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Aeroflot Superjet 100 fire and evacuation at UUEE

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  • #76
    3BS: aside from the lightning strike and "partial" electrical failure, what else was not in pilot control? seems like these two screwed just about everything to hell from 260' to where the aircraft stopped...

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    • #77
      Originally posted by TeeVee View Post
      3BS: aside from the lightning strike and "partial" electrical failure, what else was not in pilot control? seems like these two screwed just about everything to hell from 260' to where the aircraft stopped...
      -Faster than normal (BUT PRESCRIBED) approach speed.
      -Significantly reduced (BUT PRESCIBED) flap settings
      (I dunno Bobby, will that affect the handling?)
      -Wind shear (probably unexpected)
      -No automatic spoilers
      -No radio to get wind, altimeter setting, traffic

      There’s 5 and I’m just an ass hat parlor talker.
      Les règles de l'aviation de base découragent de longues périodes de dur tirer vers le haut.

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      • #78
        Originally posted by 3WE View Post
        -Wind shear (probably unexpected)
        [Blue fornt]Yes, after five predictive windshear warnings, It must have come as a total surprise. [/Blue font].

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        • #79
          Originally posted by Evan View Post
          [Blue fornt]Yes, after five predictive windshear warnings, It must have come as a total surprise. [/Blue font].
          Immaterial if the decision was made that we better friggen land the plane because we're not sure if it's safely airworthy or not.

          I'm sure the plane looks totally normal to you from 0 ft AGL and 0 knots on your computer keyboard. I keep hoping the view from 15 knots and 1 ft AGL on the bicycle will be of some value.

          Now how about the other four things I listed?
          Les règles de l'aviation de base découragent de longues périodes de dur tirer vers le haut.

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          • #80
            Originally posted by 3WE View Post
            Immaterial if the decision was made that we better friggen land the plane because we're not sure if it's safely airworthy or not.

            I'm sure the plane looks totally normal to you from 0 ft AGL and 0 knots on your computer keyboard. I keep hoping the view from 15 knots and 1 ft AGL on the bicycle will be of some value.

            Now how about the other four things I listed?
            -Faster than normal (BUT PRESCRIBED) approach speed.
            Airworthy.

            -Significantly reduced (BUT PRESCIBED) flap settings
            Airworthy.

            -No automatic spoilers
            Airworthy.

            -No radio to get wind, altimeter setting, traffic
            Airworthy.

            I don't see any of those things overriding a windshear alert in those conditions or any of those things preventing a go-around.
            I also see a very stable ILS initial approach that tends to make me think controllability was not a serious issue (although deviating from normal, somewhat).

            Now I'm also saying for the umteenth time that we don't know what else they were dealing with. But there is no mention of anything in the report so far to suggest an immediate landing was necessary.

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            • #81
              Originally posted by Evan View Post
              -No radio to get wind, altimeter setting, traffic
              Airworthy.
              Not so. Radio is required and probably there were several other things required that the combination of failures left inop and hence rendered the plane not airworthy.

              That doesn't mean that they should (or shouldn't) be committed to the landing despite the windshear alerts, the unstable approach in the last seconds, and the bounces.

              Airworthiness matters only before take-off. After take-off it is a matter of what is the safest course of action.

              --- Judge what is said by the merits of what is said, not by the credentials of who said it. ---
              --- Defend what you say with arguments, not by imposing your credentials ---

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              • #82
                Originally posted by Gabriel View Post
                Not so. Radio is required and probably there were several other things required that the combination of failures left inop and hence rendered the plane not airworthy.

                That doesn't mean that they should (or shouldn't) be committed to the landing despite the windshear alerts, the unstable approach in the last seconds, and the bounces.

                Airworthiness matters only before take-off. After take-off it is a matter of what is the safest course of action.
                I think we are talking about 'airworthy' as in 'it will fly' rather than 'airworthy' an is regulations. If you lose coms after V1, would you reject?

                Thus far, the DFDR has been read out and nothing has been released that would rule out a go-around following repeated windshear alerts (let alone after losing speed and glidepath stability in the final 250' while landing an overweight plane at high-speed on a wet runway with a 45° crosswind gusting to 30kts). That's just all we know at this point.

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                • #83
                  Originally posted by Evan View Post
                  I think we are talking about 'airworthy' as in 'it will fly' rather than 'airworthy' an is regulations. If you lose coms after V1, would you reject?
                  The problem is that, unlike legal airworthiness, "flyability" is not binary. A plane is either airworthy or not airworthy. But there can be intermediate states between "will fly" and "will not fly".

                  Your assertion implies that a "committed to land" condition would be justified if the plane will not fly, which is of course ridiculous. That would be committed to crash rather than to land.
                  In the other extreme, if the plane is perfectly flyable with no detriment to safety, there is no excuse not to go around with repeated windshear ahead warning, unstabilized approach in the last seconds, significant pitch oscillations before touchdown, and severe bounces after touchdown.

                  The problem is the grey area in between, where we don't feel comfortable flying the plane in this condition (which the pilots obviously didn't or they would have held and burned fuel instead of landing overweight) but the approach doesn't look nice (but still looks survivable although under normal circumstances we would go around). That requires a judgement call.

                  It is a fact that we were in the grey area. I, as you, would like to have more information so we can make our own fact-based judgement call on whether it was reasonable for the pilots to continue with the approach and landing and not going around.

                  --- Judge what is said by the merits of what is said, not by the credentials of who said it. ---
                  --- Defend what you say with arguments, not by imposing your credentials ---

                  Comment


                  • #84
                    Originally posted by Gabriel View Post
                    The problem is the grey area in between, where we don't feel comfortable flying the plane in this condition (which the pilots obviously didn't or they would have held and burned fuel instead of landing overweight) but the approach doesn't look nice (but still looks survivable although under normal circumstances we would go around). That requires a judgement call.
                    Yes, my assertion is that, if the plane is considered flyable (i.e. there is nothing overwhelmingly wrong with thrust, flight control, structural integrity, fire or fuel and there are adequate back-up systems to accomodate any critical system failure), then not initiating a go-around would be gross pilot error. Thus far, nothing indicates that the plane was not 'flyable' by that definition. Direct Law on the SSJ is designed to be a very flyable (though not optimal) condition.

                    There's an ocean of grey area here, as in, answers we don't have and things we can't determine. I'm just stating an initial conclusion based on what isn't grey, what has thus far come to light.

                    So either, some further (as yet unknown) reason for ruling out a go-around or gross pilot error.

                    Comment


                    • #85
                      Originally posted by Evan
                      Airworthy...Airworthy...Airworthy....Airworthy
                      These are decisions you made weeks after the crash at 0 knots, and 0 ft AGL, with all the time necessary to analyze the data in front of a computer that was not hit by lightning.

                      While the plane was airworthy at the moment, what guarantee did they have that 5 minutes later the whole electrical system would die and disable the pink-purple-polka-dot hydraulic system?

                      Does your's and ATL's manual you've been pouring over cover how the plane responds to a strange lightning strike, when 99.9999% of the time a lightning strike affects nothing, but this time it's affected a few things, and who knows exactly how many things (in the context of right then and there)?
                      Les règles de l'aviation de base découragent de longues périodes de dur tirer vers le haut.

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                      • #86
                        -Faster than normal (BUT PRESCRIBED) approach speed.
                        Causes bounciness- and when did they last get to practice landing in that configuration?

                        -Significantly reduced (BUT PRESCIBED) flap settings
                        Causes bounciness- and when did they last get to practice landing in that configuration?

                        -No automatic spoilers
                        Causes bounciness- and when did they last get to practice landing in that configuration?



                        Additional suggestion:

                        After the bike ride, spend about 10 hours shooting landings in a grossed out 172 using full flaps.

                        Then, try it empty with 10 gallons of avgas and no flaps.

                        Causes bounciness- and when did you last get to practice landing in that configuration?
                        Les règles de l'aviation de base découragent de longues périodes de dur tirer vers le haut.

                        Comment


                        • #87
                          Originally posted by 3WE View Post
                          Causes bounciness- and when did they last get to practice landing in that configuration?
                          I did not know that. I thought bounciness was caused by unstable final approach, excessive vertical speed, g-forces and pilot error.

                          Causes bounciness- and when did they last get to practice landing in that configuration?
                          I did not know that. I thought bounciness was caused by unstable final approach, excessive vertical speed, g-forces and pilot error.

                          Causes bounciness- and when did they last get to practice landing in that configuration?
                          I did not know that. I thought bounciness was caused by unstable final approach, excessive vertical speed, g-forces and pilot error.

                          3BS, this is about threat assessment and is a primary responsibility of the crew to protect the passengers. Wind shear is a grave threat on final and can be unrecoverable. Regardless of what other concerns you might be having with the aircraft, if it is in a flyable state (as this one appears to have been), it is hard to imagine what threat would be deemed higher than FIVE repeated wind shear alerts.

                          So that is the question in my head. Was there something else happening to the aircraft that hasn't yet been reported, or was this egregious pilot error in unnecessarily taking the aircraft into a clear and present danger for which recovery might not be possible?

                          Comment


                          • #88
                            Originally posted by Evan View Post
                            I did not know that. I thought bounciness was caused by unstable final approach, excessive vertical speed, g-forces and pilot error.
                            Side hair-splitting comment, but despite what most people believe bounces (especially significant ones) are NOT caused by high vertical speed at touchdown and high landing g-forces. The shock absorvers have critically damped spring-damper combinations precisely to avoid that.

                            Bounces are caused by either a) touching down nose gear first which causes the plane to pitch up and the AoA to increase during the touchdown sequence, or by b) the pilot pulling up too much during the flare, causing the plane to touch down with a wing load factor greater than 1 and hence with more lift than weights, so when the ground arrest the rest of the vertical speed the plane starts to accelerate up.

                            a) is typically caused by 1) excessive speed which causes the plane to approach and land at a lower AoA than normal and hence a lower deck angle, which in turn would qualify as an unstable approach, or 2) (in some planes that have a nose-down attitude during approach) by insufficient flare, or 3) by pitch oscillations before touchdown, or 4) by the pilot trying to lower the nose after touching down on the mains despite of (or not realizing that) the plane bouncing on the mains because of b.
                            b) is typically caused by 1) the pilot flaring too late and trying to compensate by pulling up header, or 2) by excessive sink rate which the pilot tries to arrest by pulling up more than normal when flaring from a normal altitude, or 3) by pitch oscillation before touchdown.

                            From the videos, it looks to me that this case was a b3) followed by an a4)

                            --- Judge what is said by the merits of what is said, not by the credentials of who said it. ---
                            --- Defend what you say with arguments, not by imposing your credentials ---

                            Comment


                            • #89
                              Originally posted by Gabriel View Post
                              ***despite what most people believe bounces (especially significant ones) are NOT caused by high vertical speed at touchdown and high landing g-forces.***
                              THANK YOU!

                              While I have a few less hours than Bobby, my bounce experiences began with very OK touchdowns.

                              Higher speed and fewer flaps very likely made the Russian plane bouncy.

                              The pilots still may be deficient in the mysterious but "effective" bounce mitigation techniques, but conversely I wonder when they last practiced a fast, reduced flap landing? Plane might just behave differently than the prior 1000 landings they had done.
                              Les règles de l'aviation de base découragent de longues périodes de dur tirer vers le haut.

                              Comment


                              • #90
                                Originally posted by Evan View Post
                                ***FIVE repeated wind shear alerts.***
                                What is a wind shear alert?

                                Last I knew, wind shear warnings happen a lot, and operations continue relatively uninterrupted. I have heard them on many clear, windy days- and even ridden a 172 through a PIREP'd one, and flown a 172 through unreported ones many times. I don't think the existence of five of them is necessarily significant.

                                I assume there's something on the landing checklist FCOM where they add in a gust-factor to the final approach speed. (By the way, hadn't they already added a bad-ass 'gust-factor'...another good reason to continue to land their questionable aeroplanie?)

                                Most wind shears are not Delta 191 70 knot-Delta-191 severe thunderstorm downbursts...

                                "Be aware that your speed may fluctuate" vs. "Get the hell out before you get blown into the ground" are not the same scenario- nor is a fully functional airplane vs. a partially fired one the same scenario.
                                Les règles de l'aviation de base découragent de longues périodes de dur tirer vers le haut.

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