In this dissertation, the modified TECO 2kW small horizontal axis wind turbine with variable pitch control was used to conduct a scaled-down experiment with the prototype Vesta Micon M 1100-600-PLS2. This study focuses on the rotational speed control in rated rotor speed region and the over speed region, which is over cut-off speed. This experiment was implemented in an open wind tunnel, and the wind turbine’s rotor speed is controlled by the Fourier-series based adaptive sliding mode controller via variable pitch control. The variable pitch control is driven by the servo motor, and the pitch angle feedback is by the servo motor’s encoder. The rotor speed is measured by the additional tachometer and the wind speed is measured by the anemometer. The turbine’s output electricity connects to the Y-shaped cement resistance through the power cable. The open wind tunnel can simply control the magnitude of wind speed via modified variable wind speed system. The Fourier-series based adaptive sliding mode (FSBASM) controller was applied in this dissertation, including feedback linearization, Fourier-series based function approximation and adaptive law design. The stability was proved by the Lyapunov function and the error converges to 0. Finally, the experiment was implemented in the scale-down test turbine. The proposed FSBASM controller was applied to the constant speed and variable speed control of a scaled-down wind turbine to observe the control performance in the rated rotor speed region and over-speed region in comparison with the PID controller. The experimental results show that the FSBASM controller has better steady-state error in the rated speed region and better tracking performance in over-speed region than the PID controller.