Modeling Ocean Mixed Layer Flow Under Multiple Lead Fields in Sea Ice

A major goal of my current high latitude oceanographic research is to improve understanding of thermodynamic coupling of the atmosphere and ocean when sea ice is present. Improved understanding of the physical processes will ultimately lead to improved parameterization of small scale processes in la...

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Bibliographic Details
Main Author: Smith, David
Other Authors: ARIZONA STATE UNIV TEMPE DEPT OF MECHANICAL AND AEROSPACE ENGINEERING
Format: Text
Language:English
Published: 1998
Subjects:
Atmospheric Physics
Physical and Dynamic Oceanography
Snow
Ice and Permafrost
Fluid Mechanics
Mechanics
*AIR WATER INTERACTIONS
*SEA ICE
*MIXED LAYER(MARINE)
*CRACKS
*FLOW
NUMERICAL METHODS AND PROCEDURES
HIGH LATITUDES
OCEAN MODELS
CIRCULATION
BUOYANCY
MIXING
CLIMATE
FLUX(RATE)
ARCTIC OCEAN
SIMULATION
THERMODYNAMICS
OCEAN MIXED LAYER FLOW
LEAD FIELDS
THERMODYNAMIC COUPLING
CLIMATE CHANGE
SMAGORINSKY MIXING
Arctic
Arctic Ocean
Climate change
Ice
permafrost
Sea ice
Online Access:http://www.dtic.mil/docs/citations/ADA534826
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA534826
Description
Summary:A major goal of my current high latitude oceanographic research is to improve understanding of thermodynamic coupling of the atmosphere and ocean when sea ice is present. Improved understanding of the physical processes will ultimately lead to improved parameterization of small scale processes in larger scale general circulation models and thus to a better assessment of the role of the Arctic Ocean in climate change. Leads are small scale cracks in sea ice where important buoyancy flux processes occur between the Arctic atmosphere and ocean. They represent a small percentage of overall ice extent and are subgrid scale phenomena for Arctic general circulation models. Because of their subgrid scale nature, the impact of these important air sea fluxes must be parameterized in the larger models. The goal of this research is to develop a better understanding of Arctic Ocean mixed layer modification by buoyancy flux from multiple leads in sea ice. See also ADM002252. The original document contains color images.

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