Southwest Captain Reduced Power Before NYC Crash Landing
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The Devil's in the Details
I've been following this for a while as I think it's an interesting case (thankfully no fatalities). Why on earth was there no call for a go-around??
There's a interesting footnote in the NSTB documentation that's just been released.
** after this point the captain received CRM training.
I am not a pilot, so apologise in advance if my comments do not make sense, but as a layman, I do not understand why a PM in this situation would take control at 400ft AGL before landing, surely this is a recipe for disaster?
There's a interesting footnote in the NSTB documentation that's just been released.
SWA had an avoidance bid system, which was mandated by the collective bargaining agreement between SWA and the Southwest Airlines Pilots Association and similar to systems operated by other airlines, that allowed first officers to designate up to three captains that they did not want to be paired with for their monthly bid sequence of trips. If the system paired a first officer with one of his avoided captains, it would remove the first officer from thattrip and give him another trip. A first officer would only enter the employee number into the system and it did not request a reason be given for avoiding a captain. This system was not actively monitored by SWA and data was accessed only with approval by the vice president of flight operations. In 2009, the captain had an average of 4.8 avoidance bids against her each month** (ranging from 4 to 6 each month). During that same year, 15.9% of the 353 OAK-based captains had one or more avoidance bids and the average of those captains was 3.1 bids per month. In the 12 months preceding the accident, the average number of avoidance bids against the captain was 6.9 (ranging from 5 to 9 each month). During that same time period, 15% of the 367 OAK-based captains had one or more avoidance bids and the average of those captains was 2.8 bids per month.
I am not a pilot, so apologise in advance if my comments do not make sense, but as a layman, I do not understand why a PM in this situation would take control at 400ft AGL before landing, surely this is a recipe for disaster?
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Reducing toward VREF? In nil wind normally you should be at slightly less than VREF at the flare since the flare itself causes speed reduction naturally.
Flying the aircraft the way Boeing recommends is not just fine in theory, but also works in practice as well.
does that mean you will inevitably balloon? I don't think so. I would have thought it was pilot technique (skill) that prevents ballooning. Excess speed over VREF is a well known factor in one cause of ballooning but prevention is a pilot skill.
My point was that if you are on the correct speed, reduce power at the correct point & rate, & then flare the aircraft properly, you will not bang it on at flap 40. And you will not land flat either.
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I am not a pilot, so apologise in advance if my comments do not make sense, but as a layman, I do not understand why a PM in this situation would take control at 400ft AGL before landing,
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I do not understand why a PM in this situation would take control at 400ft AGL before landing, surely this is a recipe for disaster?
Almost all Line and Training Captains take their responsibilities of ensuring FO's are given the maximum opportunities to not only fly to the limits of their abilities, and where safe, to also allow them to learn from their own mistakes. This means on occasions, an ideal descent path or approach may get stuffed up, but error recovery is an important learning aspect too. None of us are perfect, we all make mistakes, thankfully almost all are recoverable, and the only thing dented is a little pride, but along the way another learning point has been made that makes the individual a better/more experienced operator.
The last 1000' of an approach should be stable, but plenty of factors can upset the stability. In the last 100', which is normally covered in less than 10seconds, an on the ball Captain will be in monitoring overdrive when he is PM.
There are many things that I have seen both incompetent or inexperienced pilots do in the latter stages, that left unchecked could easily have returned the aircraft to kit form.
Clearly the closer one is to the ground, normally the more precise, direct and firm ones suggestions or orders become. Similarly static or dynamic weather and wind conditions play a factor in stability and your comfort/recovery zone.
However, there comes a point when a PF may be unable to process the suggestions or orders quick enough, and to try and do so may be counterproductive anyway and overload the PF.
By way of example, I have had to take control at 30' in the flare, at the same time as disabling the FO's inputs which were opposite to mine, on what was an otherwise excellent approach. There's just no time to have a chat about what he should be doing.
Therefore quite simply, any capable and efficient Captain, should know far he can let the FO go and still recover safely, before he takes over and lands.
The art of the equation is knowing the limiting factor of your own or the aircraft limits, to ensure as Captain, you take over before either have gone past a point of no return.
In this case, it would appear that she either let it go too far past her abilities, or she didn't display the correct skillset herself, possibly both. Either way it is a very disappointing read.
That a significant number of FO's would try to avoid flying with her speaks volumes, even if it doesn't pinpoint the why's. It's good the company gave her extra CRM training, perhaps more drastic measures were needed, but this is the luxury of hindsight.
Not sure what her Company culture was like with regard to go-arounds, but I have done many, a small percentage due to pilot error in not achieving a stabilized approach, and I have NEVER been queried by management at all.
If only either pilot had called it for what it was, and shot a second approach...
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LTCX, I think you covered perfectly what a captain should be doing on every landing when he is PM. I too had to take control at 30 ft on a B737, flaps 40, when the FO selected idle power at Vref. Adding power saved the landing gear from going through the wing or at least causing significant damage.
That was the only time I physically had to take over an airliner from the PF because talking wasn't going to save the situation. Most of the time a bit of advice is all that is required.
That was the only time I physically had to take over an airliner from the PF because talking wasn't going to save the situation. Most of the time a bit of advice is all that is required.
I second what LongTimeInCX says about Captain's competence levels with regards late interventions. It's not easy, especially in the last 100ft, to intervene either verbally or physically. Will a firmly stated warning help or possibly overload a less able pilot?
I go back to the very basic cliches: a good landing usually follows a well-flown stable approach. In my experience as PM, I can normally tell quite soon after the PF disengages the automatics how they will perform the actual landing. But this impression is not foolproof and I've been caught out when a nicely flown approach didn't lead to a timely flare and I found myself gasping 'Flare!' at the last moment.
It's tricky. When an aircraft is descending at 12ft a second until the flare, you simply don't have much time and any intervention has to be carefully managed. I've not yet had to take controls on an approach, but I can only trust my instincts as a pilot to do so if the time arises when it doesn't feel right.
On the point of the FL40 landing flare, in my experience many inexperienced pilots do not flare correctly and land too flat. This is despite a commonly held understanding that the aircraft's nose is pitched lower when using FL40 as opposed to FL30. I regularly find pilots flaring to a point with very little positive pitch and then, when they find no immediate touchdown, they relax the flare. The subsequent landing is usually firm because of a loss of airspeed. Worse, it's very flat and nose wheel touchdown is very soon after the MLG meaning that you most certainly are not flying the nose wheel onto the runway, as you should.
PS: Most of you will remember this event: http://www.flightglobal.com/news/art...d-a320-320070/
I go back to the very basic cliches: a good landing usually follows a well-flown stable approach. In my experience as PM, I can normally tell quite soon after the PF disengages the automatics how they will perform the actual landing. But this impression is not foolproof and I've been caught out when a nicely flown approach didn't lead to a timely flare and I found myself gasping 'Flare!' at the last moment.
It's tricky. When an aircraft is descending at 12ft a second until the flare, you simply don't have much time and any intervention has to be carefully managed. I've not yet had to take controls on an approach, but I can only trust my instincts as a pilot to do so if the time arises when it doesn't feel right.
On the point of the FL40 landing flare, in my experience many inexperienced pilots do not flare correctly and land too flat. This is despite a commonly held understanding that the aircraft's nose is pitched lower when using FL40 as opposed to FL30. I regularly find pilots flaring to a point with very little positive pitch and then, when they find no immediate touchdown, they relax the flare. The subsequent landing is usually firm because of a loss of airspeed. Worse, it's very flat and nose wheel touchdown is very soon after the MLG meaning that you most certainly are not flying the nose wheel onto the runway, as you should.
PS: Most of you will remember this event: http://www.flightglobal.com/news/art...d-a320-320070/
Not sure what her Company culture was like with regard to go-arounds.....
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IF memory serves, the captain had not flown to LGA more than once, and then not as captain, prior to this adventure.
IF the captain had done nothing, the copilot probably would have come up with a normal or at least passable landing.
First off , lets dismiss any gender issues.
But I have flown with people who suddenly do not have the judgment/feel/perception of the plane that they should have. I have a theory about this.
Many years ago, I mean MANY. I read an article that said the human eye simply is not in the right focus after hours of flying at high altitude for ground ops. And so too the human mind. But that the time we spend in the approach phase of flight sort of reaclimates our being/eye/judgement to the low altitude stuff that is req'd for landing.
So, if you have been staring at a TV screen for hours at high altitude, you have to make a conscious transition for your eyes/mind to work for landing.
And this captain's mind did not make the transition.
She was worried about wx enroute/on apch. And probably had her mind overloaded upon seeing the environment near LGA (it can be impressive)...its like a really big city. I mean almost as big as New York (kidding boys and girls, I haven't lost my mind).
And then there is the water. Over running a runway into/onto the ground is one thing, but over running into the water is something else.
So there was a disconnect on many levels. And if you rarely use a certain flap setting, there is a further disconnect in visual cues, rumbles, engine sounds, throttle position that adds to the unease.
I would like to know if this particular captain had flown into other, shorter airports in large urban areas, (MDW) very often?
And what is with all the laughter on the CVR? Sometimes laughter is a coverup for fear. Fear heightens senses and sometimes makes for misjudgement.
Provided power is kept on almost to touchdown (note ALMOST), having MORE flaps should make a landing easier, not harder (lower speed for one).
I flew with one captain, once, about 18 years ago who had been taking a medication for weight loss. It operated by increasing the serotonin levels in the brain...making everything happy. Well, if everything is happy, nothing is wrong and judgement is off. The captain claimed that she had stopped taking the meds days before flying...BUT I think it may have taken more time to get back to normal.
COULD the captain involved have been on some, undeclared medicine, affecting judgement?
IF the captain had done nothing, the copilot probably would have come up with a normal or at least passable landing.
First off , lets dismiss any gender issues.
But I have flown with people who suddenly do not have the judgment/feel/perception of the plane that they should have. I have a theory about this.
Many years ago, I mean MANY. I read an article that said the human eye simply is not in the right focus after hours of flying at high altitude for ground ops. And so too the human mind. But that the time we spend in the approach phase of flight sort of reaclimates our being/eye/judgement to the low altitude stuff that is req'd for landing.
So, if you have been staring at a TV screen for hours at high altitude, you have to make a conscious transition for your eyes/mind to work for landing.
And this captain's mind did not make the transition.
She was worried about wx enroute/on apch. And probably had her mind overloaded upon seeing the environment near LGA (it can be impressive)...its like a really big city. I mean almost as big as New York (kidding boys and girls, I haven't lost my mind).
And then there is the water. Over running a runway into/onto the ground is one thing, but over running into the water is something else.
So there was a disconnect on many levels. And if you rarely use a certain flap setting, there is a further disconnect in visual cues, rumbles, engine sounds, throttle position that adds to the unease.
I would like to know if this particular captain had flown into other, shorter airports in large urban areas, (MDW) very often?
And what is with all the laughter on the CVR? Sometimes laughter is a coverup for fear. Fear heightens senses and sometimes makes for misjudgement.
Provided power is kept on almost to touchdown (note ALMOST), having MORE flaps should make a landing easier, not harder (lower speed for one).
I flew with one captain, once, about 18 years ago who had been taking a medication for weight loss. It operated by increasing the serotonin levels in the brain...making everything happy. Well, if everything is happy, nothing is wrong and judgement is off. The captain claimed that she had stopped taking the meds days before flying...BUT I think it may have taken more time to get back to normal.
COULD the captain involved have been on some, undeclared medicine, affecting judgement?
"Mildly" Eccentric Stardriver
Glendalegoon. If the pilot had been taking SSRIs (selective serotonin reuptake inhibitors), then a few days off them is certainly not enough. I've been on them now for ten years, and the UKCAA will not allow their use, so no licence. I once tried going "cold turkey", and ended up having a psychotic episode. They have to be reduced SLOWLY (i.e. over a period of months), and with doctors monitoring the effect. Ironically, while on them I function fine, but rules is rules.
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Huck - you nailed it.
But the FO isn't harmless. Boeing's written report shows how an increase in power took an airplane that was on a staple approach to a situation of trending high, long aimpoint, and shallow descent path that only achieved the required descent rate for a second or two after the a/p came off. The rest of the time the descent rate, path, or angle never achieved the parameter necessary to stop, let alone reverse, the divergent trend.
If you look at the last page or two of the FDR report (Section 18?) the voice overlay shows the CA making a callout at both one and two dots high on the GS, which is also four whites on the PAPI, about 'get it down'. The FO never corrects and the CA eventually intervenes but basically removes both pilots from flying the airplane.
So the CA intervened at poor flying and rapidly made it brutal. I can't call it 'brutal flying' because there was no flying done after 46' AGL. I'm surprised the FO's survival instincts didn't kick in and neither he, or the CA, made a last second attempt to arrest the descent rate.
We look at approximately 2.5 degrees nose up all the time on final. I can't imagine looking at zero, or negative pitch attitudes, at such a low altitude when the expected input is steady or increasing pitch attitude.
But the FO isn't harmless. Boeing's written report shows how an increase in power took an airplane that was on a staple approach to a situation of trending high, long aimpoint, and shallow descent path that only achieved the required descent rate for a second or two after the a/p came off. The rest of the time the descent rate, path, or angle never achieved the parameter necessary to stop, let alone reverse, the divergent trend.
If you look at the last page or two of the FDR report (Section 18?) the voice overlay shows the CA making a callout at both one and two dots high on the GS, which is also four whites on the PAPI, about 'get it down'. The FO never corrects and the CA eventually intervenes but basically removes both pilots from flying the airplane.
So the CA intervened at poor flying and rapidly made it brutal. I can't call it 'brutal flying' because there was no flying done after 46' AGL. I'm surprised the FO's survival instincts didn't kick in and neither he, or the CA, made a last second attempt to arrest the descent rate.
We look at approximately 2.5 degrees nose up all the time on final. I can't imagine looking at zero, or negative pitch attitudes, at such a low altitude when the expected input is steady or increasing pitch attitude.
Last edited by misd-agin; 2nd Nov 2014 at 14:53. Reason: Added "after the a/p came off"
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If you look at the last page or two of the FDR report (Section 18?) the voice overlay shows the CA making a callout at both one and two dots high on the GS, which is also four whites on the PAPI, about 'get it down'. The FO never corrects and the CA eventually intervenes but basically removes both pilots from flying the airplane.
In fact at the runway threshold, even a full-UP deflection on the ILS GS would be well below the normal PAPI glide path!
We can calculate that for this runway, a full-up ILS GS deflection (3.8 degrees) at the threshold is 66 ft AGL, well below the PAPI TCH -- three reds! -- and just 3 ft above four-reds (at 63 ft).
A pilot flying the ILS right on the GS would see four-reds on the PAPI just prior to touchdown:
https://www.youtube.com/watch?v=VynLpoKXfxA
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Huck
Trash du Blanc
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Quote:
I am not a pilot, so apologise in advance if my comments do not make sense, but as a layman, I do not understand why a PM in this situation would take control at 400ft AGL before landing,
Because she was a bad pilot and an even worse captain. That's the bare bodkin.
Trash du Blanc
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Quote:
I am not a pilot, so apologise in advance if my comments do not make sense, but as a layman, I do not understand why a PM in this situation would take control at 400ft AGL before landing,
Because she was a bad pilot and an even worse captain. That's the bare bodkin.
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There are lots of issues discussed here. Firstly, if I was PIC and let it be known I was nervous about an approach due to various factors, then I AS CAPTAIN WOULD FLY IT. That's one reason I am paid a few bucks extra. 2nd. There is talk about letting an F/O go so far and then let them learn from their errors, even take over. I applaud that; but: not all line captains are top notch; not all are LTC's. They do not have the competence to make such judgements. In the modern LoCo world there are captains with 3000 trained monkey hours. Do not expect them to have the skill, judgement, awareness to make such discussions. They will be out of their depth.
Back to my first point. Sorry mate, but this one's mine.
Back to my first point. Sorry mate, but this one's mine.
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For this specific runway (LGA RWY 4), two-dots high on the GS is not four whites on the PAPI, due the GS and PAPI not being coincident, as discussed in the previous page. (And why the FO is slow to correct).
In fact at the runway threshold, even a full-UP deflection on the ILS GS would be well below the normal PAPI glide path!
We can calculate that for this runway, a full-up ILS GS deflection (3.8 degrees) at the threshold is 66 ft AGL, well below the PAPI TCH -- three reds! -- and just 3 ft above four-reds (at 63 ft).
A pilot flying the ILS right on the GS would see four-reds on the PAPI just prior to touchdown:
https://www.youtube.com/watch?v=VynLpoKXfxA
In fact at the runway threshold, even a full-UP deflection on the ILS GS would be well below the normal PAPI glide path!
We can calculate that for this runway, a full-up ILS GS deflection (3.8 degrees) at the threshold is 66 ft AGL, well below the PAPI TCH -- three reds! -- and just 3 ft above four-reds (at 63 ft).
A pilot flying the ILS right on the GS would see four-reds on the PAPI just prior to touchdown:
https://www.youtube.com/watch?v=VynLpoKXfxA
Yet the only warning on the approach plates is:
"VGSI and RNAV glidepath not coincident (VGSI Angle 3.10/TCH 76.)"
Surely, an approach where there is a gross difference between VGSI and ILS/RNP approaches should be highlighted a little more than a throw away comment? Perhaps:
"WARNING - DISPLACED VISUAL THRESHOLD -
Glidepath on ILS will be shown 4 Reds by PAPI -
2 Red 2 White on PAPI will show as well above glidepath on ILS"
This would alert the crews to brief the PM prior to TOD that a panic reaction is NOT required if there is a mismatch ILS to VGSI
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Ian W: Are you suggesting there is more than 'Pilot error' at stake here? Perhaps you are correct. I remember in the Cali B757 crash some blame was attached to the FMC supplier. Personally I did not agree with that and thought it a red herring. However, in this case, you might have a valid point; the crew were ill-informed, perhaps.
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Boeing's written analysis of the GS/PAPI deviation -
Document 2 Materials Laboratory 15 - Factual Report 13-062 (with 6 embedded images) Filing Date August 27, 2013 5 page(s) of Image (PDF or TIFF) 0 Photos
Based on the glideslope intercept guidance, at 250 feet geometric altitude (3800 feet
prior to the runway threshold), the airplane was slightly below the glideslope beam
(Figure 5). As the descent continued, the airplane passed through the beam at 145
feet geometric altitude (1650 feet prior to the runway threshold) and began to deviate
above the beam. The airplane continued to deviate above the beam and passed
through the 1-dot high profile at approximately 125 feet geometric altitude (1050 feet
prior to the runway threshold), and passed through the 2-dot high profile at 115 feet
geometric altitude (650 feet prior to the runway threshold). Based on the PAPI
intercept guidance, at 250 feet geometric altitude (3700 feet prior to the runway
threshold), the pilot’s eye was below the approach path. As the descent continued, the
pilot’s eye passed through the approach path at 130 feet geometric altitude (1000 feet
prior to the runway threshold) and began to deviate above the nominal approach
path. The airplane continued to deviate above the approach path, and the crew would
have received the slightly high (3 white/1 red) visual PAPI cue at 120 feet
geometric altitude (650 feet prior to the runway threshold) and would have
received the high (4 white/0 red) visual PAPI cue at 105 feet geometric altitude
(200 feet prior to the runway threshold). At the runway threshold, both the glideslope
deviation and PAPI visual guidance indicated that the airplane was high. The airplane
was following a 2.1-degree glide path from approximately 1400 feet prior to the
runway threshold to touchdown and was high on the approach. Touchdown occurred
at 1425 feet beyond the runway threshold on the runway centerline
Document 2 Materials Laboratory 15 - Factual Report 13-062 (with 6 embedded images) Filing Date August 27, 2013 5 page(s) of Image (PDF or TIFF) 0 Photos
Based on the glideslope intercept guidance, at 250 feet geometric altitude (3800 feet
prior to the runway threshold), the airplane was slightly below the glideslope beam
(Figure 5). As the descent continued, the airplane passed through the beam at 145
feet geometric altitude (1650 feet prior to the runway threshold) and began to deviate
above the beam. The airplane continued to deviate above the beam and passed
through the 1-dot high profile at approximately 125 feet geometric altitude (1050 feet
prior to the runway threshold), and passed through the 2-dot high profile at 115 feet
geometric altitude (650 feet prior to the runway threshold). Based on the PAPI
intercept guidance, at 250 feet geometric altitude (3700 feet prior to the runway
threshold), the pilot’s eye was below the approach path. As the descent continued, the
pilot’s eye passed through the approach path at 130 feet geometric altitude (1000 feet
prior to the runway threshold) and began to deviate above the nominal approach
path. The airplane continued to deviate above the approach path, and the crew would
have received the slightly high (3 white/1 red) visual PAPI cue at 120 feet
geometric altitude (650 feet prior to the runway threshold) and would have
received the high (4 white/0 red) visual PAPI cue at 105 feet geometric altitude
(200 feet prior to the runway threshold). At the runway threshold, both the glideslope
deviation and PAPI visual guidance indicated that the airplane was high. The airplane
was following a 2.1-degree glide path from approximately 1400 feet prior to the
runway threshold to touchdown and was high on the approach. Touchdown occurred
at 1425 feet beyond the runway threshold on the runway centerline
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There are lots of issues discussed here. Firstly, if I was PIC and let it be known I was nervous about an approach due to various factors, then I AS CAPTAIN WOULD FLY IT.
I think different captains will have different opinions about this, depending on why they're nervous about the approach.
Sometimes when you're PF on a "tricky" approach (or even a non-precision approach), you are too busy with the mechanics of flying to think about "the big picture".
So many captains would actually prefer the co-pilot to fly the approach, so they can concentrate on the safety aspects of the flight.
Other pilots would undoubtedly have a different philosophy. But sometimes being a good "commander" means knowing when to delegate aspects of the flight to others.