1st-4th segment climbs

[Freighter]

How would you define 1st-4th segment climbs?

 

[Workin'Stiff]

Off of the top of my head...

1st - From liftoff to gear retraction
2nd - From gear retraction to 400' AGL
3rd - Acceleration to OEI climb speed at 400' AGL
4th - 400' AGL at OEI climb speed to 1500' AGL

 

[JAFI]

25.111 Takeoff path.

(a) The takeoff path extends from a standing start to a point in the takeoff at which the airplane is 1,500 feet above the takeoff surface, or at which the transition from the takeoff to the en route configuration is completed and VFTOis reached, whichever point is higher. In addition—

(1) The takeoff path must be based on the procedures prescribed in §25.101(f);

(2) The airplane must be accelerated on the ground to V EF,at which point the critical engine must be made inoperative and remain inoperative for the rest of the takeoff; and

(3) After reaching V EF,the airplane must be accelerated to V 2.
(b) During the acceleration to speed V 2, the nose gear may be raised off the ground at a speed not less than V R.However, landing gear retraction may not be begun until the airplane is airborne.
(c) During the takeoff path determination in accordance with paragraphs (a) and (b) of this section—
(1) The slope of the airborne part of the takeoff path must be positive at each point;
(2) The airplane must reach V 2before it is 35 feet above the takeoff surface and must continue at a speed as close as practical to, but not less than V 2, until it is 400 feet above the takeoff surface;
(3) At each point along the takeoff path, starting at the point at which the airplane reaches 400 feet above the takeoff surface, the available gradient of climb may not be less than—
(i) 1.2 percent for two-engine airplanes;
(ii) 1.5 percent for three-engine airplanes; and
(iii) 1.7 percent for four-engine airplanes.
(4) The airplane configuration may not be changed, except for gear retraction and automatic propeller feathering, and no change in power or thrust that requires action by the pilot may be made until the airplane is 400 feet above the takeoff surface; and
(5) If §25.105(a)(2) requires the takeoff path to be determined for flight in icing conditions, the airborne part of the takeoff must be based on the airplane drag:
(i) With the takeoff ice accretion defined in appendix C, from a height of 35 feet above the takeoff surface up to the point where the airplane is 400 feet above the takeoff surface; and
(ii) With the final takeoff ice accretion defined in appendix C, from the point where the airplane is 400 feet above the takeoff surface to the end of the takeoff path.
(d) The takeoff path must be determined by a continuous demonstrated takeoff or by synthesis from segments. If the takeoff path is determined by the segmental method—
(1) The segments must be clearly defined and must be related to the distinct changes in the configuration, power or thrust, and speed;
(2) The weight of the airplane, the configuration, and the power or thrust must be constant throughout each segment and must correspond to the most critical condition prevailing in the segment;
(3) The flight path must be based on the airplane's performance without ground effect; and
(4) The takeoff path data must be checked by continuous demonstrated takeoffs up to the point at which the airplane is out of ground effect and its speed is stabilized, to ensure that the path is conservative relative to the continous path.
The airplane is considered to be out of the ground effect when it reaches a height equal to its wing span.
(e) For airplanes equipped with standby power rocket engines, the takeoff path may be determined in accordance with section II of appendix E.

 

[MauleSkinner]

Off of the top of my head...

1st - From liftoff to gear retraction

Gear retracted AND 35 ft signal the end of the first segment.

2nd - From gear retraction to 400' AGL

Some airplanes (Hawkers, for example) use 1500 ft for this...I haven't looked it up, but I suspect it's a CAR4 vs Part 25 thing. The important thing is that you want to be above obstacles prior to leveling off for the third segment if you're IMC (or at least obstacles that you wouldn't clear by the time you fly miles and miles at a constant altitude during the...

3rd - Acceleration to OEI climb speed at 400' AGL

...or other appropriate altitude, as noted above.

4th - 400' AGL at OEI climb speed to 1500' AGL

or to basically the MEA if you're IMC.

Fly safe!

David

 

[JAFI]

An interesting article on the subject:

http://adg.stanford.edu/aa241/performance/climb.html

or this one:

http://www.lissys.demon.co.uk/pug/c10.html

 

[Freighter]

thanks for the postings

 

[PURPLEHAZE21]

This might Muddy the waters'...but some aircraft, when certified, have different flap retraction altitudes to conform to the 400' ft or 1500' altitudes which can "condense" the segement. Certain citations fall into this category...Good luck

 

[JAFI]

Part 25 is again a MINIMUM standard. Nothing says a manufacturer can't go above that standard. I have flown Part 25 aircraft that IF you did it all correct on single engine, you would get just 200 feet per minute climb (near sea level) as you were asking yourself "now how close was that ridge and when does this run out of water injection?...."

I know a F-15 is not certified under part 25 but I have watched them leave STL and go stright up to 10,000 feet. Now that is an impressive climb.