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Development of small domestic wind turbine with scoop and prediction of its annual power output

Author

Listed:
  • Wang, F.
  • Bai, L.
  • Fletcher, J.
  • Whiteford, J.
  • Cullen, D.

Abstract

Based on an unperturbed airflow assumption and using a set of validated modelling methods, a series of activities were carried out to optimise an aerodynamic design of a small wind turbine for a built up area, where wind is significantly weaker and more turbulent than those open sites preferable for wind farms. These activities includes design of the blades using a FORTRAN code; design of the nose cones and nacelles, which then constituted the rotor along with the blades; optimisation of the rotor designs in the virtual wind tunnel developed in the first part of the study; and finally, estimation of the annual power output of this wind turbine calculated using hourly wind data of a real Scottish Weather Station. The predicted annual output of the finalised rotor was then compared with other commercial turbines and result was rather competitive.

Suggested Citation

  • Wang, F. & Bai, L. & Fletcher, J. & Whiteford, J. & Cullen, D., 2008. "Development of small domestic wind turbine with scoop and prediction of its annual power output," Renewable Energy, Elsevier, vol. 33(7), pages 1637-1651.
    • Handle: RePEc:eee:renene:v:33:y:2008:i:7:p:1637-1651
    DOI: 10.1016/j.renene.2007.08.008
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    Citations

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    Cited by:

    1. Shafiqur Rehman & Md. Mahbub Alam & Luai M. Alhems & M. Mujahid Rafique, 2018. "Horizontal Axis Wind Turbine Blade Design Methodologies for Efficiency Enhancement—A Review," Energies, MDPI, vol. 11(3), pages 1-34, February.
    2. Pope, K. & Dincer, I. & Naterer, G.F., 2010. "Energy and exergy efficiency comparison of horizontal and vertical axis wind turbines," Renewable Energy, Elsevier, vol. 35(9), pages 2102-2113.
    3. Rolland, S.A. & Thatcher, M. & Newton, W. & Williams, A.J. & Croft, T.N. & Gethin, D.T. & Cross, M., 2013. "Benchmark experiments for simulations of a vertical axis wind turbine," Applied Energy, Elsevier, vol. 111(C), pages 1183-1194.
    4. Ting, Chen-Ching & Lai, Chen-Wei & Huang, Chien-Bang, 2011. "Developing the dual system of wind chiller integrated with wind generator," Applied Energy, Elsevier, vol. 88(3), pages 741-747, March.
    5. Daniel Micallef & Gerard Van Bussel, 2018. "A Review of Urban Wind Energy Research: Aerodynamics and Other Challenges," Energies, MDPI, vol. 11(9), pages 1-27, August.
    6. Rahimi, Sahand & Meratizaman, Mousa & Monadizadeh, Sina & Amidpour, Majid, 2014. "Techno-economic analysis of wind turbine–PEM (polymer electrolyte membrane) fuel cell hybrid system in standalone area," Energy, Elsevier, vol. 67(C), pages 381-396.
    7. Zghal, Wissem & Kantchev, Gueorgui & Kchaou, Hédi, 2011. "Optimization and management of the energy produced by a wind energizing system," Renewable and Sustainable Energy Reviews, Elsevier, vol. 15(2), pages 1080-1088, February.
    8. Khanjari, Ali & Mahmoodi, Esmail & Ahmadi, Mohammad Hossien, 2020. "Energy and exergy analyzing of a wind turbine in free stream and wind tunnel in CFD domain based on actuator disc technique," Renewable Energy, Elsevier, vol. 160(C), pages 231-249.
    9. Toja-Silva, Francisco & Colmenar-Santos, Antonio & Castro-Gil, Manuel, 2013. "Urban wind energy exploitation systems: Behaviour under multidirectional flow conditions—Opportunities and challenges," Renewable and Sustainable Energy Reviews, Elsevier, vol. 24(C), pages 364-378.

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