The main objective of this article is to provide a comprehensive picture of existing wave technologies being used for wave energy extraction. The overview will explain their potential and also the challenges wave technologies face. The article will also briefly discuss the benefits of combined offshore wind-wave projects, also known as hybrids. Key factors and impacts on relevant existing wave technologies will be outlined, including capacity factor and capture width. Finally the levelized cost of energy (LCOE) targets for the most promising technologies will be discussed.
a b s t r a c tThis paper presents an evaluation of the efficiency of twelve state of the art wave energy converters in the Atlantic Ocean, in the vicinity of the most important European islands and archipelagos (Iceland, Archipelago of Azores, Madeira Archipelago and Canary Islands). An analysis of the wave conditions in the target areas was first performed by considering a 10-year interval (2004e2013) of wave data provided by the European Centre for Medium-Range Weather Forecasts. For this reason, twenty reference points, all located in water depths of about 50 m, were defined. In order to provide a general picture of the wave potential and also to highlight the presence of some hot spots, several wave parameters, such as significant wave height, mean wave direction and wave power, were evaluated. Then, for every nearshore area, based on the bivariate distributions of the sea states occurrences and also on the power matrix of each device, the performances of each wave energy converter were estimated in terms of the expected electrical power. The results of the present work provide valuable information for the future wave farm projects, which could become in the near future a reliable and effective way to produce energy in island environments.
The main objective of the present work is to assess the wind energy resources in the Black and in the Caspian seas. Additionally, the electric power expected to be provided by various state of the art technologies was also evaluated. For this reason, several reference points were considered in the coastal environments of the two areas targeted. In order to assess the wind potential in these locations, 12 year of data coming from the US National Centers for Environmental Prediction were processed and analyzed. From the analysis of the wind power density (corresponding to a height of 80 m), it was possible to evaluate the spatial and seasonal distributions of the wind resources, and also to identify some hot spot areas. Since the regions located near the shoreline are under the influence of the diurnal/nocturnal fluctuations, a special attention was paid to this aspect. This is especially due to the fact that the power output of a wind farm project is supposed to be significantly influenced by such variations. In the second part of the work, several offshore wind turbines were considered and their performances were evaluated in relationship with the local wind patterns. Based on these results, we can conclude that important variations may occur between the diurnal and the nocturnal intervals, in terms of both wind velocity and direction, while on a regional scale the northern parts of the Black and the Caspian seas seem to present more consistent wind energy potential. Moreover, this potential is comparable with that from the locations where such offshore wind farms already successfully operate.
The main objective of this work was to evaluate the nearshore wind resources in the Black Sea area by using a high resolution wind database (ERA-Interim). A subsequent objective was to estimate what type of wind turbines and wind farm configurations would be more suitable for this coastal environment. A more comprehensive picture of these resources was provided by including some satellite measurements, which were also used to assess the wind conditions in the vicinity of some already operating European wind projects. Based on the results of the present work, it seems that the Crimea Peninsula has the best wind resources. However, considering the current geopolitical situation, it seems that the sites on the western part of this basin (Romania and Bulgaria) would represent more viable locations for developing offshore wind projects. Since there are currently no operational wind projects in this marine area, some possible configurations for the future wind farms are proposed.
ABSTRACT:The main objective of the present work is to provide a more comprehensive picture of the wind patterns in the Black Sea basin. The analysis is based on 14 years of data (1999)(2000)(2001)(2002)(2003)(2004)(2005)(2006)(2007)(2008)(2009)(2010)(2011)(2012) coming from both measurements and reanalysis model wind fields. A first perspective of the wind conditions in the coastal environment of the Black Sea is given by considering data from several offshore weather stations that operate in the western sector of the sea. The above analysis is completed using remotely sensed data as well as wind fields from two atmospheric models operated by the European Centre for Medium-Range Weather Forecasts and the U.S. National Centres for Environmental Prediction. Beside a more complete image of the wind climate in the area targeted, the results show that in general a good agreement is encountered between the measured data and the numerical models as regards the overall spatial and seasonal evolutions of the wind conditions. The results indicate also that significant energetic wind conditions more often occur in the western part of the sea. These appear to be very similar with those from several offshore locations where wind farms already operate. Following this observation, and using the same data set, direct comparisons with four such locations from the Baltic Sea are also performed. The main conclusion of the work is that the coastal environment of the Black Sea, and especially that from its western side, is appropriate for wind energy extraction.
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