A Permanent Magnet Linear Generator for the Enhancement of the Reliability of a Wave Energy Conversion System

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9 Citazioni (Scopus)

Abstract

In this paper, a linear generator for a highly reliable Wave Energy Conversion system is designed and tested. In order to store energy, the system is able to produce hydrogen The Wave Energy Conversion System consists of an electrical linear generator, a power conversion system and a sea-water electrolyzer. A small scale prototype of the system has been designed and built. The design is oriented to the enhancement of the system robustness and reliability and a Failure Mode and Effects and Criticality Analysis (FMECA) has been used. In order to guarantee an easy extension of the power capability of the marine plant, a modular architecture of the system has been adopted. The design strategy is described. The robustness and reliability of the proposed solution are discussed. Simulation and experimental results on the prototype are shown.
Lingua originaleEnglish
pagine (da-a)4934-4944
Numero di pagine11
RivistaIEEE Transactions on Industrial Electronics
Volume66
Stato di pubblicazionePublished - 2018

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Wave energy conversion
Permanent magnets
Failure modes
Hydrogen
Water

All Science Journal Classification (ASJC) codes

  • Control and Systems Engineering
  • Electrical and Electronic Engineering

Cita questo

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title = "A Permanent Magnet Linear Generator for the Enhancement of the Reliability of a Wave Energy Conversion System",
abstract = "In this paper, a linear generator for a highly reliable Wave Energy Conversion system is designed and tested. In order to store energy, the system is able to produce hydrogen The Wave Energy Conversion System consists of an electrical linear generator, a power conversion system and a sea-water electrolyzer. A small scale prototype of the system has been designed and built. The design is oriented to the enhancement of the system robustness and reliability and a Failure Mode and Effects and Criticality Analysis (FMECA) has been used. In order to guarantee an easy extension of the power capability of the marine plant, a modular architecture of the system has been adopted. The design strategy is described. The robustness and reliability of the proposed solution are discussed. Simulation and experimental results on the prototype are shown.",
author = "Marco Trapanese and Domenico Curto and Giovanni Cipriani and Valeria Boscaino and {Di Dio}, Vincenzo and Vincenzo Franzitta",
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journal = "IEEE Transactions on Industrial Electronics",
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T1 - A Permanent Magnet Linear Generator for the Enhancement of the Reliability of a Wave Energy Conversion System

AU - Trapanese, Marco

AU - Curto, Domenico

AU - Cipriani, Giovanni

AU - Boscaino, Valeria

AU - Di Dio, Vincenzo

AU - Franzitta, Vincenzo

PY - 2018

Y1 - 2018

N2 - In this paper, a linear generator for a highly reliable Wave Energy Conversion system is designed and tested. In order to store energy, the system is able to produce hydrogen The Wave Energy Conversion System consists of an electrical linear generator, a power conversion system and a sea-water electrolyzer. A small scale prototype of the system has been designed and built. The design is oriented to the enhancement of the system robustness and reliability and a Failure Mode and Effects and Criticality Analysis (FMECA) has been used. In order to guarantee an easy extension of the power capability of the marine plant, a modular architecture of the system has been adopted. The design strategy is described. The robustness and reliability of the proposed solution are discussed. Simulation and experimental results on the prototype are shown.

AB - In this paper, a linear generator for a highly reliable Wave Energy Conversion system is designed and tested. In order to store energy, the system is able to produce hydrogen The Wave Energy Conversion System consists of an electrical linear generator, a power conversion system and a sea-water electrolyzer. A small scale prototype of the system has been designed and built. The design is oriented to the enhancement of the system robustness and reliability and a Failure Mode and Effects and Criticality Analysis (FMECA) has been used. In order to guarantee an easy extension of the power capability of the marine plant, a modular architecture of the system has been adopted. The design strategy is described. The robustness and reliability of the proposed solution are discussed. Simulation and experimental results on the prototype are shown.

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M3 - Article

VL - 66

SP - 4934

EP - 4944

JO - IEEE Transactions on Industrial Electronics

JF - IEEE Transactions on Industrial Electronics

SN - 0278-0046

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