|
|
Publications
Gaspar, J.F., Kamarlouei, M., Sinha, A., Xu, H.T., Calvario, M., Francois-Xavier, Fa., Robles, E. e Guedes Soares, C. (2017), “Analysis of electrical drive speed control limitations of a power take-off system for wave energy converters” , Renewable Energy, Vol. 113, pp. 335-346
The active control of wave energy converters with oil-hydraulic power take-off systems presents
important demands on the electrical drives attached to their pumps, in particular on the required drive
accelerations and rotational speeds. This work analyzes these demands on the drives and designs reliable
control approaches for such drives by simulating a wave-to-wire model in a hardware in-the-loop
simulation test rig. The model is based on a point absorber wave energy converter, being the wave,
hydrodynamic and oil-hydraulic part simulated in a computer that sends and receives signals from the
real embedded components, such as the drive generator, controller and back-to-back converter. Three
different control strategies are developed and tested in this test rig and the results revealed that despite
the drive limitations to acceleration levels, well above 1 � 104 rpm/s, these do not significantly affect the
power take-off efficiency, because the required acceleration peaks rarely achieve these values. Moreover
this drive is much more economical than an oil-hydraulic and equivalent one that is able to operate at
those peaks of acceleration.
If you did not manage to obtain a copy of this paper: Request a copy of this article
For information about all CENTEC publications you can download: Download the Complete List of CENTEC Publications
|