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Hi all, I’m a newbie here so apologies if I unintentionally break any protocols or AFF etiquette jumping in with my first post. With the advent of the 787 and A350, I notice on Flightradar a lot more commercial passenger flights reaching a final cruising altitude of 43,000 feet these days including the odd Qantas and Jetstar 787 in the final couple of hours of a long haul flight. There is even the odd A380. I am guessing the main factors driving this are the planes now having this capability, weight on the flight and favourable conditions at this flight level on some routes. My question is whether this presents any additional operational or safety considerations that pilots have to take into account for this part of the cruise? Have not found much useful information on the web so far on this topic with lots of ill informed people giving their views. Thanks in advance for any responses.
 
Hi all, I’m a newbie here so apologies if I unintentionally break any protocols or AFF etiquette jumping in with my first post. With the advent of the 787 and A350, I notice on Flightradar a lot more commercial passenger flights reaching a final cruising altitude of 43,000 feet these days including the odd Qantas and Jetstar 787 in the final couple of hours of a long haul flight. There is even the odd A380. I am guessing the main factors driving this are the planes now having this capability, weight on the flight and favourable conditions at this flight level on some routes. My question is whether this presents any additional operational or safety considerations that pilots have to take into account for this part of the cruise? Have not found much useful information on the web so far on this topic with lots of ill informed people giving their views. Thanks in advance for any responses.
and welcome to AFF
 
With the advent of the 787 and A350, I notice on Flightradar a lot more commercial passenger flights reaching a final cruising altitude of 43,000 feet these days including the odd Qantas and Jetstar 787 in the final couple of hours of a long haul flight. There is even the odd A380. I am guessing the main factors driving this are the planes now having this capability, weight on the flight and favourable conditions at this flight level on some routes.
They've been able to get up there, forever. It's just that's it's very rarely worthwhile. The basic rule of thumb that you apply for any climb toward the end of a flight is to ask whether you'll actually get back the fuel used to climb in the first place. So, you'll need that higher altitude to actually become the optimum (not just something you can reach) for at least an hour before you get to top of descent. The 747 could actually go to FL450, but I can only ever recall going there once, and we had zero passengers or cargo. It was just a positioning flight from Sydney to Cairns. And even then, it wasn't actually worthwhile, I just felt like doing it.
My question is whether this presents any additional operational or safety considerations that pilots have to take into account for this part of the cruise? Have not found much useful information on the web so far on this topic with lots of ill informed people giving their views. Thanks in advance for any responses.
As you climb, you end up with a bunch of aerodynamic and performance factors closing in on each other. The aircraft you mention will cruise at about mach .85. That mach number will be more or less the same at all altitudes, as long as you're at the optimum altitude for the weight. Within the FMC the airlines will choose the performance factors that they want to use. For instance the maximum altitude may be defined as the highest the aircraft can reach at climb power, whilst still having the capability of climbing at 400 fpm. On top of that they'll add another requirement for the potential rate of climb, at cruise power, of around 100 fpm. This will be at a specific speed (mach number).

The aircraft itself hits you will a couple of limits. Your mach target might be .85, but the maximum allowed mach might only be .88. Looking in the other direction, slowing down, you'll find that you cannot go much slower without running out of power. The reason for that is that the target speed (that .85) isn't the minimum drag speed, but is slightly faster. This is chosen so that in the cruise, the aircraft is at a 'speed stable' position on the drag curve. If it goes very slightly faster, there'll be more drag, and it will naturally slow down. And if it goes slightly slower, there will also be less drag, and it will naturally speed up again. But, if you slow to a speed less than min drag, you'll now experience increasing drag as you slow, and will need more (and more) power to get back to your target. Ultimately, you won't have enough power to even arrest the speed decay, much less regain it, at which point the only solution is to descend. Add to this the fact that the engines produce less power at altitude.

The minimum drag speed tends to remain about the same as you climb. But, it's an IAS, which means that the minimum drag mach number is getting higher as you climb. Go high enough, and min drag and max speed will actually be the same number.

The simple upshot of all of this is that if you climb high enough, you can't go any faster, you can't go any slower, and you have less power to play with. Airlines build some level of margin into things by effectively chopping the top corner off the allowed climb performance. Nevertheless, very high altitude flight is a place to be treated with caution. The actual margins for those aircraft at FL430 are probably a window of about 20 knots, from slowest to fastest. Oh, and there's not much air outside either.
 
They've been able to get up there, forever. It's just that's it's very rarely worthwhile. The basic rule of thumb that you apply for any climb toward the end of a flight is to ask whether you'll actually get back the fuel used to climb in the first place. So, you'll need that higher altitude to actually become the optimum (not just something you can reach) for at least an hour before you get to top of descent. The 747 could actually go to FL450, but I can only ever recall going there once, and we had zero passengers or cargo. It was just a positioning flight from Sydney to Cairns. And even then, it wasn't actually worthwhile, I just felt like doing it.

As you climb, you end up with a bunch of aerodynamic and performance factors closing in on each other. The aircraft you mention will cruise at about mach .85. That mach number will be more or less the same at all altitudes, as long as you're at the optimum altitude for the weight. Within the FMC the airlines will choose the performance factors that they want to use. For instance the maximum altitude may be defined as the highest the aircraft can reach at climb power, whilst still having the capability of climbing at 400 fpm. On top of that they'll add another requirement for the potential rate of climb, at cruise power, of around 100 fpm. This will be at a specific speed (mach number).

The aircraft itself hits you will a couple of limits. Your mach target might be .85, but the maximum allowed mach might only be .88. Looking in the other direction, slowing down, you'll find that you cannot go much slower without running out of power. The reason for that is that the target speed (that .85) isn't the minimum drag speed, but is slightly faster. This is chosen so that in the cruise, the aircraft is at a 'speed stable' position on the drag curve. If it goes very slightly faster, there'll be more drag, and it will naturally slow down. And if it goes slightly slower, there will also be less drag, and it will naturally speed up again. But, if you slow to a speed less than min drag, you'll now experience increasing drag as you slow, and will need more (and more) power to get back to your target. Ultimately, you won't have enough power to even arrest the speed decay, much less regain it, at which point the only solution is to descend. Add to this the fact that the engines produce less power at altitude.

The minimum drag speed tends to remain about the same as you climb. But, it's an IAS, which means that the minimum drag mach number is getting higher as you climb. Go high enough, and min drag and max speed will actually be the same number.

The simple upshot of all of this is that if you climb high enough, you can't go any faster, you can't go any slower, and you have less power to play with. Airlines build some level of margin into things by effectively chopping the top corner off the allowed climb performance. Nevertheless, very high altitude flight is a place to be treated with caution. The actual margins for those aircraft at FL430 are probably a window of about 20 knots, from slowest to fastest. Oh, and there's not much air outside either.
Thanks for this very detailed response jb747. With all the factors you mention and the squeezed margins at this kind of altitude, I guess I am surprised it makes sense and is safe to fly at these altitudes as often as airlines seem to these days (as per attached screenshot from Flightradar filtered at FL430). I am probably a passenger who asks too many questions.

IMG_0147.jpeg
 
how far away is M (critical) when the 747 was at FL450?
When does M( critical) also equal the stall speed) ?
There wasn’t a nominated Mcrit that I know of. But, the mach limit for the 747 was .92, and in the days before RVSM (which reduced the max to .90) I tried it out. Max continuous thrust slowly pushed the speed up, and it stabilised at about .915. I’m pretty certain that we already had some level of wave formation over the top of the hump.

Oh, and the reason we were going so fast…it was either that, or descent 12,000’. ATC in other words. You should have heard the bleating from Air France when he realised he’d been beaten for the altitude. Only other time I recall using .90, was going into Melbourne one night, when ATC wanted us to slow down for an A340 that was slightly in front. We couldn’t actually go as slow as he wanted, and the 340 refused to go any faster than .83. So we offered .9, and the 340 was told to slow to .75 or so. Winner.

The 1G stall speed is well below min drag. If you climbed at a speed just above the stall, you’d get nowhere near as high as you would if you climbed at the faster Min drag. Where do the two speeds meet? Above where we could reach. You’d have to be stupidly light to get up there, but that in turn reduces the stall speed. But at FL500 and mach .92 you’d be on the threshold of needing flap (which you CANNOT use at altitude because of the mach effects).
 
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Did the stall speed indicator also rise?
The lower part of the speed scale wouldn't have even been on display. Lots of red bricks at the top end though. We weren't all that high when we did this. FL370 perhaps, so the speed range would have been reasonably wide. We just happened to be at the top end of it.
 
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Pilots and ATCs: any further comments on this:
Not really. Interesting event.

Any checklist that contains a line like this is pretty scary....

At ANY TIME of the procedure, if situation becomes UNMANAGEABLE:
IMMEDIATE LANDING.................................................................................................CONSIDER
Depending on the situation, the Captain can consider an overweight landing, a tailwind landing, a
ditching, a forced landing, etc.
 
Would any of the pilots here consider landing a seaplane on "solid water" that does not appear very deep?
 
Random questions for the pilots out there, can someone explain what the term Crew Scheduling Start Up Report for October 11, 2024 and/or what FOPs Report means (perhaps that's an airline specific terminology, if so accept my apologies). The report shows a listing of planned, actual and open reserve pilots are (if someone could explain those three terms it would also be appreciated) by aircraft type. With going into too much detail, my understanding is this is the airline's view into crew reserve capacity at the start of the day was for the airline.

Another somewhat related question. If a reserve captain is given a multi-day assignment commencing the day prior (i.e. October 11, 2024), can they be considered a reserve pilot on the date? Can a captain who is scheduled to be reserve on a particular day is booked off sick, would they be considered reserve for that day? If not, what would airlines do generally in these circumstances when they encounter several reserve captains in a similar situation?
Would any of the pilots here consider landing a seaplane on "solid water" that does not appear very deep?
I'm not a pilot but to be honest it's not a big deal. Keep in mind in Canada, 18 wheeler trucks will roll over ice bridges (or as you call it "solid water") all the time, as that's how you reach communities up north in the winter:
 
Random questions for the pilots out there, can someone explain what the term Crew Scheduling Start Up Report for October 11, 2024 and/or what FOPs Report means (perhaps that's an airline specific terminology, if so accept my apologies).
Sounds like the sort of terms that would be used in the crew planning departments, but there's no reason for them to appear beyond that.
The report shows a listing of planned, actual and open reserve pilots are (if someone could explain those three terms it would also be appreciated) by aircraft type. With going into too much detail, my understanding is this is the airline's view into crew reserve capacity at the start of the day was for the airline.
The terms appear airline specific. But, yes there was data on how many people were actually at work/sick/days off/not assigned anything, but assignable, etc.
Another somewhat related question. If a reserve captain is given a multi-day assignment commencing the day prior (i.e. October 11, 2024), can they be considered a reserve pilot on the date?
What is reserve? Each airline will have its own definition. My roster would have contained duty days, X days (days off, untouchable), A days (available, but not standby), leave days, etc. If the company wanted you for something prior to the start time of a already assigned duty, it could well start the clock for that second duty and so make that unworkable. They will break up already active rosters or flights if they have to. Going to work expecting to be in one part of the world, but ending up in another, was always on the cards.
Can a captain who is scheduled to be reserve on a particular day is booked off sick, would they be considered reserve for that day? If not, what would airlines do generally in these circumstances when they encounter several reserve captains in a similar situation?
If you are sick, that's the end of the story. You're not reserve. If they run out of assignable pilots, they'll start ringing the ones on days off, breaking rosters, and even ringing people on leave. They generally don't need to go far, as there's always someone looking for some extra work/money.
 
Apologies if asked before, but how do visa's work for long haul pilots (both now and in the past when things were less electronic)? Do most countries just automatically grant aircrew a short stay visa to enter the country at the border for a day or two before flying back? Or did any countries require you to send your passport to their embassy for a visa stamp before travel? If so, that must have been a logistical headache.
 
I wouldn't even land on liquid water.
But you did train to land on steel just slightly above and surrounded by liquid water, which I expect most pilots would have put in the same category of an undesirable landing location ;)
 
Going to work expecting to be in one part of the world, but ending up in another, was always on the cards.
Did this influence how you pack for a particular rostered duty?

Did you ever get caught out, say planning to be flying to/around the pacific or tropics with anticipated warmish weather and end up going to say Europe or NY without appropriate attire?
 
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Apologies if asked before, but how do visa's work for long haul pilots (both now and in the past when things were less electronic)? Do most countries just automatically grant aircrew a short stay visa to enter the country at the border for a day or two before flying back? Or did any countries require you to send your passport to their embassy for a visa stamp before travel? If so, that must have been a logistical headache.
From memory, operating crew are exempt visa requirements from most countries, I'm sure they're are one that do though.

Australia users a Crew Travel Authority (CTA), similar to an ETA for passengers - not technically a visa ( in legal terms that is, an EVisa is different to a ETA). These are not much more than a box ticking exercise with the airline generally applying on behalf of crew. I know one US airline applied for their entire crew workforce years ago. It was brought in to enable crew to be processed in the movement systems by passport number instead of name/dob/gender - simpler to enter, fewer typos and many years later enabled them to use smartgate.

Non Australian crew who have residency, will be processed on their substantive visa. Nzers gets a bit tricky, it's quite technical but its sorry of their choice really.
 
Apologies if asked before, but how do visa's work for long haul pilots (both now and in the past when things were less electronic)? Do most countries just automatically grant aircrew a short stay visa to enter the country at the border for a day or two before flying back? Or did any countries require you to send your passport to their embassy for a visa stamp before travel? If so, that must have been a logistical headache.
The only country that was a problem was the USA. Every 5 years we had to send our passports off, and hope they'd come back before our next trip. Other places had agreements in place with the airlines, but they were totally transparent to us. We'd even pax in and out on duty, and generally an ID card or the stamped GD (basically the crew list from the inbound flight) was enough to solve any issues.
But you did train to land on steel just slightly above and surrounded by liquid water, which I expect most pilots would have put in the same category of an undesirable landing location ;)
But I was young, and perhaps stupid.
Did this influence how you pack for a particular rostered duty?

Did you ever get caught out, say planning to be flying to/around the pacific or tropics with anticipated warmish weather and end up going to say Europe or NY without appropriate attire?
I always worked on the theory that there were shops anywhere I was likely to go.
 
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