الفهرس | Only 14 pages are availabe for public view |
Abstract Some of problemes of wind turbine is the variation of the wind speed which leads to disturbance in power generated and high cost. It is desired to drive model for the wind turbine model which discusses the effect of the variation of the wind speed on the wind turbine module. It is desired to drive model for designing an optimum cube for a wind turbine to maximizing the energy produced from the wind turbine model. The wind is an infinite energy source, clean and free, but the instability of the wind speed over the year restrains gaining the rated power from the wind turbine, “Wind Cubes” may help in this issue. This thesis presents a novel way for gaining maximum output from wind turbines all over the year regardless of the wind speed changes by optimizing a design for a wind cube by using several optimization algorithms such as cuckoo search optimization algorithm (CSA), grey wolf optimizer (GWO), sine cosine algorithm (SCA) and moth flame optimizer (MFO). Four turbine types are simulated in Hurghada city; the Red Sea governorate of Egypt using the proposed optimization algorithm and a comparison between the wind turbine outputs with and without the optimized wind cube is performed. The proposed optimizing the design of Wind Cubes reveals that the proposed method increases the energy produced from these wind turbines up to 55 times daily than that without the wind cube. |