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  • Alpers W, Ivanov AY, Dagestad K-F. 2010. Investigation of coastal wind fields over the Black Sea using Envisat synthetic aperture radar images. Proceedings of the ESA Living Planet Symposium, held in Bergen, Norway from 28 June to 2 July 2010, ESA publication SP-686.
  • Alpers W, Ivanov A, Horstmann J. 2009. Observations of bora events over the Adriatic Sea and Black Sea by spaceborne synthetic aperture radar. Mon. Weather Rev. 137: 11501161.
  • Bidlot J-R, Holmes DJ, Wittmann PA, Lalbeharry R, Chen HS. 2002. Intercomparison of the performance of operational ocean wave forecasting systems with buoy data. Weather Forecast. 17: 287310.
  • Butler G. 2010. Mode. In Encyclopedia of Research Design, Salkind N (ed.). Sage: Thousand Oaks, CA; 140142.
  • Charnock H. 1955. Wind stress on a water surface. Q. J. R. Meteorol. Soc. 81: 639640.
  • Da Rosa AV. 2009. Fundamentals of Renewable Energy Processes, 2nd edn. Academic Press: Burlington, MA.
  • Dibarboure G, Dorandeu J, Le Traon PY, Picot N. 2006. SSALTO/DUACS: 15 Years of Precise and Consistent Multi-Mission Altimetry Data, 13–18 March 2006, Venice, Italy (ESA SP-614, July 2006).
  • EEA (European Environment Agency). 2009. Europe's onshore and offshore wind energy potential. EEA Technical Report Office for Official Publications of the European Communities: Luxembourg. no. 6/2009.
  • Efimov VV, Anisimov AE. 2011. Climatic parameters of wind-field variability in the Black Sea region: numerical reanalysis of regional atmospheric circulation. Izv. Atmos. Oceanic Phys. 47: 350361.
  • Efimov VV, Shokurov MV, Yarovaya DA. 2007. Numerical simulation of a quasi-tropical cyclone over the Black Sea. Izv. Atmos. Oceanic Phys. 43: 723743.
  • Enriquez CE, Shapiro GI, Zatsepin AG. 2002. Mesoscale circulation in the Black Sea during November 2000 from remote and in-situ data. Challeger Centenary Conference: Marine Science 2002, 9–13 September 2002, Plymouth, UK.
  • EREC (European Renewable Energy Council). 2007. Renewable Energy Technology Roadmap, 20% by 2020.
  • EWEA (European Wind Energy Association). 2012. Wind in power: 2011 European statistics. http://www.ewea.org (accessed 23 September 2011).
  • Fusco F, Nolan G, Ringwood JV. 2010. Variability reduction through optimal combination of wind/wave resources—An Irish case study. Energy 35: 314325.
  • Gaspar P, Labroue S, Ogor F, Lafitte G, Marchal L, Rafanel M. 2002. Improving nonparametric estimates of the sea state bias in radar altimetry measurements of sea level. J. Atmos. Oceanic Technol. 19: 16901707.
  • Hasager CB, Badger M, Pena A, Larsen XG, Bingol F. 2011. SAR-based wind resource statistics in the Baltic Sea. Remote Sens. 3: 117144.
  • Maslova V, Voskresenskaya E, Bardin M. 2010. Variability of the cyclone activity in the Mediterranean–Black sea region. J. Environ. Prot. Ecol. 11: 13661372.
  • Pimenta F, Kempton W, Garvine R. 2008. Combining meteorological stations and satellite data to evaluate the offshore wind power resource of Southeastern Brazil. Renewable Energy 33: 23752387.
  • Robertson I. 2004. Calculating Percentiles. Stanford University: Stanford, CA.
  • Rusu E. 2009. Wave energy assessments in the Black Sea. J. Mar. Sci. Technol. 14: 359372.
  • Rusu L. 2010. Application of numerical models to evaluate oil spills propagation in the coastal environment of the Black Sea. J. Environ. Eng. Landsc. Manage. 18: 288295.
  • Rusu L, Ivan A. 2010. Modelling wind waves in the romanian coastal environment. Environ. Eng. Manage. J. 9: 547552.
  • Sorensen B. 2007. Renewable Energy Conversion, Transmission, and Storage. Elsevier/Academic Press: Waltham, MA; 327.
  • Staneva JV, Stanev E. 1998. Oceanic response to atmospheric forcing derived from different climatic data sets. Intercomparison study for the Black Sea. Oceanol. Acta 21: 393417.
  • Stoutenburg ED, Jenkins N, Jacobson MZ. 2010. Power output variations of co-located offshore wind turbines and wave energy converters in California. Renewable Energy 35: 27812791.
  • Sutherland HJ, Berg DE, Ashwill TD. 2012. A retrospective of VAWT technology. Sandia Report SAND2012-03044 Sandia National Laboratories: Livermore, CA.
  • Szabo L, Oprea C. 2007. Wave energy plants for the Black Sea—possible energy converter structures. Proceedings of the International Conference on Clean Electrical Power (ICCEP 2007), Capri, Italia; 306311.
  • Valchev N, Davidan I, Belberov Z, Palazov A, Valcheva N. 2008. Estimation of wind wave climate of the Western Black Sea during the last 50 years. Proceedings of the Ninth International Conference on Marine Sciences and Technologies “Black Sea 2008”, 23–25 October 2008, Varna, Bulgaria; 232239.
  • Valchev N, Davidan I, Belberov Z, Palazov A, Valcheva N. 2010a. Hindcasting and assessment of the western Black sea wind and wave climate. J. Environ. Prot. Ecol. 11: 10011012.
  • Valchev N, Trifonova E, Andreeva N, Eftimova P. 2010b. Long-term variability of extreme storm occurrence and intensity in the western Black Sea. Storm Surges Congress 2010, Risk and Management of Current and Future Storm Surge, 13–17 September 2010, Hamburg, Germany.
  • Vestas. 2011. V90-3.0MW offshore. http://www.vestas.com (accessed 3 March 2012).
  • Voskresenskaya EN, Maslova VN. 2011. Winter-spring cyclonic variability in the Mediterranean-Black Sea region associated with global processes in the ocean-atmosphere system. Adv. Sci. Res. 6: 237243.