IRMA-International.org: Creator of Knowledge
Information Resources Management Association
Advancing the Concepts & Practices of Information Resources Management in Modern Organizations

Performance of PM Linear Generator Under Various Ferromagnetic Materials for Wave Energy Conversion

Performance of PM Linear Generator Under Various Ferromagnetic Materials for Wave Energy Conversion
View Sample PDF
Author(s): Izzeldin Idris Abdalla Yagoube (Universiti Teknologi PETRONAS, Malaysia), Taib Ibrahim (Universiti Teknologi PETRONAS, Malaysia), Nursyarizal Mohd Nor (Universiti Teknologi PETRONAS, Malaysia)and Perumal Nallagownden (Universiti Teknologi Petronas, Malaysia)
Copyright: 2019
Pages: 14
Source title: Handbook of Research on Green Engineering Techniques for Modern Manufacturing
Source Author(s)/Editor(s): M. Uthayakumar (Kalasalingam University, India), S. Aravind Raj (Vellore Institute of Technology, India), Tae Jo Ko (Yeungnam University, South Korea), S. Thirumalai Kumaran (Kalasalingam University, India)and J. Paulo Davim (University of Aveiro, Portugal)
DOI: 10.4018/978-1-5225-5445-5.ch007

Purchase

View Performance of PM Linear Generator Under Various Ferromagnetic Materials for Wave Energy Conversion on the publisher's website for pricing and purchasing information.

Abstract

This chapter examines the influence of the various ferromagnetic materials on the performance of a single-phase tubular permanent-magnet linear generator (TPMLG) for wave energy conversion. Four ferromagnetic materials were considered in this study. They are non-oriented electrical steel, Permalloy (Ni-Fe-Mn), Accucore, and Somaloy 700. The generator equipped with a tubular stator carries a single coil and employs a quasi-Halbach magnetized moving-magnet translator. Therefore, in order to obtain an accurate performance analysis, the nonlinear time-stepping finite-element analysis (FEA) technique has been used. The electromagnetic characteristics, including the magnetic field distributions, flux-linkage, winding inductance, electromagnetic force, and electromotive force (EMF) have been investigated. It is shown that a generator whose stator is fabricated from soft magnetic composite (SMC) materials has potential advantages in terms of ease of manufacture, highest force capability, lower cost, and minimum eddy-current loss.

Related Content

Md. Al-Amin, G M Tarekul Islam. © 2023. 19 pages.
A.K.M Saiful Islam, Abu Saleh Khan, G M Tarekul Islam, Biswa Bhattacharya, Dr. Md. Hazrat Ali, Md. Saiful Hossain. © 2023. 19 pages.
Trung Van Le, Phu L. Vo, Quang Khai Ha, Van Tran Thi, Hiep Dinh Luu. © 2023. 26 pages.
Elena Kapogianni. © 2023. 17 pages.
Mohammad Shoeb, Rafiza Islam, Nargis Parvin. © 2023. 24 pages.
Pınar Ozel, Duygu Mutlu Bayraktar, Tugba Altan, Veysel Coskun, Ali Olamat. © 2023. 14 pages.
Mohammad Shoeb, Nilufar Nahar. © 2023. 22 pages.
Body Bottom