This paper focuses on modeling, control and simulation of a 500 KW horizontal axis prototype wind turbine that is being developed in the context of the MILRES (National Wind Energy Systems) Project in Turkey. The prototype turbine is designed as variable speed variable pitch angle wind turbine due to its advantages in efficiency and the structure. Aerodynamic, mechanical and electrical subsystems along with pitch and torque controllers are designed in both Matlab/Simulink and S4WT simulation environments. The main control purpose is to generate a power curve that is close to the ideal power curve where the energy efficiency is maximized below the nominal wind speed of 11 m/s and the power is limited to the nominal value above the nominal wind speed. Turbsim is integrated with both environments to generate a realistic wind profile of Kaimal turbulence model. The performance analysis of the prototype turbine is done under the power production scenario in both environments. Start up, emergency stop, shut down and parked scenarios are also implemented in S4WT.
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机译:本文重点研究在土耳其MILRES(国家风能系统)项目的背景下开发的500 KW水平轴原型风力发电机的建模,控制和仿真。由于其在效率和结构上的优势,原型涡轮机被设计为变速变桨距风力涡轮机。在Matlab / Simulink和S4WT仿真环境中都设计了气动,机械和电气子系统以及变桨和扭矩控制器。主要控制目的是生成一条接近理想功率曲线的功率曲线,在理想功率曲线下,能量效率在标称风速11 m / s以下最大化,并且功率被限制在标称风速以上。 Turbsim与这两种环境集成在一起,以生成真实的Kaimal湍流模型的风廓线。在两种环境下的发电情况下均完成了原型涡轮机的性能分析。 S4WT中还实现了启动,紧急停止,关闭和停放场景。
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