Position varying MEC-based investigation of the no-load operation of T-LPMSMs

Purpose – The purpose of this paper is to deal with the investigation of no-load operation of tubular linear permanent magnet synchronous machines (T-LPMSMs). It is aimed at the prediction of the phase flux linkages, the back-EMF and the cogging force using a position varying magnetic equivalent cir...

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Veröffentlicht in:	Compel 2015-11, Vol.34 (6), p.1687-1702
Hauptverfasser:	Zouaghi, Mohamed Wael, Souissi, Amal, Abdennadher, Imen, Masmoudi, Ahmed
Format:	Artikel
Sprache:	eng
Schlagworte:	Circuit design Cogging Design engineering Electrical & electronic engineering Energy conversion Engineering Equivalent circuits Finite element analysis Finite element method Free-piston engines Linkages Literature reviews Magnetic fields Magnetism Motors Permanent magnets Piston engines Synchronous machines Two dimensional analysis Wave power
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creator	Zouaghi, Mohamed Wael Souissi, Amal Abdennadher, Imen Masmoudi, Ahmed
description	Purpose – The purpose of this paper is to deal with the investigation of no-load operation of tubular linear permanent magnet synchronous machines (T-LPMSMs). It is aimed at the prediction of the phase flux linkages, the back-EMF and the cogging force using a position varying magnetic equivalent circuit (MEC). Design/methodology/approach – This study is based on the elaboration and the resolution of the position varying MEC, and the utilization of its results for the prediction of the phase flux linkages, the back-EMF and the cogging force, considering a general topology of T-LPMSMs. Then, a case study is treated with a position varying MEC-based investigation of its no-load features. These are validated by a 2-D finite element analysis (FEA). Findings – It has been found that the developed position varying MEC can be regarded as an accurate tool that requires a low CPU-time. Research limitations/implications – Beyond the FEA validation, this work should be extended to an experimental one. Moreover, the position varying MEC validity should be extended to load operation in order to enable the prediction of the force production capability. Practical implications – The developed position varying MEC could be suitably used for the pre-design of T-LPMSMs. These are currently given an increasing attention in many applications, such as wave energy conversion and free-piston engines. Originality/value – The paper proposes a position varying MEC for the prediction of the features of T-LPMSMs.
doi_str_mv	10.1108/COMPEL-05-2015-0182
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It is aimed at the prediction of the phase flux linkages, the back-EMF and the cogging force using a position varying magnetic equivalent circuit (MEC). Design/methodology/approach – This study is based on the elaboration and the resolution of the position varying MEC, and the utilization of its results for the prediction of the phase flux linkages, the back-EMF and the cogging force, considering a general topology of T-LPMSMs. Then, a case study is treated with a position varying MEC-based investigation of its no-load features. These are validated by a 2-D finite element analysis (FEA). Findings – It has been found that the developed position varying MEC can be regarded as an accurate tool that requires a low CPU-time. Research limitations/implications – Beyond the FEA validation, this work should be extended to an experimental one. Moreover, the position varying MEC validity should be extended to load operation in order to enable the prediction of the force production capability. Practical implications – The developed position varying MEC could be suitably used for the pre-design of T-LPMSMs. These are currently given an increasing attention in many applications, such as wave energy conversion and free-piston engines. 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Practical implications – The developed position varying MEC could be suitably used for the pre-design of T-LPMSMs. These are currently given an increasing attention in many applications, such as wave energy conversion and free-piston engines. Originality/value – The paper proposes a position varying MEC for the prediction of the features of T-LPMSMs.</abstract><cop>Bradford</cop><pub>Emerald Group Publishing Limited</pub><doi>10.1108/COMPEL-05-2015-0182</doi><tpages>16</tpages></addata></record>
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subjects	Circuit design Cogging Design engineering Electrical & electronic engineering Energy conversion Engineering Equivalent circuits Finite element analysis Finite element method Free-piston engines Linkages Literature reviews Magnetic fields Magnetism Motors Permanent magnets Piston engines Synchronous machines Two dimensional analysis Wave power
title	Position varying MEC-based investigation of the no-load operation of T-LPMSMs
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