Runway Centerline and Edge Line Explanation PDF

Summary

This document explains the importance of runway centerline and edge lines in guiding and safely landing aircraft. It details the marking methods for different visibility conditions and the role of the lines in runway safety. It also defines how runway numbers are assigned, and what a runway threshold consists of for precise landings.

Full Transcript

RUNWAY CENTERLINE
- is a prominent marking on a runway at an airport, and it plays a crucial rolein guiding
aircraft during takeoff and landing.

The centerline is typically marked on the runway's surface using white paint or other highly visible
materials. It is a continuous line that extends the full lengthof the runway.
Instrumentation: Modern airports may have advanced systems, suchas Instrument Landing Systems
(ILS) and Precision Approach Path Indicators (PAPI), that work in conjunction with the centerline to
help pilots maintainthecorrect approach and descent path during landing.

RUNWAY EDGE LINE
- The primary purpose of the runway edge line is to define the lateral boundaries of the
runway. It marks the edges or sides of the runway surface andprovides a visual reference for pilots to
determine the runway's width.

Low-Visibility Operations: Runway edge lights are often installed alongtheedge line. These lights
help guide pilots during low-visibility conditions, suchas fog or night operations, by providing a
clear outline of the runway's boundaries
Safety Purpose: It ensures that aircraft stay within the designated runway surfaceand do not veer
off into the surrounding areas, which could be hazardous. Clearance and Safety Zones: The
runway edge line also demarcates thebeginning of clearance and safety zones. These zones are areas
that must be kept clear of obstacles to ensure the safety of aircraft in the event of an overrunor
undershoot during takeoff or landing.

RUNWAY NUMBER
- also known as the runway designation or runway identifier.

Runway Orientation: The runway number is based on the magnetic compass direction in degrees. It
represents the approximate magnetic heading of therunway in tens of degrees. For example, if a
runway's magnetic headingis approximately 090 degrees, the runway number would be 09. If the
headingis approximately 270 degrees, the number would be 27.
Directional Information (RUNWAY NUMBER EXTENSION) The runwaynumber is
accompanied by a letter (L, C, or R) to indicate the specific runwayif
there are multiple runways with the same number at an airport. These letters standfor Left,
Center, and Right, respectively. For example, if there are three parallel runways at an airport
with magnetic headings of 090 degrees, they maybedesignated as 09L (Left), 09C (Center), and
 09R (Right).

Precision and Non-Precision Runways: In some regions, runways withprecision instrument
approach systems like ILS (Instrument Landing System) areoften given numbers ending in "1"
(e.g., Runway 01 or Runway 19). Non- precision runways may have numbers ending in "9" (e.g.,
Runway 09 or Runway27).
Parallel Runways: At airports with parallel runways, the runway numbers areused to indicate the
relative positions of the runways. For example, if there aretwo parallel runways, one aligned with a
magnetic heading of 090 degrees andthe other with 270 degrees, they might be designated as
Runway 09 and Runway27.
RUNWAY THRESHOLD
- is a section of a runway that is marked and designated as unsuitable for aircraft landing but
can be used for other operations, such as taxiing, taking off, or landing roll out after touchdown.

Purpose:
Obstacle clearance
A displaced threshold ensures that aircraft have sufficient clearance to safely descendover these
obstacles by shifting the point at which they can land further downtherunway.
Noise abatement
Noise-sensitive areas: In some cases, displaced thresholds are used to reduce noiseover residential or
sensitive areas close to the runway
Increased safety margins
Extended rollout area: For landing aircraft, the displaced threshold can still be usedas a rollout area
after touchdown, giving them more distance to decelerate. This increases safety in the event of a
high-speed or long-landing roll out.

AIMING POINT
- also known as the aiming point markers or touchdown zone markers, is a set of visual
markings or lights on a runway designed to assist pilots during the landingphase of an aircraft's
approach. The aiming point serves as a reference for pilots tohelp them accurately align the aircraft for
a safe and smooth landing.

Location: The runway aiming point is typically located a specific distance downthe runway from the
threshold (the beginning of the runway) and is usually found
within the first 3,000 feet (approximately 900 meters) of the runway's length. Its exact placement
can vary from one runway to another based on various factors, including the airport's design and the
approach angle.
Visual Markings: Often consist of a series of large, conspicuous whiterectangles or bars painted
on the runway. These bars are positionedsymmetrically and are typically situated in pairs, with
 one pair on each side of therunway centerline.
Lighting: In addition to painted markings, some runways are equipped withrunway aiming point
lights. These lights are embedded in the runway surface andare typically sequenced or strobed to
provide visual cues to pilots during their approach. They may be white or red in color.
Purpose: The primary purpose of the runway aiming point is to assist pilots indetermining the
correct altitude and descent rate as they approach the runwayfor landing. By aiming for the
markers or lights, pilots can help ensure that theaircraft touches down in the desired touchdown
zone. This contributes to a safeand controlled landing.
Safety and Precision: Landing within the designated touchdown zone is important for various
reasons, including ensuring that the aircraft has sufficient runway length for stopping, minimizing
wear and tear on the runway surface, andavoiding runway overruns or undershoots.
TOUCHDOWN ZONE
- is a specific area on a runway where an aircraft's main wheels or landinggear is intended to
make initial contact with the runway during the landing phase. This zone is marked and designated to
facilitate safe and precise landings.

Location: The touchdown zone is typically located at the beginning of therunway, near the
threshold (the start of the runway).
Visual Markings: Usually consist of a series of large, conspicuous whiterectangles or bars
painted on the runway surface. These bars are positionedsymmetrically on each side of the
runway centerline.

AIMING POINT VS TOUCHDOWN ZONES

(The aiming point serves as a reference for aligning the aircraft during the descent, while the
touchdown zone designates the specific area on the runway where the initial landing contact should
occur.)

DISPLACED THRESHOLD
- It is an area at the beginning of the runway that is not intended for aircraft toland on or
take off from. Instead, it is meant for other operational purposes, suchas
reducing the impact of noise on nearby communities, avoiding obstacles, or accommodating taxiing
aircraft.
Purpose:
Obstacle Clearance: One common reason for having a displaced threshold is toprovide additional
clearance from obstacles, such as buildings, trees, or terrain, that might otherwise obstruct the flight path
of landing or departing aircraft.

Noise Abatement: In some cases, airports implement displaced thresholds toreduce aircraft noise
impact on nearby residential areas.

Safety: Displaced thresholds can enhance safety by ensuring that aircraft haveadequate distance to
 achieve the necessary speed and altitude for takeoff or landing, especially when there are terrain
or obstacle concerns.

Aircraft Separation: At airports with intersecting runways, displaced thresholds on one runway can
create separation from the other runway, allowing for safer operations.

BLAST PAD
-also known as an overrun area or blast pad area, is a specialized sectionof arunway or
taxiway at an airport designed to enhance safety during takeoff and landingoperations, particularly for
aircraft with powerful jet engines. Blast pads areengineered to withstand the powerful jet blast
generated by aircraft engines duringtakeoff, which can create high levels of turbulence, noise, and
debris. Purpose:
Jet Blast Mitigation: The primary purpose of a blast pad is to mitigate theeffects of jet blast, which
can be particularly strong when aircraft with high-thrust engines, such as large commercial jets,
take off. Jet blast can cause safety hazards, damage to structures, and runway debris to be blown
into the air.
Noise Reduction: Blast pads can also help reduce the noise generated byjet engines during takeoff.
By allowing the aircraft to be farther away frompopulated areas and structures, noise impacts on
nearby communities canbeminimized.
Foreign Object Debris (FOD) Control: The blast pad area is designedtominimize the risk of
debris being sucked into an aircraft's engines during takeoff or blown onto the runway, which
could pose safety hazards.