Unstable Self-Excitation of Torsional Vibration in AC Induction Motor Driven Rotational Systems

J. R. Shadley; B. L. Wilson; M. S. Dorney

Source: Journal of Vibration and Acoustics:;1992:;volume( 114 ):;issue: 002::page 226

Author:

J. R. Shadley

B. L. Wilson

M. S. Dorney

DOI: 10.1115/1.2930252

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: The most common NEMA Design Classes of AC induction motors have speed-torque characteristics that can give rise to unstable self-excitation of torsional vibration in rotational systems during start-up. A torsional vibration computational model for start-up transients has been developed as a design tool for induction motor applications. Torsional instability can occur at speeds in the positive sloping segment of the motor’s speed-torque curve and is particularly acute when the mass moment of inertia of the load device is more than two times the mass moment of inertia of the motor rotor. The computational model is compared with an exact solution method and with a laboratory test of a motor-driven inertial load. Applications of the computational model to electric submersible pump (ESP) design cases are discussed.

keyword(s): Electromagnetic induction , Engines , Vibration , Design , Stress , Inertia (Mechanics) , Torque , Pumps , Rotors AND Submersibles ,

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Unstable Self-Excitation of Torsional Vibration in AC Induction Motor Driven Rotational Systems

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Journal of Vibration and Acoustics

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contributor author	J. R. Shadley
contributor author	B. L. Wilson
contributor author	M. S. Dorney
date accessioned	2017-05-08T23:40:08Z
date available	2017-05-08T23:40:08Z
date copyright	April, 1992
date issued	1992
identifier issn	1048-9002
identifier other	JVACEK-28801#226_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/111208
description abstract	The most common NEMA Design Classes of AC induction motors have speed-torque characteristics that can give rise to unstable self-excitation of torsional vibration in rotational systems during start-up. A torsional vibration computational model for start-up transients has been developed as a design tool for induction motor applications. Torsional instability can occur at speeds in the positive sloping segment of the motor’s speed-torque curve and is particularly acute when the mass moment of inertia of the load device is more than two times the mass moment of inertia of the motor rotor. The computational model is compared with an exact solution method and with a laboratory test of a motor-driven inertial load. Applications of the computational model to electric submersible pump (ESP) design cases are discussed.
publisher	The American Society of Mechanical Engineers (ASME)
title	Unstable Self-Excitation of Torsional Vibration in AC Induction Motor Driven Rotational Systems
type	Journal Paper
journal volume	114
journal issue	2
journal title	Journal of Vibration and Acoustics
identifier doi	10.1115/1.2930252
journal fristpage	226
journal lastpage	231
identifier eissn	1528-8927
keywords	Electromagnetic induction
keywords	Engines
keywords	Vibration
keywords	Design
keywords	Stress
keywords	Inertia (Mechanics)
keywords	Torque
keywords	Pumps
keywords	Rotors AND Submersibles
tree	Journal of Vibration and Acoustics:;1992:;volume( 114 ):;issue: 002
contenttype	Fulltext

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