Entrainment, Detrainment and Large-Scale Horizontal Gradients in Oceanic Deep Convection.
The theory of oceanic convection and entrainment has been developed mainly in horizontally homogeneous regimes, yet large-scale spatial variability is known to control the sites and intensity of deep convection. Wintertime Greenland Sea conditions were selected to simulate convection and quantify th...
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| Format: | Text |
| Language: | English |
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1999
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| Online Access: | http://www.dtic.mil/docs/citations/ADA367100 http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA367100 |
| _version_ | 1821530748151136256 |
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| author | Stone, Rebecca E. |
| author2 | NAVAL POSTGRADUATE SCHOOL MONTEREY CA |
| author_facet | Stone, Rebecca E. |
| author_sort | Stone, Rebecca E. |
| collection | Defense Technical Information Center: DTIC Technical Reports database |
| description | The theory of oceanic convection and entrainment has been developed mainly in horizontally homogeneous regimes, yet large-scale spatial variability is known to control the sites and intensity of deep convection. Wintertime Greenland Sea conditions were selected to simulate convection and quantify the interplay between local forcing and large-scale gradients. Here circulation and preconditioning produce horizontal gradients in the stratification; some of the resulting stratification conducive to the formation of thermobaric convective instabilities. A large eddy simulation (LES) model modified to include large-scale horizontal density gradients was used to study the effects of the gradients on turbulence. Horizontal turbulent kinetic energy (IKE) and scalar variances increased compared to simulations with no large-scale gradient. The additional horizontal IKE is created at scales larger than the convective plume scale. A mean horizontal circulation develops in response to the large-scale overturning. The balance between convection and overturning increases stratification in the lower region of the mixed layer, and plumes may undergo slantwise convection. |
| format | Text |
| genre | Greenland Greenland Sea |
| genre_facet | Greenland Greenland Sea |
| geographic | Greenland |
| geographic_facet | Greenland |
| id | ftdtic:ADA367100 |
| institution | Open Polar |
| language | English |
| op_collection_id | ftdtic |
| op_relation | http://www.dtic.mil/docs/citations/ADA367100 |
| op_rights | APPROVED FOR PUBLIC RELEASE |
| op_source | DTIC AND NTIS |
| publishDate | 1999 |
| record_format | openpolar |
| spelling | ftdtic:ADA367100 2025-01-16T22:12:28+00:00 Entrainment, Detrainment and Large-Scale Horizontal Gradients in Oceanic Deep Convection. Stone, Rebecca E. NAVAL POSTGRADUATE SCHOOL MONTEREY CA 1999-06 text/html http://www.dtic.mil/docs/citations/ADA367100 http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA367100 en eng http://www.dtic.mil/docs/citations/ADA367100 APPROVED FOR PUBLIC RELEASE DTIC AND NTIS Fluid Mechanics *CONVECTION *OCEANS *ENTRAINMENT *GRADIENTS SIMULATION SPATIAL DISTRIBUTION DENSITY ENVIRONMENTS MODELS THEORY INTENSITY THESES TURBULENCE EDDIES(FLUID MECHANICS) REGIONS VARIATIONS WINTER SCALE HORIZONTAL ORIENTATION STRATIFICATION INSTABILITY Text 1999 ftdtic 2016-02-20T02:55:42Z The theory of oceanic convection and entrainment has been developed mainly in horizontally homogeneous regimes, yet large-scale spatial variability is known to control the sites and intensity of deep convection. Wintertime Greenland Sea conditions were selected to simulate convection and quantify the interplay between local forcing and large-scale gradients. Here circulation and preconditioning produce horizontal gradients in the stratification; some of the resulting stratification conducive to the formation of thermobaric convective instabilities. A large eddy simulation (LES) model modified to include large-scale horizontal density gradients was used to study the effects of the gradients on turbulence. Horizontal turbulent kinetic energy (IKE) and scalar variances increased compared to simulations with no large-scale gradient. The additional horizontal IKE is created at scales larger than the convective plume scale. A mean horizontal circulation develops in response to the large-scale overturning. The balance between convection and overturning increases stratification in the lower region of the mixed layer, and plumes may undergo slantwise convection. Text Greenland Greenland Sea Defense Technical Information Center: DTIC Technical Reports database Greenland |
| spellingShingle | Fluid Mechanics *CONVECTION *OCEANS *ENTRAINMENT *GRADIENTS SIMULATION SPATIAL DISTRIBUTION DENSITY ENVIRONMENTS MODELS THEORY INTENSITY THESES TURBULENCE EDDIES(FLUID MECHANICS) REGIONS VARIATIONS WINTER SCALE HORIZONTAL ORIENTATION STRATIFICATION INSTABILITY Stone, Rebecca E. Entrainment, Detrainment and Large-Scale Horizontal Gradients in Oceanic Deep Convection. |
| title | Entrainment, Detrainment and Large-Scale Horizontal Gradients in Oceanic Deep Convection. |
| title_full | Entrainment, Detrainment and Large-Scale Horizontal Gradients in Oceanic Deep Convection. |
| title_fullStr | Entrainment, Detrainment and Large-Scale Horizontal Gradients in Oceanic Deep Convection. |
| title_full_unstemmed | Entrainment, Detrainment and Large-Scale Horizontal Gradients in Oceanic Deep Convection. |
| title_short | Entrainment, Detrainment and Large-Scale Horizontal Gradients in Oceanic Deep Convection. |
| title_sort | entrainment, detrainment and large-scale horizontal gradients in oceanic deep convection. |
| topic | Fluid Mechanics *CONVECTION *OCEANS *ENTRAINMENT *GRADIENTS SIMULATION SPATIAL DISTRIBUTION DENSITY ENVIRONMENTS MODELS THEORY INTENSITY THESES TURBULENCE EDDIES(FLUID MECHANICS) REGIONS VARIATIONS WINTER SCALE HORIZONTAL ORIENTATION STRATIFICATION INSTABILITY |
| topic_facet | Fluid Mechanics *CONVECTION *OCEANS *ENTRAINMENT *GRADIENTS SIMULATION SPATIAL DISTRIBUTION DENSITY ENVIRONMENTS MODELS THEORY INTENSITY THESES TURBULENCE EDDIES(FLUID MECHANICS) REGIONS VARIATIONS WINTER SCALE HORIZONTAL ORIENTATION STRATIFICATION INSTABILITY |
| url | http://www.dtic.mil/docs/citations/ADA367100 http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA367100 |