Global ETD Search

91	Processos de instabilidade barotrópica da Corrente do Brasil na Bacia de Santos / Barotropic instability process of Brazil current at Santos Basin Diogo Peregrino Corrêa Pereira 14 August 2009 (has links) A Corrente do Brasil é formada na bifurcação do ramo sul da Corrente Sul Equatorial e flui meridionalmente para sul ao largo das costas leste, sudeste e sul do Brasil, apresentando intensa atividade de mesoescala entre a Cadeia Vitória-Trindade (20oS) e o Cabo de Santa Marta Grande (28oS). O conhecimento de tal atividade, construído ao longo do tempo, se refere principalmente aos meandros e vórtices frontais, sendo os vórtices de borda na configuração de dipolos vorticais relatados apenas através de imagens AVHRR. Dessa forma, objetivamos caracterizar a estrutura dinâmica de um dipolo vortical, observado na Bacia de Santos, a partir de dados quase-sinóticos de velocidade e hidrográficos oriundos do Cruzeiro Dinâmica do Ecossistema da Plataforma da Região Oeste do Atlântico Sul V. O mapeamento objetivo das estruturas capturadas pela grade amostral quase-sinótica do cruzeiro foi o ponto de partida para a descrição do dipolo e avaliação de sua geostrofia. Os campos de função de corrente apresentaram um padrão clássico de dipolo vortical, com vórtices ciclônico e anticiclônico posicionados em lados opostos ao eixo da corrente, que se enfraquece após a estrutura. Em média, o diâmetro de ambos os vórtices ficou em torno de 110 km, em seus maiores eixos. Em seguida, como o número de Rossby máximo foi de 0,27, para avançar nas questões dinâmicas envolvendo a estrutura, aproximamos o oceano a um modelo quase-geostrófico de 11/2-camadas derivado das observações e dinamicamente calibrado. A análise dos campos modelados, utilizando o número de Burger, revelou que a vorticidade relativa compete com a vorticidade de estiramento pela dinâmica do sistema. Ao compararmos os campos modelados de função de corrente e vorticidade potencial, observamos que o dipolo e o escoamento da CB não se encontram em um cenário estacionário. Finalmente, evidências de retroalimentação mútua entre os vórtices do dipolo foram obtidas através da interação entre o campo de função de corrente de uma estrutura com o campo de vorticidade potencial da outra. Logo, concluímos que o dipolo capturado encontrava-se em processo de crescimento barotrópico. / The Brazil Current (BC) is formed at the bifurcation of the southern branch of the South Equatorial Current and flows south-southeastward off the east, southeast and southern Brazilian continental margin, exhibiting intense meso-scale activity between the Vitória-Trindade Ridge (20oS) and Cape Santa Marta Grande (28oS). The knowledge of such activity, built over time, refers mainly to the frontal meanders and eddies. The edge vortical structures as a dipole configuration are reported only through AVHRR images. Thus, we aimed to characterize the dynamical structure of a BC vortical dipole, observed in the Santos Basin, with a quasi-synoptic velocity (vessel-mounted ADCP) and hydrographic (CTD) dataset from DEPROAS V cruise. The objective mapping of structures captured by the cruise sampling grid was the departing point for the description of the dipole and evaluation of its degree of geostrophy. The fields of the stream function showed a classic pattern of a dipole with cyclonic and anticyclonic eddies positioned on opposite sides of the current axis. On average, the diameter of the two eddies was around 110 km in their largest axes. Then, as the Rossby number was 0.27, we advanced in investigating the issues involving the dynamic structure by we approximating the ocean to a 11/2 layer quasi-geostrofic model derived from the observations and dynamically calibrated. Burger number revealed that both relative and stretching vorticity were competing for the dynamics of the system. The comparison between the modeled stream function and potential vorticity fields showed that both the dipole and the BC flow were not in a stationary state. Finally, evidences of reinforcement between the eddies of the dipole were obtained through the interaction between the field of the stream function of vortical structure with the field of potential vorticity of the other one, and vice-versa. Therefore, we conclude that the dipole were in a barotropic growth process. bacia de Santos corrente do Brasil dipolos vorticiais vórtices barotropic instability Brazil currents dipoles eddies
92	Simulations aux grandes échelles de panaches libre et impactant / Large eddies simulation of free and impinging plumes Lamalle, Damien 12 December 2014 (has links) Lors des études de désenfumage, le recours à la mécanique des fluides numérique, par l’emploi de codes tridimensionnels (CFD), est de plus en plus employé. Cependant, suite aux études de Dalmarnock (2007) et d’Arcueil (2009), il a été montré que les résultats numériques peuvent s’éloigner de façon significative des résultats expérimentaux. Ces différences peuvent être notamment induites par des faibles erreurs de certains paramètres clés, ce qui limite l’utilisation prédictive de ces codes dans les études d’ingénierie de la sécurité incendie. Dans ce cadre, cette thèse est consacrée à la simulation numérique d’écoulement induit par une source de chaleur. Les simulations sont réalisées avec le code FDS, largement utilisé par la communauté incendie, afin d’étudier sa capacité à reproduire la dynamique de ces écoulements. L’étude se porte principalement sur la simulation d’un panache, créé par une plaque chauffante, avec une comparaison détaillée à des résultats expérimentaux. Les résultats des simulations montrent que, les profils radiaux des statistiques en un point de vitesse et température d’ordre 1 et 2, sont en très bon accord avec les résultats de la littérature. Les évolutions des flux de masse, de flottabilité et de quantité de mouvement, ainsi que celle du nombre de Richardson du panache, sont également bien reproduites. Après avoir validé la simulation, l’évolution du coefficient d’entraînement avec la hauteur a pu être examinée en détail, montrant que ce coefficient diminue en s’éloignant de la source de chaleur, passant de 0.4 en partie proche de la source à 0.1 en partie éloignée. Cette évolution a pu être expliquée par une dépendance du coefficient d’entraînement avec le nombre de Richardson local du panache et le rapport des masses volumiques entre le panache et l’air ambiant. La thèse a également permis de montrer que les variables étudiées sont sensibles à différents modèles de sous maille. Pour finir, une méthodologie a été proposée pour étudier la sensibilité de différents paramètres d’entrée de simulation et appliquée sur un cas réaliste d’incendie dans un bâtiment. Cette analyse a permis de mettre en évidence plusieurs paramètres explicites (paramètres définis en concertation avec le propriétaire du bâtiment, les services d’incendie et les autorités compétentes) qui modifient les résultats de la simulation : la puissance du foyer, le débit d’extraction des gaz chauds, mais également certains paramètres implicites (paramètres définis par le modélisateur) comme le débit d’insufflation au niveau des entrées d’air frais. / Fire Safety Engineering studies often rely on the use of Computational Fluid Dynamics, but several recent studies (e.g. Dalmarnock 2007, Arcueil Numérique 2009) have highlighted significant differences between experimental data and the results of numerical simulations. The numerical models are often rather sensitive to the choice of boundary conditions, and may depend on key parameters which are poorly understood. The research presented in this thesis addresses some of these questions, using the CFD code FDS to simulate a set of experimental test cases, and to test the sensitivity of the simulations to different input parameters. The general configuration studied is that of a thermal plume generated by a heated plate, either rising freely or else impacting on a ceiling. Radial profiles of 1st and 2nd order statistics of temperature and velocity agree well with published data, as does the axial variation of Mass, Momentum and Buoyancy fluxes, and the local Richardson number. A detailed study of the entrainment coefficient shows that this varies with distance from the heat source, between about 0.4 and 0.1; this is explained by the dependence of entrainment on the local Richardson number and the density difference between the plume and the ambient air. The comparison between simulations has also been used to investigate the applicability of different sub-grid scale models for this type of flow. Finally, a methodology has been developed for evaluating the sensitivity of the calculations to different input parameters, and the method has been applied to a test configuration representing a fire in a building. The results show the relative importance of both explicitly-defined parameters that characterize the situation (thermal power of the fire, ventilation regime inside the building) and implicit model parameters. Simulations aux grandes échelles Panaches Sécurité incendie Large eddies simulation Plumes Fire Safety
93	Seasonal evolution of physical processes and biological responses in the northern Red Sea Asfahani, Khaled 12 1900 (has links) A sequence of autonomous underwater glider deployments were used to characterize the spatial-temporal variability of the region over an eight month period from late September to May. Strongly stratified system was found in early fall with significant gradients in both temperature (T) and salinity (S), during winter T < 23°C and minimum S of 40.3 psu was observed and resulting in weakened stratification that enables deep convective mixing and upwelling of deep water by cyclonic circulations in the region leading to significant biomass increase. Throughout the entire observational period the slope of the 28 and 28.5 kg/m3 isopycnals remained sloping downward from offshore toward the coast reflected a persistent northward geostrophic flow. The depth of the 180 μmol/kg isopleth of oxygen, indicative of the top of the nutricline, paralleled the depth of the 28 kg/m3, but remained slightly deeper than the isopycnal. The deep winter mixing did not penetrate the nutricline where the mixed layer was deeper near the coast. However, because of the cyclonic signature the 28 kg/m3 rose to the surface offshore, injecting nutrients into the surface layer and promoting increased biomass in the central Red Sea. With the presence of cyclonic eddies, there was evidence of subduction associated with the cross-eddy circulation. This subducted flow was toward the coast within the domain of the glider observations. During this period, increases in the particulate backscatter were associated with increased chlorophyll indicating that the suspended particles were primarily phytoplankton particles. Within the mean northward flow there is a cross-basin flow wherein water is upwelled near the center of the Red Sea, there is a eastward component to the northward flow, and subsequent downwelling near the coasts. Within the surface flow subductive processes lead not only to a horizontal flow, but also a downward component toward the coast. Overall transport is very 3-dimensional in the northern Red Sea, such that northward transport and its associated embedded circulations are northward, while southward transport occurs on the western side of the Red Sea, in contrast to some of the descriptions of flow provided in earlier papers. Northern Red Sea Water formation Winter circulation deep conviction phytoplankton biomass cyclonic eddies
94	When an eddy encounters shelf-slope topography Cherian, Deepak Abraham January 2016 (has links) Thesis: Ph. D., Joint Program in Physical Oceanography (Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planetary Sciences; and the Woods Hole Oceanographic Institution), 2016. / Cataloged from PDF version of thesis. / Includes bibliographical references (pages 129-135). / Eddies in the ocean move westwards. Those shed by western boundary currents must then interact with continental shelf-slope topography at the western boundary. The presence of other eddies and mean flows complicates this simple picture, yet satellite images show that mesoscale eddies translating near the shelfbreak routinely affect the continental shelves of the Mid-Atlantic Bight, the Gulf of Mexico etc. The consequent cross-shelfbreak transports are currently of unknown importance to shelf budgets of heat, salt and volume. Thus motivated, this thesis uses idealized continuously stratified numerical experiments to explore eddy-slope interactions under four questions: 1. Can the continental slope prevent an eddy from reaching the shelfbreak? 2. What is the structure of the eddy-driven offshore flow? 3. How is the continental shelf affected by an eddy at the shelfbreak? 4. Given surface observations, can one estimate the volume of water transported across the shelfbreak? The experiments show that the efficiency of Rossby wave radiation from the eddy controls whether it can cross isobaths: by radiating energy the eddy becomes shallow enough to move into shallower water. For wide continental slopes, relative to an eddy diameter, a slope can prevent an anticyclone from reaching the shelfbreak by shutting down such radiation. For narrow continental slopes, the interaction repeatedly produces dipoles, whose cyclonic halves contain shelf-slope water stacked over eddy water. The formation of such cyclones is explained. Then, the structure of shelf flows forced by the eddy are studied: their vertical structures are rationalized and scalings derived for their cross-isobath scales; for example, the extent to which the eddy influences the shelf. A recipe for estimating cross-isobath transports based on eddy surface properties is put forward. Finally, the findings are tested against observations in the Middle Atlantic Bight off the northeastern United States. / by Deepak Abraham Cherian. / Ph. D. Joint Program in Physical Oceanography. Woods Hole Oceanographic Institution. Eddies Oceanography
95	A turbulent combustion noise model Nathani, Arun 10 June 2012 (has links) A turbulent combustion noise model based on first principles is developed in this thesis. The model predicts (1) the pressure time series, (2) Sound Pressure Level (SPL) spectrum, (3) Over-All Sound Pressure Level (OASPL), (4) the thermoacoustic efficiency, (5) the peak frequency, and (6) the sound power of combustion generated noise. In addition, a correlation for sound power is developed based on fundamental burner and fuel variables known to affect the acoustic characteristics of turbulent combustion. The predicted pressure time series exhibits consistency with reality in that it has no steady component. It also confirms speculation in the literature that the predominant noise mechanism in open turbulent flames results from a "transition burning" phenomenon at the flame front. The predicted Sound Pressure Level spectrum, Over-All Sound Pressure Level, and the thermoacoustic efficiency are in excellent agreement with the results available in the literature. The shifts in the peak frequency with basic burner and fuel parameters are consistent with experimental observations from the literature. The disagreements between the predicted and the observed exponents of fuel and burner parameters for sound power are shown to be well within the standard deviation of the experimental observations. Certain areas for further analytical research on the combustion noise mechanism are identified. / Master of Science LD5655.V855 1989.N375 Aerodynamic noise -- Research Eddies Jet planes -- Noise -- Research
96	Étude des circulations à (sous)mésoéchelle et de leur influence sur la distribution spatiale des éléments biogéochimiques et biologiques à l’aide de mesures in situ et satellites couplées physique-biogéochimie / Study of (sub)mesoscale circulations and their influences on the spatial distribution of biogeochemical/biological elements with coupled physical and biogeochemical in situ and satellite observations Rousselet, Louise 04 December 2018 (has links) Les structures de (sous)mésoéchelle (tourbillons, filaments ou fronts) sont des composantes majeures de la circulation océanique et dirigent la distribution des éléments chimiques et biologiques dans l'océan. Cependant, encore peu d'observations attestent de cette influence. L'objectif de cette thèse est de regrouper divers jeux de données in situ, acquis aux échelles typiques de la (sous)mésoéchelle et de coupler ces informations à des observations satellites haute-résolution et des sorties de modèles numériques pour identifier et mieux comprendre l'influence de la circulation fine échelle sur la distribution spatiale des éléments. Dans un premier temps, une étude globale de la circulation océanique de surface dans le Pacifique Sud-Ouest permet de donner un aperçu de l'importance des circulations de chaque échelle (de la grande à la petite échelle) sur la distribution horizontale des éléments biogéochimiques dans cette région. Dans un second temps, l'influence de la mésoéchelle dans deux régions (mer de Corail et zone autour de 170°O et 19°S) mises en avant par la première étude pour leurs caractéristiques hydrodynamiques et biogéochimiques, est inspectée. Deux cas d'études montrent respectivement que les tourbillons océaniques, en particulier les anticyclones, sont responsables du transport et de l'échange de masses d'eau entre deux courants indépendants et que la circulation à mésoéchelle est une des sources de la formation d'un bloom phytoplanctonique. Enfin, deux autres études témoignent de l'influence des fronts et des vitesses verticales à sousmésoéchelle sur la distribution horizontale et vertical de matière et sur la structure des communautés phytoplanctoniques. / Meso- and submesoscale features (eddies, filaments, fronts) are key components of the oceanic circulation and drive the distribution of chemical and biological elements in the ocean. However, very few in situ observations confirm this influence. The aim of this PhD thesis is to use various in situ datasets, achieved at (sub)mesoscale, coupled with high-resolution satellite observations and modelled outputs to identify and better understand the impact of fine scale circulations on the spatial distribution of biogeochemical matter. Firstly, a global study of the entire southwest Pacific surface circulation provides an overview of the significance of each scale (from large to submesoscale) circulations on the horizontal distribution of biogeochemical components in this region. Secondly, the influence of mesoscale activity is inspected in two regions (Coral Sea and the region around 170°W and 19°S) highlighted by the previous study for their hydrodynamical and biogeochemical characteristics. Two cases study show, respectively, that eddies, and in particular anticyclones, are able to transport water masses between two independant jets and that mesoscale trajectories of surface water masses are responsible for a phytoplanktonic bloom formation. Finally, two other studies highlight the influence of submesoscale fronts and vertical velocities on the horizontal and vertical distribution of biogeochemical matter and on the phytoplanktonic community structure. (sous)mésoéchelle Tourbillons Fronts Advection Transport Couplage physique-Biogéochimie (sub)mesoscale Eddies Fronts Advection Transport Physical-Biogeochemical coupling 550
97	A Corrente do Brasil ao largo de Santos: medições diretas / Brazil Current offshore Santos: direct measurements Souza, Maria Cristina de Arruda 13 September 2000 (has links) O comportamento da Corrente do Brasil (CB) ao largo de Santos foi determinado a partir de medições diretas de velocidade e temperatura realizadas como parte do projeto COROAS. Foram lançados três fundeios, sobre as isóbatas de 100 m (C1), 200 m (C2) e 1000 m (C3). Os dados obtidos passaram por diversas análises - estatística descritiva, análises gráficas com o auxílio de rosas de distribuição, stickplots", séries temporais e hodógrafos e análise de Funções Empíricas Ortogonais (EOF). Os resultados mostram que o ponto C1 sofre grande influência meteorológica em todas as estações sazonais e profundidades amostradas, há predominância do fluxo para SW, mas este apresenta grande variabilidade devida à sua alternância com o fluxo para NE. Essa variabilidade, com escala subinecial, mostra que durante a maior parte do tempo, o ponto C1 esteve imerso num regime típico de plataforma continental, e não de correntes de contorno oeste. O fluxo da CB atinge essa região apenas esporadicamente. Foi observada a bipolaridade entre as intrusões das massas de água transportadas pela CB (ACAS e AT), como caracterizada por Castro (1996). Nos pontos C2 e C3, a presença da CB é marcante. Nos três primeiros níveis, persistiu um forte fluxo para SW, com intensidades da ordem de 1 m/s. A variabilidade temporal dessas correntes é pequena, principalmente nos três níveis superiores. No nível de 698 m, em C3, predominou o fluxo para NE da Água Intermediária Antártica. As melhores definições do fluxo da CB nas três profundidades superiores dos fundeios C2 e C3 foram observadas na primavera/93 e no verão/94. A variabilidade do fluxo, nos três fundeios, é bem descrita pelo comportamento das EOF. Um vórtice ciclônico, de núcleo frio, com período de 20 dias e escala vertical de aproximadamente 700 m, foi registrado em fevereiro de 1993. Indícios desse vórtice foram detectados até no ponto C1. O transporte de volume da CB, entre a quebra da plataforma e o talude, possui um valor médio de 2,01  0,98 Sv, relativamente ao nível de 300 m e tem sentido predominante para SW. Foram realizados alguns estudos dos casos de variabilidade da corrente. Esses estudos ilustram o modelo de Lee et al.(1981), sobre surgimento e características dos vórtices ciclônicos de núcleo frio, e o transporte de Ekman. / Current and temperature measurements, off shore Santos (23 56 S - 046 19 W), were performed to determine the behaviour of the Brazil Current (BC), during COROAS Project. Three moored arrays were launched on the 100 m (C1), 200 m (C2) e 1000 m (C3) isobaths. Several analysis were performed statistical, compass plots, time series and Empirical Orthogonal Functions (EOF). On the C1 point, external continental shelf, meteorological influence is notable in all seasons and depths sampled, predominate southwestward currents, with big variability in consequence of the alternating northwestward. This variability, with subinercial scale, shows that C1 point was immersed in a typical continental shelf pattern, almost all the time, and not in a western boundary pattern. Brazil Current flow reaches this region sporadically. It was observed a bipolarity between water masses intrusions, South Atlantic Central Water and Tropical Water, transported by BC, supporting earlier observations from Castro (1996). On the three first levels of C2 (continental break) and C3 (continental slope) points, Brazil Current is a well-developed boundary current southwestward, reaching speeds of 1 m/s, with small time variability. On C3 point, 698 m depth, predominate Intermediate Antarctic Water northwestward flow. The best definitions of the BC flow were observed during Spring (1993) and Summer (1994). A good representation of the observed variability was obtained by EOFs . A cyclonic, cold core BC eddy with period of 20 days and vertical scale approximately of 700 m, was detected in February (1993). This eddy seems to have reached C1 point. Brazil Current mean volume transport, between continental break and continental slope , was 2.01 + 0.98 Sv, relative to 300 m and southwestward, predominately. Some cases of current variability were studied. These cases illustrate the Lee et al. (1981) model about onset and features of the cyclonic cold core eddies and Ekman transport. Brazil Current continental shelf Corrente do Brasil correntes currents eddies. plataforma continental sazonal variabilities transporte de volume variabilidade sazonal volume transport vórtices.
98	A Corrente do Brasil ao largo de Santos: medições diretas / Brazil Current offshore Santos: direct measurements Maria Cristina de Arruda Souza 13 September 2000 (has links) O comportamento da Corrente do Brasil (CB) ao largo de Santos foi determinado a partir de medições diretas de velocidade e temperatura realizadas como parte do projeto COROAS. Foram lançados três fundeios, sobre as isóbatas de 100 m (C1), 200 m (C2) e 1000 m (C3). Os dados obtidos passaram por diversas análises - estatística descritiva, análises gráficas com o auxílio de rosas de distribuição, stickplots, séries temporais e hodógrafos e análise de Funções Empíricas Ortogonais (EOF). Os resultados mostram que o ponto C1 sofre grande influência meteorológica em todas as estações sazonais e profundidades amostradas, há predominância do fluxo para SW, mas este apresenta grande variabilidade devida à sua alternância com o fluxo para NE. Essa variabilidade, com escala subinecial, mostra que durante a maior parte do tempo, o ponto C1 esteve imerso num regime típico de plataforma continental, e não de correntes de contorno oeste. O fluxo da CB atinge essa região apenas esporadicamente. Foi observada a bipolaridade entre as intrusões das massas de água transportadas pela CB (ACAS e AT), como caracterizada por Castro (1996). Nos pontos C2 e C3, a presença da CB é marcante. Nos três primeiros níveis, persistiu um forte fluxo para SW, com intensidades da ordem de 1 m/s. A variabilidade temporal dessas correntes é pequena, principalmente nos três níveis superiores. No nível de 698 m, em C3, predominou o fluxo para NE da Água Intermediária Antártica. As melhores definições do fluxo da CB nas três profundidades superiores dos fundeios C2 e C3 foram observadas na primavera/93 e no verão/94. A variabilidade do fluxo, nos três fundeios, é bem descrita pelo comportamento das EOF. Um vórtice ciclônico, de núcleo frio, com período de 20 dias e escala vertical de aproximadamente 700 m, foi registrado em fevereiro de 1993. Indícios desse vórtice foram detectados até no ponto C1. O transporte de volume da CB, entre a quebra da plataforma e o talude, possui um valor médio de 2,01  0,98 Sv, relativamente ao nível de 300 m e tem sentido predominante para SW. Foram realizados alguns estudos dos casos de variabilidade da corrente. Esses estudos ilustram o modelo de Lee et al.(1981), sobre surgimento e características dos vórtices ciclônicos de núcleo frio, e o transporte de Ekman. / Current and temperature measurements, off shore Santos (23 56 S - 046 19 W), were performed to determine the behaviour of the Brazil Current (BC), during COROAS Project. Three moored arrays were launched on the 100 m (C1), 200 m (C2) e 1000 m (C3) isobaths. Several analysis were performed statistical, compass plots, time series and Empirical Orthogonal Functions (EOF). On the C1 point, external continental shelf, meteorological influence is notable in all seasons and depths sampled, predominate southwestward currents, with big variability in consequence of the alternating northwestward. This variability, with subinercial scale, shows that C1 point was immersed in a typical continental shelf pattern, almost all the time, and not in a western boundary pattern. Brazil Current flow reaches this region sporadically. It was observed a bipolarity between water masses intrusions, South Atlantic Central Water and Tropical Water, transported by BC, supporting earlier observations from Castro (1996). On the three first levels of C2 (continental break) and C3 (continental slope) points, Brazil Current is a well-developed boundary current southwestward, reaching speeds of 1 m/s, with small time variability. On C3 point, 698 m depth, predominate Intermediate Antarctic Water northwestward flow. The best definitions of the BC flow were observed during Spring (1993) and Summer (1994). A good representation of the observed variability was obtained by EOFs . A cyclonic, cold core BC eddy with period of 20 days and vertical scale approximately of 700 m, was detected in February (1993). This eddy seems to have reached C1 point. Brazil Current mean volume transport, between continental break and continental slope , was 2.01 + 0.98 Sv, relative to 300 m and southwestward, predominately. Some cases of current variability were studied. These cases illustrate the Lee et al. (1981) model about onset and features of the cyclonic cold core eddies and Ekman transport. Corrente do Brasil correntes plataforma continental transporte de volume variabilidade sazonal vórtices. Brazil Current continental shelf currents eddies. sazonal variabilities volume transport
99	Eddy dynamics of [Beta] plumes / Eddy dynamics of beta plumes Kida, Shinichiro January 2003 (has links) Thesis (S.M.)--Joint Program in Oceanography/Applied Ocean Science and Engineering (Massachusetts Institute of Technology, Dept. of Earth, Atmospheric, and Planetary Sciences; and the Woods Hole Oceanographic Institution), 2003. / In title on t.p., "[Beta]" appears as the Greek letter. / Includes bibliographical references (p. 81-84). / by Shinichiro Kida. / S.M. Woods Hole Oceanographic Institution. Eddies Plumes (Fluid dynamics)
100	Lagrangian dispersion and deformation in submesoscale flows Essink, Sebastian. January 2019 (has links) Thesis: Ph. D., Joint Program in Oceanography/Applied Ocean Science and Engineering (Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planetary Sciences; and the Woods Hole Oceanographic Institution), 2019 / Cataloged from PDF version of thesis. "The pagination in this thesis reflects how it was delivered to the Institute Archives and Special Collections. TOC pagination for Bibliography section is off by one page"--Disclaimer Notice page. / Includes bibliographical references (pages 115-123). / Submesoscale currents, with horizontal length scales of 1-20 km, are an important element of upper ocean dynamics. These currents play a crucial role in the horizontal and vertical redistribution of tracers, the cascade of tracer variance to smaller scales, and in linking the mesoscale circulation with the dissipative scales. This thesis investigates submesoscale flows and their properties using Lagrangian trajectories of observed and modeled drifters. We analyze statistics of observed drifter pairs to characterize turbulent dispersion at submeso-scales. Contrary to theoretical expectations, we find that nonlocal velocity gradients associated with mesoscale eddies dominate the separation of drifters even at the kilometer scale. At submeso-scales, we observe energetic motions, such as near-inertial oscillations, that contribute to the energy spectrum but are inefficient at dispersion. / Using trajectories in a model of submesoscale turbulence, we find that, if drifters have a vertical separation, vertical shear dominates the dispersion and conceals horizontal dispersion regimes from drifter observations. Particularly in submesoscale flows, vertical shear is orders of magnitude larger than horizontal gradients in velocity. Since conventional drifters in the ocean are not affected by vertical shear, it is likely that drifter-derived diffusivity underestimates the diffusivity that a tracer would experience. Lastly, we test and apply cluster-based methods, using three or more drifters, to estimate the velocity gradient tensor. Since velocity gradients become large at submesoscales, the divergence, strain, and vorticity control the evolution and deformation of clusters of drifters. Observing the velocity gradients using drifters, enables us to further constrain the governing dynamics and decipher submesoscale motions from inertia-gravity waves. / These insights provide a Lagrangian perspective on submesoscale flows that illuminates scales that are challenging to observe from other platforms. We reveal observational and theoretical challenges that need to be overcome in future investigations. / "Funded by the National Science Foundation (OCE-I434788) and the Office of Naval Research (N00014-13-1-0451, Grant N00014-16-1-2470)"--Page 5 / by Sebastian Essink. / Ph. D. / Ph.D. Joint Program in Oceanography/Applied Ocean Science and Engineering (Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planetary Sciences; and the Woods Hole Oceanographic Institution) Woods Hole Oceanographic Institution. Ocean currents. Dispersion. Eddies.

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