On the role of surface roughness in the aerodynamic performance and energy conversion of horizontal wind turbine blades: a review

Iham F. Zidane; Khalid M. Saqr; Greg Swadener; Xianghong Ma; Mohamed F. Shehadeh

doi:10.1002/er.3580

journal article Jun 22, 2016

On the role of surface roughness in the aerodynamic performance and energy conversion of horizontal wind turbine blades: a review

Iham F. Zidane

Khalid M. Saqr

Greg Swadener Xianghong Ma Mohamed F. Shehadeh

International Journal of Energy Research Vol. 40 No. 15 pp. 2054-2077 · Wiley

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References

43

[1]

Liao "The evolution of wind energy policies in China (1995-2014): an analysis based on policy instruments" Renewable and Sustainable Energy Reviews (2016) 10.1016/j.rser.2015.11.097

[2]

GlobalWindEnergyCouncil(GWEC) Globalwindstatistics http://www.gwec.net/wp-content/uploads/vip/GWEC-Global-Wind-2015-Report_April-2016_22_04.pdf

[3]

Egypt wind energy forecast http://www.thewindpower.net/country_en_22_egypt.php.

[4]

Manna et al . Energy Statistics, 22nd edition, Central Statistics Office, Ministry of Statistics and Programme Implementation, INDIA http://mospi.nic.in/Mospi_New/upload/Energy_stats_2015_26mar15.pdf.

[5]

Liu "The structure healthy condition monitoring and fault diagnosis methods in wind turbines: a review" Renewable and Sustainable Energy Reviews (2015) 10.1016/j.rser.2014.12.005

[6]

Beattie , A A Beattie Acoustic emission monitoring of a wind turbine blade during a fatigue test

[7]

Zhang , S Problems experienced with operating wind farms in China 2005

[8]

Effects of leading edge erosion on wind turbine blade performance

Agrim Sareen, Chinmay A. Sapre, Michael S. Selig

Wind Energy 2014 10.1002/we.1649

[9]

Sagol "Issues concerning roughness on wind turbine blades" Renewable and Sustainable Energy Reviews (2013) 10.1016/j.rser.2013.02.034

[10]

Qiao "A survey on wind turbine condition monitoring and fault diagnosis" IEEE Transactions on Industrial Electronics (2015)

[11]

Egypt Weather and Climate 2011 http://www.touregypt.net/climate.htm.

[12]

Masoud Darbandi , AM A Behrouzifar R Jalali GE Schneider Evaluating the effect of blade surface roughness in megaawatt wind turbine performance using analytical and numerical approaches

[13]

Yao "Numerical simulation of aerodynamic performance for two dimensional wind turbine airfoils" Procedia Engineering (2012) 10.1016/j.proeng.2012.01.994

[14]

Li Yuhong Lu Congming A numerical simulation of flow around a wind turbine airfoil based on transition model 2009 10.1109/wnwec.2009.5335793

[15]

Nianxin Ren "Numerical dust effect on the performance of wind turbine airfoils" Electromagnetic Analysis and Applications (2009) 10.4236/jemaa.2009.12016

[16]

Deshun Li Rennian Li Congxin Yang Xiuyong Wang Effects of surface roughness on aerodynamic performance of a wind turbine airfoil 2010

[17]

Hassan Salem , AD Zakaria G CFD simulation and analysis of performance degradation of wind turbine blades in dusty environments 2013 10.1109/icrera.2013.6749867

[18]

Khalfallah "Effect of dust on the performance of wind turbines" Desalination (2007) 10.1016/j.desal.2007.04.030

[19]

Esteban Ferrer , XM CFD predictions of transition and distributed roughness over a wind turbine airfoil 2009

[20]

B Mendez X Munduate Study of distributed roughness effect over wind turbine airfoils performance using CFD 2015 10.2514/6.2015-0994

[21]

Bai "Effect of surface roughness on the aerodynamic performance of turbine blade cascade" Propulsion and Power Research (2014) 10.1016/j.jppr.2014.05.001

[22]

Kobra Gharali "Numerical modeling of an S809 airfoil under dynamic stall, erosion and high reduced frequencies" Applied Energy (2012) 10.1016/j.apenergy.2011.04.037

[23]

Yan Li Kotaro Tagawa Lijun Wang Shengmao Li Computer simulation on the icing accretions on a static straight blade used for the vertical axis wind turbine 2010 10.1109/iccda.2010.5541146

[24]

Homola "Effect of atmospheric temperature and droplet size variation on ice accretion of wind turbine blades" Journal of Wind Engineering and Industrial Aerodynamics (2010) 10.1016/j.jweia.2010.06.007

[25]

Etemaddar "Wind turbine aerodynamic response under atmospheric icing conditions" Wind Energy (2014) 10.1002/we.1573

[26]

Douvi "Aerodynamic performance investigation under the influence of heavy rain of a NACA 0012 airfoil for wind turbine applications" International Review of Mechanical Engineering (2012)

[27]

CM Langel R Chow OF Hurley CP Van Dam RS Ehrmann EB White DC Maniaci Analysis of the impact of leading edge surface degradation on wind turbine performance 2015 10.2514/6.2015-0489

[28]

Hummel "Surface roughness effects on turbine blade aerodynamics" Journal of Turbomachinery (2005) 10.1115/1.1860377

[29]

Timmer "The effect of roughness at high reynolds numbers on the performance of aerofoil DU 97-W-300Mod" Wind Energy (2004) 10.1002/we.136

[30]

McGranahan "Wind tunnel aerodynamic tests of six airfoils for use on small wind turbines" Journal of Solar Energy Engineering (2004)

[31]

MR Soltani AH Birjandi Effect of surface contamination on the performance of a section of a wind turbine blade 2007 10.2514/6.2007-1081

[32]

EB White D Kutz J Freels JP Hidore R Grife Y Sun D Chao Leading-edge roughness effects on 633-418 airfoil performance 2011 10.2514/6.2011-352

[33]

Soltani "Effect of surface contamination on the performance of a section of a wind turbine blade" Scientia Iranica (2011) 10.1016/j.scient.2011.05.024

[34]

Timmer , WA An overview of NACA 6-digit airfoil series characteristics with reference to airfoils for large wind turbine blades 2009 10.2514/6.2009-268

[35]

Y Zhang T.I.a.H.H., CFD predictions of transition and distributed roughness over a wind turbine airfoil 2011

[36]

Rasi Marzabadi "Effect of leading-edge roughness on boundary layer transition of an oscillating airfoil'" Scientia Iranica (2013)

[37]

Audern "A practical study of the aerodynamic impact of wind turbine blade leading edge erosion" Journal of Physics: Conference Series (2014)

[38]

Richert F Seifert H Aerodynamics of iced airfoils and their influence on loads and power production 1997

[39]

Calay "Experimental simulation of runback ice" Journal of Aircraft (1997) 10.2514/2.2173

[40]

Jasinski "Wind turbine performance under icing conditions" Journal of Solar Energy Engineering (1998)

[41]

Hochart "Wind turbine performance under icing conditions" Wind Energy (2008) 10.1002/we.258

[42]

M Papadakis S Alansan M Seltmann Experimental study of simulated ice shapes on a NACA 0011 airfoil 1999 10.2514/6.1999-96

[43]

Broeren "Effect of airfoil geometry on performance with simulated intercycle Ice accretions" Journal of Aircraft (2005) 10.2514/1.4734

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Details

Published: Jun 22, 2016
Vol/Issue: 40(15)
Pages: 2054-2077
License: View

Authors

I

Iham F. Zidane

School of Engineering and Applied Science; Aston University; Aston Triangle Birmingham B4 7ET UK; Mechanical Engineering Department, College of Engineering and Technology; Arab Academy of Science, Technology and Maritime Transport, AASTMT; 1029 Abu Kir Alexandria Egypt

K

Khalid M. Saqr

Mechanical Engineering Department, College of Engineering and Technology; Arab Academy of Science, Technology and Maritime Transport, AASTMT; 1029 Abu Kir Alexandria Egypt

G

Greg Swadener

School of Engineering and Applied Science; Aston University; Aston Triangle Birmingham B4 7ET UK

X

Xianghong Ma

School of Engineering and Applied Science; Aston University; Aston Triangle Birmingham B4 7ET UK

M

Mohamed F. Shehadeh

Marine Engineering Department, College of Engineering and Technology; Arab Academy of Science, Technology and Maritime Transport; 1029 Abu Kir AlexandriA Egypt

Cite This Article

Iham F. Zidane, Khalid M. Saqr, Greg Swadener, et al. (2016). On the role of surface roughness in the aerodynamic performance and energy conversion of horizontal wind turbine blades: a review. International Journal of Energy Research, 40(15), 2054-2077. https://doi.org/10.1002/er.3580

On the role of surface roughness in the aerodynamic performance and energy conversion of horizontal wind turbine blades: a review

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