A Unified Air-Sea Interface for Fully Coupled Atmosphere-Wave-Ocean Models for Improving Intensity Prediction of Tropical Cyclones

A Unified Air-Sea Interface for Fully Coupled Atmosphere-Wave-Ocean Models for Improving Intensity Prediction of Tropical Cyclones

The goals of this PI team are to understand the physical processes that control the air-sea interaction and its impact on rapid intensity changes in tropical cyclones (TCs), and to develop a physically based and computationally efficient coupling at the air-sea interface that is flexible for use in...

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Bibliographische Detailangaben
Hauptverfasser: Chen, Shuyi S, Donelan, Mark A, Srinivasan, Ashwanth, Allard, Rick, Campbell, Tim, Smith, Travis, Chen, Sue, Jin, Hao, Wang, Shouping, Doyle, James
Format: Report
Sprache:eng
Schlagworte:
ABL(ATMOSPHERE BOUNDARY LAYER)
AIR WATER INTERACTIONS
ATMOSPHERE MODELS
BOUNDARY LAYER
COUPLED ATMOSPHERE-WAVE-OCEAN MODELS
DRAG
DRAG COEFFICIENT
ENTHALPY
EQUATIONS
ESMF(EARTH SYSTEM MODELING FRAMEWORK)
HURRICANE ISAAC
HURRICANE IVAN
HURRICANES
Hydrology, Limnology and Potamology
INTENSITY
KINETIC ENERGY
Meteorology
MOMENTUM
OCEAN MODELS
OCEAN WAVES
OML(OCEAN MIXED LAYER)
PARAMETERIZATIONS
Physical and Dynamic Oceanography
SEA SPRAY
TKE(TURBULENT KINETIC ENERGY)
TROPICAL CYCLONES
UMWM(UNIVERSITY OF MIAMI WAVE MODEL)
WEATHER FORECASTING
WIND VELOCITY
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Beschreibung
Zusammenfassung:The goals of this PI team are to understand the physical processes that control the air-sea interaction and its impact on rapid intensity changes in tropical cyclones (TCs), and to develop a physically based and computationally efficient coupling at the air-sea interface that is flexible for use in a multi-model system and portable for transition to the next generation research and operational coupled atmosphere-wave-ocean-land models. Prepared in cooperation with RSMAS/University of Miami, Naval Research Lab, Stennis Space Center, MS, Naval Research Lab, Monterey, CA, APL/University of Washington, NCAR/MMM, and NOAA/EMC.