilots always state they applied full left pedal. No, they didn’t. They had no clue what was about to happen. They were so surprised from the abrupt uncommanded right yaw, they subconsciously freeze, doing little or nothing with respect to pedal input. Example: Cockpit video Bell 206, Van Nuys, CA. So-called LTE accident, pilot states full left pedal was applied. The video shows otherwise. It turns bad at 0:45 in the video. At 0:47-0.48 there you see it, feet frozen, nothing with respect to full left pedal input. NTSB Aviation Accident Data Summary '>https://youtu.be/ATb0FH8LhC0 Edited June 5, 2019 by iChris 2 Quote Link to comment Share on other sites More sharing options...
Nearly Retired Posted June 6, 2019 Author Report Share Posted June 6, 2019 Thank you, Chris! Well said. Maybe people will listen to you instead of me; I seem to have little credibility when it comes to such issues. Quote Link to comment Share on other sites More sharing options...
Hobie Posted June 6, 2019 Report Share Posted June 6, 2019 I truly appreciate all of the high timers and their sage advise. Thank you guys. The main takeaway from you guys is *never* let your guard down. Quote Link to comment Share on other sites More sharing options...
r22butters Posted June 6, 2019 Report Share Posted June 6, 2019 "Lack of Training and Experience"? Gee, I make that joke and the crowd is silent, Chris makes it his thesis and here come the likes,...no, I told myself I wouldn't get emotional Still, why is it "So-called LTE"? If the pilot's feet just sat there lifelessly, isn't that how LTE happens? Anyway, my opinion is irrelevant and this stupid topic is almost as exhausting as the ones on vrs is/is not swp and skid time vs. blade time! Its The Bug, that's who I'm waiting for. This ridiculousness ain't over 'til Buggieboy makes the final decree! Quote Link to comment Share on other sites More sharing options...
Nearly Retired Posted June 6, 2019 Author Report Share Posted June 6, 2019 Butters, the tail rotor doesn't lose effectiveness if you don't use it. Quote Link to comment Share on other sites More sharing options...
r22butters Posted June 6, 2019 Report Share Posted June 6, 2019 Butters, the tail rotor doesn't lose effectiveness if you don't use it. Quote Link to comment Share on other sites More sharing options...
Wally Posted June 6, 2019 Report Share Posted June 6, 2019 Y'all keep talking about tail rotors, LTE, LTA, etc.,like there is some kinda magic involved in that specific control. There's no magic or exclusive property of tail rotors, everything you do with the machine has limits, yours or the machines'. Knowledge is the key and planning is the lock that opens the door to survival when you encounter a limit. Based on my experience in having pushed full pedals in either direction on occasion and seen inadequate response to perform the maneuver anticipated, the situation is survivable- if you prepared for it by having a survivable plan. You know- or should know that fin effectiveness depends on airspeed. You should know that torque compensation is related to the fin and power demand. I'm not going to pretend to know what happened in the video or teach avoidance. I will tell you what worked for me: high steep slow and cautious, with an abort planned and executed at "X" condition.If the safest approach is downwind, establish the path and speed high enough that you can safely fly out Test your pedal and stick for limits as you fly the approach. Know and plan for the limits to change as your tailwind component increases and I abort if I think I might be approaching a limit. Power demand is also a yaw control... I do not have to follow the nose on my approach, all I have to do is be able to follow a controlled descent path onto the point of landing- this ain't an airplane. What's most difficult is maintaining vis and clearing the area from the pilot. I prefer to land with the tail away from ground access, but that doesn't mean I must do so. If I can control access path and provide adequate clearance with the tail in any other direction, might do soIt is possible in some circumstances to yaw the aircraft in the 'wind shadow' on the pad when you couldn't point it where you wanted in flight. It us also possible that the entire approach turns to crap when you encounter the orographic turbulence as you try to enter the 'wind shadow'.Sometimes I could adapt and sometimes I couldn't and I diverted to another site. 1 Quote Link to comment Share on other sites More sharing options...
Franz123 Posted June 7, 2019 Report Share Posted June 7, 2019 I agree with you Cris Quote Link to comment Share on other sites More sharing options...
Spike Posted June 7, 2019 Report Share Posted June 7, 2019 (edited) Darn iPhone.... See below. Edited June 7, 2019 by Spike Quote Link to comment Share on other sites More sharing options...
Spike Posted June 7, 2019 Report Share Posted June 7, 2019 (edited) Thats what the investigators/lawyers will say; the pilot *knew* or *should have known* the dangers of a tail wind landing. The most basic level of training and experience includes why pilots should avoid such conditions. He made the decision to do what he did and paid the consequences. Edited June 7, 2019 by Spike 1 Quote Link to comment Share on other sites More sharing options...
r22butters Posted June 18, 2019 Report Share Posted June 18, 2019 Looks like this guy had better luck with his "LTE" moment Quote Link to comment Share on other sites More sharing options...
Aluminium Mallard Posted August 6, 2019 Report Share Posted August 6, 2019 Looks like this guy had better luck with his "LTE" moment Looks like more of a "LT" moment than a "LTE" to me! 1 Quote Link to comment Share on other sites More sharing options...
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