Hypoxia
Definition
Cause
Symptoms
Cure
D: not enough oxygen
C: low oxygen saturation due to high altitute
S: Euphoria, cyanosis, nausea —> hypoxia signature
C: Oxygen mask, descent
TUC
Time of usefull consciousness
the maximum time the pilot has to make rational, life-saving decisions and carry them out at a given altitude without supplemental oxygen
Hyperventilation
D: rapid breathing, not enough carbondioxid
C: Anxiety, panic, hypoxia
S: Air hunger, tingling in extremities
C: Breath in bag, sing a song, talk loudly/slowly
CMP
Carbon monoxide poisining
C: incomplete combustion —> broken heating system
S: headache, nausea, vomit
C: hospital, open window, turn off heating
Fatigue
Prevention
D: Extreme exhaution
P: good nutrition, enough rest
C: consult a physician
Ear
Eye
effects
Day: Cones —> centre
Night: Reds —> periphery
Night Blind Spot: scanning technique
Night vision illusions: Autokinesis (moving lights), false horizon (city light as horizon), confusion with ground lights, Night Myopia (problems seeing distance)
Parts of the airport
Hanger (to house)
apron/ramp
movement area
runway
taxiway
tower
vehicles
Movement area = ..?
Manovering area = ..?
apron + manovering area
Manovering area = runway + taxiway
Flight plan:
Why?
What you do with it?
5 details of a flight plan?
File it
Traffic pattern
+ approaches
Specific height/velocity
Standart tp consists of left turns
Takeoff Leg
Crosswind
Downwind
Base
Final
Approaches: Straight in (skipping TP), Direct approach (emergency)
Airfoil
symmetric(al)
non-symmetric(al) / asymmetric(al)
span = tip to root
leading edge / trailing edge
chord line
mean camber line (upper/lower camber)
AOA = chordline + relative wind (aerodynamik)
AOI = chordline + reference plane (mechanical)
stall (exceed the critical angle)
boundary layer
Lift
Bernoulli: Venturi Tube
Newton: Third Law: Action and reaction
Drag
IGE Hover
IGE:
within one rotor diameter
less power: Cushion
vortices: Smaller
surface: flat, even
limited ground effect
OGE Hover
more power
bigger vortices
Definition Dynamic Rollover
landing gear = pivot
exceeding critical angle till rollover
Dissymmetry of lift
advancing blade
retreating blade
different relative wind speeds
flapping
to prevent blowback: cyclic forward
—> gyroscopic precession
Retreating Flow Effect
VNE = never exceed speed
Transverse Flow Effect
10 - 20 knots
rolling motion
different airflow front + aft part of rotor disc
ETL
between 16-24 knots
more horizontal airflow
clear air also through tail rotor
heavily loaded helicopter
running take-off
ASI
Air speed indicator: Speed in knots
pitot tube
static port
static pressure+ ram pressure= dynamic pressure
diaphragm
face
needle
mechanical linkage
case
extend / contract
VSI
climb or descent rate
ft / min
calibrated leak
expend / contract
delay
Altimeter
barometric altitude
ft
aneroid wafers
Kollsman window
pressure set knob
AH
horizon
pitch + bank = indication
off-flage
gyro (3 gimbals)
re-erect knob
symbolic airplane
Heading indicator
Slave
heading (compass card)
gyro —> 3 gimbols rigity
friction - no flex valve
Flex valve
detects magnetic flux lines of the earth (like a compas)
Turn- and slip indicator
direction and rate of turn
standard rate turn: 3° per second
off-flag
indicates yaw
gyro (2 gimbals)
Inclinometer
gravity + centrifugal forces
ball in a tube, damping fluid
coordinated turn: ball in a doghouse
slip / skid —> kick the ball
Basic T
________________________________
ASI AH Alt
_____________ ______________
(turn indicator l HI l (VSI)
———
Loss of Tail Rotor Effectiveness
2 to 4 o’clock
Name
Reaction of the helicopter
Name: Angle of attack reduction
Reaction:
Nose continues to turn to the right after right turn
4 to 8 o’clock
Name: Weathercock stability
Weathervane into the wind
pivots around the mast
8 to 11 o’clock
Name: Tail rotor vortex ring state
Reaction of the helicopter:
Squirminess in pedals
9 to 11 o’clock
Name: Main rotor disk interference
Sudden, rapid right yaw
Zuletzt geändertvor 2 Jahren
