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Aerodynamic Design of a Horizontal Axis Micro Wind Turbine Blade Using NACA 4412 Profile

Year 2014, Volume: 4 Issue: 1, 69 - 72, 01.03.2014

Abstract

Wind turbine blade is a key element to convert wind energy in to mechanical power. This work presents functional design and aerodynamic design of an 800mm long blade of a 600W horizontal axis micro wind turbine using NACA4412 profile. Functional design of blade is carried out by considering use of electrical appliances to meet need of a rural house for low wind speed region. Various theories are available and used by designers for blade design. The chord and twist angle distributions of the preliminary blade design are determined. The preliminary blade design does not necessarily provide the best power performance under practical operation conditions and needs to follow further modifications and calculations. Also, a reasonable compromise between high efficiency and good staring is expected. The optimization with the objective of enhancement of power performance and low speed starting behavior is carried out. Though, hub region contributes little to overall power production, its optimization plays important role for good starting and low wind performance. In this work analysis is carried out for coefficient of performance of the blade and for starting behavior of the wind turbine blade. MATLAB programming is developed for the blades. The power coefficients curves are drawn for the optimized wind turbine.

References

  • Ozge Polat, Ismail H.Tuncer,“Aerodynamic shape optimization of Wind Turbine Blades using a parallel Genetic Algorithm”, Procedia Engineering, 61, 2013, pp. 31
  • Small Wind Energy Report, World Wind Energy Association, March 2012, pp.5-15
  • C. J. Bai, F. B. Hsiao, , M. H. Li, G. Y. Huang, Y. J. Chen, “Design of 10 kW Horizontal-Axis Wind Turbine (HAWT) Blade and Aerodynamic Investigation Using Numerical Simulation”, Procedia Engineering 67, 2013, pp 279 – 287
  • Habali SM, Saleh IA. , “Local design, testing and manufacturing of small mixed airfoil wind turbine blades of glass fiber reinforced plastics. Part I: design of the blade and root”, Energy Conversion & Management ;41:249-80. Ahmed MR, Narayan S, Zullah MA, Lee YH. , “Experimental and numerical studies on a low Reynolds number airfoil for wind turbine blades”, Journal of Fluid Science and Technology 2011;6:357-71.
  • Badr MA, Maalawi KY. , “A practical approach for selecting optimum wind rotors”, Renewable Energy ;28:803-22
  • Ronit K. Singh, M. Rafiuddin Ahmed, , Mohammad Asid Zullah, Young-Ho Lee, “Design of a low Reynolds number airfoil for small horizontal axis wind turbines”, Renewable Energy 42 (2012) 66-76
  • P. D. Clausen and D. H. Wood, “Research and development issues for small wind turbines”, Elsevier Academic Press, Renewable Energy Journal 16, 1999, pp.922-927.
  • David Wood, Small Wind Turbine – Analysis, Design and Application , Springer ,2011.
  • Eastman N. Jacobs, Kennetit E. Ward, Report -460 by NACA, 1948, pp-56
  • Grant Ingram, Wind Turbine Blade Analysis using the Blade Element Momentum Method, 2011
  • J. F. Manwell, J.G. McGowan, A.L. Rogers, Wind Energy Explained: Theory, Design and Application, John Wiley and Sons, Ltd, 2002, pp 247-317
  • L. L. Freris, Wind Energy conversion systems, PHI (UK) Ltd. , 1990, pp. 282-284
  • Martin O. L. Hansen, Aerodynamics of Wind Turbines, Earthscan, Uk, Second Edition ,2008. M.H. Djavareshkian, “New to M.R.Saber,
  • Aerodynamic Design Optimization of a Wind Turbine Approach Blade”, International Journal of Renewable Energy Research, Vol.3, No.3, 2013, pp. 725-735 High-Fidelity
  • Ali Hajiah, M. Sebzali , “Optimal Sizing of Wind Power Systems in Three High Wind Potential Zones in Kuwait International Journal of Renewable Energy Research, Vol.3, No.1, 2013, pp. 167-171 Electrification”,
  • Xu Baoqing, Tian De, “Simulation and Test of the Blade Models’ Output Characteristics of Wind Turbine”, Energy Procedia 17 , 2012 , pp. 1201 – 1208
Year 2014, Volume: 4 Issue: 1, 69 - 72, 01.03.2014

Abstract

References

  • Ozge Polat, Ismail H.Tuncer,“Aerodynamic shape optimization of Wind Turbine Blades using a parallel Genetic Algorithm”, Procedia Engineering, 61, 2013, pp. 31
  • Small Wind Energy Report, World Wind Energy Association, March 2012, pp.5-15
  • C. J. Bai, F. B. Hsiao, , M. H. Li, G. Y. Huang, Y. J. Chen, “Design of 10 kW Horizontal-Axis Wind Turbine (HAWT) Blade and Aerodynamic Investigation Using Numerical Simulation”, Procedia Engineering 67, 2013, pp 279 – 287
  • Habali SM, Saleh IA. , “Local design, testing and manufacturing of small mixed airfoil wind turbine blades of glass fiber reinforced plastics. Part I: design of the blade and root”, Energy Conversion & Management ;41:249-80. Ahmed MR, Narayan S, Zullah MA, Lee YH. , “Experimental and numerical studies on a low Reynolds number airfoil for wind turbine blades”, Journal of Fluid Science and Technology 2011;6:357-71.
  • Badr MA, Maalawi KY. , “A practical approach for selecting optimum wind rotors”, Renewable Energy ;28:803-22
  • Ronit K. Singh, M. Rafiuddin Ahmed, , Mohammad Asid Zullah, Young-Ho Lee, “Design of a low Reynolds number airfoil for small horizontal axis wind turbines”, Renewable Energy 42 (2012) 66-76
  • P. D. Clausen and D. H. Wood, “Research and development issues for small wind turbines”, Elsevier Academic Press, Renewable Energy Journal 16, 1999, pp.922-927.
  • David Wood, Small Wind Turbine – Analysis, Design and Application , Springer ,2011.
  • Eastman N. Jacobs, Kennetit E. Ward, Report -460 by NACA, 1948, pp-56
  • Grant Ingram, Wind Turbine Blade Analysis using the Blade Element Momentum Method, 2011
  • J. F. Manwell, J.G. McGowan, A.L. Rogers, Wind Energy Explained: Theory, Design and Application, John Wiley and Sons, Ltd, 2002, pp 247-317
  • L. L. Freris, Wind Energy conversion systems, PHI (UK) Ltd. , 1990, pp. 282-284
  • Martin O. L. Hansen, Aerodynamics of Wind Turbines, Earthscan, Uk, Second Edition ,2008. M.H. Djavareshkian, “New to M.R.Saber,
  • Aerodynamic Design Optimization of a Wind Turbine Approach Blade”, International Journal of Renewable Energy Research, Vol.3, No.3, 2013, pp. 725-735 High-Fidelity
  • Ali Hajiah, M. Sebzali , “Optimal Sizing of Wind Power Systems in Three High Wind Potential Zones in Kuwait International Journal of Renewable Energy Research, Vol.3, No.1, 2013, pp. 167-171 Electrification”,
  • Xu Baoqing, Tian De, “Simulation and Test of the Blade Models’ Output Characteristics of Wind Turbine”, Energy Procedia 17 , 2012 , pp. 1201 – 1208
There are 16 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Sandip Achutrao Kale This is me

Ravindra N. Varma This is me

Publication Date March 1, 2014
Published in Issue Year 2014 Volume: 4 Issue: 1

Cite

APA Kale, S. A., & Varma, R. N. (2014). Aerodynamic Design of a Horizontal Axis Micro Wind Turbine Blade Using NACA 4412 Profile. International Journal Of Renewable Energy Research, 4(1), 69-72.
AMA Kale SA, Varma RN. Aerodynamic Design of a Horizontal Axis Micro Wind Turbine Blade Using NACA 4412 Profile. International Journal Of Renewable Energy Research. March 2014;4(1):69-72.
Chicago Kale, Sandip Achutrao, and Ravindra N. Varma. “Aerodynamic Design of a Horizontal Axis Micro Wind Turbine Blade Using NACA 4412 Profile”. International Journal Of Renewable Energy Research 4, no. 1 (March 2014): 69-72.
EndNote Kale SA, Varma RN (March 1, 2014) Aerodynamic Design of a Horizontal Axis Micro Wind Turbine Blade Using NACA 4412 Profile. International Journal Of Renewable Energy Research 4 1 69–72.
IEEE S. A. Kale and R. N. Varma, “Aerodynamic Design of a Horizontal Axis Micro Wind Turbine Blade Using NACA 4412 Profile”, International Journal Of Renewable Energy Research, vol. 4, no. 1, pp. 69–72, 2014.
ISNAD Kale, Sandip Achutrao - Varma, Ravindra N. “Aerodynamic Design of a Horizontal Axis Micro Wind Turbine Blade Using NACA 4412 Profile”. International Journal Of Renewable Energy Research 4/1 (March 2014), 69-72.
JAMA Kale SA, Varma RN. Aerodynamic Design of a Horizontal Axis Micro Wind Turbine Blade Using NACA 4412 Profile. International Journal Of Renewable Energy Research. 2014;4:69–72.
MLA Kale, Sandip Achutrao and Ravindra N. Varma. “Aerodynamic Design of a Horizontal Axis Micro Wind Turbine Blade Using NACA 4412 Profile”. International Journal Of Renewable Energy Research, vol. 4, no. 1, 2014, pp. 69-72.
Vancouver Kale SA, Varma RN. Aerodynamic Design of a Horizontal Axis Micro Wind Turbine Blade Using NACA 4412 Profile. International Journal Of Renewable Energy Research. 2014;4(1):69-72.