Litcius/Paper detail

Dynamic Modeling and Stability Analysis of a Heavy-Duty Flywheel Rotor-Bearing System with Two Cracks

Chuandi Zhou, Yibing Liu, Wei Teng, Haosui Zhang, Haiting He, Chao Zhou

2022International Journal of Structural Stability and Dynamics10 citationsDOI

Abstract

Cracks have a significant impact on the stability of rotating machinery. However, most studies focus on rotating machinery with only one crack. This paper discusses the influence of two cracks on the stability of a flywheel rotor-bearing system. In this study, the dynamic models of vertically placed flywheel rotor-bearing system with two open cracks and two breath cracks are established using the finite element method (FEM). Floquet theory is used to calculate the stability of the system and the influence of depth and positions of cracks are analyzed. The results show that breathing cracks cause more unstable regions than open cracks, and the range of rotating speeds over which the rotor is unstable increases with increasing crack depth. In addition, it is observed that when the crack locations are adjacent, the unstable region will become very large, covering most of the crack depth range and speed range, making the rotor extremely unstable. Besides, the bearing stiffness causes an offset in the unstable regions, whereas the damping influences the instability value of the rotor.

Topics & Concepts

FlywheelFinite element methodStructural engineeringRotor (electric)InstabilityFloquet theoryStiffnessBearing (navigation)Helicopter rotorOffset (computer science)Critical speedMaterials scienceMechanicsEngineeringPhysicsMechanical engineeringComputer scienceProgramming languageAstronomyQuantum mechanicsNonlinear systemMagnetic Bearings and Levitation DynamicsTribology and Lubrication EngineeringVibration and Dynamic Analysis