MODELING THE DYNAMIC BEHAVIOUR OF A WIND TURBINE
The WIND TURBINE accomplishes a two action processes in absorbing the energy from the wind and delivering the energy in various forms through its rotor. Differential Equations have important engineering applications in modeling a physical system, that is, setting up mathematical models to determine the bahaviour of the turbine. We consider the forces on the body during the motion, and this will lead to the transfer of energy from the wind to the system and consequently the production of electric power. Although the design of wind turbines involves many aspects of engineering analysis, the importance of this modeling lies in its ability to predict general performance characteristics, and establish the range of operating conditions for different types of turbines. A phase Plane Analysis is adopted using the Delta and isoclines method for constructing trajectories.
Adoko Sambwa T.O.K.Audu Harry Akinbobola Kennedy Irete
1Asa-Lamda Technology Ltd.c/o Crossing Over Ventures, 9 Akpakpava Road, Benin City, Nigeria.
国际会议
2007世界太阳能大会(Proceedings of ISES Solar World Congress 2007)
北京
英文
2007-09-18(万方平台首次上网日期,不代表论文的发表时间)