Airframes & Systems
T1, T2a
T1, T2a
Kartei Details
| Karten | 499 |
|---|---|
| Sprache | Deutsch |
| Kategorie | Technik |
| Stufe | Grundschule |
| Erstellt / Aktualisiert | 10.11.2014 / 01.01.2023 |
| Weblink |
https://card2brain.ch/box/airframes_systems
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| Einbinden |
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Flight Control: Was ist der Rudder Travel Limiter ?
Rudder kann bei hoher speed nicht mehr voll ausschlagen => Rudder deflection nimmt ab, wenn speed steigt
Flight Control: Wie sieht der Rudder Travel Limiter bei einer DC 9 aus?
Es wird mit einem Pitot rohr gearbeitet => Wenn der Totale Druck steigt = schneller, wird das Dreieck näher in die Figur gedrückt = kleinere Rudder deflection
Flight Control: Wie sieht das Krüger Flap und das Leading edge slat aus?
vgl. Bild => Krüger wird von unten hochgeklappt und slat ausgefahren
Flight Control: Wer fährt die Edge Flaps bzw die Flaps?
PDU = Power Drive Unit ==> Hydraulic or pneumatic ===> PDU treibt die Rotary Actuators an
Flight Control: Wenn man am Stick stosst, was passiert?
Flieger sinkt ==> Elevator zeigt nach unten
Flight Control: Was sind die fixed trim tab?
Nur am Boden verstellbar ==> sind fix
Flight Control: Wie wird verhindert, dass es kein Run away gibt?
Nach 3 Sekunden wird das Trimmrad gestoppt => Muss dann nochmals drücken, dass es weiter trimmt ==> Im Airbus nur Rudder and Pitch trim
Flight Control: Wo gibt es noch Q-Feel?
Bein den Flightcontrols, wo Hydrauliccaly betrieben werden
Flight Control: Wie ist das Artifival feel geschaltet und wie funktionert es?
Artificial feel ist immer in Parallel geschaltet => Wenn es in Serie wäre, würde es direkt auf die Spring wirken ==> 2 Feder steuern das Artifical feel
Flight Control:Wenn der air pressure on the control surfaces is felt by the pilot through the cockpit cobtrols, the controls are
REVERSIBLE => Primary flight controls in a manually operated control system = a force to the control will move the control surface and a force applied to the control surface will cause the cockpit control to move
Flight Control: Where there is no natural feeling, it is necessary to ?
Where there is no natural feeling, it is necessary to introduce feel to the system artificically . The Artificial feel unit should increase the cockpit control load in proportion to the control deflection, and in proportion to the speed
pressure and temperature relief valve?
capable of returning small amounts of fluid back into the rank and are fitted across specific services => open when system pressure reaches a present value ==> Simple ball valve which is held against its seat by a spring
Vortex generators
generate a small vortex which causes the free stream flow of high energy air to mix with and add kinetic energy to the boundary layer. The higher energy level delays the boundary layer separation and thus the stall
Acceleratet stall
occurs while the aircraft is experiencing a load factor higher than 1 => the aircraft stall at higher speed
Deep stall
dangerous for aircraft designs => vor allem T-Tail = the turbulent wake of a stalled main wing blankets the horizontal stabilizer, rendering the elevators ineffective and preventing the aircraft from recovering from the sat ==> AOA is 40-60 degrees
Loweing the flaps, increases the lift => only inbourd flaps = increase in lift near teh root => CP pressure
Cp moves for the whole wing inboard
Type of Approach: CAT 2 and 3 Planing minima: ?
CAT 1 (RVR only)
Type of Approach: CAT 1 Planing minima: ?
NPA (RVR and ceiling)
Type of Approach: NPA Planing minima: ?
NPA ( RVR + 1000m, Ceiling + 200)
NON preceision apprach aids => lowest MDH for ILS (no glide path => LLZ)
250 ft
NON preceision apprach aids => lowest MDH for VOR
300 ft
NON preceision apprach aids => lowest MDH for VOR/DME
250 ft
NON preceision apprach aids => lowest MDH for NDB
300 ft
NON preceision apprach aids => lowest MDH for VDF (QDM and QGH(QSR))
300 ft
If you have over 5700 kg or more than nine seats => Min. ?
approved passenger seating configuration is more than 200 additional?
at least one crash aye => Ab 200 seats am additional crash axes => in the galley area and not visible for passengers
When you have a bird strike, you must do what ?
you must write an report to the Authority when result in significant damage to the aircraft
Updraught/downdraught shear
Auf und Abwinde => verschieden stark
When you approach in a wind shear, you must do what ?
a= max. power available b) pitch around 15 degrees and hold that attitude c) pitch until stick speaker when you have one
Effects of a microburst on an aircraft
1. increases headwind = increase lift 2. enter the downdraft area => abrupt tailwind = reduce lift => extremely high sink rate
Vortex (Nicht die Platten auf den Wings)
a spinning often turbulent flow of air with closed streamlines => around center and forms a vortex
Wake?
the region of turbulence immediately to the rear of a solid body caused by the flow of air around the body => wirbelschleppe
Wake Turbulence
describe the effect of the rotating air masses generated behind the wing tips in preference to the term Wake vortex which describes the nature of the air masses !!!!
Tip vortices
are circular flows of air behind a wig as soon as it generates lift => behind the wings (two counter-rotating)
Where are the vortices (Vortexs) fully developed and what they do?
2 -4 wingspans behind the aeroplane and within 2 minutes 900ft below
When reaching the ground, the vortives travels?
travels laterally to the left/right at 5 kts
tip vortives at low speed?
the vortex is more intense, because more vortices are developed in the same distance with more time available
tip vortives mit flaps?
extended flaps creates several vortices at the wing trailing edge, which lowers the intensity of the tip vortices => with flaps retracted, the zone behind the aeroplane is longer
highest wake turbulence when ?
1. heavy 2. slow 3. clean configuration
basic effects of wake turbulence
1. induced roll 2. loss of height 3. possible structural stress => more difficult for aircraft with a short wing span to counter the imposed roll induced by vortex flow
Ab wann super?
Ab 560'000 kg or more
