Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/sage/selection-of-suitable-sites-for-offshore-wind-farms-in-the-caspian-sea-tXnBvn04zA
References (37)
-
P. Bresesti, Wil Kling, R. Hendriks, R. Vailati (2007)
HVDC Connection of Offshore Wind Farms to the Transmission SystemIEEE Transactions on Energy Conversion, 22
-
E. Rusu, F. Onea (2013)
Evaluation of the wind and wave energy along the Caspian SeaEnergy, 50
-
M. Blanchard, G. Desrochers (1984)
Generation of autocorrelated wind speeds for wind energy conversion system studiesSolar Energy, 33
-
C. Justus, W. Hargraves, A. Mikhail, Denise Graber (1978)
Methods for Estimating Wind Speed Frequency Distributions.Journal of Applied Meteorology, 17
-
(2008)
Aerodynamics of Wind Turbines (2nd edn). London: Earthscan Publications -
H. Amirahmadi (2000)
The Caspian region at a crossroad : challenges of a new frontier of energy and development -
R. Alamian, R. Shafaghat, S. Miri, Nima Yazdanshenas, M. Shakeri (2014)
Evaluation of technologies for harvesting wave energy in Caspian SeaRenewable & Sustainable Energy Reviews, 32
-
Meishen Li, Xianguo Li (2005)
Investigation of wind characteristics and assessment of wind energy potential for Waterloo region, Canada.Energy Conversion and Management, 46
-
A. Mostafaeipour, A. Sedaghat, A. Dehghan-Niri, V. Kalantar (2011)
Wind energy feasibility study for city of Shahrbabak in IranRenewable & Sustainable Energy Reviews, 15
-
A. Şahin (2004)
Progress and recent trends in wind energyProgress in Energy and Combustion Science, 30
-
Roger, E., A. Arndt (2018)
Wind Turbines -
A. Shata, R. Hanitsch (2006)
Evaluation of wind energy potential and electricity generation on the coast of Mediterranean Sea in EgyptRenewable Energy, 31
-
M. Jamil, S. Parsa, M. Majidi (1995)
Wind power statistics and an evaluation of wind energy densityRenewable Energy, 6
-
Pourya Alamdari, O. Nematollahi, M. Mirhosseini (2012)
Assessment of wind energy in Iran: A reviewRenewable & Sustainable Energy Reviews, 16
-
J. Domínguez-García, O. Gomis‐Bellmunt, F. Bianchi, A. Sumper (2012)
Power oscillation damping supported by wind power: A reviewRenewable & Sustainable Energy Reviews, 16
-
N. Eskin, H. Artar, S. Tolun (2008)
Wind energy potential of Gökçeada Island in TurkeyRenewable & Sustainable Energy Reviews, 12
-
(2011)
Wind Energy Engineering. London: McGraw-Hill Education -
C. Justus, A. Mikhail (1976)
Height variation of wind speed and wind distributions statisticsGeophysical Research Letters, 3
-
1000 kW Technical data -
K. Chou, R. Corotis (1981)
Simulation of hourly wind speed and array wind powerSolar Energy, 26
-
S. Akdağ, A. Dinler (2009)
A new method to estimate Weibull parameters for wind energy applicationsEnergy Conversion and Management, 50
-
K. Nor, M. Shaaban, H. Rahman (2014)
Feasibility assessment of wind energy resources in Malaysia based on NWP modelsRenewable Energy, 62
-
R. Swart, C. Coppens, H. Gordijn, M. Piek, P. Ruyssenaars, J. Schrander, P. Smet, M. Hoogwijk, M. Papalexandrou, E. Visser, J. Horálek, P. Kurfürst, F. Jensen, B. Petersen, M. Harfoot, R. Milego, Niels-Erik Clausen, G. Giebel (2009)
Europe's onshore and offshore wind energy potential : An assessment of environmental and economic constraints -
E. Akpinar, S. Akpinar (2005)
A statistical analysis of wind speed data used in installation of wind energy conversion systemsEnergy Conversion and Management, 46
-
F. Marret, S. Leroy, F. Chalié, F. Françoise (2004)
New organic-walled dinoflagellate cysts from recent sediments of Central Asian seasReview of Palaeobotany and Palynology, 129
-
M. Dvorak, C. Archer, M. Jacobson (2010)
California offshore wind energy potentialRenewable Energy, 35
-
A. Ahmed (2010)
Wind energy as a potential generation source at Ras Benas, EgyptRenewable & Sustainable Energy Reviews, 14
-
P. Schubel, R. Crossley (2012)
Wind Turbine Blade DesignEnergies, 5
-
M. Mirhosseini, Farrokh Sharifi, A. Sedaghat (2011)
Assessing the wind energy potential locations in province of Semnan in IranRenewable & Sustainable Energy Reviews, 15
-
K. Arpe, S. Leroy (2007)
The Caspian Sea Level forced by the atmospheric circulation, as observed and modelledQuaternary International, 173
-
M. Dvorak, B. Corcoran, J. Hoeve, M. Jacobson, N. McIntyre (2011)
US East Coast offshore wind energy resources and their relationship to time-varying electricity demand, 2011
-
Soon-Duck Kwon (2010)
UNCERTAINTY ANALYSIS OF WIND ENERGY POTENTIAL ASSESSMENTApplied Energy, 87
-
(2013)
Modeling of wind power producing in Caspian Sea conditions -
A. Madariaga, I. Alegría, J. Martín, P. Eguía, S. Ceballos (2012)
Current facts about offshore wind farmsRenewable & Sustainable Energy Reviews, 16
-
Ji-Young Kim, Ki‐Yong Oh, Keum-Seok Kang, Jun-Shin Lee (2011)
Site selection of offshore wind farms around the Korean Peninsula through economic evaluationRenewable Energy, 54
-
A. Mostafaeipour (2010)
Feasibility study of offshore wind turbine installation in Iran compared with the worldRenewable & Sustainable Energy Reviews, 14
-
Mert Satir, F. Murphy, K. McDonnell (2018)
Feasibility study of an offshore wind farm in the Aegean Sea, TurkeyRenewable & Sustainable Energy Reviews, 81
- Publisher
- SAGE
- Copyright
- © The Author(s) 2019
- ISSN
- 0309-524X
- eISSN
- 2048-402X
- DOI
- 10.1177/0309524X19889364
- Publisher site
- See Article on Publisher Site
Abstract
In this article, an attempt has been made to indicate suitable sites to construct offshore wind farms in the Caspian Sea. Feasibility studies of alternative offshore wind farms are the main concern for utility companies and researchers. For this study, the data related to wind speed and wind directions are collected from different sources such as satellite maps and metrological data in Iran and Turkey using 3-h measurement period at 10-m height above the sea level. According to this study, 16 sites mostly close to the beach are nominated for constructing the wind farms in the Caspian Sea. In this article, we also demonstrate the plots related to monthly and annual average wind speed as well as dominant wind direction based on statistical analysis. Also, to determine the class of wind in each area, power density and wind energy are provided. Also, besides selecting the appropriate turbine in each area, the power and energy of 11 wind turbines suitable for offshore installations are simulated, and the power and energy of each turbine are estimated. Finally, based on the parameters, maximum power and energy, maximum capacity factor, full load hours of turbine, and the suitable turbine are nominated for each particular area. Finally, considering that the Weibull distribution function is in good agreement with the data from wind speed, wind modeling has been done by this function, and Weibull distribution charts are drawn.
Journal
Wind Engineering – SAGE
Published: Jan 1, 2019