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60 results on '"Contestabile, Pasquale"'

1. Combination of local sea winds/land breezes and nearshore wave energy resource: Case study at MaRELab (Naples, Italy)

Author

Contestabile, Pasquale, Russo, Sara, Azzellino, Arianna, Cascetta, Furio, Vicinanza, Diegoa, Contestabile, Pasquale, Russo, Sara, Azzellino, Arianna, Cascetta, Furio, and Vicinanza, Diego

Subjects
Combined wave and wind energy, Fuel Technology, Nuclear Energy and Engineering, Renewable Energy, Sustainability and the Environment, Blue energy management, Mediterranean Sea meteorology, Nearshore wave energy, Offshore wind, Energy Engineering and Power Technology
Published
2022

4. La tecnologia di accrescimento minerale come soluzione alternativa sostenibile alla dismissione di piattaforme offshore oil&gas

Author

Colaleo Giuseppina, Margheritini Lucia, Contestabile Pasquale, Iervolino Michele, Golia Umberto Mario, Ruocco Eugenio, Ferraioli Massimiliano, Mandara Alberto, Mandolini Alessandro, Dell'Anno Antonio, Vicinanza Diego, AA.VV., Colaleo, Giuseppina, Margheritini, Lucia, Contestabile, Pasquale, Iervolino, Michele, Golia, Umberto Mario, Ruocco, Eugenio, Ferraioli, Massimiliano, Mandara, Alberto, Mandolini, Alessandro, Dell'Anno, Antonio, and Vicinanza, Diego

Published
2021

7. Modellazione numerica dell’interazione onda-struttura per un frangiflutto portuale multifunzione

Author

Palma Giuseppina, Contestabile Pasquale, Formentin Sara, Zanuttigh Barbara, Vicinanza Diego, Palma, G., Contestabile, P., Formentin, S., Zanuttigh, B., Vicinanza, D., Palma, Giuseppina, Contestabile, Pasquale, Formentin, Sara, Zanuttigh, Barbara, and Vicinanza, Diego

Subjects
harbor breakwater, OBREC, wave overtopping, wave loads, wave energy, numerical modeling, physical modeling
Abstract

Tale contributo è incentrato sull'analisi di una struttura multifunzionale per la protezione costiera e la produzione di energia elettrica, sviluppata dalla Seconda Università di Napoli e denominata DIMEMO (Diga Marittima per l’Energia dal Moto Ondoso). Questo dispositivo è stato pensato per essere integrato in frangiflutti portuali, anche esistenti, al fine di produrre energia per effetto del fenomeno della tracimazione. Le prestazioni idrauliche e strutturali sono state valutate in termini di: 1) portata media di tracimazione e coefficiente di riflessione in condizioni ordinarie; 2) pressioni agenti sulla struttura in condizioni estreme. I risultati sono stati ottenuti con il codice di calcolo IH-2VOF e confrontati con gli esperimenti di laboratorio condotti presso l’Università di Aalborg in Danimarca. Inoltre, il modello numerico è stato utilizzato per ottenere informazioni relative ai carichi ondosi sulla struttura in assenza di misure. Questo lavoro rappresenta uno studio preliminare, propedeutico ad un’analisi di sensitività atta a definire la relazione tra alcuni parametri geometrici fondamentali e le prestazioni idrauliche del dispositivo

Published
2018

11. Modeling the performance of a wave energy converter integrated in a harbour breakwater

Author

PALMA, GIUSEPPINA, FORMENTIN, SARA MIZAR, ZANUTTIGH, BARBARA, Contestabile, Pasquale, Vicinanza, Diego, A cura del Comitato Editoriale IDRA16, Palma, Giuseppina, Contestabile, Pasquale, Formentin, Sara, Zanuttigh, Barbara, Vicinanza, Diego, and Formentin, Sara Mizar

Subjects
Renewable Energy, Wave Energy Converter, Overtopping, Harbor Safety
Abstract

• The OBREC is a multifunctional device to protect harbors and produce energy from incident waves. • The 2DV RANS VOF numerical model was calibrated on experimental results and adopted to assess the pressures across the structure. • The results of the calibrated model well reproduce the tested conditions for ordinary waves in terms of average overtopping discharge and uplift pressures.

Published
2016

15. Assessment of Wave Energy around Italy

Author

VICINANZA, Diego, CAPPIETTI L, CONTESTABILE P., CONTESTABILE, Pasquale, Vicinanza, Diego, Cappietti, L, Contestabile, P., and Contestabile, Pasquale

Published
2009

16. Wave loadings acting on Overtopping Breakwater for Energy Conversion

Author

Vicinanza, Diego, Nørgaard, Jørgen Harck, Contestabile, Pasquale, and Andersen, Thomas Lykke

Subjects
Laboratory Experiments, Front Reservoir, Rubble Mound Breakwaters, Wave Loadings, Overtopping
Abstract

Any kind of Wave Energy Converter (WEC) requires information on reliability of technology and on time required for the return of the investment (reasonable payback). The structural response is one of the most important parameters to take in to account for a consistent assessment on innovative devices. This paper presents results on wave loading acting on an hybrid WEC named Overtopping BReakwater for Energy Conversion (OBREC). The new design is based on the concept of an integration between a traditional rubble mound breakwater and a front reservoir designed to store the wave overtopping from the incoming wave to produce electricity. 2D hydraulic model tests were carried out at the Department of Civil Engineering, Aalborg University (Denmark). The analyses of hydraulic model tests have identified the main shapes assumed by wave surfaces at the breakwater and respective spatial and temporal pressure distributions. Load measurements were compared with the most used prediction method for traditional breakwaters, available in the Coastal Engineering Manual (U.S. Army Corps of Engineers, 2002). These results suggest to use the experimental data as design loadings since the design criteria for the innovative OBREC are under development.

Published
2013

17. Hydrodynamics and morphodynamics in the swash zone: hydralab III large-scale experiments

Author

Contestabile, Pasquale

Subjects
Physics::Geophysics
Abstract

The modelling of swash zone hydrodynamics and sediment transport and the resulting morphodynamics has been an area of very active research over the last decade. However, many details are still to be understood, whose knowledge will be greatly advanced by the collection of high quality data under controlled large-scale laboratory conditions. The advantage of using a large wave flume is that scale effects that affected previous laboratory experiments are minimized. In this work new large-scale laboratory data from two sets of experiments are presented. Physical model tests were performed in the large-scale wave flumes at the Grosser Wellen Kanal (GWK) in Hannover and at the Catalonia University of Technology (UPC) in Barcelona, within the Hydralab III program. The tests carried out at the GWK aimed at improving the knowledge of the hydrodynamic and morphodynamic behaviour of a beach containing a buried drainage system. Experiments were undertaken using a set of multiple drains, up to three working simultaneously, located within the beach and at variable distances from the shoreline. The experimental program was organized in series of tests with variable wave energy. While a positive effect was observed under low energy conditions, for medium and high energy conditions the benefit of having the drains operative was not always clear. In any case, it was evident that any positive effect of the drains on the beachface was confined by the position of the cone of depression in the aquifer’s surface. The tests carried out in the large wave flume at UPC had the intent to investigate swash zone under storm conditions. The main aim was to compare beach profile response for monochromatic waves, monochromatic waves plus free long waves, bichromatic waves and random waves. Both erosive and accretive conditions were considered. The experiments suggest that the inclusion of long wave and wave group sediment transport is important for improved nearshore morphological modelling of cross-shore beach profile evolution, and provide a very comprehensive and controlled series of tests for evaluating numerical models. It is suggested that the large change in the beach response between monochromatic conditions and wave group conditions is a result of the increased significant and maximum wave heights in the wave groups, as much as the presence of the forced and free long waves induced by the groupiness. The equilibrium state model concept can provide a heuristic explanation of the influence of the wave groups on the bulk beach profile response if their effective relative fall velocity is larger than that of monochromatic waves with the same incident energy flux.

Published
2011

19. Interazione onda struttura in un dispositivo di conversione dell'energia da onda a tracimazione e probematiche progettuali

Author

Vicinanza, D., Margheritini, Lucia, Zanuttigh, B., Castagnetti, Mirko, and Contestabile, Pasquale

Abstract

Il presente lavoro riassume i risultati inerenti l’interazione delle onde con un innovativo cassone frangiflutti per la produzione d’energia elettrica denominato Seawave Slot-cone Generator (SSG). Il funzionamento dell’SSG é basato sul noto principio della tracimazione e della conservazione dell’energia potenziale mediante realizzazione di un carico idraulico in serbatoi a diversi livelli. La configurazione analizzata consta di tre serbatoi ed è stata sottoposta a diverse campagne di prove sperimentali presso il laboratorio dell’Università di Aalborg (Danimarca). Gli esiti delle prove di laboratorio - comprendenti i carichi sulla struttura, le portate di tracimazione misurate ai serbatoi e la riflessione al piede dell’opera - sono stati confrontati con metodi di letteratura. Il presente lavoro riassume i risultati inerenti l’interazione delle onde con un innovativo cassone frangiflutti per la produzione d’energia elettrica denominato Seawave Slot-cone Generator (SSG). Il funzionamento dell’SSG é basato sul noto principio della tracimazione e della conservazione dell’energia potenziale mediante realizzazione di un carico idraulico in serbatoi a diversi livelli. La configurazione analizzata consta di tre serbatoi ed è stata sottoposta a diverse campagne di prove sperimentali presso il laboratorio dell’Università di Aalborg (Danimarca). Gli esiti delle prove di laboratorio - comprendenti i carichi sulla struttura, le portate di tracimazione misurate ai serbatoi e la riflessione al piede dell’opera - sono stati confrontati con metodi di letteratura.

Published
2010

21. Nature-based and bioinspired solutions for coastal protection: an overview among key ecosystems and a promising pathway for new functional and sustainable designs

Author

V Perricone, M Mutalipassi, A Mele, M Buono, D Vicinanza, P Contestabile, Perricone, Valentina, Mutalipassi, Mirko, Mele, Antonio, Buono, Mario, Vicinanza, Diego, and Contestabile, Pasquale

Subjects
Ecology, Aquatic Science, Oceanography, Ecology, Evolution, Behavior and Systematics
Abstract

Coastal erosion is occurring at a faster rate than in the past. The adverse impacts are not negligible at environmental, economic, and socio-cultural levels. Hence, coastal protection is currently seen as an emerging need to counteract erosion impacts and their many negative effects on worldwide ecosystems. In this regard, natural systems and their organisms represent a complex system of solutions that can efficiently create and/or inspire the development of natural, sustainable, and cutting-edge coastal barriers. Coastal ecosystems, such as coral reefs, oyster reefs, mangroves, saltmarshes, seagrasses, and polychaete reefs, act as a natural barrier for destructive waves and wind forces. Moreover, living organisms have evolved unique strategies to withstand their environmental hydrodynamic loadings. This review intends to provide an overview regarding natural systems and related nature-based and bioinspired strategies in the specific field of coastal protection, describing the state of the art, methods, processes, and tools, as well as delineating a promising pathway for new functional and sustainable designs.

Published
2023

22. Improved methodology for the optimal mixing of renewable energy sources and application to a multi-use offshore platform

Author

Elisa Dallavalle, Barbara Zanuttigh, Pasquale Contestabile, Alessandro Giuggioli, Davide Speranza, Dallavalle, Elisa, Zanuttigh, Barbara, Contestabile, Pasquale, Giuggioli, Alessandro, and Speranza, Davide

Subjects
Renewable Energy, Sustainability and the Environment, Hybrid installationEnergy mixWave energySolar energyWind energyOffshore platform
Abstract

The increase of Renewable Energy (RE) production to fight the climate crisis is posing new technological and financial challenges, due to the availability and variability of RE Sources (RES). These challenges can be addressed by selecting the most suitable mix of RES to optimise power production, to assure grid resilience and to promote local energy use. To facilitate the selection of such combination, this paper presents an original methodology that allows to compare mixing scenarios with different RES, also in presence of batteries and backup system. It simultaneously optimises the energy surplus with respect to the eventual external electrical load and the missing energy with respect to the same electrical load. This method, which can cope with isolated or plugged-to-grid systems, is here applied to a novel case study, an oil&gas platform under decommissioning, located in the Adriatic Sea (Italy). The RE production from wind, wave and solar panels is supposed to support other activities for the platform reuse, such as aquaculture, monitoring and mineral deposition. In this case, solar energy is providing the greatest contribution to the optimal mix in terms of production, while wave energy assures the most relevant contribution in terms of continuity.

Published
2023

23. Determining Wave Transmission over Rubble-Mound Breakwaters: Assessment of Existing Formulae through Benchmark Testing

Author

Nasrin Hassanpour, Diego Vicinanza, Pasquale Contestabile, Hassanpour, Nasrin, Vicinanza, Diego, and Contestabile, Pasquale

Subjects
coastal defence structures, submerged breakwaters, spectral density, low-crested breakwaters, physical model, Geography, Planning and Development, Aquatic Science, Biochemistry, Water Science and Technology
Abstract

Low-crested and submerged breakwaters are frequently employed as coastal defence structures. Their efficiency is governed by wave energy dissipation, and the wave transmission coefficient can evaluate this parameter. The current study conducts experimental investigations on both low-crested and submerged breakwaters exposed to different wave conditions to compare their performance with that of emerged breakwaters. The current study provides a comprehensive review of existing formulae and highlights the impact of design variables. To evaluate the reliability of each existing formula, four “reference” configurations are used. Having these structures at the same overall volume, the results also provide a useful tool for engineers involved in the lowering operation of existing breakwaters. Nature and magnitude of governing parameters are investigated, and some points of criticism are outlined. The comparison results show that few of the existing equations give reliable estimates of the transmission coefficient for all the models tested in this study. Higher values of root mean square error are related to the emerged breakwater rather than the submerged ones. To obtain information about the transmitted wave energy, spectral analysis is applied as well. Different behaviours of the transmitted spectrum, n terms of shape and peak frequency, are highlighted. The results improve the overall knowledge on formulae that are in the literature, in order to make the user more aware.

Published
2023

24. Energy Dissipation In Sewer Fall Manholes

Author

Gaetano Crispino, Pasquale Contestabile, Diego Vicinanza, Corrado Gisonni, International Association for Hydro-Environment Engineering and Research - IAHR, Miguel Ortega-Sánchez, Crispino, Gaetano, Contestabile, Pasquale, Vicinanza, Diego, and Gisonni, Corrado

Subjects
Drop manholes, Energy dissipation, Energy loss, Hydraulic structure, Urban drainage system
Abstract

In the present literature review paper several experimental investigations on physical and numerical models of drop manholes and vortex drop shafts were considered. The examination of the experimental data led to the definition of a simple empirical equation, initially suggested for one type of drop manhole, to estimate the total head loss coefficient for both drop manholes and vortex drop shafts. The energy efficiency values, as detected by the corresponding physical and numerical tests, of all the drop structure models were also compared. The energy efficiency of vortex drop shafts is larger than in drop manholes, and it reaches easily the 90%. Drop manholes are, instead, characterized by a smaller energy efficiency, which was shown to increase as the drop height augments.

Published
2022

25. Organizer multicavo di alimentazione anodo per accrescimento carbonati

Author

Giuseppina Colaleo, Pasquale Contestabile, Diego Vicinanza, Colaleo, Giuseppina, Contestabile, Pasquale, and Vicinanza, Diego

Abstract

Il campo di applicazione del trovato del presente brevetto si colloca nell’ambito dei processi di protezione catodica e, contestualmente, in quelli di rinaturalizzazione di strutture a mare. Il trovato si propone come facilitatore dell’impiego del processo di accrescimento minerale per elettrolisi dell’acqua di mare su strutture metalliche sommerse esistenti. Il trovato, di seguito denominato ORANOD, consente la rapida ed economica applicazione della tecnologia di accrescimento carbonatico proprio alle strutture già esistenti. Il sistema è applicabile a strutture metalliche offshore di qualunque tipologia. Lo scopo dell’ORANOD è di realizzare un avvolgimento metallico attorno alla struttura sommersa. Sui cavi di detto avvolgimento sono disposti una serie di anodi che, sottoposti a carica elettrica opposta a quella a cui viene sottoposta la struttura metallica (che funge da catodo), consente – in prederminate condizioni di voltaggio – di far depositare i sali presenti nell’acqua di mare, creando un velo protettivo sulla struttura stessa. Il velo protettivo di sali (carbonato di calcio) presenta elevate prestazioni meccaniche. Inoltre, tale strato protettivo consente di limitare i fenomeni corrosivi della struttura metallica e, al contempo, ri-naturalizza la stessa, in quanto il materiale depositato è della stessa natura delle barriere coralline. ORANOD, dunque, aumenta il range di applicazioni della tecnologia di accrescimento minerale, facilitandone l’impiego su strutture esistenti. L’innovazione risiede nella capacità di organizzare i molteplici cavi di alimentazione degli anodi necessari (a disporsi omogeneamente lungo l’intera superficie strutturale da ri-naturalizzare) mediante un sistema modulare ed in grado di adattarsi alle più diverse tipologie strutturali marittime ed offshore.

Published
2022

26. Prototype experiments of the low voltage mineral deposition technology as eco-friendly solution for improving the sustainability of offshore platforms at the end of their production life

Author

Giuseppina Colaleo, Pasquale Contestabile, Tiziano Bellezze, Lucia Margheritini, Antonio Dell’Anno, Diego Vicinanza, Colaleo, Giuseppina, Contestabile, Pasquale, Bellezze, Tiziano, Margheritini, Lucia, Dell’Anno, Antonio, and Vicinanza, Diego

Subjects
Sustainable decommissioning, Corrosion protection, Mineral deposition, Natural capital, Cathodic polarization, Soil Science, Plant Science, Marine biodiversity, Offshore platforms, General Environmental Science
Abstract

Several oil and gas offshore platforms are approaching the end of their production life, thus requiring sounding sustainable management solutions. This study aimed to improve the current knowledge on the low voltage mineral deposition technology as an eco-friendly strategy to protect offshore platforms from corrosion and to create suitable substrates for the colonization and growth of sessile marine organisms, thus minimizing environmental impact due to metal release, supporting biodiversity and increasing ecological sustainability. To do so, experimental prototype structures were installed in the Ligurian Sea (NW Mediterranean Sea) with the aim to simulate the sub-merged parts of offshore platforms and to analyze over time (up to ca. 6 months), elemental and chemical composition, growth rates and corrosion protection ability of the minerals deposited on steel substrates, through the alkalization induced by cathodic polarization of the metal. The influence of operational (applied current density) and natural environmental parameters on the deposition process was investigated. Results of this experiment revealed that in general the mineral deposits were mainly composed by aragonite (CaCO3) and brucite (Mg(OH)2) and, more specifically, the amount of the latter prevails a little bit on the amount of the former. This result is most likely related to high cathodic polarization current densities reached during the experimentation. Despite brucite is expected to worsen the physical–mechanical​ characteristics of the mineral deposits, the overall deposits were able to protect to a certain extent the electrified steel material from corrosion. After about 6 months of induced mineral deposition, the layer over the steel reached the maximum thickness of about 2.4 mm, following a non-linear trend as a function of time, whereas the deposition rates ranged from 20.0 to 50.3 μm d−1, in relation with the applied current densities. At the same time, a positive relationship of the deposit grow rates with seawater temperature has been observed. Overall, the outcomes reported in this study provide new elements for the application of low voltage mineral deposition technology in temperate seas and pave the way for defining the best operating conditions to protect steel structures from corrosion and support biodiversity, thus contributing to the sustainability of the natural capital.

Published
2022

27. Drenaggio autoadattivo di sponde naturali per il controllo erosivo nei bacini lacustri e invasi artificiali

Author

Pasquale Contestabile and Contestabile, Pasquale

Abstract

Il sistema è applicabile alle sponde in materiali sciolti di laghi naturali o invasi artificiali, laddove si registrino fenomeni di erosione. Lo scopo del trovato è di indurre un abbassamento della falda freatica in corrispondenza della sponda considerando, tuttavia, le esigenze di funzionamento nell’ambito dell’intero livello idrometrico dell’invaso e la necessità di operare nel modo più efficace possibile, evitando l’inutile aggravio del costo di pompaggio delle portate drenate in particolari scenari idraulici di funzionamento. L’innovazione risiede nel campo di applicazione del trovato e nel fatto che la modifica al range di operatività in funzione delle variazioni di livello idrometrico nel bacino idrico, avvenga senza l’ausilio di organi ausiliari elettromeccanici, creando, cioè, un sistema autoadattivo. Il sistema, inoltre, consente di incrementare l’efficienza del sistema di drenaggio mediante l’esclusione dei dreni operanti in predefinite condizioni idrauliche (ad esempio, moto in pressione generato da elevate escursioni del livello idrico nel lago/bacino), esclusione che avviene in modo del tutto automatico, mediante particolari valvole antiriflusso. La protezione spondale è a ridottissimo impatto paesaggistico/ambientale in quanto l’intero sistema è ipogeo.

Published
2021

28. Elettro-Capping dei sedimenti contaminati sommersi

Author

Pasquale Contestabile and Contestabile, Pasquale

Abstract

Il campo di applicazione del trovato è finalizzato alla realizzazione di un capping (contenimento/isolamento) “elettro-attivo” di sedimenti contaminati posti sul fondale marino. La tecnologia è in grado di indurre la deposizione carbonatica ad opera dei processi di elettrolisi in acqua di mare attorno ad una rete metallica a maglia opportunamente stretta. Una sistema di elementi metallici alimentati con carica positiva a funzione anodica, consentono la reazione degli ioni idrogeno con i sali (quali carbonato di calcio) che tendono a precipitare sulla superficie della sottostante rete di catodi. Nel corso di alcune settimane è possibile generare l’occlusione delle maglie, costituendo una barriera ottenuta con materiale perfettamente bio-compatibile e dalle elevate prestazioni meccaniche. L’innovazione risiede nel fatto che non è più necessario lo sversamento di ingenti quantità di materiale sciolto sul fondale, che produce instabilità geotecniche e, soprattutto, può causare la messa in sospensione del materiale contaminato all’atto dello sversamento. I costi e gli impatti ambientali risultano drasticamente abbattuti mediante il trovato, la cui modularità consente di essere realizzato mediante un paio di operatori subacquei e senza l’utilizzo di attrezzature specifiche. Poiché il materiale che costituisce la barriera è costituito dai sali disciolti nella stessa acqua di mare e la restante parte dei materiali (acciaio e leghe metalliche) sono inerti per la fauna e flora marina, ne consegue un elevatissimo valore di eco-compatibilità del sistema.

Published
2021

29. Optimization of Low Head Axial-Flow Turbines for an Overtopping BReakwater for Energy Conversion: A Case Study

Author

Andrea Unich, Furio Cascetta, Pasquale Contestabile, Gaetano Crispino, Corrado Gisonni, Antonio Mariani, Diego Vicinanza, Mariani, Antonio, Crispino, Gaetano, Contestabile, Pasquale, Cascetta, Furio, Gisonni, Corrado, Vicinanza, Diego, and Unich, Andrea

Subjects
Technology, Control and Optimization, 020209 energy, Energy Engineering and Power Technology, 02 engineering and technology, Turbine, overtopping, wave energy, overtopping, low head axial-flow turbine, 0202 electrical engineering, electronic engineering, information engineering, wave energy, low head axial-flow turbine, Energy transformation, Electrical and Electronic Engineering, Engineering (miscellaneous), Wave power, Renewable Energy, Sustainability and the Environment, business.industry, 021001 nanoscience & nanotechnology, Axial compressor, Breakwater, Head (vessel), Environmental science, Electricity, 0210 nano-technology, business, Energy (signal processing), Energy (miscellaneous), Marine engineering
Abstract

Overtopping-type wave power conversion devices represent one of the most promising technology to combine reliability and competitively priced electricity supplies from waves. While satisfactory hydraulic and structural performance have been achieved, the selection of the hydraulic turbines and their regulation is a complex process due to the very low head and a variable flow rate in the overtopping breakwater set-ups. Based on the experience acquired on the first Overtopping BReakwater for Energy Conversion (OBREC) prototype, operating since 2016, an activity has been carried out to select the most appropriate turbine dimension and control strategy for such applications. An example of this multivariable approach is provided and illustrated through a case study in the San Antonio Port, along the central coast of Chile. In this site the deployment of a breakwater equipped with OBREC modules is specifically investigated. Axial-flow turbines of different runner diameter are compared, proposing the optimal ramp height and turbine control strategy for maximizing system energy production. The energy production ranges from 20.5 MWh/y for the smallest runner diameter to a maximum of 34.8 MWh/y for the largest runner diameter.

Published
2021

30. Multi-Collocation-Based Estimation of Wave Climate in a Non-Tidal Bay: The Case Study of Bagnoli-Coroglio Bay (Tyrrhenian Sea)

Author

Pasquale Contestabile, Diego Vicinanza, Roberto Danovaro, Luigi Musco, Umberto Mario Golia, Luca Centurioni, F. Conversano, Contestabile, Pasquale, Conversano, Fabio, Centurioni, Luca, Golia, Umberto, Musco, Luigi, Danovaro, Roberto, Vicinanza, Diego, and Mario Golia, Umberto

Subjects
Bagnoli-Coroglio Bay, lcsh:Hydraulic engineering, 010504 meteorology & atmospheric sciences, Wave propagation, Instrumentation, Geography, Planning and Development, triple collocation, 010501 environmental sciences, Aquatic Science, Collocation (remote sensing), 01 natural sciences, Biochemistry, directional wave spectra drifter (DWSD), Wave model, lcsh:Water supply for domestic and industrial purposes, Acoustic Doppler current profiler, lcsh:TC1-978, Calibration, 0105 earth and related environmental sciences, Water Science and Technology, lcsh:TD201-500, ADCP, Geodesy, Stage (hydrology), wave numerical model, Significant wave height, GPS wave buoy, Geology
Abstract

In this paper, the advantages of shaping a non-conventional triple collocation-based calibration of a wave propagation model is pointed out. Illustrated through a case study in the Bagnoli-Coroglio Bay (central Tyrrhenian Sea, Italy), a multi-comparison between numerical data and direct measurements have been carried out. The nearshore wave propagation model output has been compared with measurements from an acoustic Doppler current profiler (ADCP) and an innovative low-cost drifter-derived GPS-based wave buoy located outside the bay. The triple collocation&mdash, buoy, ADCP and virtual numerical point&mdash, make possible an implicit validation between instrumentations and between instrumentation and numerical model. The procedure presented here advocates for an alternative &ldquo, two-step&rdquo, strategy. Indeed, the triple collocation technique has been used solely to provide a first &ldquo, rough&rdquo, calibration of one numerical domain in which the input open boundary has been placed, so that the main wave direction is orthogonally aligned. The need for a fast and sufficiently accurate estimation of wave model parameters (first step) and then an ensemble of five different offshore boundary orientations have been considered, referencing for a more detailed calibration to a short time series of a GPS-buoy installed in the study area (second step). Such a stage involves the introduction of an enhancement factor for the European Centre for Medium-Range Weather Forecasts (ECMWF) dataset, used as input for the model. Finally, validation of the final model&rsquo, s predictions has been carried out by comparing ADCP measurements in the bay. Despite some limitations, the results reveal that the approach is promising and an excellent correlation can be found, especially in terms of significant wave height.

Published
2020
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31. Source Apportionment Assessment of Marine Sediment Contamination in a Post-Industrial Area (Bagnoli, Naples)

Author

Pasquale Contestabile, Sara Giglioli, Luigi Musco, Arianna Azzellino, Loris Colombo, Giovanna Armiento, Diego Vicinanza, Renato Somma, Giglioli, Sara, Colombo, Lori, Contestabile, Pasquale, Musco, Luigi, Armiento, Giovanna, Somma, Renato, Vicinanza, Diego, Azzellino, Arianna, and Armineto, Giovanna

Subjects
Pollution, lcsh:Hydraulic engineering, 010504 meteorology & atmospheric sciences, media_common.quotation_subject, Geography, Planning and Development, Sewage, 010501 environmental sciences, Aquatic Science, heavy metals contamination, 01 natural sciences, Biochemistry, Natural (archaeology), Marine pollution, lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, hydrocarbons, 0105 earth and related environmental sciences, Water Science and Technology, media_common, Pollutant, lcsh:TD201-500, geography, geography.geographical_feature_category, business.industry, arsenic, arsenic, hydrocarbons, heavy metals contamination, marine pollution, Contamination, Bagnoli, marine pollution, Oceanography, multivariate analysis, Volcano, Environmental science, Naples, business, Bay
Abstract

The area of Bagnoli (Gulf of Naples, central Tyrrhenian Sea) has been heavily exposed to pollution for over a century due to the presence of industrial sites along its coastline. The aim of this study is to analyze contaminant concentrations (i.e., heavy metals and hydrocarbons) in seabed sediments through a statistical multivariate approach. Multivariate methods permit us to describe the pollution dynamics affecting the area and distinguish between anthropogenic and natural pollution sources. Additionally, the association between contamination patterns and the wave climate characteristics of the gulf (i.e., wave period, direction, height, power, and energy) is investigated. The study confirms that the main contamination source in the Bagnoli bay is anthropogenic activities (i.e., former steel plant and sewage discharges) for the majority of investigated pollutants. It also provides evidence, however, for the potential co-existence of multiple anthropogenic and geogenic sources of arsenic and other metals that may be originating also from the water-rock interaction and submarine volcanic emissions in the Phlegraean area.

Published
2020

32. Crown Wall Modifications as Response to Wave Overtopping under a Future Sea Level Scenario: An Experimental Parametric Study for an Innovative Composite Seawall

Author

Diego Vicinanza, Furio Cascetta, Corrado Gisonni, Sara Russo, Pasquale Contestabile, Gaetano Crispino, Contestabile, Pasquale, Crispino, Gaetano, Russo, Sara, Gisonni, Corrado, Cascetta, Furio, and Vicinanza, Diego

Subjects
sea-level-rise adaptation, wave overtopping, coastal hazard and risk, coastal structures, nose, climate changes, climate changes, 010504 meteorology & atmospheric sciences, Computer science, coastal hazard and risk, lcsh:Technology, 01 natural sciences, lcsh:Chemistry, Seawall, wave overtopping, nose, General Materials Science, Parapet, lcsh:QH301-705.5, Instrumentation, 0105 earth and related environmental sciences, Parametric statistics, Fluid Flow and Transfer Processes, lcsh:T, 010505 oceanography, business.industry, Process Chemistry and Technology, General Engineering, Future sea level, lcsh:QC1-999, sea-level-rise adaptation, Computer Science Applications, Water depth, Adaptive management, lcsh:Biology (General), lcsh:QD1-999, lcsh:TA1-2040, Breakwater, Electricity, lcsh:Engineering (General). Civil engineering (General), business, lcsh:Physics, coastal structures, Marine engineering
Abstract

The overtopping phenomenon at the rear side of breakwaters has particular importance in harbor protection. Undoubtedly, this topic needs to be taken even more seriously, considering the sea level rise. The present study focuses on the effectiveness in the reduction of the wave overtopping of a triangular parapet placed on the top of an innovative concrete superstructure. The last is part of the OBREC device (Overtopping BReakwater for wave Energy Conversion), an overtopping structure which is integrated into a traditional rubble-mound breakwater, to convert wave energy into electricity. Parametric laboratory tests, including the influence of water depth, have led to the evaluation of the accuracy of the main literature formulations and to the introduction of a new overtopping formula to take into account the influence of the parapet geometry. The results highlight the capability of the parapet in significantly increasing the hydraulic protection compared to a breakwater with a traditional crown wall. The findings from this work are expected to support in promoting and developing adaptive management strategies for existing coastal defenses and smart approaches in the construction and maintenance of new ones, with special reference to future sea-level-rise scenarios.

Published
2020

33. Overtopping breakwater for wave Energy Conversion: Review of state of art, recent advancements and what lies ahead

Author

Corrado Gisonni, Pasquale Contestabile, Gaetano Crispino, Diego Vicinanza, Enrico Di Lauro, Vincenzo Ferrante, Contestabile, Pasquale, Crispino, Gaetano, Di Lauro, Enrico, Ferrante, Vincenzo, Gisonni, Corrado, and Vicinanza, Diego

Subjects
Wave energy converter, 060102 archaeology, Rubble mound breakwaters, Renewable Energy, Sustainability and the Environment, Computer science, business.industry, 020209 energy, 06 humanities and the arts, 02 engineering and technology, 7. Clean energy, Wave energy converters, Rubble mound breakwaters, Physical model tests, Wave overtopping, Wave loadings, Full-scale prototype, Breakwater, 0202 electrical engineering, electronic engineering, information engineering, Research studies, State of art, Energy transformation, 0601 history and archaeology, Electricity, business, Marine engineering
Abstract

The OBREC is an overtopping structure which is integrated into a traditional rubble-mound breakwater to convert wave energy into electricity. The relatively simple geometry of this overtopping device, with a single frontal ramp and a reservoir, makes the technology suitable to be fully combined also with existing structures. OBREC has been deeply investigated over the last years with physical and numerical model tests, and it is still under development with the ongoing monitoring activities at full-scale in real environments focusing on the wave-OBREC interaction. A comprehensive review of the research studies during the last ten years is here presented. The paper contains some unpublished details on OBREC geometry and power take-off strategy. A special attention is also directed to the description of the full-scale prototype of OBREC at Naples harbour, where an experimental campaign is still continuing.

Published
2020

34. Integrated assessment of the hydraulic and structural performance of the OBREC device in the Gulf of Naples, Italy

Author

Sara Mizar Formentin, Giuseppina Palma, Barbara Zanuttigh, Diego Vicinanza, Pasquale Contestabile, Palma, Giuseppina, Contestabile, Pasquale, Zanuttigh, Barbara, Formentin, Sara Mizar, Vicinanza, Diego, and Mizar Formentin, Sara

Subjects
Scale (ratio), Event (computing), 020101 civil engineering, Ocean Engineering, Storm, 02 engineering and technology, 01 natural sciences, Port (computer networking), 010305 fluids & plasmas, 0201 civil engineering, Work (electrical), Breakwater, 0103 physical sciences, BEACHES, Energy transformation, Environmental science, WAVE, 14. Life underwater, RUBBLE-MOUND BREAKWATER, COASTAL PROTECTION, Energy (signal processing), Marine engineering
Abstract

The aim of this work is to analyze the performance of the Overtopping Breakwater for Energy Conversion (OBREC), developed by the team of the University of Campania and installed at prototype scale in the port of Naples. It is a multifunctional coastal structure aimed to protect harbors and produce energy, based on the overtopping principle. This device has been preliminary analyzed by means of experimental and numerical investigations. This contribution provides for the first time an integrated assessment of the OBREC hydraulic and structural performance, by means of the measurements collected at the prototype installation and of numerical modelling i.e. methodologies not affected by the scale effects. The numerical model, developed in the openFOAM environment, is calibrated on the field data gathered during a storm event and is then applied to extend the information related to the OBREC response under the typical wave climate. The results obtained are proposed in terms of overtopping discharge rates and pressures acting along the OBREC profile, under several sea states. Based on these results some recommendations and indications regarding the optimal cross section design are given to maximize the energy production, without compromising the structural stability, and to promote the device exploitability.

Published
2020

35. Development of an eco-sustainable solution for the second life of decommissioned oil and gas platforms:The mineral accretion technology

Author

Diego Vicinanza, Giuseppina Colaleo, Morten Enggrob Simonsen, Lucia Margheritini, Caterina Lanfredi, Pasquale Contestabile, Antonio Dell'Anno, Trine Larsen Bjørgård, Margheritini, Lucia, Colaleo, Giuseppina, Contestabile, Pasquale, Bjørgård, Trine Larsen, Simonsen, Morten Enggrob, Lanfredi, Caterina, Dell’Anno, Antonio, and Vicinanza, Diego

Subjects
0106 biological sciences, Geography, Planning and Development, TJ807-830, 010501 environmental sciences, Management, Monitoring, Policy and Law, Reuse, Oil and gas platforms, TD194-195, 01 natural sciences, Nuclear decommissioning, Renewable energy sources, Corrosion, Extraction (military), GE1-350, Process engineering, mineral accretion technology, 0105 earth and related environmental sciences, Decommissioning, Mineral accretion technology, Environmental effects of industries and plants, Calcareous deposits, Renewable Energy, Sustainability and the Environment, business.industry, 010604 marine biology & hydrobiology, Fossil fuel, Environmental sciences, Scientific method, calcareous deposits, Environmental science, Seawater, decommissioning, oil and gas platforms, business, Accretion (coastal management)
Abstract

With the approaching end of the productive lives of offshore oil and gas platforms, the issue about decommissioning and what to do with existing structures arises. In this regard, this study aims to test solutions, at a preliminary level, for the eco-sustainable reuse of platforms at the end of their extraction phase. In particular, mineral accretion technology is applied by low-voltage electrolysis of seawater due to the precipitation of calcium carbonate on a cathode material in order to assess the protection capacity of the platforms against corrosion. This approach allows the extension of a platform&rsquo, s &ldquo, life&rdquo, under a more sustainable purpose. The results, derived from laboratory and field experiments, will allow us to reduce uncertainties and define the best operating conditions to increase the efficiency of the mineral accretion technology in the marine ecosystem. The data collection on the main parameters that influence the process (i.e., temperature, salinity, and applied current) and the quantitative analysis of the collected material allowed us to acquire a better knowledge about mineral composition and deposition rate.

Published
2020

36. Coastal Vulnerability and Mitigation Strategies: From Monitoring to Applied Research

Author

Diego Vicinanza, Pasquale Contestabile, Contestabile, Pasquale, and Vicinanza, Diego

Subjects
lcsh:TD201-500, lcsh:Hydraulic engineering, coastal monitoring, coastal morphodynamic, Geography, Planning and Development, Vulnerability, Aquatic Science, Biochemistry, coastal defense, coastal management, Coastal erosion, lcsh:Water supply for domestic and industrial purposes, Geography, lcsh:TC1-978, Sustainable management, Natural hazard, Applied research, Beach nourishment, coastal vulnerability, wave climate, Coastal management, China, Environmental planning, Water Science and Technology
Abstract

This paper intends to offer the readers an overview of the Special Issue on Coastal Vulnerability and Mitigation Strategies: From Monitoring to Applied Research. The main focus of this Special Issue is to provide the state-of-the-art and the recent research updates on the sustainable management strategies for protecting vulnerable coastal areas. Based on 28 contributions from authors from 17 different countries (Australia, China, Ecuador, Germany, Greece, India, Italy, Mexico, The Netherlands, New Zealand, Poland, Spain, Sri Lanka, Taiwan, United Arab Emirates, UK, USA), an ensemble of interdisciplinary articles has been collected, emphasizing the importance of tackling technical and scientific problems at different scales and from different point of views.

Published
2020

37. Ipersostentatore e diruttore dei flussi idrodinamici su dispositivi di conversione dell’energia ondosa marina a tracimazione

Author

pasquale contestabile and Contestabile, Pasquale

Subjects
wave energy, overtopping devices
Abstract

Il sistema è applicabile a dispositivi di conversione energetica del moto ondoso in elettricità che si basano sul principio della tracimazione ondosa. Lo scopo del trovato è di ampliare il range di funzionamento e l’efficienza dei dispositivi stessi.

Published
2020

38. Numerical Simulations of the Hydraulic Performance of a Breakwater-Integrated Overtopping Wave Energy Converter

Author

Sara Mizar Formentin, Pasquale Contestabile, Diego Vicinanza, Giuseppina Palma, Barbara Zanuttigh, Palma, Giuseppina, Mizar Formentin, Sara, Zanuttigh, Barbara, Contestabile, Pasquale, Vicinanza, Diego, and Giuseppina Palma, Sara Mizar Formentin, Barbara Zanuttigh, Pasquale Contestabile, Diego Vicinanza

Subjects
Wave energy converter, wave loads, Berm, Energy converter, 020209 energy, lcsh:Naval architecture. Shipbuilding. Marine engineering, numerical modelling, Ocean Engineering, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, lcsh:Oceanography, lcsh:VM1-989, Breakwater, 0202 electrical engineering, electronic engineering, information engineering, Energy transformation, wave overtopping, lcsh:GC1-1581, energy converter, Reflection coefficient, Geology, 0105 earth and related environmental sciences, Water Science and Technology, Civil and Structural Engineering, Marine engineering
Abstract

OBREC is the acronym that stands for Overtopping Breakwater for Energy Conversion. It is a multifunctional device aimed to produce energy from the waves, while keeping the harbour area protected from flooding. In this paper, the inclusions of a berm to reduce wave reflection, the shape of the sloping plate to maximise wave overtopping and the reservoir width and the crown wall shape to maximise wave energy capture while keeping the harbour safety were analysed to optimize the hydraulic and structural performances of the device. Several configurations were numerically investigated by means of a 2DV RANS-VOF code to extend the results already obtained during previous experimental campaigns. The wave reflection coefficient, the average wave overtopping flows and the wave loadings along the structure are computed, compared with existing formulae and discussed with reference to the OBREC prototype installed in the Port of Naples.

Published
2019
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41. Performances of a breakwater for wave energy conversion

Author

Federico Castiglione, Luca Cavallaro, Claudio Iuppa, Pasquale Contestabile, Diego Vicinanza, Enrico Foti, AAVV, Castiglione, Federico, Cavallaro, Luca, Iuppa, Claudio, Contestabile, Pasquale, Vicinanza, Diego, and Foti, Enrico

Published
2019

42. Wave loads on the OBREC device in a real wave climate

Author

Giuseppina Palma, Sara Mizar Formentin, Pasquale Contestabile, Barbara Zanuttigh, Diego Vicinanza, Giuseppina Palma, Sara Mizar Formentin, Pasquale Contestabile, Barbara Zanuttigh, Diego Vicinanza, AAVV, Palma, Giuseppina, Mizar Formentin, Sara, Contestabile, Pasquale, Zanuttigh, Barbara, and Vicinanza, Diego

Subjects
Wave energy converter, wave loads, numerical modelling, real wave climate
Published
2019

43. Renewable Energy from the Oceans: From wave, tidal and gradient systems to offshore wind and solar

Author

D. Vicinanza, P. Contestabile., N. Kermode, G.Sannino, A. Carillo, A. Vogler, G. Bracco, G. Mattiazzo, D. Vicinanza, P. Contestabile, D. P. Coiro, G. Troise, L Castellinih, J.V. Ringwood, B. Kirke, D. P. Coiro, G. Rizzo, F.A.Tiano, G. McCann, L. M. Stagno, D. Coiro, T. Sant, Vicinanza, D., and Contestabile, Pasquale

Subjects
wave energy, Harbour breakwaters for wave energy
Abstract

Wave energy has an estimated global potential of 3.7 TW, almost double that of current world electrical energy consumption, and has, to date, remained virtually untapped [1]. Wave also has a relatively low correlation with, for example, wind AQ1 and solar [2], meaning that a balance of wave with other renewable technologies can offer greater consistency of supply. Despite these attractive features, the drive to make wave energy economic has made relatively poor progress, due to a combination of the following factors: the ocean environment is hostile, wave energy is reciprocating (rather than unidirectional, therefore requiring rectification) and variable, and the technology is still in its relative infancy. These difficulties are manifest in the current unattractively high levelized cost of energy (LCoE) for wave energy, currently estimated at €225/MW h compared to the LCoE for offshore wind, for example, at €165/MW h [3]. This chapter examines the various facets of wave energy, including resource quantification and wave measurement (Section 2.1), the wide variety of onshore and offshore wave energy devices (Section 2.2), the variety of power take-off (PTO) mechanisms which convert wave power into other useful forms (Section 2.3) and concluding with some insight to how wave energy devices are modelled and controlled (Section 2.4).While this chapter can only give a limited overview of the challenges and some potential solutions to successfully harness wave energy, it belies the truly vast and diverse array of prototype wave energy converter (WEC) devices [4]. This diversity demonstrates the lack of technology convergence in WEC design and, combined with the multitude of PTO modalities described in Section 2.3, the potential variety of wave energy systems is truly broad. Nevertheless, from the overview and examples presented in this chapter, it is hoped that the reader will gain a better understanding of the challenges, and potential benefits, of adding wave energy to the current mix of commercial renewable energy technologies.

Published
2019

44. Energy Head Dissipation and Flow Pressures in Vortex Drop Shafts

Author

Pasquale Contestabile, Diego Vicinanza, Gaetano Crispino, Corrado Gisonni, Crispino, Gaetano, Contestabile, Pasquale, Vicinanza, Diego, and Gisonni, Corrado

Subjects
energy dissipation, urban drainage system, lcsh:Hydraulic engineering, Materials science, hydraulic structure, Geography, Planning and Development, Flow (psychology), pressure force, Aquatic Science, Biochemistry, Physics::Fluid Dynamics, Hydraulic head, lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, vortex drop shaft, Water Science and Technology, lcsh:TD201-500, Turbulence, Drop (liquid), Mechanics, Dissipation, Vortex, dissipation chamber, drop manhole, energy dissipation, hydraulic structure, pressure force, urban drainage system, vortex drop shaft, Hydraulic structure, Head (vessel), drop manhole, dissipation chamber
Abstract

Vortex drop shafts are special manholes designed to link sewer channels at different elevations. Significant energy head dissipation occurs across these structures, mainly due to vertical shaft wall friction and turbulence in the dissipation chamber at the toe of the shaft. In the present study two aspects, sometimes neglected in the standard hydraulic design, are considered, namely the energy head dissipation efficiency and the maximum pressure force in the dissipation chamber. Different physical model results derived from the pertinent literature are analyzed. It is demonstrated that the energy head dissipation efficiency is mostly related to the flow impact and turbulence occurring in the chamber. Similarly to the drop manholes, a relation derived from a simple theoretical model is proposed for the estimation of the energy head loss coefficient. The analysis of the pressures measured on the chamber bottom allows to provide a useful equation to estimate the pressure peak in the chamber as a function of the approach flow energy head.

Published
2021

45. Wave Energy Resource along the Coast of Santa Catarina (Brazil)

Author

Vincenzo Ferrante, Diego Vicinanza, Pasquale Contestabile, Contestabile, Pasquale, Ferrante, Vincenzo, and Vicinanza, Diego

Subjects
Control and Optimization, Meteorology, 020209 energy, Population, Energy Engineering and Power Technology, 02 engineering and technology, 010501 environmental sciences, 7. Clean energy, 01 natural sciences, lcsh:Technology, Santa Catarina, seasonal variability, Hydroelectricity, 0202 electrical engineering, electronic engineering, information engineering, Wave farm, Hindcast, Electrical and Electronic Engineering, education, Engineering (miscellaneous), 0105 earth and related environmental sciences, Wave power, education.field_of_study, Renewable Energy, Sustainability and the Environment, business.industry, lcsh:T, Energy mix, Renewable energy, 13. Climate action, Environmental science, wave energy, numerical model, Brazil, Submarine pipeline, business, Energy (miscellaneous)
Abstract

Brazil has one of the largest electricity markets in South America, which needs to add 6000 MW of capacity every year in order to satisfy growing the demand from an increasing and more prosperous population. Apart from biomass, no other renewable energy sources, besides hydroelectricity, play a relevant role in the energy mix. The potential for wind and wave energy is very large. Brazil's Santa Catarina state government is starting a clean energy program in the state, which is expected to bring more than 1 GW of capacity. Assessment of wave energy resources is needed along the coastline. This work studied the potential wave energy along the north-central coasts of Santa Catarina, in Southern Brazil, by analysis of the hindcast data from the European Centre for Medium-Range Weather Forecasts (ECMWF). The annual offshore wave power was found to be equal to 15.25 kW/m, the bulk of which is provided by southeastern waves. The nearshore energetic patterns were studied by means of a numerical coastal propagation model (Mike21 SW). The mean wave power of 20 m isobaths is 11.43 kW/m. Supplementary considerations are drawn on realistic perspectives for wave energy converters installations.

Published
2015

46. Advantages of an innovative vertical breakwater with an overtopping wave energy converter

Author

Maria Maza, Enrico Di Lauro, Pasquale Contestabile, Inigo J. Losada, Diego Vicinanza, Javier L. Lara, Di Lauro, Enrico, Maza, Maria, Lara, Javier, Losada, Inigo, Contestabile, Pasquale, and Vicinanza, Diego

Subjects
Environmental Engineering, Safety factor, 010504 meteorology & atmospheric sciences, 010505 oceanography, business.industry, Ocean Engineering, Structural engineering, 01 natural sciences, Stability (probability), Breakwater, Range (statistics), Reflection (physics), Caisson, Reflection coefficient, business, Reduction (mathematics), Geology, 0105 earth and related environmental sciences
Abstract

This paper presents an innovative vertical breakwater cross-section integrating an overtopping wave energy converter, named OBREC-V, and the analysis of its hydraulic performance and stability response to hydraulic loading. The structure is composed of a vertically-faced caisson with a sloping ramp on the top, a reservoir and a set-back crown-wall. The analysis of the structure is carried out by performing numerical simulations based on the Volume-Averaged Reynolds Averaged Navier-Stokes (VARANS) equations. The numerical simulations are performed to compare the performance of a traditional and innovative vertical caissons under the action of irregular waves, in terms of wave reflection, overtopping and wave acting forces. Results show that the reflection coefficients are lower than those computed in front of the traditional breakwater, with a reduction of up to the 40%. New formulations are proposed to better estimate the reflection coefficient and the wave overtopping at the rear side of the structure taking into account the non-conventional geometry of the device. The analysis of the forces indicate that the non-conventional geometry of the innovative OBREC-caisson increases the overall stability of the structure. The values of the safety factor against sliding, Cs, on innovative caissons are similar or greater than those calculated on the traditional vertical structure for almost all the tests. The downward force on the ramp and reservoir and the time lag between the vertical and horizontal forces, lead to a significant reduction of the maximum destabilizing forces Fs in the innovative breakwater, whose values range between 60 and 80% of the ones computed on the traditional structure. The obtained results show the co-benefits, in terms of functionality and hydraulic stability, that an OBREC-V entails with respect to a traditional vertical breakwater.

Published
2020

47. Investigation of the Performance of a Multifunctional Harbour Structure

Author

Palma G., Contestabile P., Formentin S. M., Vicinanza D., Zanuttigh, AAVV, Palma, Giuseppina, Contestabile, Pasquale, Mizar Formentin, Sara, Vicinanza, Diego, Zanuttigh, Barbara, Kevin Burgess, and Palma, G., Contestabile, P., Formentin, S. M., Vicinanza, D., & Zanuttigh, B.

Subjects
WECs, overtopping, wave loads
Published
2018

48. Seiching Induced by Bichromatic and Monochromatic Wave Conditions: Experimental and Numerical Analysis in a Large Wave Flume

Author

Luigia Riefolo, Diego Vicinanza, Pasquale Contestabile, Riefolo, Luigia, Contestabile, Pasquale, and Vicinanza, Diego

Subjects
bandwidth, Seiche, 010504 meteorology & atmospheric sciences, 0208 environmental biotechnology, Ocean Engineering, 02 engineering and technology, Low frequency, monochromatic waves, bichromatic waves, 01 natural sciences, Physics::Geophysics, lcsh:Oceanography, Wave flume, lcsh:VM1-989, Normal mode, lcsh:GC1-1581, 0105 earth and related environmental sciences, Water Science and Technology, Civil and Structural Engineering, eigenvalues, lcsh:Naval architecture. Shipbuilding. Marine engineering, Mechanics, spectral analysis, 020801 environmental engineering, ComputingMethodologies_PATTERNRECOGNITION, Monochromatic color, low frequency, Sediment transport, Monochromatic electromagnetic plane wave, Geology, Swash
Abstract

This paper describes a set of spectral and eigen analysis in order to identify seiche generation from a large-scale laboratory dataset. The experiments were performed in the large-scale &ldquo, Canal d&rsquo, Investigaci&oacute, i Experimentaci&oacute, Mar&iacute, tima&rdquo, wave flume at the Universitat Polit&egrave, cnica de Catalunya in Spain. Erosive and accretive wave regimes have been analyzed, including monochromatic waves and bichromatic wave groups with different bandwidths. Each test started with approximately the same underlying beach conditions. Video runup measurements are also used to better understand the role of the bandwidth in the generation of swash oscillation. Some evidence of the influence of low frequency waves on runup and sediment transport pattern is found. Good agreements between eigenmode families for volume flux and sediment volume variations are also shown.

Published
2018

49. Coastal Defence Integrating Wave-Energy-Based Desalination: A Case Study in Madagascar

Author

Pasquale Contestabile, Diego Vicinanza, Contestabile, Pasquale, and Vicinanza, Diego

Subjects
010504 meteorology & atmospheric sciences, 020209 energy, Population, Water supply, Ocean Engineering, 02 engineering and technology, 01 natural sciences, Desalination, lcsh:Oceanography, desalination, lcsh:VM1-989, 0202 electrical engineering, electronic engineering, information engineering, Energy transformation, lcsh:GC1-1581, education, 0105 earth and related environmental sciences, Water Science and Technology, Civil and Structural Engineering, green ports, education.field_of_study, business.industry, Environmental engineering, lcsh:Naval architecture. Shipbuilding. Marine engineering, Electrical grid, 6. Clean water, Renewable energy, Electricity generation, OBREC, 13. Climate action, Environmental science, Energy source, business, wave energy
Abstract

In arid, coastal cities, water demand is often met through large-scale desalination systems. However, the energy required to run desalination plants remains a drawback. Further, numerous low-density population areas lack not only fresh water availability, but in most of the cases electrical grid connection or any other energy source as well. The challenge, consequently, is to ensure adequate fresh water supplies at the lowest possible cost. The main objective of this work is to assess the freshwater production from a reverse osmosis desalination system powered by a wave energy converter, the Overtopping Breakwater for Wave Energy Conversion (OBREC). The desktop analysis is illustrated through a case study on the Fenoarivo Atsinanana coast, along north-eastern Madagascar. The novel aspect of the analysis method is the application of a specific numerical code calibrated using preliminary results from a two-year monitoring campaign of the first OBREC prototype in operation in Naples Harbour (Italy). Instead of dissipating the incoming wave energy, the system collects the overtopping water above the sea level and the potential energy is converted into electricity through low head turbines. Then, the flow will be driven towards the desalination system. This configuration seems like a promising opportunity for developing countries to meet their water supply needs while at the same time developing their renewable energy potential.

Published
2018

50. Some Results on the Vulnerability Assessment of HAWTs Subjected to Wind and Seismic Actions

Author

Alberto Maria Avossa, Diego Vicinanza, Pasquale Contestabile, Francesco Ricciardelli, Cristoforo Demartino, Avossa, A. M., Demartino, C., Contestabile, P., Ricciardelli, F., Vicinanza, D., Avossa, Alberto Maria, Demartino, Cristoforo, Contestabile, Pasquale, Ricciardelli, Francesco d'Assisi, and Vicinanza, Diego

Subjects
uncoupled analysis, Engineering, Peak ground acceleration, 020209 energy, Geography, Planning and Development, TJ807-830, 02 engineering and technology, Uncoupled analysi, Management, Monitoring, Policy and Law, TD194-195, Turbine, Wind speed, Renewable energy sources, law.invention, land-based wind turbine, Fragility, law, seismic action, Aerodynamic damping, 0202 electrical engineering, electronic engineering, information engineering, Limit state design, GE1-350, wind action, aerodynamic damping, seismic response, fragility, Wind power, Land-based wind turbine, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, business.industry, Rotor (electric), Wind action, Structural engineering, Aerodynamics, Environmental sciences, Seismic action, business, Seismic response
Abstract

The spread of the wind energy industry has caused the construction of wind farms in areas prone to high seismic activity. Accordingly, the analysis of wind turbine loading associated with earthquakes is of crucial importance for an accurate assessment of their structural safety. Within this topic, this paper presents some preliminary results of a probabilistic framework intended to be used for the estimation of the probability of failure of Horizontal Axis Wind Turbine-supporting structures when subjected to the wind and seismic actions. In particular, the multi-hazard fragility curves of the wind turbine-supporting structure were calculated using Monte Carlo simulations. A decoupling approach consisting of aerodynamic analysis of the rigid rotor blade model and subsequent linear dynamic Finite Element analyses of the supporting structure, including aerodynamic damping, was used. The failure condition of the tower structure was estimated according to the stress design procedure proposed by EC3 for the buckling limit state assessment. Finally, the vulnerability assessment of HAWTs to wind and seismic actions was evaluated in terms of fragility curves describing the probability of failure of the supporting tower structure as a function of the Peak Ground Acceleration (PGA) for each parked and operational wind condition. In particular, the results highlight a probability of failure larger than 50% for high levels of seismic action (PGA greater than 0.7 g) combined with the rotor in parked condition (wind speed of 3 m/s) or in operational rated condition (wind speed of 11.4 m/s).

Published
2017

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