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Outflow (meteorology)

January 01, 1970

Outflow, in meteorology, is air that flows outwards from a storm system. It is associated with ridging, or anticyclonic flow. In the low levels of the troposphere, outflow radiates from thunderstorms in the form of a wedge of rain-cooled air, which is visible as a thin rope-like cloud on weather satellite imagery or a fine line on weather radar imagery. For observers on the ground, a thunderstorm outflow boundary often approaches in otherwise clear skies as a low, thick cloud that brings with it a gust front.

Radar image animation of an outflow boundary of a storm approaching Tulsa, Oklahoma. The outflow boundary's weak echo moves left-to-right and passes overhead of the Doppler radar station. The outflow produces a gust front that moves ahead of the main thunderstorm.

Low-level outflow boundaries can disrupt the center of small tropical cyclones. However, outflow aloft is essential for the strengthening of a tropical cyclone. If this outflow is restricted or undercut, the tropical cyclone weakens. If two tropical cyclones are close, the upper-level outflow from the upwind system can limit the development of the other system.

Thunderstorms edit

 
The outflow boundary indicated by the presence of this shelf cloud preceded a derecho in Minnesota
See also: Outflow boundary and Thunderstorm

For thunderstorms, outflow tends to indicate the development of a system. Large quantities of outflow at the upper levels of a thunderstorm indicate its development. Too much outflow in the lower levels of a thunderstorm, however, can choke off the low-level inflow which fuels it.[1] Squall lines typically bow out the most, or bend the most convex outward, at the leading edge of low level outflow due to the formation of a mesoscale high-pressure area which forms within the stratiform rain area behind the initial line. This high-pressure area is formed due to strong descending motion behind the squall line, and could come in the form of a downburst.[2]

 
Outflow boundary that preceded a strong thunderstorm in Oklahoma

The "edge" of the outflow boundary can often be detected by Doppler radar (especially in clear air mode). Convergence occurs along the leading edge of the downdraft. Convergence of dust, aerosols, and bugs at the leading edge will lead to a higher clear air signature. Insects and arthropods are swept along by the prevailing winds, making them good indicators of the presence of outflow boundaries.[3] The signature of the leading edge is also influenced by the density change between the cooler air from the downdraft and the warmer environmental air. This density boundary will increase the number of echo returns from the leading edge. Clouds and new thunderstorms also develop along the outflow's leading edge. This makes it possible to locate the outflow boundary when using precipitation mode on a weather radar. Also, it makes outflow boundaries findable within visible satellite imagery as a thin line of cumuliform clouds which is known as an arcus, or arc, cloud. The image to the right depicts a particularly strong outflow boundary ahead of a line of storms. Often, the outflow boundary will bow in the direction it is moving the quickest.[4]

Tropical cyclones edit

 
Structure of a tropical cyclone. The upper level outflow is depicted by cirrus clouds in the upper part of the schematic
See also: Tropical cyclone

The development of a significant mesoscale convective complex can send out a large enough outflow boundary to weaken the cyclone as the tropical cyclone center moves into the more stable air mass behind the leading edge of thunderstorm outflow, or outflow boundary.[5] Moderate vertical wind shear can lead to the initial development of the convective complex and surface low similar to the mid-latitudes, but it must relax to allow tropical cyclogenesis to continue.[6]

While the most obvious motion of clouds is toward the center, tropical cyclones also develop an upper-level (high-altitude) outward flow of clouds. These originate from air that has released its moisture and is expelled at high altitude through the "chimney" of the storm engine.[7] This outflow produces high, thin cirrus clouds that spiral away from the center. The clouds are thin enough for the sun to be visible through them. These high cirrus clouds may be the first signs of an approaching tropical cyclone.[8] As air parcels are lifted within the eye of the storm the vorticity is reduced, causing the outflow from a tropical cyclone to have anticyclonic motion. If two tropical cyclones are in proximity to one another, the outflow from the system downstream (normally to the west) can hinder the development of the system upstream (normally to the east).[9]

Local effects edit

 
A sandstorm (Haboob) approaching Al Asad, Iraq, just before nightfall on April 27, 2005.

Low-level outflow boundaries from thunderstorms are cooler and more moist than the air mass the thunderstorm originally formed within due to its wet bulbing by rain,[10] forming a wedge of denser air which spreads out from the base of the parent thunderstorm. If wind speeds are high enough, such as during microburst events, dust and sand can be carried into the troposphere, reducing visibility.[11] This type of weather event is known as a haboob, and is most common in the late spring within Sudan.[12] Upper-level outflow can consist of thick cirrus clouds which would then obscure the sun and reduce solar insolation around the outermost edge of tropical cyclones.

References edit

  1. ^ National Weather Service (2009-06-25). "O". National Oceanic and Atmospheric Administration. Retrieved 2010-04-09.
  2. ^ Peter S. Parke and Norvan J. Larson (2005). Boundary Waters Windstorm. National Weather Service Forecast Office, Duluth, Minnesota. Retrieved on 2008-07-30.
  3. ^ Diana Yates (2008). "Birds migrate together at night in dispersed flocks, new study indicates". University of Illinois at Urbana - Champaign. Retrieved 2009-04-26.
  4. ^ Glossary of Meteorology (June 2000). Line echo wave pattern. 2008-09-24 at the Wayback Machine American Meteorological Society. ISBN 1-878220-34-9. Retrieved on 2009-05-03.
  5. ^ John A. Knaff and John F. Weaver (September 2000). "A Mesoscale Low-Level Thunderstorm Outflow Boundary Associated with Hurricane Luis". Monthly Weather Review. 128 (9). American Meteorological Society: 3352–3355. Bibcode:2000MWRv..128.3352K. doi:10.1175/1520-0493(2000)128<3352:AMLLTO>2.0.CO;2.
  6. ^ University of Illinois (1999-10-04). Hurricanes. Retrieved 2008-08-17.
  7. ^ National Weather Service (September 2006). (PDF). National Oceanic and Atmospheric Administration. Archived from the original (PDF) on 2008-02-26. Retrieved 2010-04-09.
  8. ^ Atlantic Oceanographic and Meteorological Laboratory, Hurricane Research Division (2004-08-13). "Frequently Asked Questions: What's it like to go through a hurricane on the ground? What are the early warning signs of an approaching tropical cyclone?". National Oceanic and Atmospheric Administration. Retrieved 2006-07-26.
  9. ^ Dr. Harold P. Gerrish (1989). "Preliminary Report: Tropical Storm Iris - 16–21 September 1989". National Hurricane Center. Retrieved 2010-04-08.
  10. ^ John F. Weaver (June 1982). . Storm Track. 5 (6). Archived from the original on 2010-12-01. Retrieved 2010-04-22.
  11. ^ Western Region Climate Center (2002). H. Desert Research Institute. Retrieved on 2006-10-22.
  12. ^ Glossary of Meteorology (June 2000). . American Meteorological Society. Archived from the original on 2011-06-06. Retrieved 2010-03-27.

January 01, 1970
outflow, meteorology, outflow, meteorology, that, flows, outwards, from, storm, system, associated, with, ridging, anticyclonic, flow, levels, troposphere, outflow, radiates, from, thunderstorms, form, wedge, rain, cooled, which, visible, thin, rope, like, clo. Outflow in meteorology is air that flows outwards from a storm system It is associated with ridging or anticyclonic flow In the low levels of the troposphere outflow radiates from thunderstorms in the form of a wedge of rain cooled air which is visible as a thin rope like cloud on weather satellite imagery or a fine line on weather radar imagery For observers on the ground a thunderstorm outflow boundary often approaches in otherwise clear skies as a low thick cloud that brings with it a gust front Radar image animation of an outflow boundary of a storm approaching Tulsa Oklahoma The outflow boundary s weak echo moves left to right and passes overhead of the Doppler radar station The outflow produces a gust front that moves ahead of the main thunderstorm Low level outflow boundaries can disrupt the center of small tropical cyclones However outflow aloft is essential for the strengthening of a tropical cyclone If this outflow is restricted or undercut the tropical cyclone weakens If two tropical cyclones are close the upper level outflow from the upwind system can limit the development of the other system Contents 1 Thunderstorms 2 Tropical cyclones 3 Local effects 4 ReferencesThunderstorms edit nbsp The outflow boundary indicated by the presence of this shelf cloud preceded a derecho in Minnesota See also Outflow boundary and Thunderstorm For thunderstorms outflow tends to indicate the development of a system Large quantities of outflow at the upper levels of a thunderstorm indicate its development Too much outflow in the lower levels of a thunderstorm however can choke off the low level inflow which fuels it 1 Squall lines typically bow out the most or bend the most convex outward at the leading edge of low level outflow due to the formation of a mesoscale high pressure area which forms within the stratiform rain area behind the initial line This high pressure area is formed due to strong descending motion behind the squall line and could come in the form of a downburst 2 nbsp Outflow boundary that preceded a strong thunderstorm in OklahomaThe edge of the outflow boundary can often be detected by Doppler radar especially in clear air mode Convergence occurs along the leading edge of the downdraft Convergence of dust aerosols and bugs at the leading edge will lead to a higher clear air signature Insects and arthropods are swept along by the prevailing winds making them good indicators of the presence of outflow boundaries 3 The signature of the leading edge is also influenced by the density change between the cooler air from the downdraft and the warmer environmental air This density boundary will increase the number of echo returns from the leading edge Clouds and new thunderstorms also develop along the outflow s leading edge This makes it possible to locate the outflow boundary when using precipitation mode on a weather radar Also it makes outflow boundaries findable within visible satellite imagery as a thin line of cumuliform clouds which is known as an arcus or arc cloud The image to the right depicts a particularly strong outflow boundary ahead of a line of storms Often the outflow boundary will bow in the direction it is moving the quickest 4 Tropical cyclones edit nbsp Structure of a tropical cyclone The upper level outflow is depicted by cirrus clouds in the upper part of the schematic See also Tropical cyclone The development of a significant mesoscale convective complex can send out a large enough outflow boundary to weaken the cyclone as the tropical cyclone center moves into the more stable air mass behind the leading edge of thunderstorm outflow or outflow boundary 5 Moderate vertical wind shear can lead to the initial development of the convective complex and surface low similar to the mid latitudes but it must relax to allow tropical cyclogenesis to continue 6 While the most obvious motion of clouds is toward the center tropical cyclones also develop an upper level high altitude outward flow of clouds These originate from air that has released its moisture and is expelled at high altitude through the chimney of the storm engine 7 This outflow produces high thin cirrus clouds that spiral away from the center The clouds are thin enough for the sun to be visible through them These high cirrus clouds may be the first signs of an approaching tropical cyclone 8 As air parcels are lifted within the eye of the storm the vorticity is reduced causing the outflow from a tropical cyclone to have anticyclonic motion If two tropical cyclones are in proximity to one another the outflow from the system downstream normally to the west can hinder the development of the system upstream normally to the east 9 Local effects edit nbsp A sandstorm Haboob approaching Al Asad Iraq just before nightfall on April 27 2005 Low level outflow boundaries from thunderstorms are cooler and more moist than the air mass the thunderstorm originally formed within due to its wet bulbing by rain 10 forming a wedge of denser air which spreads out from the base of the parent thunderstorm If wind speeds are high enough such as during microburst events dust and sand can be carried into the troposphere reducing visibility 11 This type of weather event is known as a haboob and is most common in the late spring within Sudan 12 Upper level outflow can consist of thick cirrus clouds which would then obscure the sun and reduce solar insolation around the outermost edge of tropical cyclones References edit National Weather Service 2009 06 25 O National Oceanic and Atmospheric Administration Retrieved 2010 04 09 Peter S Parke and Norvan J Larson 2005 Boundary Waters Windstorm National Weather Service Forecast Office Duluth Minnesota Retrieved on 2008 07 30 Diana Yates 2008 Birds migrate together at night in dispersed flocks new study indicates University of Illinois at Urbana Champaign Retrieved 2009 04 26 Glossary of Meteorology June 2000 Line echo wave pattern Archived 2008 09 24 at the Wayback Machine American Meteorological Society ISBN 1 878220 34 9 Retrieved on 2009 05 03 John A Knaff and John F Weaver September 2000 A Mesoscale Low Level Thunderstorm Outflow Boundary Associated with Hurricane Luis Monthly Weather Review 128 9 American Meteorological Society 3352 3355 Bibcode 2000MWRv 128 3352K doi 10 1175 1520 0493 2000 128 lt 3352 AMLLTO gt 2 0 CO 2 University of Illinois 1999 10 04 Hurricanes Retrieved 2008 08 17 National Weather Service September 2006 Hurricanes Unleashing Nature s Fury A Preparedness Guide PDF National Oceanic and Atmospheric Administration Archived from the original PDF on 2008 02 26 Retrieved 2010 04 09 Atlantic Oceanographic and Meteorological Laboratory Hurricane Research Division 2004 08 13 Frequently Asked Questions What s it like to go through a hurricane on the ground What are the early warning signs of an approaching tropical cyclone National Oceanic and Atmospheric Administration Retrieved 2006 07 26 Dr Harold P Gerrish 1989 Preliminary Report Tropical Storm Iris 16 21 September 1989 National Hurricane Center Retrieved 2010 04 08 John F Weaver June 1982 History of Thunderstorm Forecasting Part VI The Thunderstorm to 1900 Storm Track 5 6 Archived from the original on 2010 12 01 Retrieved 2010 04 22 Western Region Climate Center 2002 H Desert Research Institute Retrieved on 2006 10 22 Glossary of Meteorology June 2000 Haboob American Meteorological Society Archived from the original on 2011 06 06 Retrieved 2010 03 27 Retrieved from https en wikipedia org w index php title Outflow meteorology amp oldid 1225068940 Tropical cyclones, wikipedia, wiki, book, books, library,

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