Zaki Alomar, Gerard Khoury, Jihad Rishmany, and Michel Daaboul


  1. [1] R. Alayi, M. Jahangiri, J.W.G. Guerrero, R. Akhmadeev, R.A.Shichiyakh, and S.A. Zanghaneh, Modelling and reviewing thereliability and multi-objective optimization of wind-turbinesystem and photovoltaic panel with intelligent algorithms,Clean Energy, 5(4), 2021, 713–730.
  2. [2] A. Masih and H.K. Verma, Optimization and reliabilityevaluation of hybrid solar-wind energy systems for remoteareas, International Journal of Renewable Energy Research,10(4), 2020, 1697–1706.
  3. [3] W. Tian, B. Song, J.H. van Zwieten, and P. Pyakurel,Computational fluid dynamics prediction of a modified Savoniuswind turbine with novel blade shapes, Energies, 8(8), 2015,7915–7929.
  4. [4] H.H. Al-Kayiem, B.A. Bhayo, and M. Assadi, Comparativecritique on the design parameters and their effect onthe performance of S-rotors, Renewable Energy, 99, 2016,1306–1317.
  5. [5] R.E. Sheldahl, B.F. Blackwell, and L.V. Feltz, Wind tunnelperformance data for two-and three-bucket Savonius rotors,Journal of Energy, 2(3), 1978, 160–164.
  6. [6] M.H. Ali, Experimental comparison study for Savoniuswind turbine of two & three blades at low wind speed,International Journal of Modern Engineering Research, 3(5),2013, 2978–2986.
  7. [7] U.K. Saha, S. Thotla, and D. Maity, Optimum design config-uration of Savonius rotor through wind tunnel experiments,Journal of Wind Engineering and Industrial Aerodynamics,96(8–9), 2008, 1359–1375.
  8. [8] M. Zemamou, M. Aggour, and A. Toumi, Review of Savoniuswind turbine design and performance, Energy Procedia, 141,2017, 383–388.
  9. [9] M.A. Kamoji, S.B. Kedare, and S.V. Prabhu, Experimentalinvestigations on single stage modified Savonius rotor, AppliedEnergy, 86(7–8), 2009, 1064–1073.
  10. [10] N. Fujisawa, On the torque mechanism of Savonius rotors,Journal of Wind Engineering and Industrial Aerodynamics,40(3), 1992, 277–292.
  11. [11] B.F. Blackwell, L.V. Feltz, and R.E. Sheldahl, Wind tunnelperformance data for two-and three-bucket Savonius rotors.(Springfield, VA: Sandia Laboratories, 1977), 1–105.
  12. [12] J.L. Menet and N. Bourabaa, Increase in the Savonius rotorsefficiency via a parametric investigation, Proc. European WindEnergy Conf. & Exhibition, London, Nov. 2004, 22–25.
  13. [13] C. Jian, J. Kumbernuss, Z. Linhua, L. Lin, and Y. Hongxing,Influence of phase-shift and overlap ratio on Savonius windturbine’s performance, Journal of Solar Energy Engineering,134(1), 2012, 1–9.
  14. [14] W.A. El-Askary, A.S. Saad, A.M. Abdel Salam, and I.M.Sakr, Experimental and theoretical studies for improving theperformance of a modified shape Savonius wind turbine, Journalof Energy Resources Technology, 142(12), 2020, 121303.
  15. [15] Z. Mu, G. Tong, Z. Xiao, Q. Deng, F. Feng, Y. Li, and G.V.Arne, Study on aerodynamic characteristics of a Savonius windturbine with a modified blade, Energies, 15, 2022, 6661.
  16. [16] H.E. Gad, A.A. Abd El-Hamid, W.A. El-Askary, and M.H.Nasef, A new design of Savonius wind turbine: Numericalstudy, CFD Letters, 6(4), 2014, 144–158.
  17. [17] S. Roy and U.K. Saha, Wind tunnel experiments of a newlydeveloped two-bladed Savonius-style wind turbine, AppliedEnergy, 137, 2015, 117–125.
  18. [18] A.S. Saad, I.I. El-Sharkawy, S. Ookawara, and M. Ahmed,Performance enhancement of twisted-bladed Savonius verticalaxis wind turbines, Energy Conversion and Management, 209,2020, 112673.
  19. [19] U.K. Saha and M.J. Rajkumar, On the performance analysis ofSavonius rotor with twisted blades, Renewable Energy, 31(11),2006, 1776–1788.
  20. [20] A. Damak, Z. Driss, and M.S. Abid, Experimental investigationof helical Savonius rotor with a twist of 180◦, RenewableEnergy, 52, 2013, 136–142.
  21. [21] M.H. Mohamed, G. Janiga, E. Pap, and D. Th´evenin,Optimization of Savonius turbines using an obstacle shieldingthe returning blade, Renewable Energy, 35(11), 2010,2618–2626.
  22. [22] W.A. El-Askary, M.H. Nasef, A.A. Abdel-Hamid, and H.E.Gad, Harvesting wind energy for improving performance ofSavonius rotor, Journal of Wind Engineering and IndustrialAerodynamics, 139, 2015, 8–15.
  23. [23] Fluent thoery guide, (Canonsburg, PA: ANSYS Inc., 2013).
  24. [24] F.R. Menter, Two-equation eddy-viscosity turbulence modelsfor engineering applications, AIAA Journal, 32(8), 1994,1598–1605.8

Important Links:

Go Back