This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Alimi, S.E., Maatallah, T., Dahmouni, A.W. Nasrallah, S.B. (2012). Modeling and investigation of the wind resource in the gulf of Tunis, Tunisia. Renewable Sustainable Energy Reviews 16(8): 5466–5478.AlimiS.E.MaatallahT.DahmouniA.W.NasrallahS.B.2012Modeling and investigation of the wind resource in the gulf of Tunis, TunisiaRenewable Sustainable Energy Reviews1685466547810.1016/j.rser.2012.05.004Search in Google Scholar
Ban, M., Perkovic, L., Duic, N. Penedo, R. (2013). Estimating the spatial distribution of high altitude wind energy potential in Southeast Europe. Energy 57(3): 24–29.BanM.PerkovicL.DuicN.PenedoR.2013Estimating the spatial distribution of high altitude wind energy potential in Southeast EuropeEnergy573242910.1016/j.energy.2012.12.045Search in Google Scholar
Capps, S.B. Zender, C.S. (2009). Global ocean wind power sensitivity to surface layer stability. Geophysical Research Letters 36(9). DOI: 10.1029/2008GL037063.CappsS.B.ZenderC.S.2009Global ocean wind power sensitivity to surface layer stabilityGeophysical Research Letters36910.1029/2008GL037063Open DOISearch in Google Scholar
Capps, S.B. Zender, C.S. (2010). Estimated global ocean wind power potential from QuikSCAT observations, accounting for turbine characteristics and siting. Journal of Geophysical Research: Atmospheres 115(D9). DOI: 10.1029/2009JD012679.CappsS.B.ZenderC.S.2010Estimated global ocean wind power potential from QuikSCAT observations, accounting for turbine characteristics and sitingJournal of Geophysical Research: Atmospheres115D910.1029/2009JD012679Open DOISearch in Google Scholar
Chadee, X.T. Clarke, R.M. (2014). Large-scale wind energy potential of the Caribbean region using near-surface reanalysis data. Renewable and Sustainable Energy Reviews 30: 45–58.ChadeeX.T.ClarkeR.M.2014Large-scale wind energy potential of the Caribbean region using near-surface reanalysis dataRenewable and Sustainable Energy Reviews30455810.1016/j.rser.2013.09.018Search in Google Scholar
Dee, D.P., Uppala, S.M., Simmons, A.J., Berrisford, P., Poli, P. et al. (2011). The ERA-Interim reanalysis: Configuration and performance of the data assimilation system. Quarterly Journal of the royal meteorological society 137(656): 553–597.DeeD.P.UppalaS.M.SimmonsA.J.BerrisfordP.PoliP.2011The ERA-Interim reanalysis: Configuration and performance of the data assimilation systemQuarterly Journal of the royal meteorological society13765655359710.1002/qj.828Search in Google Scholar
Dee, D.P. Uppala, S. (2009). Variational bias correction of satellite radiance data in the ERA-Interim reanalysis. Quarterly Journal of the Royal Meteorological Society 135(644): 1830–1841.DeeD.P.UppalaS.2009Variational bias correction of satellite radiance data in the ERA-Interim reanalysisQuarterly Journal of the Royal Meteorological Society1356441830184110.1002/qj.493Search in Google Scholar
Divine, D.V. Dick, C. (2006). Historical variability of sea ice edge position in the Nordic Seas. Journal of Geophysical Research: Oceans 111(C1). DOI: 10.1029/2004JC002851.DivineD.V.DickC.2006Historical variability of sea ice edge position in the Nordic SeasJournal of Geophysical Research: Oceans111C110.1029/2004JC002851Open DOISearch in Google Scholar
Eriksson, S., Bernhoff , H. Leijon, M. (2008). Evaluation of different turbine concepts for wind power. Renewable Sustainable Energy Reviews 12(5): 1419–1434.ErikssonS.BernhoffH.LeijonM.2008Evaluation of different turbine concepts for wind powerRenewable Sustainable Energy Reviews1251419143410.1016/j.rser.2006.05.017Search in Google Scholar
Eurek, K., Sullivan, P., Gleason, M., Hettinger, D., Heimiller, D. et al. (2017). An improved global wind resource estimate for integrated assessment models. Energy Economics 64: 552–567.EurekK.SullivanP.GleasonM.HettingerD.HeimillerD.2017An improved global wind resource estimate for integrated assessment modelsEnergy Economics6455256710.2172/1344760Search in Google Scholar
Fyrippis, I., Axaopoulos, P.J. Panayiotou, G. (2010). Wind energy potential assessment in Naxos Island, Greece. Applied Energy 87(2): 577–586.FyrippisI.AxaopoulosP.J.PanayiotouG.2010Wind energy potential assessment in Naxos Island, GreeceApplied Energy87257758610.1016/j.apenergy.2009.05.031Search in Google Scholar
Gasparatos, A., Doll, C.N., Esteban, M., Ahmed, A. Olang, T.A. (2017). Renewable energy and biodiversity: Implications for transitioning to a Green Economy. Renewable Sustainable Energy Reviews 70: 161–184.GasparatosA.DollC.N.EstebanM.AhmedA.OlangT.A.2017Renewable energy and biodiversity: Implications for transitioning to a Green EconomyRenewable Sustainable Energy Reviews7016118410.1016/j.rser.2016.08.030Search in Google Scholar
Herbaut, C., Houssais, M.N., Close, S. Blaizot, A.C. (2015). Two wind-driven modes of winter sea ice variability in the Barents Sea. Deep Sea Research Part I: Oceanographic Research Papers 106: 97–115.HerbautC.HoussaisM.N.CloseS.BlaizotA.C.2015Two wind-driven modes of winter sea ice variability in the Barents SeaDeep Sea Research Part I: Oceanographic Research Papers1069711510.1016/j.dsr.2015.10.005Search in Google Scholar
Holmes, J.D. (2015). Wind loading of structures CRC press. pp: 49–53.HolmesJ.D.2015Wind loading of structuresCRC press49–53Search in Google Scholar
Hodges, K.I., Lee, R.W. Bengtsson, L. (2011). A comparison of extratropical cyclones in recent reanalyses ERA-Interim, NASA MERRA, NCEP CFSR, and JRA-25. Journal of Climate 24(18): 4888–4906.HodgesK.I.LeeR.W.BengtssonL.2011A comparison of extratropical cyclones in recent reanalyses ERA-Interim, NASA MERRA, NCEP CFSR, and JRA-25Journal of Climate24184888490610.1175/2011JCLI4097.1Search in Google Scholar
Hsu, S.A., Meindl, E.A. Gilhousen, D.B. (1994). Determining the power-law wind-profile exponent under near-neutral stability conditions at sea. Journal of Applied Meteorology 33(6): 757–765.HsuS.A.MeindlE.A.GilhousenD.B.1994Determining the power-law wind-profile exponent under near-neutral stability conditions at seaJournal of Applied Meteorology33675776510.1175/1520-0450(1994)033<0757:DTPLWP>2.0.CO;2Search in Google Scholar
Ingvaldsen, R.B., Asplin, L. Loeng, H. (2004). Velocity field of the western entrance to the Barents Sea. Journal of Geophysical Research: Oceans 109(C3). DOI: 10.1029/2003JC001811.IngvaldsenR.B.AsplinL.LoengH.2004Velocity field of the western entrance to the Barents SeaJournal of Geophysical Research: Oceans109C310.1029/2003JC001811Open DOISearch in Google Scholar
Karamanis, D., Tsabaris, C., Stamoulis, K. Georgopoulos, D. (2011). Wind energy resources in the Ionian Sea. Renewable Energy 36(2): 815–822.KaramanisD.TsabarisC.StamoulisK.GeorgopoulosD.2011Wind energy resources in the Ionian SeaRenewable Energy36281582210.1016/j.renene.2010.08.007Search in Google Scholar
Kwok, R. (2009). Outflow of Arctic Ocean sea ice into the Greenland and Barents Seas: 1979–2007. Journal of Climate 22(9): 2438–2457.KwokR.2009Outflow of Arctic Ocean sea ice into the Greenland and Barents Seas: 1979–2007Journal of Climate2292438245710.1175/2008JCLI2819.1Search in Google Scholar
Lien, V.S., Schlichtholz, P., Skagseth, Ø. Vikebø, F.B. (2017). Wind-Driven Atlantic Water Flow as a Direct Mode for Reduced Barents Sea Ice Cover. Journal of Climate 30(2): 803–812.LienV.S.SchlichtholzP.SkagsethØ.VikebøF.B.2017Wind-Driven Atlantic Water Flow as a Direct Mode for Reduced Barents Sea Ice CoverJournal of Climate30280381210.1175/JCLI-D-16-0025.1Search in Google Scholar
Liu, W.T., Tang, W. Xie, X. (2008). Wind power distribution over the ocean. Geophysical Research Letters 35(13). DOI: 10.1029/2008GL034172.LiuW.T.TangW.XieX.2008Wind power distribution over the oceanGeophysical Research Letters351310.1029/2008GL034172Open DOISearch in Google Scholar
Onea, F., Raileanu, A. Rusu, E. (2015). Evaluation of the wind energy potential in the coastal environment of two enclosed seas. Advances in Meteorology. 2015. DOI: 10.1155/2015/808617.OneaF.RaileanuA.RusuE.2015Evaluation of the wind energy potential in the coastal environment of two enclosed seasAdvances in Meteorology201510.1155/2015/808617Open DOISearch in Google Scholar
Panofsky, H.A. Dutton, J.A. (1984). Atmospheric Turbulence Wiley, 397 pp.PanofskyH.A.DuttonJ.A.1984Atmospheric TurbulenceWiley397Search in Google Scholar
Pavlova, O., Pavlov, V. Gerland, S. (2014). The impact of winds and sea surface temperatures on the Barents Sea ice extent, a statistical approach. Journal of Marine Systems 130: 248–255.PavlovaO.PavlovV.GerlandS.2014The impact of winds and sea surface temperatures on the Barents Sea ice extent, a statistical approachJournal of Marine Systems13024825510.1016/j.jmarsys.2013.02.011Search in Google Scholar
Perkovic, L., Silva, P., Ban, M., Kranjcevic, N. Duic, N. (2013). Harvesting high altitude wind energy for power production: The concept based on Magnus’ effect. Applied energy 101: 151–160.PerkovicL.SilvaP.BanM.KranjcevicN.DuicN.2013Harvesting high altitude wind energy for power production: The concept based on Magnus’ effectApplied energy10115116010.1016/j.apenergy.2012.06.061Search in Google Scholar
Reistad, M., Breivik, Ø., Haakenstad, H., Aarnes, O.J., Furevik, B.R. et al. (2011). A high-resolution hindcast of wind and waves for the North Sea, the Norwegian Sea, and the Barents Sea. Journal of Geophysical Research: Oceans 116(C5). DOI: 10.1029/2010JC006402.ReistadM.BreivikØ.HaakenstadH.AarnesO.J.FurevikB.R.2011A high-resolution hindcast of wind and waves for the North Sea, the Norwegian Sea, and the Barents SeaJournal of Geophysical Research: Oceans116C510.1029/2010JC006402Open DOISearch in Google Scholar
Shapiro, I., Colony, R. Vinje, T. (2003). April sea ice extent in the Barents Sea, 1850–2001. Polar Research 22(1): 5–10.ShapiroI.ColonyR.VinjeT.2003April sea ice extent in the Barents Sea, 1850–2001Polar Research22151010.3402/polar.v22i1.6437Search in Google Scholar
Simionato, C.G., Vera, C.S. Siegismund, F. (2005). Surface wind variability on seasonal and interannual scales over Río de la Plata area. Journal of Coastal Research 21(4): 770–783.SimionatoC.G.VeraC.S.SiegismundF.2005Surface wind variability on seasonal and interannual scales over Río de la Plata areaJournal of Coastal Research21477078310.2112/008-NIS.1Search in Google Scholar
Szczypta, C., Calvet, J.C., Albergel, C., Balsamo, G., Boussetta, S. et al. (2011). Verification of the new ECMWF ERA-Interim reanalysis over France. Hydrology and Earth System Sciences 15(2): 647.SzczyptaC.CalvetJ.C.AlbergelC.BalsamoG.BoussettaS.2011Verification of the new ECMWF ERA-Interim reanalysis over FranceHydrology and Earth System Sciences15264710.5194/hess-15-647-2011Search in Google Scholar
Wang, Z., Dong, S., Dong, X. Zhang, X. (2016). Assessment of wind energy and wave energy resources in Weifang sea area. International Journal of Hydrogen Energy 41(35): 15805–15811.WangZ.DongS.DongX.ZhangX.2016Assessment of wind energy and wave energy resources in Weifang sea areaInternational Journal of Hydrogen Energy4135158051581110.1016/j.ijhydene.2016.04.002Search in Google Scholar
Yang, W., Tavner, P.J., Crabtree, C.J., Feng, Y. Qiu, Y. (2014). Wind turbine condition monitoring: technical and commercial challenges. Wind Energy 17(5): 673–693.YangW.TavnerP.J.CrabtreeC.J.FengY.QiuY.2014Wind turbine condition monitoring: technical and commercial challengesWind Energy17567369310.1002/we.1508Search in Google Scholar
Zheng, C.W. Pan, J. (2014). Assessment of the global ocean wind energy resource. Renewable and Sustainable Energy Reviews 33: 382–391.ZhengC.W.PanJ.2014Assessment of the global ocean wind energy resourceRenewable and Sustainable Energy Reviews3338239110.1016/j.rser.2014.01.065Search in Google Scholar
Zheng, C.W., Pan, J. Li, J.X. (2013). Assessing the China Sea wind energy and wave energy resources from 1988 to 2009. Ocean Engineering 65: 39–48.ZhengC.W.PanJ.LiJ.X.2013Assessing the China Sea wind energy and wave energy resources from 1988 to 2009Ocean Engineering65394810.1016/j.oceaneng.2013.03.006Search in Google Scholar