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An Interpolative Finite-Element Modeling and the Starting Process Simulation of a Large Solid Pole Synchronous Machine | IEEE Journals & Magazine | IEEE Xplore
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Journals & Magazines >IEEE Transactions on Magnetics >Volume: 45 Issue: 10

An Interpolative Finite-Element Modeling and the Starting Process Simulation of a Large Solid Pole Synchronous Machine

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Y. B. Li; S. L. Ho; W. N. Fu; W. Y Liu
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Abstract:

Direct simulation of the starting process of an electric machine using a 3-D transient finite-element analysis (FEA) is very time consuming. To overcome this difficulty, ...Show More

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Abstract:

Direct simulation of the starting process of an electric machine using a 3-D transient finite-element analysis (FEA) is very time consuming. To overcome this difficulty, an interpolative finite-element modeling of a large solid pole synchronous motor (SPSM) is presented and its starting process is simulated in this paper. In order to take into account the effects of cooling ducts and end turns, three different simplified 3-D finite-element models (FEMs) are proposed to reduce the computing time and save memory storage. With the proposed algorithm, an appropriate postprocess is exploited to deduce an effective core length and an end-turn leakage inductance. Then, a 2-D transient FEM with the modified parameters from 3-D FEA is used to simulate the starting process. The proposed method is validated by the test results of a 15 000-hp, 13.2-kV, 4-pole SPSM.
Published in: IEEE Transactions on Magnetics ( Volume: 45, Issue: 10, October 2009)
Page(s): 4605 - 4608
Date of Publication: 22 September 2009

ISSN Information:

DOI: 10.1109/TMAG.2009.2022408
Citations are not available for this document.
Contents

I. Introduction

Large solid pole synchronous motor (SPSM), which is fabricated using solid pieces of forged, welded, or dovetailed steel as the rotor pole body, is used commonly to drive large compressors, pumps, and blowers in power stations, steel plants, etc. The merits of the SPSM are its self-starting performance, reliable operation, and high thermal capacity [1], [2].

Cites in Papers - |

Cites in Papers - IEEE (14)

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