Fluxos de calor e transferência de energia calorífica entre o oceano e a atmosfera sobre estruturas oceânicas de mesoescala no Atlântico Sul

Understanding the interactions between ocean and atmosphere in regions of oceanographic fronts is of vital importance for the improvement of numerical models for weather and climate forecasting. In the South Atlantic Ocean (SAO) the meeting between the warm waters of the Brazil Current (BC) and the...

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Bibliographic Details
Main Author: Arsego, Diogo Alessandro
Other Authors: Souza, Ronald Buss de, http://lattes.cnpq.br/0537824080913130, Pezzi, Luciano Ponzi, http://lattes.cnpq.br/9168878830863753, Acevedo, Otávio Costa, http://lattes.cnpq.br/8696858608013659, Anabor, Vagner, http://lattes.cnpq.br/5770274675104746
Format: Thesis
Language:Portuguese
Published: Universidade Federal de Santa Maria 2012
Subjects:
Interação oceano-atmosfera
Fluxos de calor
Energia calorífica
Vórtices oceânicos
Oceano atlântico sul
Camada limite atmosférica
Ocean-atmosphere interaction
Heat fluxes
Energy exchanges
Oceanic eddies
South atlantic ocean
Atmospheric boundary layer
CNPQ::CIENCIAS EXATAS E DA TERRA::GEOCIENCIAS::METEOROLOGIA
South Atlantic Ocean
Online Access:http://repositorio.ufsm.br/handle/1/10263
Description
Summary:Understanding the interactions between ocean and atmosphere in regions of oceanographic fronts is of vital importance for the improvement of numerical models for weather and climate forecasting. In the South Atlantic Ocean (SAO) the meeting between the warm waters of the Brazil Current (BC) and the cold waters of the Malvinas (Falkland) Current (MC) in the region known as the Brazil-Malvinas Confluence (BMC), results in intense mesoscale oceanic activity and, for this reason, this region is considered one of the most energetic of the Global Ocean. The interactions resulting from the thermal contrast in regions oceanographic fronts of the OAS are investigated in this work through estimates of heat fluxes based on data collected in situ and by satellite. The results of this study show that the response to the thermal contrasts found in the ocean is in the form of heat fluxes and these fluxes are critical in modulating the atmospheric boundary layer (ABL). Estimation based on data collected in situ show that in the warm side (north) of the oceanographic front the fluxes are more intense (latent heat: 62 W/m² and sensible heat: 0.6 W/m²) than in the cold side (south) (latent heat: 5.8 W/m² and sensible heat: -13.8 W/m²). In the South Atlantic Current (SAC) along the 30° S parallel, heat fluxes are directly related to the meandering characteristic of the current. The data collected in situ, in addition to allow heat flux estimates at a better spatial resolution, were used to develop a new method for estimating the heat energy exchanged between the atmosphere and the ocean caused by the presence of mesoscale oceanic structures. This methodology consists in the comparison of a radiosonde profile taken over waters of the structure of interest and another taken over waters which do not belong to this structure. The methodology was used to estimate the heat energy transfer between the atmosphere and the ocean over the top of three structures sampled in the OAS. The estimation of the heat energy transferred by a warm eddy ...

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