Mohammad S. Widyan


  1. [1] M.S. Widyan, Dynamical and steady-state characteristics of DC motors powered by photovoltaic systems via DC-DC buck-boost switch mode converter, International Journal of Power and Energy Systems, 30(2), 2010, 148–156.
  2. [2] M.S. Widyan, A.I. Al-Tarabsheh, I.Y. Etier, and R.E. Hanitsch, Dynamic and steady-state analysis of DC machines fed by photovoltaic systems, International Journal of Modelling and Simulation, 30(3), 2010, 353–360.
  3. [3] H.M. Metwally and W.R. Anis, Dynamic performance of directly coupled PV pumping system, Energy Conversion and Management, 37(9), 2006, 1407–1416.
  4. [4] M.S. Widyan, G.S. Marji, and A.I. Al Tarabsheh, Dynamic and Steady-state operational performance of induction and synchronous reluctance motors powered by PV generator with MPPT, International Review of Automatic Control, 5(6), November, 2012, 757–768.
  5. [5] A. Kusiak, Z. Zhang, and M. Li, Optimization of wind turbine performance with date driven models, IEEE Transactions on Sustainable Energy, 1(2), 2010, 66–76.
  6. [6] M.S. Widyan, Design, optimization, construction and test of rare-earth permanent-magnet electrical machines with new topology for wind energy applications, Ph.D. Thesis, Institute of Energy and Automation Technology, Berlin University of Technology, Germany, 2006.
  7. [7] A.I. Estanqueiro, A dynamic wind generator model for power systems studies, IEEE Transactions on Power Systems, 22(3), 2007, 920–928.
  8. [8] M. Karrari, W. Rosehart, and O.P. Malik, Comprehensive control strategy for a variable speed cage machine generation unit, IEEE Transactions on Energy Conversion, 20(2), 2005, 415–423.
  9. [9] D. Schulz and R. Hanitsch, Grid interaction and power quality parameters of grid coupled photovoltaic systems and wind energy converters, Power and Energy Systems, Palm Springer, CA, USA, February 24–26, 2003.
  10. [10] M.S. Widyan and R.E. Hanitsch, Operating point stability analysis of SMIB Power system equipped with high PV penetration, International Journal of Electrical Power and Energy Systems, 55, 2014, 522–530.
  11. [11] M.S. Widyan, Largeand small-signal stability performance of a power system incorporated with PV generator, International Journal of Power and Energy Systems, 33(4), 2013, pp. 151–159.
  12. [12] S.B. Kjaer, J.K. Pedersen, and F. Blaabjerg, A review of single grid-connected inverters for photovoltaic modules, IEEE Transactions on Industry Applications, 41(5), 2005, 1292–1306.
  13. [13] S.B. Skretas and D.P. Papadopoulos, Efficient design and simulation of an expandable hybrid (wind-photovoltaic) power system with MPPT and inverter input voltage regulation features in compliance with electric grid requirements, Electric Power System Research, 79, 2009, 1271–1285.
  14. [14] T. Ma, H. Yang, L. Lu, and J. Peng, Simulation study of standalone hybrid solar-wind system with pumped storage, APEC Conf. on Low-Carbon and Physical Energy Storage, Changsha, Chin, May 25–26, 2013, 571–577.
  15. [15] N.A. Ahmed, M. Miyatake, and A.K. Al-Othman, Power fluctuations suppression of stand-alone hybrid generation combining solar photovoltaic/wind turbine and fuel cell systems, Energy Conversion and Management, 49, 2008, 2711–2719.
  16. [16] W. Zhou, C. Lou, Z. Li, and H. Yang, current status on optimum sizing of stand-alone hybrid solar-wind power generation systems, Applied Energy, 87, 2010, 380–389.
  17. [17] X. Zhang and K.T. Chau, An automotive thermoelectricphotovoltaic hybrid energy system using maximum power point tracking, Energy Conversion and Management, 52, 2011, 641–647.
  18. [18] E.S. Sreeraj, K. Chatterjee, and S. Bandyopadhyay, Design of isolated renewable hybrid power systems, Solar Energy, 84, 2010, 1124–1136.
  19. [19] H.C. Chiang, T.T. Ma, Y.H. Cheng, J.M. Chang, and W.N. Chang, Design and implementation of hybrid regenerative power system combining grid-tie and uninterruptible power supply functions, IET Renewable Power Generation, 4(1), 2010, 85–99.
  20. [20] M.H. Nehrir, C. Wang, K. Strunz, H. Aki, R. Ramakumar, J. Bing, Z. Miao, and Z. Salameh, A review of hybrid renewable/alternative energy systems for electric power generation: configurations, control and applications, IEEE Transactions on Sustainable Energy, 2(4), 2011, 392–403.
  21. [21] V. Salas, E. Olis, A. Barrado, and A. Lazaro, Review of the maximum power point tracking algrithms for stand-alone photovoltaic systems, Solar Energy Materials and Solar Cells, 90, 2006, 1555–1578.
  22. [22] C.M. Ong, Dynamic simulation of electric machinery: Using MATLAB Simulink (Upper Saddle River, NJ: Prentice Hall PTR, 1998).
  23. [23] N. Mohan, T. Undeland, and W. Robbins, Power electronics Converters, applications and design, 3rd ed. (Hoboken, NJ: John Wiley & Sons, Inc. 2003).
  24. [24], accessed on March 27, 2015.

Important Links:

Go Back