Numerical simulation for unsteady flow over marine current turbine rotors |
Hassanzadeh, A. Reza
(Faculty of Mechanical Engineering, Universiti Teknologi Malaysia)
Yaakob, Omar bin (Faculty of Mechanical Engineering, Universiti Teknologi Malaysia) Ahmed, Yasser M. (Faculty of Mechanical Engineering, Universiti Teknologi Malaysia) Ismail, M. Arif (Faculty of Mechanical Engineering, Universiti Teknologi Malaysia) |
1 | Akwa, J.V., Vielmo, H.A. and Petry, A.P. (2012b), "A review on the performance of savonius wind turbines", Renew. Sust. Energ. Rev., 16(5), 3054-3064. DOI |
2 | Alam, M.D.J. (2009), Design and Development of a Marine Current Energy Conversion System Using Hybrid Vertical Axis Turbine, Master. Memorial university of Newfoundland. |
3 | Aresti, L., Tutar, M., Chen, Y. and Calay, R.K. (2013), "Computational study of a small scale vertical axis wind turbine (VAWT): comparative performance of various turbulence models", Wind Struct., 17(6), 647-670. DOI |
4 | Chong, H.Y. and Lam, W.H. (2013), "Ocean renewable energy in Malaysia: The potential of the straits of malacca", Renew. Sust. Energ. Rev., 23, 169-178. DOI |
5 | Grinspan, A., Kumar, P.S., Saha, U., Mahanta, P., Rao, D.V.R. and Bhanu, G.V. (2001), "Design, development and testing of Savonius wind turbine rotor with twisted blades. Department of Mechanical Engineering", Indian Institute of Technology,Guwahati, India. |
6 | Gupta, R. and Sharma, K.K. (2011), "Flow physics of a three-bucket savonius rotor using Computational Fluid Dynamics ( CFD )", IJRMET, 1(1). |
7 | Hassan, M. (2011), Twisted Savonius turbine based marine current energy conversion system, Memorial University of Newfoundland (Canada): ProQuest Dissertations And Theses. |
8 | Hassanzadeh, A.R., Yaakob, O., Ahmed, Y.M. and Ismail, M.A. (2013), "Comparison of conventional and helical savonius marine current turbine using computational fluid dynamics", World Appl. Sci. J., 28(8), 1113-1119. |
9 | Kamoji, M., Kedare, S. and Prabhu, S. (2009b), "Performance tests on helical Savonius rotors", Renew. Energy, 34(3), 521-529. DOI |
10 | Khan, J. and Bhuyan, G.S. (2009a), Ocean Energy: Global Technology Development Status, IEA-OES. Document (T0104). |
11 | Khan, N.I., Iqbal, T., Hinchey, M. and Masek, V. (2009c), "Performance of savonius rotor as a water current turbine", J. Ocean Technol., 4(2), 71-83. |
12 | Launder, B.E. and Spalding, D. (1974), "The numerical computation of turbulent flows", Comput. Method. Appl. Mech. Eng., 3(2), 269-289. DOI |
13 | Manwell, J.F., McGowan, J.G. and Rogers, A.L. (2010), Wind energy explained: theory, design and application, John Wiley & Sons. |
14 | Mohamed, M.H., Janiga, G., Pap, E. and Thevenin, D. (2010), "Optimization of Savonius turbines using an obstacle shielding the returning blade", Renew. Energy, 35(11), 2618-2626. DOI |
15 | Nakajima, M., Iio, S. and Ikeda, T. (2008), "Performance of double-step savonius rotor for environmentally friendly hydraulic turbine", J. Fluid Sci. Technol., 3(3), 410-419. DOI |
16 | Nicholson, K.M. (2010), Numerical investigation of the aerodynamic performance of a double-stage savonius rotor with twisted blades, Master of science. University of Louisville |
17 | Thomas, K. (2007), Low speed energy conversion from marine currents, Uppsala University |
18 | Unchai, T. and Janyalertadun, A. (2014). "CFD evaluation of a suitable site for a wind turbine on a trapezoid shaped hill", Wind Struct., 19(1), 75-88. DOI |
19 | Yaakob, O., Ariff, M.A.R. and Afifi, M.A.A (2006), "Prospects for Ocean Energy in Malaysia", Proceedings of the International Conference on Energy and the Environment, Kuala Lumpur, Malaysia: 28-30. |
20 | Yaakob, O., Ahmed, Y.M. and Ismail, M.A. (2012), "Validation study for savonius vertical axis marine current turbine using CFD simulation", Proceedings of the 6th Asia-Pacific workshop on marine hydrodynamics-APHydro 2012. |
21 | Yaakob, O., Tawi, K. and Suprayogi, D. (2008b), "Development of vertical axis marine current turbine rotor", Proceedings of the International Conference Marine Renewable Energy RINA, London, UK. |
22 | Yaakob, O.B., Tawi, K. and Sunanto, D.S. (2010), "Computer simulation studies on the effect overlap ratio for savonius type vertical axis marine current turbine", Int. J. Eng. Trans. A Basics, 23, 79-88. |
23 | Yi, J.H., Yoon, G.L. and Li, Y. (2014), "Numerical investigation on effects of rotor control strategy and wind data on optimal wind turbine blade shape", Wind Struct., 18(2), 195-213. DOI |
24 | Zamani, M., Maghrebi, M.J. and Moshizi, S.A. (2016), "Numerical study of airfoil thickness effects on the performance of J-shaped straight blade vertical axis wind turbine", Wind Struct., 22(5), 595-616. DOI |
25 | Zhou, T. and Rempfer, D. (2013), "Numerical study of detailed flow field and performance of Savonius wind turbines", Renew. Energy, 51, 373-381. DOI |