M.S. Widyan
[1] A. Al Tarabsheh, Amorphous silicon based solar cells, Doctoral Dissertation, Institute of Physical Electronics, University of Stuttgart, Stuttgart, Germany, 2007. [2] V. Badescu, Dynamic model of a complex system including PV cells, electric battery, electrical motor and water pump, Solar Energy, 28, 2003. 1165–1181. [3] W. Anis & H.M.B. Metwally, Dynamic performance of a directly coupled PV pumping system, Solar Energy, 53 (3), 1994, 369–377. [4] H.M. Metwally & W.R. Anis, Dynamic performance of directly coupled photovoltaic water pumping system using D.C. shunt motor, Energy Conversian and Management 37 (9), 2006, 1407–1416. [5] H. Hilmer, A. Ratka, K. Vajen, H. Ackermann, W. Fuhs, & O. Melsheirner, Investigation of directly coupled photovoltaic pumping system connected to a large absorber filed, Solar Energy, 61, 1997, 65–76. [6] M. Akbaba, I. Qamber, & A. Kamal, Matching of separately excited DC motor to photovoltaic generators for maximum power output, Solar Energy, 63, 1998, 375–385. [7] M. Bello & I. Davidson, Dynamics of solar-powered fractional horse power motor, Int. Conf. on Electrical and Electronics Engineering, 7–9 September 2005, 273–277. [8] M. Akbaba & M.C. Akbaba, Dynamic performance of a photovoltaic-boost converter powered DC motor-pump system, IEEE Int. Conf. Electrical Machines and Drives, 2001, 356–361. [9] M. Akbaba, Matching induction motors to PVG for maximum power transfer, 9th Arab Int. Conf. Solar Energy, 209, 2007, 31–38. [10] A. Betka & A. Moussi, Performance optimization of a photovoltaic induction motor pumping system, Renewable Energy, 29, 2004, 2167–2181. [11] C. Hua, J. Lin, & C. Shen, Implementation of a DSP controlled photovoltaic system with peak power tracking, IEEE Transactions on Industrial Electronics, 45 (1), 1998, 99–107. [12] E. Muljadi, PV water pumping with a peak power tracker using a simple six step sqquare-wave inverter, IEEE Transactions on Industrial Applications, 33 (3), 1997, 714–721. [13] C.L.P. Swamy, B. Singh, & B.P. Singh, Dynamic performance of a permanent magnet brushless DC motor powered by a PV array for water pumping, Solar Energy Materials, and Solar Cells, 36, 1995, 187–200. [14] L.D. Partain, Solar cells and their applications (John Wiley & Sons, Inc., 1995). [15] M.S. Widyan, A.I. Al Tarabsheh, I.Y. Etier, & R.E. Hanitsch, Dynamical analysis of DC machines fed by photovoltaic systems, International Journal of Modelling and Simulations, Actapress Publisher. [16] Chee-Mun Ong, Dynamic simulation of electric machinery: using MATLAB simulink (Prentice Hall PTR, Upper Saddle River, New Jersey 07458, 1998). [17] M.S. Widyan, Design, optimization, construction and test of rare-earth permanent-magnet electrical machines with new topology for wind energy applications, Doctoral Dissertation, Institute of Energy and Automation Technology, Berlin University of Technology, Germany, 2006. [18] J. Merten, M. Asensi, C. Voz, A.V. Shah, R. Platz, & J. Andreu, Equivalent circuit and analytical analysis of amorphous silicon solar cells and modules, IEEE Transactions on Electron Devices, 45, 1998, 423. [19] R.M. Swanson, Handbook of photovoltaic science and engineering, A. Luque & S. Hegedus, (Eds.) Wiley, West Sussex, England, 2003).
Important Links:
Go Back
