In recent years linear generators have been proposed in several marine applications as a well-suited technology for power generation such as power buoys. Those kind of buoys could be used as large-scale devices in power plants and as small-size devices in electronic supply as well. In this work a numerical model of a three phase tubular permanent magnet linear generator is integrated with a Genetical Swarm Optimization algorithm in order to provide a first optimization for electronic applications. Numerical results have been reported and discussed and a generator prototype has been tested on a test bed in order to validate the predicted performances.

An optimized three phase TPM-LiG for marine applications

PIRISI, ANDREA;MUSSETTA, MARCO;GRUOSSO, GIAMBATTISTA;ZICH, RICCARDO
2010-01-01

Abstract

In recent years linear generators have been proposed in several marine applications as a well-suited technology for power generation such as power buoys. Those kind of buoys could be used as large-scale devices in power plants and as small-size devices in electronic supply as well. In this work a numerical model of a three phase tubular permanent magnet linear generator is integrated with a Genetical Swarm Optimization algorithm in order to provide a first optimization for electronic applications. Numerical results have been reported and discussed and a generator prototype has been tested on a test bed in order to validate the predicted performances.
2010
2010 International Symposium on Power Electronics Electrical Drives Automation and Motion
9781424449866
electronic supply; genetical swarm optimization algorithm; marine applications; power buoys; power generation; power plants; small-size devices; three phase tubular permanent magnet linear generator; energy harvesting; linear motors; marine engineering; particle swarm optimisation; permanent magnet generators; sezele
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/574935
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