Avaliacao da radioatividade natural em areias das praias da Grande Vitoria, Espirito Santo / Assessment of natural radiation of beachs sands in Great Vitoria, Espirito Santo

AQUINO, REGINALDO R. de

09 October 2014

Made available in DSpace on 2014-10-09T12:28:38Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:57:15Z (GMT). No. of bitstreams: 0 / Neste trabalho foram determinadas as concentrações dos radionuclídeos naturais 226Ra, 232Th e 40K em amostras de areias superficiais para 16 localizações ao longo da costa da Grande Vitória, região metropolitana do estado do Espírito Santo, sudeste do Brasil. As áreas de estudo compreendem as praias de Manguinhos e Jacaraípe no município da Serra, Camburi, Praia do Canto e Curva da Jurema no município de Vitória, Praia da Costa e Praia de Itapuã no município de Vila Velha, Praia de Setibão, Setibinha, Praia do Morro, Praia das Castanheiras e Praia da Areia Preta no Município de Guarapari e areia da Reserva Paulo Cesar Vinha também localizada no município de Guarapari. Para cada sítio de estudo, três amostras foram seladas em frascos de 100 ml de polietileno de alta densidade. Após espera de aproximadamente 4 semanas para atingir o equilíbrio secular das séries do 238U e 232Th, as amostras foram medidas por espectrometria gama de alta resolução e o espectro analisado com o software WinnerGamma. A correção da auto-absorção foi realizada para todas as amostras. A concentração do 226Ra foi determinada pela média ponderada das concentrações do 214Pb e 214Bi, a concentração de 232Th pela média ponderada das concentrações dos 228Ac, 212Pb e 212Bi e a concentração de 40K pela sua transição única de 1460 keV. O equivalente em rádio e o índice gama foram obtidos a partir das concentrações de 226Ra, 232Th e 40K. As concentrações de 226Ra variaram de 3 ± 1Bq.kg-1 a 738 ± 38Bq.kg-1, com o maior valor na localidade central da Praia de Camburi. As concentrações de 232Th variaram de 7 ± 3Bq.kg-1 a 7422 ± 526Bq.kg-1, com o maior valor na Praia da Areia Preta. As concentrações de 40K variaram de 14 ± 6Bq.kg-1 a 638 ± 232Bq.kg-1, com o maior valor na Praia da Areia Preta. O cálculo do equivalente em rádio e do índice gama mostrou duas faixas distintas. Na primeira, para a maioria das praias, o equivalente em rádio variou de 15 ± 6Bq.kg-1 a 257 ± 18Bq.kg-1, abaixo do limite inferior de 370Bq.kg-1 recomendado pela OECD como adequado para uso em material de construção e o índice gama externo foi inferior ao limite aceitável de 1 sugerido pelo UNSCEAR. Na segunda, para as praias de Setibinha, Curva da Jurema, Camburi Sul e Camburi Central e Praia da Areia Preta, o equivalente em rádio variou de 820 ± 40Bq.kg-1 até 11200 ± 580Bq.kg-1, excedendo de 2 a 30 vezes o limite mínimo recomendado para aplicação na construção civil e o índice gama superou de 3 até quase 40 vezes o limite sugerido pelo UNSCEAR. / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP

brazil

coastal regions

sand

natural radioactivity

radium 226

thorium 232

potassium 40

sample preparation

gamma spectroscopy

high-purity ge detectors

dose equivalents

Nouvelle technique de grilles imbriquées pour les équations de Saint-Venant 2D / New nested grids technique for 2D shallow water equations

Altaie, Huda

17 December 2018

Les écoulements en eau peu profonde se rencontrent dans de nombreuses situations d’intérêts : écoulements de rivières et dans les lacs, mais aussi dans les mers et océans (courants de marée, tsunami, etc.). Ils sont modélisés par un système d’équations aux dérivées partielles, où les inconnues sont la vitesse de l’écoulement et la hauteur d’eau. On peut supposer que la composante verticale de la vitesse est petite devant les composantes horizontales et que ces dernières sont indépendantes de la profondeur. Le modèle est alors donné par les équations de shallow water (SWEs). Cette thèse se concentre sur la conception d’une nouvelle technique d’interaction de plusieurs grilles imbriquées pour modèle en eau peu profonde en utilisant des méthodes numériques. La première partie de cette thèse comprend, La dérivation complète de ces équations à partir des équations de Navier- Stokes est expliquée. Etudier le développement et l’évaluation des méthodes numériques en utilisant des méthodes de différences finies et plusieurs exemples numériques sont appliqués utilisant la condition initiale du niveau gaussien pour 2DSWEs. Dans la deuxième partie de la thèse, nous sommes intéressés à proposer une nouvelle technique d’interaction de plusieurs grilles imbriquées pour résoudre les modèles océaniques en utilisant quatre choix des opérateurs de restriction avec des résultats de haute précision. Notre travail s’est concentré sur la résolution numérique de SWE par grilles imbriquées. A chaque niveau de résolution, nous avons utilisé une méthode classique de différences finies sur une grille C d’Arakawa, avec un schéma de leapfrog complété par un filtre d’Asselin. Afin de pouvoir affiner les calculs dans les régions perturbées et de les alléger dans les zones calmes, nous avons considéré plusieurs niveaux de résolution en utilisant des grilles imbriquées. Ceci permet d’augmenter considérablement le rapport performance de la méthode, à condition de régler efficacement les interactions (spatiales et temporelles) entre les grilles. Dans la troisième partie de cette thèse, plusieurs exemples numéériques sont testés pour 2DSWE avec imbriqués 3:1 et 5:1. Finalement, la quatrième partie de ce travail, certaines applications de grilles imbriquées pour le modèle tsunami sont présentées. / Most flows in the rivers, seas, and ocean are shallow water flow in which the horizontal length andvelocity scales are much larger than the vertical ones. The mathematical formulation of these flows, so called shallow water equations (SWEs). These equations are a system of hyperbolic partial differentialequations and they are effective for many physical phenomena in the oceans, coastal regions, riversand canals. This thesis focuses on the design of a new two-way interaction technique for multiple nested grids 2DSWEs using the numerical methods. The first part of this thesis includes, proposing several ways to develop the derivation of shallow water model. The complete derivation of this system from Navier-Stokes equations is explained. Studying the development and evaluation of numerical methods by suggesting new spatial and temporal discretization techniques in a standard C-grid using an explicit finite difference method in space and leapfrog with Robert-Asselin filter in time which are effective for modeling in oceanic and atmospheric flows. Several numerical examples for this model using Gaussian level initial condition are implemented in order to validate the efficiency of the proposed method. In the second part of our work, we are interested to propose a new two-way interaction technique for multiple nested grids to solve ocean models using four choices of higher restriction operators (update schemes) for the free surface elevation and velocities with high accuracy results. Our work focused on the numerical resolution of SWEs by nested grids. At each level of resolution, we used explicit finite differences methods on Arakawa C-grid. In order to be able to refine the calculations in troubled regions and move them into quiet areas, we have considered several levels of resolution using nested grids. This makes it possible to considerably increase the performance ratio of the method, provided that the interactions (spatial and temporal) between the grids are effectively controlled. In the third part of this thesis, several numerical examples are tested to show and verify twoway interaction technique for multiple nested grids of shallow water models can works efficiently over different periods of time with nesting 3:1 and 5:1 at multiple levels. Some examples for multiple nested grids of the tsunami model with nesting 5:1 using moving boundary conditions are tested in the fourth part of this work.

Grille imbriquée

Modèle d’eau peu profonde

Modèle océan

Conditions aux limites

Nested grid

One-way nesting

Two-way nesting

Mesh refinement

Explicit finite difference method

Shallow water model

Derivation of 2D shallow water equations

Ocean model

Boundary conditions

Optimum feedback

Free surface flows

Hydrostatic pressure

Coastal regions