Pressure Measurement: Difference between revisions
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Atmospheric pressure (also known as barometric pressure) is the pressure exerted by the weight of the air above the Earth's surface. It is measured using a [http://en.wikipedia.org/wiki/Barometer barometer]. Atmospheric pressure and its rate of change are important parameters for weather and the ocean. |
Atmospheric pressure (also known as barometric pressure) is the pressure exerted by the weight of the air above the Earth's surface. It is measured using a [http://en.wikipedia.org/wiki/Barometer barometer]. Atmospheric pressure and its rate of change are important parameters for weather and the ocean. |
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Unlike the barometer in a professional automatic weather station, they have no temperature compensation. Therefore, for best pressure readings, you should locate the console in a place where the temperature is reasonably constant, not in direct sunlight or near a heater. |
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==Units== |
==Units== |
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The units used for pressure are hPa (hecto Pascals |
The units most often used by meterorologists in much of the world for atmospheric pressure are hPa (hecto Pascals, although not a System International unit because of its prefix). |
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Alternatives units are |
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*mb (millibars, this is the equivalent used for public communications, but its scientific definition has varied from 101,325 Pa to (from 1982) 100,000 Pa), |
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*mmHg (millimetres of mercury, strictly a function of temperature and gravitational force as well as atmospheric pressure, abandoned in 1929), |
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*torr (now defined as exactly 1/760 of a standard atmosphere, almost equivalent to mmHg, but mmHg varies by temperature and gravitational strength), |
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*kPa (kiloPascals is a SI unit, used in Canada), |
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*inHg (inches of mercury, used in USA and by some UK instruments, but strictly a function of temperature and gravitational force as well as atmospheric pressure). |
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Cumulus [[cumulus.ini|supports]]: |
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*0 = mb (millibars) |
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*1 = hPa (hectoPascals) |
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*2 = in (inches of mercury) |
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==Datum== |
==Datum== |
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Pressure decreases exponentially with altitude, so for consistency it is reduced to the common datum of mean sea level (MSL). |
Pressure decreases exponentially with altitude, so for consistency officially it is reduced to the common datum of mean sea level (MSL). You can see those figures on the isobar lines of a weather map. |
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===A note of caution=== |
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''Warning - if you are looking at an external site and using the pressure there to compare with your personal weather station, check whether the pressure reported there is corrected to sea level.'' |
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* The Saratoga template that reports barometric pressure taken from "METAR" issued by airports does not differentiate between altimeter pressure (at field elevation level in pilot terms - QFE) and sea level pressure (at nautical height in pilot speak - QNH). |
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* The general point is that internationally SLP (or QNH) is reported in the standard METAR Pressure Group. Within USA, and in METAR from overseas military airports operated by USA, QFE is reported in the standard METAR Pressure Group. |
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** In those sites following USA guidance, the SLP pressure is reported in the Remarks Group of the METAR. There are METAR readers available that extract the SLP wherever it is within a METAR, but Saratoga does not. |
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* A further complication is that QFE is defined in two ways: |
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*# In USA, ''Field elevation in pilot terms'' is at a height equal to 10 feet above the mid point of main runway (a typical cockpit height) when reporting QFE. That reports 0.3 mBars above international standard. |
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*# The international standard, used elsewhere in world, uses the true ''airport field elevation'' (i.e. runway height with no correction for height of cockpit) when reporting QFE. |
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* Finally, it should be noted that all METAR pressures in Pressure Group are rounded down to nearest mBar, so may read up to 0.9 mBar out from a reading expressed to nearest tenth of millibar. |
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For more technical discussion see [https://www.wxforum.net/index.php?topic=43509.msg443105#msg443105 https://www.wxforum.net discussion of altimeter pressure]. |
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==Setting the Datum== |
==Setting the Datum== |
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All weather stations allow you to adjust the pressure for sea level. You should not make the adjustment within Cumulus. |
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In Cumulus, the pressure datum is set by going to Configuration/Calibration and entering a number into the Pressure slot in Offsets. |
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The best way to get MSL pressure at your location is to go to a site like [http://www.wunderground.com/ Weather Underground] and enter your location. It will find a weather station nearby and give you the current MSL pressure. |
The best way to get MSL (sea level) pressure at your location is to go to a site like [http://www.wunderground.com/ Weather Underground] and enter your location. It will find a weather station nearby and give you the current MSL pressure. ''Be aware of my note above, the station you choose might not correct to sea level pressure'' unless it an airport that correctly follows ICAO or WMO standards. |
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Alternatively, look at a isobar chart at a site like [http://www.meteorologica.info/UKisobars.htm weather superstore], and interpolate for your location. You can be sure this uses sea level values. |
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On the other hand, most airport sites only give pressure to the nearest hPa, so you can be 0.5 hPa out if you use that, whereas most personal weather stations give pressure with 0.1 hPa precision. |
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The best time to set your datum is when the pressure is |
The best time to set your datum is when the pressure is not changing either with time or between nearby locations. Note most sites only give pressure to the nearest hPa, and airport METAR (except when reported in tenths) always rounds down, so you can be 0.9 hPa out if you use that, whereas most personal weather stations give pressure with 0.1 hPa precision. |
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For Fine Offset clones, see [[FAQ#Cumulus_doesn.E2.80.99t_show_the_same_pressure_as_my_Fine_Offset_console]]. On a Fine Offset station, the pressure measured at the station is called Absolute Pressure, and the pressure corrected to sea level is called Relative Pressure, and the console displays the characters "rel" when it is displaying Relative Pressure. It is therefore the Relative Pressure reading which you will adjust so that is displaying the current sea-level pressure for your location. |
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⚫ | For most personal weather stations, the barometer is in the console, usually attached to the printed circuit board. These barometers are very cheap devices that simply record the load on a diaphragm. |
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==How Accurate are PWS Barometers?== |
==How Accurate are PWS Barometers?== |
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The figure below shows a comparison between the pressure measured by a Fine Offset PWS and a nearby AWS. You can see that the comparison is excellent. |
The figure below shows a comparison between the pressure measured by a Fine Offset PWS and a nearby AWS. You can see that the comparison is excellent. |
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[[file:KyleVsBrockworthPress1.png]] |
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If you find that your sensor is inaccurate, it may be possible to apply a calibration (accessed from configuration menu) within cumulus. |
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[[file:KyleVsBrockworthPress.png|500 px]] |
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[[Category:Terminology]] |
Latest revision as of 07:35, 19 February 2022
Atmospheric pressure (also known as barometric pressure) is the pressure exerted by the weight of the air above the Earth's surface. It is measured using a barometer. Atmospheric pressure and its rate of change are important parameters for weather and the ocean.
Locating the Barometer
For most personal weather stations, the barometer is in the console, usually attached to the printed circuit board. These barometers are very cheap devices that simply record the load on a diaphragm.
Unlike the barometer in a professional automatic weather station, they have no temperature compensation. Therefore, for best pressure readings, you should locate the console in a place where the temperature is reasonably constant, not in direct sunlight or near a heater.
Units
The units most often used by meterorologists in much of the world for atmospheric pressure are hPa (hecto Pascals, although not a System International unit because of its prefix).
Alternatives units are
- mb (millibars, this is the equivalent used for public communications, but its scientific definition has varied from 101,325 Pa to (from 1982) 100,000 Pa),
- mmHg (millimetres of mercury, strictly a function of temperature and gravitational force as well as atmospheric pressure, abandoned in 1929),
- torr (now defined as exactly 1/760 of a standard atmosphere, almost equivalent to mmHg, but mmHg varies by temperature and gravitational strength),
- kPa (kiloPascals is a SI unit, used in Canada),
- inHg (inches of mercury, used in USA and by some UK instruments, but strictly a function of temperature and gravitational force as well as atmospheric pressure).
Cumulus supports:
- 0 = mb (millibars)
- 1 = hPa (hectoPascals)
- 2 = in (inches of mercury)
Datum
Pressure decreases exponentially with altitude, so for consistency officially it is reduced to the common datum of mean sea level (MSL). You can see those figures on the isobar lines of a weather map.
A note of caution
Warning - if you are looking at an external site and using the pressure there to compare with your personal weather station, check whether the pressure reported there is corrected to sea level.
- The Saratoga template that reports barometric pressure taken from "METAR" issued by airports does not differentiate between altimeter pressure (at field elevation level in pilot terms - QFE) and sea level pressure (at nautical height in pilot speak - QNH).
- The general point is that internationally SLP (or QNH) is reported in the standard METAR Pressure Group. Within USA, and in METAR from overseas military airports operated by USA, QFE is reported in the standard METAR Pressure Group.
- In those sites following USA guidance, the SLP pressure is reported in the Remarks Group of the METAR. There are METAR readers available that extract the SLP wherever it is within a METAR, but Saratoga does not.
- A further complication is that QFE is defined in two ways:
- In USA, Field elevation in pilot terms is at a height equal to 10 feet above the mid point of main runway (a typical cockpit height) when reporting QFE. That reports 0.3 mBars above international standard.
- The international standard, used elsewhere in world, uses the true airport field elevation (i.e. runway height with no correction for height of cockpit) when reporting QFE.
- Finally, it should be noted that all METAR pressures in Pressure Group are rounded down to nearest mBar, so may read up to 0.9 mBar out from a reading expressed to nearest tenth of millibar.
For more technical discussion see https://www.wxforum.net discussion of altimeter pressure.
Setting the Datum
All weather stations allow you to adjust the pressure for sea level. You should not make the adjustment within Cumulus.
The best way to get MSL (sea level) pressure at your location is to go to a site like Weather Underground and enter your location. It will find a weather station nearby and give you the current MSL pressure. Be aware of my note above, the station you choose might not correct to sea level pressure unless it an airport that correctly follows ICAO or WMO standards.
Alternatively, look at a isobar chart at a site like weather superstore, and interpolate for your location. You can be sure this uses sea level values.
The best time to set your datum is when the pressure is not changing either with time or between nearby locations. Note most sites only give pressure to the nearest hPa, and airport METAR (except when reported in tenths) always rounds down, so you can be 0.9 hPa out if you use that, whereas most personal weather stations give pressure with 0.1 hPa precision.
For Fine Offset clones, see FAQ#Cumulus_doesn.E2.80.99t_show_the_same_pressure_as_my_Fine_Offset_console. On a Fine Offset station, the pressure measured at the station is called Absolute Pressure, and the pressure corrected to sea level is called Relative Pressure, and the console displays the characters "rel" when it is displaying Relative Pressure. It is therefore the Relative Pressure reading which you will adjust so that is displaying the current sea-level pressure for your location.
How Accurate are PWS Barometers?
The figure below shows a comparison between the pressure measured by a Fine Offset PWS and a nearby AWS. You can see that the comparison is excellent.
If you find that your sensor is inaccurate, it may be possible to apply a calibration (accessed from configuration menu) within cumulus.