An innovative electronic system for testing the performance of wind turbines is presented. The main goal of the system is to increase the accuracy in the measurements of torque and speed for each steady-state point of the turbine characteristic power curve. Another useful advantage provided by the electronic control is given by the possibility of fine tuning the load in order to obtain a large number of steady state experimental points describing the characteristic curve of the turbine. Moreover, the system is suitable for integration into an automatic data acquisition and control system. In the paper the main characteristics of the electronic system are described and compared with a traditional system. This electronic control system is used for testing a small Vertical Axis Wind Turbine in a wind tunnel. The wind turbine is directly coupled to a direct current electric generator, and a chopper, electronically controlled by means of a Pulse Width Modulator, is used to supply the circuit. The electric generator is used for braking the wind turbine at various speeds during the performance test. The experimental results obtained through the proposed system are presented and discussed.
[1]
S. B. Dewan,et al.
Power Semiconductor Circuits
,
1975
.
[2]
I. Grant,et al.
An experimental and numerical study of the vortex filaments in the wake of an operational, horizontal-axis, wind turbine
,
2000
.
[3]
J. Schepers.
An engineering model for yawed conditions, developed on basis of wind tunnel measurements
,
1999
.
[4]
Herbert J. Sutherland,et al.
Damage measurements on the NWTC direct-drive, variable-speed test bed
,
1998
.
[5]
Lee J. Fingersh,et al.
Some preliminary results from the NWTC direct-drive, variable-speed test bed
,
1997
.
[6]
A. Dadone,et al.
A two-dimensional methodology to predict vertical axis wind turbine performance
,
1995
.