Automated design of a linear generator for wave energy Converters-a simplified model

Author

Wolfbrandt, Anna

Author_Institution

Dept. of Electricity & Lightning, Uppsala Univ., Sweden

Volume

42

Issue

7

fYear

2006

fDate

7/1/2006 12:00:00 AM

Firstpage

1812

Lastpage

1819

Abstract

An encouraging way to convert ocean wave energy into electricity through direct drive is by using a linear, synchronous, longitudinal-flux permanent-magnet machine (LFM), where the piston is driven by a buoy. In this paper, the speed of the piston is assumed to be constant or sinusoidal. The paper presents an automated method for optimizing the design variables of an LFM with a rectifier, using time-stepping finite-element analysis. The method yields feasible LFM designs tailored to a given ocean wave climate, assuming constant or sinusoidal piston speed. The method will help to avoid a large amount of field calculations to obtain an optimal LFM driven by a buoy. The systematic approach results in a transparent investigation, giving the engineer an easy way to determine the best design. The paper presents LFM designs for a calm site in the Baltic Sea as examples.

Keywords

electric drives; electric machine CAD; finite element analysis; linear machines; ocean waves; permanent magnet generators; synchronous machines; wave power generation; linear generator; linear synchronous machines; longitudinal-flux permanent-magnet machine; ocean wave energy conversion; time-stepping finite-element analysis; wave energy converters; Design engineering; Design optimization; Energy conversion; Finite element methods; Lightning; Ocean waves; Pistons; Rectifiers; Stators; Teeth; Finite-element analysis; linear generator; ocean wave; optimization; permanent magnet; rectifier; variable speed;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2006.874593

Filename

1644898