Papers
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Extensão do molhe norte do Porto de Leixões: modelação física de um navio amarrado no posto A
O Porto de Leixões, localizado na costa norte de Portugal, é um dos maiores do país, recebendo diariamentevários navios de grandes dimensões. Um dos principais postos de acostagem situa-se à entrada do porto e encontra-se sujeito à agitação marítima que é difratada pelo olhe principal de proteção do porto. Para avaliar dos movimentos induzidos no navio estacionado nesse posto de acostagem e as forças exercidas nas suas amarras e defensas pela agitação incidente, utilizou-se o modelo físico de Leixões, construído num dos tanques do LNEC. Neste modelo físico, encontra-se representada a envolvente do porto de Leixões, assim como a sua batimetria. O modelo do navio
Year: 2020
Number Pages:
17-28pp.
Author(s): Pinheiro, L.; Pedro, F.; Abdelwahab, H.S.; Fortes, C. J. E. M.; Santos, J. A.; Capitão, R.
: Revista Recursos Hidricos
Editor: APRH
Volume:
Volume 41, Nº 1.
Keywords: Motions measurement; Constitutive relations; Moored ship; Scale model
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Numerical analysis of an onshore oscillating water column wave energy converter for different wall slopes
An alternative to the energy matrix expansion, due to the increase of global electricity demand, is the renewable sea wave energy source, which has high energy potential. The Oscillating Water Column (OWC) converter is one of the most studied, although it is not yet used at commercial scale. Therefore, searching the optimal geometric configuration is fundamental to turn this device viable. This study proposes a numerical analysis of an onshore OWC for different slopes of chamber walls (from 40o to 90o) and equipped with a Wells turbine. Simulations of incompressible 2D flows are performed by means of the FLUENT® software, which is based on Reynolds-averaged Navier-Stokes (RANS) equations. The k-
Year: 2020
Number Pages:
10-22pp.
Author(s): Güths, A.K.; Teixeira, P. R. F.; Didier, E.
: Revista Interdisciplinar de Pesquisa em Engenharia
Editor: RIPE
Volume:
Volume 6 No. 2.
Keywords: Numerical simulation; Renewable energy; Wave energy; Oscillating water column
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Numerical analysis of the influence of air compressibility effects on an oscillating water column wave energy converter chamber
The most studied device used for extracting wave energy is the Oscillating Water Column (OWC). In general, numerical simulations of these cases by means of models based on Reynolds Averaged Navier-Stokes equations adopt the Volume of Fluid method to deal with the free surface flow which is considered incompressible in both water and air. The aim of this study is to investigate the influence of the compressibility effect on the air inside the OWC chamber by the FLUENT® numerical model. A methodology is implemented, taking into account both water and air flows incompressible, but, at every instant, a pressure condition is imposed on the top boundary of the chamber to consider the compressibility effect. This pressure condition is based on an analytical equation that considers the isentropic transformation of the air and effects of Wells and impulse turbines. Results of compressible and incompressible numerical models are compared. The amplification factor, the root mean square of air pressure inside the chamber and OWC efficiency in relation to incident wave period, wave height and turbine characteristic relation are analyzed. Results show that air compressibility effects can diminish the predicted OWC efficiency up to about 20% in both Wells and impulse turbines.
Year: 2020
Number Pages:
1183-1193pp.
Author(s): Gonçalves, R.; Teixeira, P.; Didier, E.; Torres, F.
Editor: Elsevier
Volume:
Volume 153.
Keywords: Air compressibility; Volume of fluid; Numerical simulation; Oscillating water column device; Wave energy
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Numerical analysis of the performance of two onshore oscillating water column wave energy converters at different chamber wall slopes
In this study, a numerical analysis of the performance of two Oscillating Water Column (OWC) wave energy converters, at different front and back wall slopes, was carried out. The first device had vertical front and back walls and the second one had its wall slopes of 40° in relation to the horizontal plane. The FLUENT® numerical model, which is based on the Reynolds-Averaged Navier-Stokes (RANS) equations, was used. The Volume of Fluid (VoF) method was employed to take into account free surface flows. The case study comprised a 10 m deep flume with an onshore OWC at its end, equipped with a Wells turbine. A 2D hydrodynamic mathematical model was employed and a 3D air pressure effect inside the OWC air-chamber was considered. Analyses of the hydrodynamics behavior, fluid-structure interaction outside (run-up/down, reflected waves) and inside the chamber (free surface elevation, sloshing) and energy distribution (pneumatic extracted energy, reflected wave energy and energy losses) were conducted. Results showed that the device with inclined walls had the best efficiency in comparison with the other one. However, the latter showed lower variation in efficiency in the wave period range than the former.
Year: 2020
Number Pages:
14p.
Author(s): Gaspar, L. A.; Teixeira, P.; Didier, E.
: Revista Ocean Engineering
Editor: Elsevier
Volume:
Volume 201.
Keywords: Volume of fluid; Finite volume method; Numerical simulation; Oscillating water column device; Wave energy
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Numerical analysis of the response of an onshore oscillating water column wave energy converter to random waves
The main objective of this study is to investigate differences of random incident waves from regular ones in performance of wave energy converters (WEC). A numerical analysis of an onshore oscillating water column (OWC) WEC is carried out by means of the FLUENT® software, which is based on Reynolds - Averaged Navier-Stokes equations. Analyses of the efficiency of an onshore OWC device with similar characteristics of the Pico
Year: 2020
Number Pages:
12p.
Author(s): Teixeira, P. R. F.; Didier, E.
: Revista Energy
Editor: Elsevier
Volume:
Volume 220.
Keywords: Irregular/Random waves; RANS-VoF; Wells turbine; Oscillating water column; Wave energy
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O papel da engenharia na proteção do território e das suas gentes
Atualmente, mais importante que assegurar a resistência de um aglomerado urbano a um eventual invasor, importa garantir a sobrevivência a catástrofes naturais das infraestruturas críticas que garantem a salubridade das condições de vida nesse aglomerado, a mobilidade dos habitantes e o abastecimento de bens essenciais. Em rigor, face ao carater aleatório destas solicitações, pretende-se que, uma vez terminadas essas solicitações extremas, eventuais estragos causados pelas mesmas não impeçam o restabelecimento, em tempo útil, das atividades normais da população. Nesta comunicação apresentam-se ferramentas e procedimentos para avaliação do risco associado a infraestruturas críticas com um viés para o controlo de cheias urbanas e de infraestruturas de transporte marítimo.
Year: 2020
Number Pages:
201-221pp.
Author(s): Santos, J. A.; Pinheiro, L.; Fortes, C. J. E. M.
: Madeira Região Resiliente. Aprender com o Passado. Série Estudos Cindínicos
Editor: RISCOS - Associação Portuguesa de Riscos, Prevenção e Segurança
Volume:
Volume 9 (2020).
Keywords: Avaliação do risco; Resiliência; Infraestruturas críticas
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Sines breakwater harbour: the OSOM+ monitoring program
The current program of Systematic Observation of Maritime Works (OSOM+), under development at the National Laboratory for Civil Engineering (LNEC), is essentially applied to rubble mound breakwaters. The OSOM
Year: 2020
Number Pages:
49-57pp.
Author(s): Fortes, C. J. E. M.; Capitão, R.; Lemos, R.; Neves, M. G.; Silva, L. G.; Henriques, M. J.; Martins, T.
: Italian Journal of Engineering Geology and Environment
Editor: Sapienza Università Editrice
Volume:
1 (2020).
Keywords: Drone; Visual observations; Maintenance; Monitoring; Rubble mound breakwaters
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The HIDRALERTA system: Application to the ports of Madalena do Pico and S. Roque do Pico, Azores
HIDRALERTA is a forecast and early warning system for coastal and port regions capable of predicting emergency situations, as well as carrying out risk assessment. The system concentrates on evaluating wave overtopping and flooding scenarios. It uses offshore sea-wave and wind forecast data, as well as tide data, as input to determine wave overtopping at specific locations. The calculation of the mean overtopping discharge over a structure is made through artificial neural network (ANN) tools and/or empirical formulae, which are able to define the spatial distribution of the flow behind the structure.The HIDRALERTA system is composed of four modules developed in Open Source Web Technology, mainly using the Python Language. The Warning System can be configured and adapted for specific scenarios. The system has been successfully tested for the Port and Bay of Praia da Vitória, Terceira Island, Azores, Portugal, and is now under development and being implemented at the ports of Madalena do Pico and S. Roque do Pico.This paper describes the work carried out to date on the system and its application to these two ports in the Pico Island, Azores.
Year: 2020
Number Pages:
10p.
Author(s): Fortes, C. J. E. M.; Reis, M. T. L. G. V.; Pinheiro, L.; Poseiro, P.; Serrazina, V.; Mendonça, A. C.; SMITHERS, N; SANTOS, M.I.; Barateiro, J.; Azevedo, E. B.; SALVADOR, M.; Reis, F.
: Revista Aquatic Ecosystem Health & Management
Editor: Taylor & Francis
Keywords: Warning system; Flooding; Wave overtopping
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3-D scale model study of wave run-up, overtopping and damage in a rubble-mound breakwater subject to oblique extreme wave conditions
A set of scale-model tests carried out to enlarge the range of wave steepness values analysed in run-up, overtopping and armour layer stability studies, focusing on oblique extreme wave conditions and on their effects on a gentler slope breakwater
Year: 2019
Number Pages:
32-41pp..
Author(s): Santos, J. A.; Pedro, F.; Coimbra, M.; Figuero, A.; Fortes, C. J. E. M.; Sande, J.; Körner, M.; Lemos, R.; Bornschein, A.; Weimper, J.; van den Bos, J.; Dost, B.; Hofland, B.; Carvalho, R.; Alvarellos
: Defect and Diffusion Forum
Editor: Trans Tech Publications Ltd, Switzerland
Volume:
Volume 396.
Keywords: Instrumentation; 3D-Wave basin; Physical modelling
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A numerical tool for modelling oscillating wave surge converter with nonlinear mechanical constraints
Mechanical constraints have a non-negligible influence in the motion of oscillating wave surge converter (OWSC) devices. The key novelty of this paper is a numerical simulation tool for OWSCs that does not neglect or significantly compromise mechanical constraints such as hydraulic power take-off (PTO) system, revolute joints and frictional contacts among components. The paper is aimed at presenting the key components of the numerical simulation tool and at validating it with laboratory data featuring an OWSC with mechanical constraints under regular and irregular waves. It is based on the implementation of the multibody solver of Project Chrono under the Smoothed Particle Hydrodynamics (SPH) model of DualSPHysics, where the SPH solver resolves the interaction between wave and flap and the multibody solver resolves the interaction between flap and mechanical constraints. Comparison between numerical results and experimental data show that the numerical simulation tool properly predicts the dynamics of the OWSC. Furthermore, in what concerns hydrodynamics of the near-flap flow, the computed and measured free-surface elevations and phase-averaged flow field show reasonable agreement. Once properly validated, the numerical simulation tool is then applied to study the influence of several mechanical constraints, PTO damping characteristics and flap inertia on the hydrodynamic of the OWSC. The viability of OWSC design solutions based on the developed numerical simulation tool is emphasised, in view of its performance in the test cases to which it was subjected.
Year: 2019
Number Pages:
2024-2043pp.
Author(s): Brito, M.; R. Canelas; García-Feal, O.; Domínguez, J. M.; Crespo, A. C.; Ferreira, R. L.; Neves, M. G.; Teixeira, L.
: Renewable Energy
Editor: Elsevier
Volume:
146.
Keywords: Wave-structure interaction; Wave energy; Mechanical constraints; Oscillating wave surge converter (OWSC); Smoothed particle hydrodynamics (SPH); Numerical modelling
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Comunicação
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Modelação física em zonas portuárias Desenvolvimentos recentes no LNEC
Nesta comunicação, descrevem-se os mais recentes desenvolvimentos no LNEC em termos de instalações experimentais, técnicas de construção, equipamentos e metodologias utilizadas nos ensaios em modelo físico, com a apresentação de casos de estudos realizados para as zonas portuárias de Peniche Ponta Delgada, Leixões
Year: 2023
Number Pages:
4p..
Author(s): Fortes, C. J. E. M.; Lemos, R.; Capitão, R.; Pinheiro, L.; Reis, R.; Silva, L. G.; Costa, C.E.B.C.; Simão, J.; Soares, R. E.; Mendonça, A.C.; HILÁRIO, J.
Editor: PIANC
Keywords: Navios; Pressões; Estabilidade e Galgamentos; Instalações Experimentais; Modelação física
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Neural networks for optimization of an early warning system for moored ships in harbours
Within the BlueSafePort project, an early warning system (EWS) for moored ships in the port of Sines as developed. In order to improve the reliability and accuracy of the system, two neural networks (NN) were trained,using wave buoys measured datasets. Numerical models results for the wave propagation are djusted and forecasts are improved.The trained neural networks were able to produce more accurate stimates for the significant wave height and mean wave period, at the buoy location, deployed in front of the ines Port. The use of the new NN led to an overall reduction of the root mean square error of around 80% compared with SWAN numerical model simulations, thus reducing potential errors in subsequential alculations and alert levels issued by the system for the moored ships.
Year: 2023
Number Pages:
12p..
Author(s): Pinheiro, L.; Gomes, A.; Lopes, N.D.J.; Lopes S.P.F.S.; Prior A.F.M.S.P.; Santos, J. A.; Fortes, C. J. E. M.
: Coastal Engineering
Editor: Dan Cox
Keywords: Wave modeling; Early warning; Moored ships; Neural networks
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New developments in the praia da Vitória bay and harbour early warning system
Within the LIFE Garachico project, an HIDRALERTA EWS is being extended to include methodologies for creating an effective flexible adaptation strategic framework for coastal area of Praia da Vitória. This strategic framework is based on the definition of acceptable risk levels and specific interventions at the local level, allowing to increase the resilience of coastal urban areas against extreme coastal events (both present and future) consequences of climate change.
Year: 2023
Number Pages:
106-106pp..
Author(s): Pinheiro, L.; Zózimo, A. C.; Fortes, C. J. E. M.
Editor: Yildiz Technical University
Keywords: Climate change; Neural networks; Risk; Harbours; Early warning system
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Novo Porto de Dakhla Atlântico. Estudo em modelo físico das pressões induzidas pela agitação marítima em pilares da ponte de acesso ao porto
Esta comunicação descreve os ensaios de pressões efetuados para a caraterização das pressões máximas exercidas nos pilares de secção circular da ponte que liga o porto de Dakhla à costa bem como dos perfis verticais de pressões associadas.
Year: 2023
Number Pages:
4p..
Author(s): Silva, L. G.; Lemos, R.; Fortes, C. J. E. M.; Didier, E.; Costa, C.E.B.C.; Reis, R.; Simão, J.; FONSECA, D.; Mendes, D.; OLIVEIRA PEDRO, J.; CORREA, R.
Editor: PIANC
Keywords: Modèle physique; Piliers; Dakhla
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Projeto C2IMPRESS. Desenvolvimentos iniciais na temática das áreas portuárias
Nesta comunicação são descritos os desenvolvimentos iniciais dos sub-casos do projeto C2IMPRESS referentes aos portos de Aveiro e da Figueira da Foz. A fase inicial envolveu a estimativa preliminar do galgamento induzido pelas ondas em alguns perfis das estruturas dos dois portos, assim como um primeiro inquérito sobre risco aos utilizadores desses dois portos.
Year: 2023
Number Pages:
4p..
Author(s): Zózimo, A. C.; Pinheiro, L.; Craveiro, J.; Fortes, C. J. E. M.; KLEINJAN, M.; VENTURA, S.; CRUZ, M.M.
Editor: PIANC
Keywords: Parceria Pública-Privada-Civil; Galgamento; C2IMPRESS
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Prolongamento do molhe leste do porto de Sines. Ensaios em modelo físico
Esta comunicação descreve os estudos em modelo reduzido tridimensional de estabilidade hidráulica e de galgamentos para o prolongamento do molhe leste correspondente à 3ª Fase de Expansão do Terminal XXI, do Porto de Sines.
Year: 2023
Number Pages:
4p..
Author(s): Soares, R. E.; Lemos, R.; Fortes, C. J. E. M.; Silva, L. G.; Costa, C.E.B.C.; Reis, R.; Simão, J.; Luis, L.; Aparício, L.
Editor: PIANC
Keywords: Modelo físico; Quebra-mar; Sines
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Simulação das condições de segurança e acessibilidade de navios nos portos de Sines e Aveiro
Neste trabalho apresenta-se uma metodologia para determinar as condições de segurança e acessibilidade de navios ao longo do trajeto de acesso ao porto, ilustrando-se a sua aplicação nos casos de estudo dos portos de Sines. este trabalho insere-se no âmbito do desenvolvimento de novos sistemas de previsão e alerta para a navegação nos portos de Sines e Aveiro.
Year: 2023
Number Pages:
4p..
Author(s): Pinheiro, L.; Gomes, A.; KLEINJAN, M.; Zózimo, A. C.; Mendonça, A.C.; Fortes, C. J. E. M.
Editor: PIANC
Keywords: Navios; Modelação numérica; Portos; Segurança; Navegação
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Técnicas de vídeo na análise do espraiamento e extensão do galgamento em estruturas de proteção costeira
O litoral português apresenta um valor natural, económico e cultural único e de importância amplamente reconhecida. O dinamismo costeiro pode levar à ocorrência de galgamentos de estruturas de proteção costeira em situações de temporal, que podem causar inúmeros danos, podendo mesmo resultar na perda de vidas humanas ou na destruição de estruturas próximas da linha de costa. Deste modo, a gestão das zonas costeiras próximas de aglomerados populacionais deve considerar a implementação de medidas sustentáveis que mitiguem os fenómenos que afetam o litoral de forma mais gravosa, de que são exemplo a implementação de estruturas de proteção costeira.
Year: 2023
Number Pages:
309-310pp..
Author(s): Mendonça, A.C.; Lemos, R.; Fortes, C. J. E. M.; MARTINS, R.; Ferrão, R.
Editor: APRH
Keywords: Fotogrametria; Ensaios físicos 2D; Defesa longitudinal aderente
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Uso de redes neuronais para melhoria das previsões de um sistema de alerta para riscos em portos
No âmbito do projeto BlueSafePort está a ser desenvolvido um sistema para prever e alertar situações de emergência causadas pela agitação marítima, relacionadas com a navegação em portos, bem como constrangimentos operacionais. A paralisação dos terminais portuários leva a grandes perdas económicas e afeta em grande parte a competitividade geral do porto. Assim, o objetivo deste sistema é reduzir a vulnerabilidade do porto aumentando a sua capacidade de planeamento e resposta e
Year: 2023
Number Pages:
279-281pp..
Author(s): Pinheiro, L.; Morgado, N.; Gomes, A.; Lopes S.P.F.S.; Lopes, N.D.J.; Prior A.F.M.S.P.; Fortes, C. J. E. M.
Editor: APRH
Keywords: Navegação; Riscos em portos; Redes neuronais; Previsão de agitação marítima
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Wave runup and overtopping assessment by using video methodologies in physical models
Physical modelling is one of the tools to help characterize wave runup and overtopping in maritime structures. Usually, the determination of wave runup is made by using resistive wave gauges along the breakwater slope while the evaluation of overtopping volumes (individual or total) is made by weighing the water overtopped with a scale that is collected in a reservoir installed on this scale.Nowadays, non-intrusive methodologies for the assessment of those parameters are being used, due to their simplicity and low cost. Video cameras, constitute a good alternative to old methods; however, their performance depends essentially on the post-processing methodologies used.The present paper presents the application of the Timestack methodology done so far, in the evaluation of: wave runup in 2D and 3D physical tests. The video-derived statistical parameters of wave runup (Rumax, Rumin, Rumed e Ru2%) are compared with the corresponded ones obtained with resistive wave gauges. The total water volume and the average overtopping flow rate from video data is compared with the one collected by a reservoir. Those cases will illustrate the advantages and drawbacks associated with Timestack methodology.
Year: 2023
Number Pages:
71-71pp..
Author(s): Lemos, R.; Fortes, C. J. E. M.; Mendonça, A.C.; Andriolo, U.
Editor: Yildiz Technical University
Keywords: Overtopping; Runup; Timestack
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Capítulo de Livro
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Multi-functional artificial reefs for coastal protection
N/A
Year: 2009
Number Pages:
153-210 pp.
Author(s): Voorde, M.; Antunes do Carmo, J.; Neves, M. G.
Editor: Ch. A. Hudspeth, T. E. Reeve
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Tese de Doutoramento
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Trapped-mode propagation along irregular coasts
N/A
Year: 1999
Number Pages:
159 p.
Author(s): Santos, J. A.
Editor: ******
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Probabilistic Assessment of the Safety of Coastal Structures
N/A
Year: 1998
Number Pages:
594 p.
Author(s): Reis, M. T.
Editor: ******
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Unsteady Nearshore Currents on Longshore Varying Topographies
N/A
Year: 1998
Number Pages:
346 p.
Author(s): Sancho, F. E.
Editor: ******
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Simulação da agitação irregular. Técnicas matemáticas
N/A
Year: 1973
Author(s): Carvalho, M. M.
Editor: ******
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Relatório Científico
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Demonstration and technical tours plan
A major objective of TRA LISBON 2022 Conference is to boost research and innovation capacity for the transport sector, throughout a full innovation cycle, from idea to market. Having this in view, the project
Year: 2022
Author(s): Batista, F. A.; Marecos, V.; Antunes, M. L.; Macedo, A. L.; Freire, A. C.; Capitão, R.; Arsénio, E.; Maia, L.
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Demonstration submission and selection guidelines
The demonstration area will be one of the main focus points of TRA LISBON 2022, presenting multifunctional spaces and being prepared to receive a large number of different types of on-site demonstrations (indoor and outdoor). On-line demonstrations will also be an option, allowing for the widest possible coverage of access for all the participants.The dedicated areas will allow for interactive demonstrations of technological innovations to be carried out by and for industry partners, researchers, and other stakeholders. Demonstrations are an excellent opportunity to introduce conference attendees in an engaging way, as well as to promote new contacts and promising business.
Year: 2022
Author(s): Freire, A. C.; Arsénio, E.; Macedo, A. L.; Antunes, M. L.; Capitão, R.; Belinha, M.
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Technical tours organization criteria and procedures report
According to the CSA project plan, WP5.2 task objective is to organize technical tours that feature attractive and interactive showcases aiming at engaging participants into novel technologies for all transport modes and enabling stakeholders and their companies to disseminate and even sell their products and applications to all interested parties.
Year: 2022
Author(s): Capitão, R.; Macedo, A. L.; Arsénio, E.; Antunes, M. L.; Freire, A. C.
Editor: TRA LISBON 2022
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Data Repository Rules. Deliverable 10.4
This report is part of HYDRALAB+ Work Package 10, which seeks to strengthen the coherence of experimental hydraulic and hydrodynamic research undertaken by the HYDRALAB+ partner organisations. It outlines the work carried out by Samui Design & Management Ltd, supported by HR Wallingford, in relation to the development of a data repository structure that can be adopted by participants of the HYDRALAB+ project.
Year: 2018
Author(s): Mendonça, A. C.; Fortes, C. J. E. M.; Neves, M. G.; Capitão, R.; Lemos, R.; Reis, M. T. L. G. V.
Keywords: Data from physical modeling; Zenodo; Data repository structure
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Data Storage Report. RECIPE Task 8.2: Overtopping events in breakwaters under climate change scenarios
Reliable prediction of wave run-up/overtopping and structure damage is a key task in the design and safety assessment of coastal and harbor structures. Run-up/overtopping and damage must be below acceptable limits, both in extreme and in normal operating conditions, to guarantee the stability of the structure and the safety of people and assets on and behind the structure. The mean-sea-level rise caused by climate change and its effects on wave climate may increase the number and intensity of run-up/overtopping events and make the existing coastal/harbor structures more vulnerable to damage.Accurate estimates, through physical modelling, of the statistics of overtopping waves for a set of climate change conditions, are needed. The research project HYDRALAB+ (H2020-INFRAIA-2014-2015) gathers an advanced network of environmental hydraulic institutes in Europe, which provides access to a suite of environmental hydraulic facilities. They play a vital role in the development of climate change adaptation strategies, by allowing the direct testing of adaptation measures and by providing data for numerical model calibration and validation. The use of physical (scale) models allows the simulation of extreme events as they are now, and as they are projected to be under different climate change scenarios.The enclosed dataset refers to the experimental work developed at LNEC within HYDRALAB+ and considers 2D damage and overtopping tests for a rock armor slope, with four different approaches to represent storms. Data of free surface elevation, overtopping and damage is presented.
Year: 2018
Author(s): Fortes, C. J. E. M.; Mendonça, A. C.; Lemos, R.; Neves, M. G.; Reis, M. T. L. G. V.; Capitão, R.
Keywords: Climate change; Overtopping; Data repository
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Facilitating the re-use and exchange of experimental data. Task 10.1 Critical review. D10.2 Critical Review of data flux between laboratory models, numerical models and field case studies
The HYDRALAB+ project is aimed at strengthening the coherence of experimental hydraulic and hydrodynamic research undertaken across its partner organisations. This report is D10.2 of the HYDRALAB+ project, entitled
Year: 2018
Author(s): Mendonça, A. C.; Fortes, C. J. E. M.; Neves, M. G.; Capitão, R.; Lemos, R.; Reis, M. T. L. G. V.
Keywords: Field data; Numerical modeling data; Physical modeling data; Data flux
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Facilitating the re-use and exchange of experimental data. Task 10.2 Data Standards and Licenses. D 10.3 Data Standards Report
The HYDRALAB+ project is aimed at strengthening the coherence of experimental hydraulic and hydrodynamic research undertaken across its partner organisations. This report is D10.3 of the HYDRALAB+ project, entitled
Year: 2018
Author(s): Mendonça, A. C.; Fortes, C. J. E. M.; Neves, M. G.; Capitão, R.; Lemos, R.; Reis, M. T. L. G. V.
Keywords: Data management options; Experimental data; Data formats
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Protocols for representing variability and unsteadiness in flume facilities. Deliverable Number 8.2
This deliverable is related to task 8.2
Year: 2018
Author(s): Mendonça, A. C.; Fortes, C. J. E. M.; Lemos, R.; Capitão, R.; Neves, M. G.; Reis, M. T. L. G. V.
Keywords: Extreme events; Climate change; Variability in flume facilities
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Sistema de previsão, alerta e gestão de riscos causados pela agitação marítima - Relatório inicial Arquitetura e características gerais do sistema para os portos de Madalena do Pico, São Roque do Pi
Neste relatório inicial são apresentadas a arquitetura e as caraterísticas gerais dos protótipos do sistema de previsão, alerta e gestão de riscos causados pela agitação marítima para os portos de Madalena do Pico, São Roque do Pico e Praia da Vitória. Os três protótipos em desenvolvimento têm por base uma arquitetura semelhante, com características distintas, nomeadamente no que respeita à localização dos dados de base, às malhas computacionais utilizadas e às características físicas das fronteiras, tanto no plano horizontal (interface terra-mar), como no vertical (batimetria dos fundos). Caracteriza-se o layout geral dos portos, bem como a sua morfologia e operabilidade.
Year: 2018
Author(s): Pinheiro, L.; Fortes, C. J. E. M.; Reis, M. T.; Poseiro, P.
Keywords: Porto de Praia da Vitória; Porto de São Roque do Pico; Porto de Madalena do Pico; Agitação marítima; Alerta e gestão de riscos; Sistema de previsão
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N/A
Year: 2014
Number Pages:
107p.
Author(s): Ramos, A.; Gabriel. S.; Simão, J.; Passarinho, A.; Lemos, R.; Fortes, C. J. E. M.
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Year: 1998
Number Pages:
3 p.
Author(s): Covas, J. A.
Editor: ******
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Year: 1998
Number Pages:
53 p.
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Editor: ******
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Year: 1998
Number Pages:
50 p.
Author(s): Covas, J. A.; Fortes, C. J. E. M.
Editor: ******
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Year: 1998
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2 p.
Author(s): Covas, J. A.
Editor: ******
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Year: 1998
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