take off rev hold
Circumstance: date Jan 1996, TWA 767-200
I am trying to see if anyone can shed light on my memory, which could be all off as it is now very vague, and 25 years ago. It was I believe a somewhat wet or foggy evening at Logan Airport. The pilot announced he would be using a different take off technique than usual. I'm not sure but my memory is he was going to rev the engines to the maximum planned take off thrust before releasing the brakes. I can't remember what the reason was except something to do with either fog or wet runway. Could this make sense? Thanks |
It decreases the runway required (or increases the weight you can take off a given runway) since you'll reach takeoff speed quicker with full thrust the instant you start moving, rather than building up as you roll the first few hundred feet.
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Is this a common practice in wet conditions?
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Originally Posted by chris lz
(Post 10942643)
Circumstance: date Jan 1996, TWA 767-200
I am trying to see if anyone can shed light on my memory, which could be all off as it is now very vague, and 25 years ago. It was I believe a somewhat wet or foggy evening at Logan Airport. The pilot announced he would be using a different take off technique than usual. I'm not sure but my memory is he was going to rev the engines to the maximum planned take off thrust before releasing the brakes. I can't remember what the reason was except something to do with either fog or wet runway. Could this make sense? Thanks "Icing conditions" can exists at above zero celsius if visible moisture such as fog is present or there is water on the ground - you don't actually need ice/snow on the ground for it to be a consideration. In icing conditions on many types there is a requirement to have the engines spooled to a high power setting with the aircraft stationary at regular mandated minimum intervals as you taxi-out, and the last run up might have to be done on the runway if it's due, and also on some types in any event in icing conditions there's a requirement to always have a run up before brake release. Whatever the reason, icing, weight, or both telling the passengers over the PA it's being done because the aircraft is heavy is a good simple cover all. |
You'll reach v1 quicker so if you need to abort on a wet runway, you increase the available stopping distance as anti skid brakes might come into play. Same asa ABS on a car
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Originally Posted by bean
(Post 10942688)
You'll reach v1 quicker so if you need to abort on a wet runway, you increase the available stopping distance as anti skid brakes might come into play. Same asa ABS on a car
As I recall it we didn't get any "extra" credit in our takeoff calculations for stationary run up, but on one type I flew there was a caveat that if you were with 10 (?) tonnes of max and had to start the takeoff roll from a stand still (i.e. you couldn't achieve or sequencing didn't allow a rolling take-off from runway entry) then you had to stand the engines up on the brakes. |
Got the red traffic light once whilst riding around Corfu on a motorbike. What followed next was something I never expected to see. A B737 sitting to the right of the intersection spooled up its engines blowing dust, dirt and garbage downwind for blocks, the screaming engines were deafening. Eventually the brakes came off, the thing roared down the runway and the traffic lights turned green.
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I'm not familiar with the 767, but in the conditions that you describe it sounds like it could have been a static engine run-up. When the OAT is close to zero and there's fog, snow or other precipitation some engine manufacturers stipulate a requirement to perform a static engine run-up at certain intervals / prior to setting takeoff power. This procedure ensures that any ice that has accumulated on the fan blades is shed and also gives the opportunity to check that the engines are stable with acceptable levels of vibration.
Here's an example: |
To the OP
It sounds like this may have been the procedure used when Nacelle Anti Ice is used in icing conditions. On the type I’m familiar with we used the 60/30/30 rule. 60 percent N1 for 30 seconds every 30 minutes. That was on a CF6. it sounds quite dramatic so I’d always make a PA to inform the passengers in advance what was happening. edited to add: agree with Wiggy and TB above. Hadn’t seen their replies when I posted. |
ChrisLz, see what you've started🤣
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Originally Posted by chris lz
(Post 10942643)
Circumstance: date Jan 1996, TWA 767-200
I am trying to see if anyone can shed light on my memory, which could be all off as it is now very vague, and 25 years ago. It was I believe a somewhat wet or foggy evening at Logan Airport. The pilot announced he would be using a different take off technique than usual. I'm not sure but my memory is he was going to rev the engines to the maximum planned take off thrust before releasing the brakes. I can't remember what the reason was except something to do with either fog or wet runway. Could this make sense? Thanks |
Both my last type (777) and my actual type (320) have this. It’s there to check for any abnormal engine paramaters (mainly vibrations which would mean icing somewhere on the compressor) when in icing conditions.
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I found a Boeing 767 FCOM online. Here’s the answer...
Takeoff Procedure Do the normal Takeoff Procedure with the following modification: When engine anti-ice is required and the OAT is 3°C or below, the takeoff must be preceded by a static engine run-up. Use the following procedure: PF Run-up to a minimum of 60% N1 for approximately 30 seconds duration and confirm stable engine operation before the start of the takeoff roll. |
Originally Posted by Vessbot
(Post 10942652)
It decreases the runway required (or increases the weight you can take off a given runway) since you'll reach takeoff speed quicker with full thrust the instant you start moving, rather than building up as you roll the first few hundred feet.
Does it though ? Stopping on the runway, holding the brakes on while you increase power to take off thrust then releasing brakes means you’re accelerating all that mass from zero speed A careful turn on to the runway, maximizing the use of all available distance with engines spooled as your line up is completed, then immediately selected take off thrust has the advantage of ten knots or so ‘in the bag’ at the same location as your static technique I’d rather have the momentum |
Originally Posted by stilton
(Post 10943248)
Does it though ?
Stopping on the runway, holding the brakes on while you increase power to take off thrust then releasing brakes means you’re accelerating all that mass from zero speed A careful turn on to the runway, maximizing the use of all available distance with engines spooled as your line up is completed, then immediately selected take off thrust has the advantage of ten knots or so ‘in the bag’ at the same location as your static technique I’d rather have the momentum The performance data provider for my airline supplies higher performance solutions with standing takeoff specified |
Originally Posted by Vessbot
(Post 10943269)
If you're cornering like that and with the engines spooling, I'd rather not be onboard.
The performance data provider for my airline supplies higher performance solutions with standing takeoff specified Interesting ‘misinterpretation’ of what I said This has been debated before, at length and on this forum A 90 degree turn onto a runway requires 5 knots or so to complete or you’ll come to a premature stop, that’s hardly a formula 1 turn, as you align, engines can be spooled and you easily have 10 knots plus in the same spot you’re holding the brakes against power, shaking and juddering, making your passengers nervous |
Originally Posted by stilton
(Post 10943302)
Interesting ‘misinterpretation’ of what I said
This has been debated before, at length and on this forum A 90 degree turn onto a runway requires 5 knots or so to complete or you’ll come to a premature stop, that’s hardly a formula 1 turn, as you align, engines can be spooled and you easily have 10 knots plus in the same spot you’re holding the brakes against power, shaking and juddering, making your passengers nervous If performance requires a standing takeoff, that's simply a burden the passengers are gonna have to bear. Or maybe we can taxi back to the gate to deboard a few of them and reduce weight, and that would ease their nerves? Spooling the engines before you're aligned is poor technique because it puts you into an unnecessary corner where now you're limited by time to finish aligning, and if you take too long the plane will be rolling too fast before you're aligned, while if you do it too quickly you might not align at all. In mild cases it's annoying and unprofessional to give it like that to the FO, and in extreme cases worse than that (I remember once having to quickly stomp on the rudder as it was pointed off into the grass, and I realized he had given it to me like that and with the throttles mostly forward, without having briefed that. I quickly swung the nose over and continued the takeoff, but the right action would have been to abort and have a talk about it on the taxiway.) Here's an example of "rolling too fast before you're aligned:" Now you might be able to consistently ride the Goldilocks zone and always manage to get it so you finish aligning before too much speed builds up (and do it accurately), but why put yourself into that situation in the first place? People need to stop doing everything at a breakneck pace trying to scrap for every 2 seconds they can save. It lowers your blood pressure and fosters a cockpit environment conducive to thoroughness. (I'm talking more generally now than just this particular bit of flying) |
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Originally Posted by stilton
(Post 10943248)
Does it though ?
Stopping on the runway, holding the brakes on while you increase power to take off thrust then releasing brakes means you’re accelerating all that mass from zero speed A careful turn on to the runway, maximizing the use of all available distance with engines spooled as your line up is completed, then is and immediately selected take off thrust has the advantage of ten knots or so ‘in the bag’ at the same location as your static technique I’d rather have the momentum
Originally Posted by Vessbot
(Post 10943336)
Here's an example of "rolling too fast before you're aligned:"
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Have a really big think before you open up the taps to full chat prior to releasing the brakes. A few airliners over the years have managed to lift the runway surface when doing this which has then blasted into their tail surfaces. Really expensive, really embarrassing and in some parts of the world I imagine career limiting.
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I´m with Stilton et al here. Static take-offs are so yesterday. They were really a thing on the old radial piston engines...
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