1,720,959 research outputs found
Blue growth development in the mediterranean sea: Quantifying the benefits of an integrated wave energy converter at genoa harbour
No full textCoastal resilience is often achieved by traditional civil engineering projects, such as dikes and breakwaters. However, given the pressing nature of Climate Change, integrating energy converters in “classical” structures can enhance innovation, and help in pursuing decarbonisation targets. In this work, we present an alternative for integrating a wave energy converter at a vertical wall breakwater, following past successful projects. Our approach is based on a high spatio-temporal wave dataset to properly quantify expected energy production, but also focus on the hours for which other time-dependent renewables cannot produce, i.e., solar. Our analysis evaluates the power performance and assesses the economic parameters and viability of the proposed installation. Our integrated solution shares the main capital with the breakwater and can produce from 390 MWh–2300 MWh/year, displacing more than 1760 Tn of CO2 annually. In addition to power generated, we estimated the payback period for most cases being approximately 10–15 years, but when accounting avoided oil CO2 emissions, the installation is highly attractive with payback in less than 9 years, with favourable financing indicating 3.4 years
Feasibility of Wave Energy Harvesting in the Ligurian Sea, Italy
No full textClean energies are being incorporated into the energy mix in numerous countries. Through a spatial survey of maritime trade, restricted military maritime areas, marine planning, and the presence of fauna and flora along the Ligurian Sea, locations for possible investments in wave energy harvesting were identified in the Northern Thyrrenian Sea, along the Ligurian coast. Previous studies in this region have demonstrated, at a lower spatial resolution, the wave energy potential that can be captured and its variation over time. However, the optimization of wave energy exploitation under the criteria of the functionality and safety of converter devices has not yet been evaluated in the Ligurian Sea. The purpose of this study is to identify the optimal wave energy converter from an economic and technical perspective at several selected locations in the Ligurian Sea. This study involves the scaling of the employed power matrices to obtain the optimized capacity factors of wave energy converters
Developments of energy in EU–unlocking the wave energy potential
No full textThe New Entrance Reserve (NER300) is one of the leading mechanisms used for the application and promotion of clean energy projects. In this context, this study aims to investigate the evolution of wave energy projects within the first and second call of NER300. Furthermore, the study tries to identify the reasons of successful applications through an estimation analysis of energy production, avoided emission and energy security. Milder resources contain ‘hidden’ opportunities for wave energy, with lower expenditure and capacity factors equivalent and even over 20%. Lower extreme events indicate that associated installation costs can be considered reduced, thus the potential cost of energy may act as a positive driver for future development. The results of the study argue that there are regions with ‘hidden’ opportunities that can accelerate proof-of-concept and enhance viability for wave energy.Accepted Author ManuscriptTransport Engineering and Logistic
Wind effects in the parametrisation of physical characteristics for a nearshore wave model
No full textTo properly assess the energy and waves at a region, it is vital to obtain suitable long term metocean conditions. Although, wave buoys are a significant source of information they are not able to provide a detailed and complete resource assessment, as they have inherent spatiotemporal and recording limitations. Therefore, numerical wave models are often used to estimate wave power and metocean conditions. A wave model can provide realistic representation of physical processes, but it should entail careful tuning of parameters, which are often based on empirical and semi-empirical configurations. The study presents calibration of a wave numerical model and examines its performance, for nearshore wave assessments. Parametrisations of wind growth and whitecappingcoefficients have direct effects on evolution of locally generated waves, swells, and can reduce uncertainty in the results of a hindcast. The results are used to explain the physical meaning of differences, and provide a detail comparison of metocean parameters with nearshore and shallow water buoys as in-situ benchmarkers. Inter-model comparisons also indicate differences in spatial wave generation and propagation, as affected by wind growth and dissipation rates. The “optimal” solution will result in a model that will be used to provide a long-term high resolution metocean and wave power assessment for the Netherlands, that so far has been lacking in wave energy resource characterisation.Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.Transport Engineering and Logistic
Energy and socio-economic benefits from the development of wave energy in Greece
No full textThe study quantifies socio-economic benefits by the integration of wave energy in Greece, through resource examination, availability and deployment considerations. Greece has a large number of inhabited islands that mostly utilise conventional fuels for power generation, inclusion of wave energy will contribute both in terms of energy independence but also in job creation. The Greek region is often overlooked, due to its lower resources, but through proper converter selection energy benefits can be significant. Furthermore, milder resources offer opportunities for capital expenditure reductions, hence reducing cost of device and energy. Scenarios consider technological maturity, legislation, and resource potential to quantify future cumulative installations that can be developed. If a wave energy converter (WEC) is selected properly, accounting for climate variability and persistence, an off-the-shelve WEC can operate at capacity factors starting from 20%. Based on a resource and availability assessment, the learning rates from an incremental approach are more suitable and allow cost reductions. Job creation targets island regions where majority of exploitable resource is located and can provide up to 1400 direct jobs. Adaptation of wave energy by Greece has the potential to offer major technological, energy and employment benefits.Transport Engineering and Logistic
Selection index for Wave Energy Deployments (SIWED): A near-deterministic index for wave energy converters
No full textThis study introduces a novel index that accounts for the interactions of wave climate and wave energy converters, offering an unbiased approach that considers climate variability, survivability and energy production. Application of the index is done with use of a longterm wave hindcast validated database for the North Sea. A detailed overall and monthly wave resource assessment reveals that mean expected wave resource is ≈15 kW/m, with higher nearshore values in December-January ≈20-25 kW/m. Lower magnitudes are met in July with values closer to ≈ 4-6 kW/m, as a general observation higher resource magnitude is expected at upper parts of the North Sea, with diminishing levels towards the English channel, the difference in available resource is almost half. The region favours "smaller" capacity devices, with energy production, with capacity factors having encouraging results. The highest mean value for a capacity factor in the region is 25-32%. However, the new index indicated that the highest capacity factor value should not be the determinant parameter. In fact, other locations have less energy production per year, but with significantly less production pattern variation and lower extreme condition probabilities.Transport Engineering and Logistic
Impacts of physical calibration of a spectral wave model and effects of using different temporal wind inputs
No full textSpectral wave modelling can reduce uncertainties in the estimation of wave energy resource assessment, converter design, extreme value analysis, etc. In spectral models, wave growth is represented with different approaches, resulting in wave resource assessments having large differences especially at high wave values. In this paper a modified version of the North Sea Wave Database is used to quantify the impact of wind temporal fidelity on the wind growth components. The Simulating WAves Nearshore (SWAN) model has been modified, with two different wind inputs used from the European Centre for Medium-Range Weather Forecasts (ECMWF). Results are compared with in-situ measurements an inter-comparison for 20 years (1980-1999). Differences are found on mean and maxima values of wave parameters, with little changes in directionality. However, higher temporal resolution of the wind does not mean always a better hindcast, in fact attention to the calibration of wind-wave growth interactions and whitecaps leads to similar results. Finally, the high fidelity hindcasts are compared, identifying limitations and opportunities for improvements in wave energy assessments.Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.Offshore Engineerin
Going Beyond Counting First Authors in Author Co-citation Analysis
Full text linkThe present study examines one of the fundamental aspects of author co-citation analysis (ACA) - the way co-citation
counts are defined. Co-citation counting provides the data on which all subsequent statistical analyses and mappings
are based, and we compare ACA results based on two different types of co-citation counting - the traditional type that
only counts the first one among a cited work's authors on the one hand and a non-traditional type that takes into
account the first 5 authors of a cited work on the other hand. Results indicate that the picture produced through this non-traditional author co-citation counting contains more coherent author groups and is therefore considerably clearer. However, this picture represents fewer specialties in the research field being studied than that produced through the traditional first-author co-citation counting when the same number of top-ranked authors is selected and analyzed. Reasons for these effects are discussed
Wave energy in the Netherlands: Past, present and future perspectives
No full textWith the renewable targets of 2020 reaching ever closer, Europe is continuing its ambitious plans for 2030 of developing innovative projects that assist tackling climate change and increase renewable energy integration. The Netherlands are trying to develop their renewable energy portfolio, to create a viable long-term decarbonized sustainable society. So far majority of development has been focused on wind and solar, with offshore wind gaining significant traction over the past years. However, for the renewable energy transition to be fully realised, all indigenous resources must be evaluated and utilized. The Netherlands have a long history of dealing with water, and have an extensive industrial base in ocean engineering and water infrastructure. However, when it comes to the development of wave energy the sector is lacking significantly compared to other offshore renewables. This study discusses the past, present and future status of wave energy in the Netherlands. We discuss the various schemes and propose a hybrid support scheme for the development of wave energy. Furthermore, we also consider the unique spatial characteristics of the coastlines and suggest a multizonal scheme, that can act beneficially and support development of different wave converter concepts.Finally, based on the spatial and a techno-economic, we propose that by 2030 the policy focus should be to install up to 24 MW and by 2040 to 44 MW, with initial estimations on reductions per Unit Cost also discussed. With wave technologies in early stages of development in terms of technology and regional applications, there are numerous opportunities that can assist in “unlocking” thewave energy industry in the Netherlands.Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.Transport Engineering and Logistic
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