air transportation study introduction.pptx

Some Basic Definitions:
1. Aircraft: “Any machine which finds its support in the atmosphere due
to reactions of the air is defined as an Aircraft”.
It is a general term which includes aero-plane, helicopter, rocket, etc. It
may be lighter or heavier than air.
a) subsonic aircraft- Aircraft speed is less than the speed of sound
b) supersonic aircraft- Aircraft speed is greater than the speed of sound.
2. Aerodrome: Any defined area on land or water intended to be used for the
arrival and departure of an aircraft is called aerodrome.
3. Airport: It is an aerodrome which is principally intended for the use of
commercial services. It is provided with custom facilities. If it service any
international traffic. i.e if it is designed as an international airport. When an
airport does not serve international traffic, it is known as non-international
or domestic airport.
4. Airfield: it is an area which is used for landing and take-off of an aircraft.

5)Landing area: An airport consists of landing area and terminal area.
Landing area is used for landing & take-off of an aircraft.
1) Runway
2) Taxiway
6) Terminal area: It includes the following
a) Terminal building
b) Aircraft apron
c) Gate position
d) Hangars (Shelters)
e) Automobile parking area
7) Runway: It is paved long & narrow rectangular strip which is actually used
for landing & take-off of aero-planes.
8) Taxiway: It is a paved way over which an aero-plane may taxi while going
to & from runway and loading apron. Taxiways also connect two
neighboring runway, runway with a service and maintenance hangar.

Components of An Airport Layout
1. Runway
2. Terminal Building
3. Apron
4. Taxiway
5. Aircraft Stand
6. Hanger
7. Control Tower
8. Parking

1. Runways
A runway is the area where an aircraft lands or takes off. It can
be grass, or packed dirt, or a hard surface such as asphalt or
concrete. Runways have special markings on them to help a pilot
in the air to tell that it is a runway (and not a road) and to help
them when they are landing or taking off. Runway markings are
white.

2. Terminal Buildings
Also known as airport terminal, these buildings are the
spaces where passengers board or alight from flights.
These buildings house all the necessary facilities for
passengers to check-in their luggage, clear the
customs and have lounges to wait before
disembarking. The terminals can house cafes,
lounges and bars to serve as waiting areas for
passengers. Ticket counters, luggage check-in or
transfer, security checks and customs are the basics of
all airport terminals. Large airports can have more than
one terminal that are connected to one another
through link ways such as walkways, sky-bridges or
trams. Smaller airports usually have only one terminal
that houses all the required facilities.

3. Aprons
Aircraft aprons are the areas where the aircraft park.
Aprons are also sometimes called ramps. They vary in
size, from areas that may hold five or ten small planes, to
the very large areas that the major airports have. Unlike
the runways or taxiways, vehicles can use aprons.

4. Taxiway
A taxiway is a path on an airport
connecting runways with ramps, hangars, terminals and other
facilities. They mostly have hard surface such as asphalt or
concrete, although smaller airports sometimes
use gravel or grass.
5. Aircraft Stand
A portion of an apron designated as a taxiway and intended to
provide access to aircraft stands only.

5. Aircraft Stand
A portion of an apron designated as a taxiway and intended
to provide access to aircraft stands only.

7. Control Tower
A tower at an airfield from which air traffic is controlled by
radio and observed physically and by radar.
8. Parking
Parking is a specific area of airport at which vehicles park

 Airport Site Selection
Factors
Regional plan
Airport use
Proximity to other airports
Ground accessibility
Topography
Obstructions
Visibility
Wind
Noise Nuisance
Grading, drainage and soil characteristics
Future development
Availability of utilities from town
Economic considerations

 Aircraft Characteristics
Aircraft characteristics are of prime importance to the
airport planning and design. The following characteristics
need to be studied.
Type of Propulsion (piston engine, jet engine and ram
engine)
Size of aircraft
Minimum turning radius
Minimum circling radius
 Speed of aircraft
 Capacity of aircraft
 Aircraft weight & wheel configuration
 Jet Blast
 Fuel Spillage

Type of Propulsion:
 The size of aircraft, its circling radius, speed characteristics,
weight carrying capacity, noise nuisance etc. depend upon the
type of propulsion of the aircraft.
the basic runway length also depends on the type of propulsion
used in aircraft.
 Size of aircraft:
 The Size of aircraft involves following important dimensions,
(i) wing span (ii) height (iii) distance b/w main gears i.e. gear
tread (iv) wheel base & tail width.

Minimum Turning radius:
 In order to decide the radius of taxiway, its very
essential to study the geometry of turning
movement of aircraft.

Minimum Turning radius:
• While taking a turn, the nose gear is steered and therefore,
makes an angle with the axis of the main gear, called angle of
rotation. The point of intersection of main gear and line
through axis of steered nose gear is called point of rotation.
• The maximum angle of rotation is 50 - ‫ﹾ‬
60 ◦
• The line joining the center of rotation and the tip of the
farthest wing of the aircraft is known minimum turning
radius

 Minimum Circling Radius:
 There is certain minimum radius with which the aircraft can
take turn in space.
 Its radius depends upon the type of aircraft, air traffic
volume & weather conditions.
The radii recommended for different types of aircraft are as
follows.
 Small general aviation aircraft = 1.6 km
 Bigger aircraft = 3.2 km
 Piston engine aircraft = 13 km
 Jet engine aircraft = 80 km

 Speed of Aircrafts:
 The speed of aircraft can be defined in two ways. i.e. Cruising
speed or air speed.
Cruising speed is the speed of aircrafts with respect to the
ground, when the aircrafts is flying in air at its maximum
speed.
Air speed is the speed of aircraft relative to the wind.
 If the aircraft is flying at a speed of 500 kmph & there is a
head wind of 50 kmph, air speed will be 450 kmph.
Aircraft capacity:
 The number of passengers, baggage & fuel that can be
accommodated in the aircrafts depends upon the capacity of
aircraft.
 Weight of aircraft & wheel configuration:
 Weight of the aircraft directly influence the length of the
runway as well as the structural requirements i.e. the thickness

 Jet Blast:
This is the blast that comes out of the jet engine at the rear
of the aircraft and provides the force movement of the
aircraft.
But, if we consider it in case where the aircraft is standing
and the jet blast is coming from the rear, that is so hot and it
creates a severe condition for the things on which it will be
falling.
So the severity is going to depend on two things; one is the
• height of the tail pipe from the round
• angle of the tail pipe through which this jet blast will be
coming out at the tail end.
So if it is in the upward direction then it will go
up if it is in the downward direction it will create a pro effect
on the pavement on which the aircraft is standing and
therefore there is a need to erect the blast fences which
can control the damage to the building or damage to the

Fuel spillage:
 At loading aprons & shelter it is difficult to avoid
spillage completely, but effort should be made to bring it
within minimum limit.
 The flexible pavements are seriously affected by the fuel
spillage.

 Air Transport Agencies
 International Civil Aviation Organization (ICAO)
 Federal Aviation Administration (FAA)
 Airport Authority of India.
 Air India International Corporation.
 Indian Airlines Corporation.
 Private Air Transport Agencies, Jet Airways, Sahara
Airways.

 Airport Classification
1) Based on Take-off & Landing
Conventional Take off & Landing Airport
 Runway length > 1500 m
Reduced Take-Off & Landing Airport
 Runway length 1000 to 1500 m
Short Take-Off & Landing Airport
 Runway length 500 to 1000 m
Vertical Take-Off & Landing Airport
 Operational area 25 to 50 sq.m
2) ICAO Classification: Based on Geometric Design
 The classification has been done by using code letters viz.
A to E in which the A type of airport has the longest runway
length and E type has the shortest length.

ICAO Classification: Based on Length of Runway.
FAA Classification: Based on Aircraft Approach Speed.
Code No Basic Runway Length (L) in meter
1 <800
2 800 m up to but not including 1200 m
3 1200 m up to but not including 1800 m
4 1800 m & over
Approach Category Approach Speed Knots
( 1 knots = 1.9 km/hr)
A < 91
B 91 - 120
C 121 - 140
D 141 - 165
E 165 or greater

Based on Function.
 Civil Aviation: International & Domestic
 Military Aviation
 Classification Based on Pavement Strength
Code Single Isolated Wheel
Load in kg
Wheel Pressure kg/m2
1 45360 8.4
2 34020 7.0
3 27220 7.0
4 20410 7.0
5 13610 6.0
6 6800 4.90
7 2270 2.90

Runway Orientation…
 The orientation of a runway depends upon the direction of
wind & to some extent on the area available for development.
Runway are always orientated in the direction of prevailing
wind.
Determination of a runway orientation is a critical task in the
planning & design of an airport.
The direction of the runway controls the layout of the other
airport facilities, such as passengers terminals, taxiways/apron
configurations, circulation roads & parking facilities.

Cross wind component
 It is not possible to obtain the direction of wind along the direction of the
centre line of runway throughout the year, On some day of the year or hour
of the day, the wind may blow making certain angle with the centre line of
runway.
If the direction of wind is at an angle to the runway will be Vcos α & that
normal to the runway centre line will be Vsin α where V is the wind velocity.
The normal component of the wind is called cross wind components
The maximum permissible cross wind component
It depends upon the size of the aircraft and the wind configuration.
FAA - 15 kmph for small aircrafts
- 25 kmph for mixed traffic
ICAO – 35 kmph for big aircrafts

Wind Coverage: Wind coverage or usability factor of
airport is the percentage of time in a year during which the
cross wind component remains within the limits as specified
above is wind coverage.
 Calm Period: This is the period for which the wind
intensity remains below 6.4 km/hr.
This is common to all direction
& hence can be added to
wind coverage for that direction.
Calm period =
100 – Total wind coverage

 Wind Rose…
 The wind data i.e direction, duration & intensity are
graphically represented by a diagram called wind rose
diagram.
Application of Wind Rose diagram is for finding the
orientation of the runway to achieve wind coverage.
The area is divided in to 16 parts using an angle of 22.50
.
 Average wind data of 5 to 10 years
is used for preparing wind rose diagram.

Wind Rose – Methods;
Type – I: Showing direction & duration of wind.
Type –II: Showing direction, duration & intensity of wind.
Type – I : Showing direction & duration of wind.
The radial lines indicate the wind direction and each circle represents the
duration of wind.
From the wind data it is observed that the total % of time in a year during
which the wind blows from north direction is 10.3%.
This value is plotted along the north direction in figure.
Similarly other values are also plotted along the respective directions.
All plotted points are then joined by straight lines.
The best direction of runway usually along the direction of the longest line
on wind rose diagram.
In the figure the best orientation of runway is NS direction.

Type –II ;Showing direction, duration & intensity of wind.
Each circle represents the wind intensity to some scale. The values entered
in each segment represents the % of time in a year during which the wind
having a particular intensity.
Procedure: draw 3 equi-spaced parallel lines on a transparent paper strip.
Place the transport paper strip over the wind rose diagram in such a way
that the central line passes through the centre of the diagram.
With the centre of wind rose, rotate the tracing paper & place it in such a
position that the sum of all the values indicating the duration of wind, within
the two outer parallel lines, oriented is the maximum.
The runway should be thus oriented along the direction indicated by the
centre line. The wind coverage con be calculated by summing up all the %
shown in segment.
Read the bearing of the runway on the outer scale of the wind rose where

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