A Numerical Investigation of the Severe Thunderstorm Gust FrontSource: Monthly Weather Review:;1977:;volume( 105 ):;issue: 005::page 657DOI: 10.1175/1520-0493(1977)105<0657:ANIOTS>2.0.CO;2Publisher: American Meteorological Society
Abstract: The structure of the thunderstorm gust front is investigated by a nonhydrostatic, two-dimensional (xz/) numerical model. In the model, which is dry, the production of negatively buoyant air by evaporation is parameterized via an externally imposed, local-cooling function. This parameterization sustains a steady cold downdraft, which drives the surface outflow and associated gust front. It is shown that two dominant factors influencing gust front structure in the vertical plane are the solenoidal field coincident with the front and surface friction, modeled by means of a simple bulk aerodynamic drag formulation. The circulation theorem is invoked to illustrate how solenoidal accelerations oppose the deceleration by surface friction. After the onset of a downdraft in the model, these opposing tendencies soon reach a balance. Thus, following a brief transient stage, the model gust front exhibits a persistent configuration as it propagates rapidly forward. The essential features of this configuration are examined and compared with both tower observations of gust fronts and laboratory models of gravity currents.
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| contributor author | Mitchell, Kenneth E. | |
| contributor author | Hovermale, John B. | |
| date accessioned | 2017-06-09T16:01:37Z | |
| date available | 2017-06-09T16:01:37Z | |
| date copyright | 1977/05/01 | |
| date issued | 1977 | |
| identifier issn | 0027-0644 | |
| identifier other | ams-59120.pdf | |
| identifier uri | http://onlinelibrary.yabesh.ir/handle/yetl/4199643 | |
| description abstract | The structure of the thunderstorm gust front is investigated by a nonhydrostatic, two-dimensional (xz/) numerical model. In the model, which is dry, the production of negatively buoyant air by evaporation is parameterized via an externally imposed, local-cooling function. This parameterization sustains a steady cold downdraft, which drives the surface outflow and associated gust front. It is shown that two dominant factors influencing gust front structure in the vertical plane are the solenoidal field coincident with the front and surface friction, modeled by means of a simple bulk aerodynamic drag formulation. The circulation theorem is invoked to illustrate how solenoidal accelerations oppose the deceleration by surface friction. After the onset of a downdraft in the model, these opposing tendencies soon reach a balance. Thus, following a brief transient stage, the model gust front exhibits a persistent configuration as it propagates rapidly forward. The essential features of this configuration are examined and compared with both tower observations of gust fronts and laboratory models of gravity currents. | |
| publisher | American Meteorological Society | |
| title | A Numerical Investigation of the Severe Thunderstorm Gust Front | |
| type | Journal Paper | |
| journal volume | 105 | |
| journal issue | 5 | |
| journal title | Monthly Weather Review | |
| identifier doi | 10.1175/1520-0493(1977)105<0657:ANIOTS>2.0.CO;2 | |
| journal fristpage | 657 | |
| journal lastpage | 675 | |
| tree | Monthly Weather Review:;1977:;volume( 105 ):;issue: 005 | |
| contenttype | Fulltext |