Design and Testing of a Linear Generator for Wave-Energy Applications

Author

Hodgins, Neil ; Keysan, Ozan ; McDonald, Alasdair S. ; Mueller, Markus A.

Author_Institution

Dyson Ltd., Malmesbury, UK

Volume

59

Issue

5

fYear

2012

fDate

5/1/2012 12:00:00 AM

Firstpage

2094

Lastpage

2103

Abstract

A linear-generator topology is proposed for wave-energy applications. The main significance of the generator topology is that the relative position of the magnets, copper, and steels has been chosen so that there are no magnetic attraction forces between a stator and a permanent-magnet (PM) translator. The lack of magnetic forces and the modular nature of the generator topology make the manufacture and assembly of the generator easier than a conventional iron-cored PM linear generator. Analytical modeling techniques are described with a genetic-algorithm optimization method. The proposed topology is implemented to an Archimedes-wave-swing wave-energy converter. A 50-kW prototype has been built to prove the concept, and the no-load- and load-test results are presented.

Keywords

copper; genetic algorithms; linear machines; permanent magnet generators; stators; steel; wave power generation; Archimedes-wave-swing wave-energy converter; PM linear generator; generator topology; genetic-algorithm optimization; magnetic attraction forces; magnetic forces; permanent-magnet translator; power 50 kW; wave-energy applications; Coils; Generators; Heat transfer; Magnetic cores; Optimization; Permanent magnets; Stator windings; Air-cored winding; direct drive; linear generator; optimization; permanent-magnet (PM) machines; power generation; wave energy;

fLanguage

English

Journal_Title

Industrial Electronics, IEEE Transactions on

Publisher

ieee

ISSN

0278-0046

Type

jour

DOI

10.1109/TIE.2011.2141103

Filename

5746524