Starting transients of three phase reluctance motors as affected by torsional dynamics

R.M. Hamouda; M.A. Badr; A.I. Alolah

doi:10.1109/60.790882

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Starting transients of three phase reluctance motors as affected by torsional dynamics

Journal article

Peer reviewed

Starting transients of three phase reluctance motors as affected by torsional dynamics

R.M. Hamouda, M.A. Badr and A.I. Alolah

IEEE transactions on energy conversion, Vol.14(3), pp.354-360

01/09/1999

DOI: https://doi.org/10.1109/60.790882

Abstract

Couplings

Educational institutions

Equations

Frequency

Induction motors

Mathematical model

Reluctance motors

State-space methods

Torque

Transient response

In this paper, a rigorous mathematical model describing the transient behavior of three-phase reluctance motors under the effect of torsional dynamics is developed. Provisions are made to allow the analysis of both the three-phase balanced mode of operation and the single-phase mode of operation of such motors. The resulting state-space equations are then solved numerically in order to yield the required transient response curves. The outcome of this study will help in devising techniques to deal with the dangerous consequences of the electromechanical resonance phenomenon that may arise.

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Title: Starting transients of three phase reluctance motors as affected by torsional dynamics
Creators - without role: R.M. Hamouda - King Saud University
M.A. Badr - King Saud University
A.I. Alolah - King Saud University
Publication Details: IEEE transactions on energy conversion, Vol.14(3), pp.354-360
Publisher: IEEE
Identifiers: 9951914108331
Academic Unit: King Saud University
Language: English
Resource Type: Journal article