Altitude: Difference between revisions

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(some improvements to QNH)
(moved QNH category in the "Indicated altitude" paragraph)
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==Indicated altitude==
==Indicated altitude==
*The [[altimeter]] reading.  
*The [[altimeter]] reading.  
The altimeter can be set on '''three''' possible references
The altimeter can be set to '''three''' possible references
#The "barometric pressure adjusted to sea level" ([[#QNH]]) resulting in indicated altitude above [[Mean Sea Level]] for a certain region during current weather conditions. While on the airfield the altimeter would read the altitude of the airfield, the [[#True altitude]]. If QNH is not available but the height of the departing airfield is known, the alitimeter can be set on the height of the airfield. It is also possible to use QNH from a nearby airfield.
#to [[#QNH|QNH]], resulting in the indicated altitude "matching" the [[#True altitude|true altitude]] (see below).
#Height above the airfield. While on the runway the indicated altitude would read zero. Near the airfield the indicated altitude would be [[above ground level]], the [[#Absolute altitude]]
#to the Standard pressure (29.92" Hg or 1013.25 hectopascal) making the altimeter show the [[#Pressure altitude|pressure altitude]]. This configuration should only be used in high altitudes.
#Standard pressure (29.92" Hg or 1013.25 millibars) resulting in the [[#Pressure altitude]]. While on the airfield the altimeter will not display the altitude. It will display the barometric pressure expressed in feet. It provides a standard altitude reading above a certain height.
#to the [[#Height|height]] above the airfield. While on the runway the indicated altitude would read zero. Near the airfield the indicated altitude would be the [[#Absolute altitude|absolute altitude]] ([[above ground level]]).
When to set what depends on the local [[flight rules]].
 
What you have to use depends on the local [[flight rules]].
 
===QNH===
[http://en.wikipedia.org/wiki/QNH QNH] is a brevity code for "atmospheric pressure at sea-level". It is needed when starting or landing an aircraft, when it is important to have the [[#Indicated altitude|indicated altitude]] as accurate as possible.
 
The code QNH is used in:
*the pilots request for the "atmospheric pressure at sea-level". In their reply [[ATC]] will repeat QNH followed with the pressure.
*automatic weather reports via [[ATIS]].
 
If there is neither [[ATIS]] nor [[ATC]] available you can find the QNH value in Environment=>Global Weather.
 
If QNH is not available but the height of the departing airfield is known, the alitimeter can be set on the height of the airfield. It is also possible to use QNH from a nearby airfield.
 
To use a barometer (i.e. your [[altimeter]]) as a tool to measure the altitude, it must be corrected for weather influences. For this task, every airfield is equipped with an accurate barometer. By combining this value with the [[#True altitude|true altitude]] of the airfield, they can calculate the barometric pressure at [[Mean Sea Level]], the QNH. It will transmit the QNH via [[ATC]] and [[ATIS]] and with that piece of information the altimeter in the aircraft can be corrected for weather influences and will display an altitude close to the [[#True altitude|true altitude]] of the aircraft. This way the [[#Indicated altitude|indicated altitude]] will be quite accurate for a ''certain area around the airfield'' as long as the ''weather remains stable''. While on the airfield the altimeter would show the altitude of the airfield.
 
It is vital to set the altimeter to QNH when using a height map, so that the [[#Indicated altitude|indicated altitude]] can be compared to the [[#Elevation|elevations]] on the map, which is of special importance during the approach to an airfield. There have been dramatic accidents where pilots were flying using [[#Pressure altitude|pressure altitude]] during descend instead of the [[#True altitude|true altitude]], making the height map of the area almost useless. In bad visibility mountains have not been noticed and the ground was higher as expected.
 


==Absolute altitude==
==Absolute altitude==
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In FlightGear the density of the air is simulated making a helicopter stick to the ground on a warm day on a high elevation helipad or making it impossible for the heavy loaded Antonov depart from Mexico City. The [http://en.wikipedia.org/wiki/Density_altitude density altitude] is calculated from the barometric pressure and the temperature. The higher the temperature, the lower the density, the higher the density altitude (in reference with the [[#True altitude]]).
In FlightGear the density of the air is simulated making a helicopter stick to the ground on a warm day on a high elevation helipad or making it impossible for the heavy loaded Antonov depart from Mexico City. The [http://en.wikipedia.org/wiki/Density_altitude density altitude] is calculated from the barometric pressure and the temperature. The higher the temperature, the lower the density, the higher the density altitude (in reference with the [[#True altitude]]).


==QNH==
[http://en.wikipedia.org/wiki/QNH QNH] is a brevity code for "atmospheric pressure at sea-level". It is needed when starting or landing an aircraft, when it is important to have the [[#Indicated altitude|indicated altitude]] as accurate as possible.
The code QNH is used in:
*the pilots request for the "atmospheric pressure at sea-level". In their reply [[ATC]] will repeat QNH followed with the pressure.
*automatic weather reports via [[ATIS]].
If there is neither [[ATIS]] nor [[ATC]] available you can find the QNH value in Environment=>Global Weather.
To use a barometer (i.e. your [[altimeter]]) as a tool to measure the altitude, it must be corrected for weather influences. For this task, every airfield is equipped with an accurate barometer. By combining this value with the [[#True altitude|true altitude]] of the airfield, they can calculate the barometric pressure at [[Mean Sea Level]], the QNH. It will transmit the QNH via [[ATC]] and [[ATIS]] and with that piece of information the altimeter in the aircraft can be corrected for weather influences and will display an altitude close to the [[#True altitude|true altitude]] of the aircraft. This way the [[#Indicated altitude|indicated altitude]] will be quite accurate for a ''certain area around the airfield'' as long as the ''weather remains stable''.
It is vital to set the altimeter to QNH when using a height map, so that the [[#Indicated altitude|indicated altitude]] can be compared to the [[#Elevation|elevations]] on the map, which is of special importance during the approach to an airfield. There have been dramatic accidents where pilots were flying using [[#Pressure altitude|pressure altitude]] during descend instead of the [[#True altitude|true altitude]], making the height map of the area almost useless. In bad visibility mountains have not been noticed and the ground was higher as expected.


==Elevation==
==Elevation==

Revision as of 12:31, 6 November 2011

In aviation the height of an aircraft is named the altitude. It is expressed in feet. The international foot is defined as exactly 0.3048 metres. In aircraft the altitude is measured with the altimeter. The basis of the altimeter is the same as a aneroid barometer, an airtight drum that will change shape depending on the pressure of the surrounding air. The higher the aircraft the larger the drum. The altimeter is very sensitive and the air pressure caused by the weather has great influence on it. Ground radar is perfect for measuring the altitude above ground level and is used for ground warning systems.

With ATC communication two types of altitude can be used.

  1. Altitude = #True altitude
  2. #Flight level

Indicated altitude

The altimeter can be set to three possible references

  1. to QNH, resulting in the indicated altitude "matching" the true altitude (see below).
  2. to the Standard pressure (29.92" Hg or 1013.25 hectopascal) making the altimeter show the pressure altitude. This configuration should only be used in high altitudes.
  3. to the height above the airfield. While on the runway the indicated altitude would read zero. Near the airfield the indicated altitude would be the absolute altitude (above ground level).

What you have to use depends on the local flight rules.

QNH

QNH is a brevity code for "atmospheric pressure at sea-level". It is needed when starting or landing an aircraft, when it is important to have the indicated altitude as accurate as possible.

The code QNH is used in:

  • the pilots request for the "atmospheric pressure at sea-level". In their reply ATC will repeat QNH followed with the pressure.
  • automatic weather reports via ATIS.

If there is neither ATIS nor ATC available you can find the QNH value in Environment=>Global Weather.

If QNH is not available but the height of the departing airfield is known, the alitimeter can be set on the height of the airfield. It is also possible to use QNH from a nearby airfield.

To use a barometer (i.e. your altimeter) as a tool to measure the altitude, it must be corrected for weather influences. For this task, every airfield is equipped with an accurate barometer. By combining this value with the true altitude of the airfield, they can calculate the barometric pressure at Mean Sea Level, the QNH. It will transmit the QNH via ATC and ATIS and with that piece of information the altimeter in the aircraft can be corrected for weather influences and will display an altitude close to the true altitude of the aircraft. This way the indicated altitude will be quite accurate for a certain area around the airfield as long as the weather remains stable. While on the airfield the altimeter would show the altitude of the airfield.

It is vital to set the altimeter to QNH when using a height map, so that the indicated altitude can be compared to the elevations on the map, which is of special importance during the approach to an airfield. There have been dramatic accidents where pilots were flying using pressure altitude during descend instead of the true altitude, making the height map of the area almost useless. In bad visibility mountains have not been noticed and the ground was higher as expected.


Absolute altitude

  • Altitude in terms of the distance above the ground (AGL) directly below it.

Ground radar and ground warning systems display absolute altitude. The altimeter can be set to display zero while being on the airfield, the #Indicated altitude will be the absolute altitude while being near the airfield.

In FlightGear there is a "system" altitude, that altitude is AMSL. Some will refer to this altitude as Absolute altitude.

True altitude

  • Altitude in terms of elevation above sea level (AMSL).

After setting the altimeter on #QNH the #Indicated altitude is the true altitude.

Height

  • Altitude in terms of the distance above a certain point.

Pressure altitude

  • Altitude in terms of the air pressure.

The altimeter will display the barometric pressure expressed in feet. (i.e. your expensive piece of equipment has been reduced to a barometer)

  • Pressure altitude gives the same result for every aircraft independent from the departing airfield of the aircraft.
  • Pressure altitude will change with the weather but this is true for all aircraft sharing the same area.
  • When wanting to use Pressure altitude, the altimeter must be set to standard pressure = 29.92" Hg = 1013.25 mbar.
  • Never use Pressure altitude during approach since the altimeter does not display the altitude.

Flight level

It is used above the transition altitude (18,000 feet (5,500 m) in the US, but may be as low as 3,000 feet (910 m) in other jurisdictions). When the altimeter reads 18,000 ft on the standard pressure setting the aircraft is said to be at "Flight level 180" or FL180.

To assure vertical separation IFR pilots are required to use the altimeter. It is not allowed to use the height measured by GPS systems.

Density altitude

  • Altitude in terms of the density of the air.

This is important with warm weather, at higher altitudes, with heavy loaded aircraft and with helicopters. Low air density causes less drag (friction), less lift, less engine performance (the blades have less effect and the engine receives less oxygen).

In FlightGear the density of the air is simulated making a helicopter stick to the ground on a warm day on a high elevation helipad or making it impossible for the heavy loaded Antonov depart from Mexico City. The density altitude is calculated from the barometric pressure and the temperature. The higher the temperature, the lower the density, the higher the density altitude (in reference with the #True altitude).


Elevation

The #True altitude of positions on the ground is referred to as the elevation. In aviation these positions normally are runways or mountain peaks.

It is vital to know the elevation of a runway before descending towards it. The best sources for elevation data are:

  • Atlas provides an accurate height map. One needs to interpret the colours on the map to know the elevation. For IFR and flight planning Atlas is not suited.
  • MPMap is an on-line tool for FlightGear that provides accurate information about runways including the elevation.
  • Airport Diagram Generator will create a PDF file, an accurate map of the airfield. It includes the elevation.
  • Websites that are used for real flight planning. A few problems, the Real runway is not always 100% the same as the FlightGear runway, not all FlightGear runways can be found on those websites (The FlightGear database is more complete).

It is very unfortunate that Kelpie doesn't provide this information.

Additional information

  • QFE: Atmospheric pressure at the airport, can be used to show #Absolute altitude.
  • QNE: Elevation of the airfield above AMSL.
  • QFF: Atmospheric pressure calculated towards AMSL under Standard conditions, this code is not used.
  • ISA-1: International Standard Atmosphere: Atmospheric model of various layers of the earth atmosphere. Each layer has a temperature, pressure, viscosity and density. It is based on an average model of the earth atmosphere. Publication ISO 2533:1975. There is a US model that is synchronised with this standard but is reaching higher.
  • ISA-2: ICAO Standard Atmosphere: Same as ISA-1 but reaching higher and with slightly different values. In aviation this is the standard to use. Publication Doc 7488-CD.
  • Attitude: Most often the Pitch of an aircraft, the angle of the nose in reference to the ground, but there are other definitions.
  • Ascend = climb = go higher.
  • Descend: go lower.

External articles