Modelagem física e computacional de ondas geradas pelo veto em um terminal portuário: o desempenho do modelo SWAN 40.51 em uma região com elevada reflexão e difração

Paes-Leme, Rafael B.; Violante-Carvalho, Nelson; Accetta, Domenico; Meirelles, Saulo

doi:10.1590/s0102-261x2008000100004

Rev. Bras. Geof.

2008

DOI: 10.1590/s0102-261x2008000100004

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Modelagem física e computacional de ondas geradas pelo veto em um terminal portuário: o desempenho do modelo SWAN 40.51 em uma região com elevada reflexão e difração

Rafael B. Paes-Leme¹,

Nelson Violante-Carvalho²,

Domenico Accetta³

et al.

Abstract: ABSTRACT. The SWAN wave model is widely used in coastal waters, and the main focus of this work is on its application in a harbour. A recently released version of SWAN now includes an approximation to compute diffraction, however there are few published works that discuss this matter. The performance of the model is therefore investigated in a harbour where reflection and diffraction play a relevant role. To assess its estimates, a phase-resolving Boussinesq wave model is employed as well, together with measur… Show more

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“…A considerable portion of the energy transferred from the atmosphere to oceans, lakes, and lagoons is carried in waves (Paes-Leme et al, 2008), and windgenerated waves are considered the dominant force in coastal hydrodynamics and morphodynamics (Rocha et al, 2012). The wave climate characterization of a region is determined through the statistical pattern of descriptive parameters, such as significant wave height, peak period, and propagation direction.…”

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Wave regime characterization in the northern sector of Patos Lagoon, Rio Grande do Sul, Brazil

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This paper describes wave prediction results for Patos Lagoon's northern sector through numerical modeling using Delft3D software. ERA-Interim satellite reanalysis data of wind intensity and direction were used as inputs to force the hydrodynamic model. For SWAN calibration and validation in the study region, wave parameters were used. These parameters were acquired in situ by a directional waverider buoy. Statistical data showed the good performance of the model, albeit with a tendency to overestimate significant wave height and underestimate peak period and propagation direction. Once validated, wave parameters for five points at different depths were obtained during the four seasons of the year between 2017 and 2018. In general, it was observed that the largest ripples come from the S and SSW directions and occurred during spring at the deepest point under wind conditions exceeding 10 m s -1 . Ripples up to 0.30 m account for 77.9 % at the shallowest point and 65.7 % at the deepest point. Thus, the study area was classified as low energy and characterized by small, high-frequency, short-period ripples strongly influenced and determined by the local depth because larger ripples are always observed in the deepest locations, giving the lagoon a characteristic of depth-limited ripples. The results obtained here have the potential to contribute to territorial management of the region, with emphasis on the Integral Protection Conservation Unit located in the study area (Itapuã State Park) and on the development and safety of the important, heavily used navigation route that connects Rio Grande Port to the state capital, Porto Alegre.

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Wave regime characterization in the northern sector of Patos Lagoon, Rio Grande do Sul, Brazil

et al. 2020

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Modelagem física e computacional de ondas geradas pelo veto em um terminal portuário: o desempenho do modelo SWAN 40.51 em uma região com elevada reflexão e difração

Cited by 1 publication

References 6 publications

Wave regime characterization in the northern sector of Patos Lagoon, Rio Grande do Sul, Brazil

Wave regime characterization in the northern sector of Patos Lagoon, Rio Grande do Sul, Brazil

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