Title :
Evaluation of torsional oscillations in paper machine sections
Author :
Valenzuela, M. Aníbal ; Bentley, John M. ; Loren, Robert D.
Author_Institution :
Dept. of Electr. Eng., Univ. of Concepcion, Chile
Abstract :
Torsional oscillations greatly affect performance and determine the bandwidth (BW) and damping of speed loops. Backlash due to gear reducers can also contribute to the triggering of oscillations, especially when the drive runs at very low load torque. This paper presents a detailed evaluation of these effects in typical electromechanical drive trains applied to paper machine sections. The cases evaluated consider torsional oscillations in two-mass and three-mass systems, and the effect of shaft diameter and length on the resonant frequencies of three typical paper machine sections. Time-domain response plots are evaluated to show the effect of speed response overshoot, reducer backlash, and step or ramp speed commands. Based on these results, mechanical design guidelines are given for the most significant drive train components in order to minimize torsional oscillations of the speed-controlled drive system.
Keywords :
damping; electric drives; frequency response; machine control; oscillations; paper making machines; time-domain analysis; torque; velocity control; vibrations; electromechanical drive trains; frequency-response analysis; load torque; paper machine sections; ramp speed commands; reducer backlash; speed loops damping; speed response overshoot; speed-controlled drive systems; three-mass modelling; time-domain response; torsional oscillations; Bandwidth; Damping; Gears; Guidelines; Paper making machines; Pulp and paper industry; Resonant frequency; Shafts; Time domain analysis; Torque; Backlash; frequency-response analysis; jackshaft and reducer torsional stiffness; resonance; torsional oscillations; two- and three-mass modeling;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2005.844383
