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Dredging Volumes Prediction for the Access Channel of Santos Port Considering Different Design Depths

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Języki publikacji
EN
Abstrakty
EN
Santos is the most important Brazilian port, handling about 114 million of tons in 2016. In 2010, there was a great capital dredging in order to deepen the Access Channel to 15m deep (Chart Datum - CD). This depth was not achieved, due to inefficiency on dredging procedures. As deepening and maintaining design depths are indispensable, this study presents an analysis of sediment deposition in Santos Port Access Channel and an annual dredging volumes prediction, considering current bathymetric survey and design depths of 15, 16 and 17 m (CD).A numerical hydrodynamic and morphological model was developed for the interest area, by using Delft3D®, calibrated with waves, currents and water level data measured within Santos Port adjacen-cies. Sediment transport model was calibrated with suspended sediment data and historic series of dredged volumes from Santos Port Access Channel. Two different scenarios were simulated for each design depth, according to the regional environmental characteristics. For current bathymetric scenario, the model estimates that it would be necessary to dredge an annual average of about 4,325,000 m³ from Santos Port access chan-nel to maintain current depth condition. Regarding design depths of 15, 16, 17 meters, it would be an in-crease of 15%, 55%, and 80%.
Twórcy
autor
  • Hydraulic Technological Center Foundation, Sao Paulo, Brazil
  • University of São Paulo, São Paulo, Brazil
Bibliografia
  • 1. Alfredini, P. 2004. Estudo sobre avaliação das taxas de evolução do fundo do canal de acesso ao Porto de Santos no período de 1997 a 2003. Technical Report.
  • 2. CHM. 2016. Centro de Hidrografia da Marinha – Cartas Náuticas disponíveis. http://www.mar.mil.br/dhn/chm/box-cartas-raster/raster_disponiveis.html
  • 3. DELTARES. 2014. Delft 3D-FLOW- Simulation of multi-dimensional hydrodynamic flows and transport phenomena, including sediments. User Manual. 712p. Delft.
  • 4. DHI, 2008. Porto de Santos – Modelagem do Transporte de Sedimentos. Technical Report.
  • 5. Fredsoe, J. 1984. Turbulent boundary layer in wave-current interaction. Journal of Hydraulic Engineering 110: 1103-1120. - doi:10.1061/(ASCE)0733-9429(1984)110:8(1103)
  • 6. Fundação Ricardo Franco. 2008. EIA da Dragagem de Aprofundamento do Canal de Navegação, Bacias de Evolução e Berços de Atracação do Porto Organizado de Santos.
  • 7. Partheniades, E. 1965. Erosion and Deposition of Cohesive Soils. Journal of the Hydraulics Division, ASCE 91: 105-139.
  • 8. Van Rijn, L. C. 1993. Principles of Sediment Transport in Rivers, Estuaries and Coastal Seas. Aqua Publications, The Netherlands.
  • 9. Versteeg, H. K.; Malalasekera, W. 2007. An Introduction to Computational Fluid Dynamics – The Finite Volume Method. Harlow, England: Pearson Education, 517p.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-12d7f480-c9cd-4c93-b0ec-1ab698801ad7
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