This paper proposes a new solution for wind electrical energy generating system (WEEGS). The system here taken into account is moved by a modular multiple blade fixed pitch wind turbine (MMBFPWT) and foresees a new MPPT algorithm whose main characteristics are low cost, low noise, buildings simplicity and modularity. The mathematical model of the entire WEEGS has been here developed taking into account all the components starting from the wind turbine and ending with the electrical grid. The WEEGS mathematical model has been implemented in Matlab-Simulink in order to carry out the simulations needed to test the effectiveness of the proposed WEEGS. The simulations results show the effectiveness of both the designed MMBFPWT and the conceived MPPT algorithm.
CECCONI, V., DI DIO, V., DI TOMMASO, A.O., DI TOMMASO S, LA CASCIA, D., MICELI, R. (2008). Active Power Maximizing for Wind Electrical Energy Generating Systems Moved by a Modular Multiple Blade Fixed Pitch Wind Turbine. In International Symposium on Power Electronics, Electrical Drives, Automation and Motion (pp.1460-1465) [10.1109/SPEEDHAM.2008.4581301].
Active Power Maximizing for Wind Electrical Energy Generating Systems Moved by a Modular Multiple Blade Fixed Pitch Wind Turbine
CECCONI, Vittorio;DI DIO, Vincenzo;DI TOMMASO, Antonino Oscar;DI TOMMASO, Salvatore;LA CASCIA, Diego;MICELI, Rosario
2008-01-01
Abstract
This paper proposes a new solution for wind electrical energy generating system (WEEGS). The system here taken into account is moved by a modular multiple blade fixed pitch wind turbine (MMBFPWT) and foresees a new MPPT algorithm whose main characteristics are low cost, low noise, buildings simplicity and modularity. The mathematical model of the entire WEEGS has been here developed taking into account all the components starting from the wind turbine and ending with the electrical grid. The WEEGS mathematical model has been implemented in Matlab-Simulink in order to carry out the simulations needed to test the effectiveness of the proposed WEEGS. The simulations results show the effectiveness of both the designed MMBFPWT and the conceived MPPT algorithm.
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