Effect of the generator sizing on a wave energy converter considering different control strategies

Journal Article

Title: Effect of the generator sizing on a wave energy converter considering different control strategies

Author:

Alberti, L.; Tedeschi, E.; Bianchi, N.; Santos, M.; Fasolo, A.

Publication Date:

January 1, 2013

Journal:

The International Journal for Computation and Mathematics in Electrical and Electronic Engineering

Volume:

Issue:

Publisher:

Emerald Insight

Affiliation:

Tecnalia, University of Padova

Technology:

Wave, Point Absorber

Engineering:

Control, Performance

Document Access

Website:

External Link

Citation

Alberti, L.; Tedeschi, E.; Bianchi, N.; Santos, M.; Fasolo, A. (2013). Effect of the generator sizing on a wave energy converter considering different control strategies. The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, 32(1)

Abstract

Purpose
The purpose of this paper is to investigate the impact of control strategy selection on the power performance of wave energy converters for different ratings of the Power Take‐Off (PTO) system.

Design/methodology/approach
The case of a point absorber equipped with an all‐electric PTO is considered. The effect of control techniques and electrical generator design is analyzed from a theoretical standpoint and then veriﬁed through integrated hydrodynamic‐electric simulations.

Findings
It has been proved that control parameters that maximize the power extraction from the waves can be derived based on the power and torque constraints imposed by the electrical machine.

Originality/value
An optimized and integrated approach to the control strategy selection and generator design for point absorbers has been presented, which maximizes the electric power generation from sea waves under real conditions and represents a good trade‐off for the PTO from both the technical and the economic standpoint.