Aerodrome Quiz 2 Reviewer PDF

Summary

This document provides details on the design, dimensions, and characteristics of clearways, stopways, and taxiways at airports. It outlines the requirements for safety and functionality during aircraft operations.

Full Transcript

CLEARWAY
The surface below a clearway must not
A clearway, consisting of an project above a plane with an upward slope
obstruction-free rectangular plane, may be of 1.25%, the lower limit of which is a
provided at the end of a runway so that an horizontal line that:
aeroplane taking off may make a portion of
its initial climb to 35 ft. (10.7 m) above the ✔ is perpendicular to the vertical
clearway, some of which may lie beyond the plane containing the runway centerline; and
end of the runway. ✔ passes through a point located on
the runway centerline at the end of the
A clearway must start at the end of the take-off run available.
take-off run available on the runway.

DIMENSIONS OF CLEARWAY

The length of a clearway must not be
more than half the length of the take-off run
available on the runway.

The width of a clearway must not be less OBJECTS ON CLEARWAY
than:
A clearway must be free of fixed or mobile
✔ 150 m If the runway code number objects other than visual or navigational
is 3 or 4; aids for the guidance of aeroplanes or
✔ 80 m If the runway code number vehicles.
is 2 ; and
✔ 60 m If the runway code number All fixed objects permitted on the clearway
is 1. must be of low mass and frangibly mounted.

NOTE: For code 3 or 4 runways used by STOPWAY
aeroplanes having a maximum takeoff mass
less than 22,700 kg, the width of the clearway A stopway may be provided at the end of a
may be reduced to 90 m. runway on which an aeroplane may be
stopped in the case of an aborted take-off.

SLOPES ON CLEARWAY
DIMENSIONS AND SURFACE OF STRENGTH OF STOPWAY
STOPWAY
The bearing strength of a stopway must be
Any decision to provide a length of able to support at least one single pass of
stopway is an economic decision for the the critical aircraft without causing structural
aerodrome operator, but any stopway damage to the aircraft.
provided must be located so that it is
contained in, and finishes at least 60 m If the stopway does not meet the strength
before the end of the runway strip. criteria, then:

The width of a stopway must be equal to ✔ for aircraft having a maximum
the width of the associated runway. take-off mass in excess of 68,000 kg, any
unsealed stopway distance may not be
The surface of a paved stopway shall be included in the published accelerate stop
so constructed or resurfaced as to provide distance available;
surface friction characteristics at or above ✔ for aircraft having a maximum
those of the associated runway. take-off mass between 36,300 kg and
68,000 kg, a maximum length of 60 m of
The friction characteristics of an unpaved stopway may be included in the published
stopway shall not be substantially less than accelerate stop
that of the runway with which the stopway is distance available; and
associated. ✔ for aircraft having a maximum
take-off mass not exceeding 36,300 kg, a
maximum length of stopway not exceeding
SLOPES ON STOPWAY 13% of the runway length may be included
in the
Where practicable, slope and slope published accelerate stop distance
changes on a stopway must be the same as available.
those for the associated runway, except
that:
TAXIWAY
✔ the limitation of a 0.8% slope for Taxiways shall be provided to permit the
the first and last quarter of the length of a safe and expeditious surface movement of
runway aircraft.
need not be applied to the stopway; and
✔ at the junction of the stopway and
runway and along the stopway the
maximum rate of
slope change may be increased to 0.3% per
30 m.
WIDTH OF TAXIWAYS
The width of a straight section of a taxiway
must not be less than the width determined
in this table.

Changes in direction of taxiways shall be
as few and small as possible. The radii of
the curves shall be compatible with the
maneuvering capability and normal taxiing
speeds of the aeroplanes for which the
taxiway is intended. The design of the curve
TAXIWAY EDGE CLEARANCE shall be such that, when the cockpit of the
aeroplane remains over the taxiway
The design of a taxiway shall be such that, centerline markings, the clearance distance
when the cockpit of the aeroplane for which between the outer main wheels of the
the taxiway is intended remains over the aeroplane and the edge of the taxiway shall
taxiway centerline markings, the clearance not be less than those specified in the table.
distance between the outer main wheel of
the aeroplane and the edge of the taxiway To facilitate the movement of aeroplanes,
shall be not less than the distance fillets shall be provided at junctions and
determined in this table. intersections of taxiways with runways,
aprons, and other taxiways. The design of
the fillets shall ensure that the minimum
wheel clearances specified in the previous
table are maintained when aeroplanes are
maneuvering through the junctions or
intersections.

TAXIWAY CURVES

Any change in the direction of a taxiway
must be accomplished by a curve whose
minimum radius, determined by the taxiway
design speed, must not be less than that
determined in this table.
RAPID EXIT TAXIWAYS (RET) The radius of the fillet on the inside of the
curve at a rapid exit taxiway shall be
A taxiway connected to a runway at an sufficient to provide a widened taxiway
acute angle and designed to allow landing throat in order to facilitate early recognition
aircraft to turn off at higher speeds than are of the entrance and turn-off onto the
achieved on other exit taxiways thereby taxiway.
minimizing runway occupancy times.
A rapid exit taxiway shall include a straight
distance after the turn-off curve sufficient for
an exiting aircraft to come to a full stop clear
of any intersecting taxiway.

The intersection angle of a rapid exit
taxiway with the runway shall not be greater
than 45° nor less than 25° and preferably
should be 30°.

A rapid exit taxiway shall be designed with
a radius of turn-off curve of at least: TAXIWAY LONGITUDINAL SLOPE

✔ 550 m where the code number is The longitudinal slope along any part of a
3 or 4; and taxiway must not be more than:
✔ 275 m where the code number is
1 or 2; ✔ 1.5%; if the taxiway’s code letter
is C, D, E or F; and
to enable exit speeds under wet conditions ✔ 3.0%; if the taxiway’s code letter
of: is A or B.

✔ 93 km/h where the code number If slope changes cannot be avoided, the
is 3 or 4; and transition from one longitudinal slope to
✔ 65 km/h where the code number another musT be accomplished by a curved
is 1 or 2. surface, with a rate of change not more
than:

✔ 1.0% per 30 m if the taxiway’s
code letter is C, D, E or F; and

✔ 1.0% per 25 m if the taxiway’s
code letter is A or B.
 The surface of a taxiway shall not have
irregularities that cause damage to
TAXIWAY TRANSVERSE SLOPE aeroplane structures.

The transverse slope on any part of a The surface of a paved taxiway shall be so
taxiway must be adequate to prevent the constructed or resurfaced as to provide
accumulation of water and must not be less suitable surface friction characteristics.
than 1.0% and not more than:

✔ 1.5%; if the taxiway’s code letter TAXIWAY SHOULDERS
is C, D, E or F; and
✔ 2.0%; if the taxiway’s code letter If the taxiway code letter is C, D, E or F
is A or B. and it is used by jet propelled aeroplanes it
must be provided with shoulders.

TAXIWAY SIGHT DISTANCE Straight portions of a taxiway where the
code letter is C, D, E or F shall be provided
The unobstructed line of sight along the with shoulders which extend symmetrically
surface of a taxiway, from a point above the on each side of the taxiway so that the
taxiway, must not be less than the distance overall width of the taxiway and its
determined in this table. shoulders on straight portions is not less
than:

✔ 44 m if the taxiway’s code letter is
F;
✔ 38 m if the taxiway’s code letter is
E;
BEARING STRENGTH AND SURFACE OF ✔ 34 m if the taxiway’s code letter is
TAXIWAYS D; and
✔ 25 m if the taxiway’s code letter is
CAAP does not specify a standard for C.
taxiway bearing strength, however the
bearing strength must be such that it does
not cause any safety problems to the WIDTH OF TAXIWAY SHOULDERS
operating aircraft.

The strength of a taxiway shall be at least
equal to that of the runway it serves, due
consideration being given to the fact that a
taxiway will be subjected to a greater
density of traffic and, as a result of slow
moving and stationary aeroplanes, to higher
stresses than the runway it serves.
SURFACE OF TAXIWAY SHOULDERS WIDTH OF GRADED AREA OF TAXIWAY
STRIPS
The taxiway shoulders must be:
The width of the graded area of a taxiway
✔ resistant to engine blast erosion strip on each side of the centerline of the
and ingestion of the surface material by taxiway of not be less than that given by the
aeroplane engines if the taxiway is used by following tabulation:
jet-propelled aircraft ; and
✔ 10.25 m where the OMGWS is up
✔ sealed to a width of at least 3 to but not including 4.5 m;
meters on both sides of the taxiway if the ✔ 11 m where the OMGWS is 4.5 m
taxiway is intended to serve a wide body jet, up to but not including 6 m;
such as a Boeing 747, Airbus A340 or A380 ✔ 12.50 m where the OMGWS is 6
or similar aeroplane, whose engines m up to but not including 9 m;
overhang the shoulders. ✔ 18.50 m where the OMGWS is 9
m up to but not including 15 m, where the
code letter is D;
TAXIWAY STRIPS ✔ 19 m where the OMGWS is 9 m
up to but not including 15 m, where the
A taxiway, other than an aircraft stand code letter is E; or
taxilane, must be located in a taxiway strip, ✔ 22 m where the OMGWS is 9 m
the inner part of which is a graded area. up to but not including 15 m, where the
code letter is F.
The width of the taxiway strip along the
length of the taxiway on each side of the
centerline of the taxiway must not be less SLOPE OF TAXIWAY STRIP
than:
✔ 51 m if the taxiway’s code letter is The surface of the strip shall be flush at
F; or the edge of the taxiway or shoulder, if
✔ 43.5 m if the taxiway’s code letter provided, and the graded area of a taxiway
is E; or strip must not have an upward transverse
slope that is more than:
✔ 37 m if the taxiway’s code letter is
D; or ✔ 2.5% if the taxiway’s code letter is
✔ 26 m if the taxiway’s code letter is C, D, E or F; or
C; or ✔ 3% if the taxiway’s code letter is
✔ 20 m if the taxiway’s code letter is A or B;
B; or
✔ 15.5 m if the taxiway’s code letter measured relative to the transverse slope of
is A. the adjacent taxiway surface and not the
horizontal.
SLOPE OF TAXIWAY STRIP or significantly affect the regularity of
operations of aeroplanes.
The downward transverse slope of the
graded area of a taxiway strip must not
exceed 5.0%, measured relative to the
horizontal.

The transverse slopes on any portion of a
taxiway strip beyond that to be graded shall
not exceed an upward or downward slope of
5.0% as measured in the direction away
from the taxiway.

OBJECTS ON TAXIWAY STRIP

The taxiway strip must provide an area
clear of objects which may endanger taxiing
aeroplanes.

A taxiway strip must be free of fixed
objects other than visual or navigational
aids used for the guidance of aircraft or
vehicles.
Holding Bays, Runway-Holding Positions,
Visual aids located within a taxiway strip Intermediate Holding Positions, and
must be sited at such a height that they Road-Holding Positions
cannot be struck by propellers, engine pods
and wings of aircraft using the taxiway. A holding bay is defined as an area offset
from the taxiway where aircraft can be held;

TAXIWAY MINIMUM SEPARATION A runway-holding position is a designated
DISTANCES position on a taxiway entering a runway;
The separation distance between the
centerline of a taxiway and the centerline of An intermediate holding position is a
a runway, the centerline of a parallel taxiway designated position on a taxiway other than
or an object shall not be less than the at a runway holding position; and
appropriate dimension specified in table,
except that it may be permissible to operate A road-holding position is a designated
with lower separation distances at an position at which vehicles may be required
existing aerodrome if an aeronautical study to hold before crossing a runway or taxiway.
indicates that such lower separation
distances will not adversely affect the safety
 alignment of the taxiway is such that a
taxiing aircraft or vehicle can infringe an
obstacle limitation surface or interfere with
the operation of radio navigation aids.

Except for an exit taxiway, an intermediate
holding position or positions must be
established on a taxiway, if the air traffic
control requires the aeroplane to hold at that
position.

A road-holding position must be
established at an intersection of a road with
a runway.

Distance from Runway-Holding Position,
Intermediate Holding Position,
and Road-Holding Position to Runway
Centerline
Provisions of a Holding Bay,
Runway-Holding Position, Intermediate A runway-holding position, intermediate
Holding Position, and Road-Holding Position holding position, holding bay or a
road-holding position must not be located
The provision of a holding bay is the closer to the centerline of the runway than
prerogative of the aerodrome operator, the distance in the table.
however if it is provided, it must be located
such that any aeroplane on it will not
infringe the inner transitional surface.
Holding bay(s) shall be provided when the
traffic density is medium or
heavy.

A runway-holding position or positions
must be established:
APRON
✔ on a taxiway, at the intersection of
a taxiway and a runway; or An apron must be located so that
✔ at an intersection of a runway aeroplanes parked on it do not infringe an
with another runway when the former obstacle limitation surface, and in particular,
runway is part of a standard taxi-route. the transitional surface.

A runway-holding position shall be Aprons shall be provided where necessary
established on a taxiway if the location or to permit the on- and off-loading of
passengers, cargo or mail as well as the causing water to accumulate on the surface
servicing of aircraft without interfering with of the apron, but must not be more than 2%.
the aerodrome traffic.
The grading of an apron must be such that
The total apron area shall be adequate to it does not slope down towards the terminal
permit expeditious handling of the building.
aerodrome traffic at its maximum
anticipated density Where a slope down towards the terminal
building cannot be avoided, apron drainage
CLEAR DISTANCES ON AIRCRAFT must be provided to direct spilled fuel away
STANDS from buildings and other structures
adjoining the apron.
An aircraft stand shall be provided the
following minimum clearances between an Where storm-water drains can also serve
aircraft entering or exiting the stand and any to collect spilt fuel from the apron area,
adjacent building, aircraft on another stand flame traps or interceptor pits must be
and other objects. provided to isolate and prevent the spread
of fuel into other areas.

APRON BEARING STRENGTH

CAAP does not specify a standard for
apron bearing strength, however the
bearing strength must be such that it does
not cause any safety problems to the
operating aircraft.

Each part of an apron shall be capable of
withstanding the traffic of the aircraft it is
intended to serve, due consideration being
given to the fact that some portions of the
apron will be subjected to a higher density
of traffic and, as a result of slow moving or
stationary aircraft, to higher stresses than a
runway.

SLOPES ON APRONS
APRON ROAD
On an apron where a marked roadway is
The slope on an aircraft parking position
to be provided for surface vehicles, the
(aircraft stand) must not be more than 1%.
location of the apron road must be such
that, where practicable, vehicles traveling
The slope on any other part of an apron,
on it will be at least 3 m from any aircraft
including those on an aircraft stand taxilane
parked at the aircraft parking position.
must be as level as practicable, without