MODELLING OF MULTI-BEARING ROTOR SYSTEMS INCORPORATING AN ACTIVE JOURNAL BEARING

A multivariable self-tuning adaptive controller was developed to control forced vibration of rotor systems incorporating a new type of active journal bearing. The adaptive control algorithm enables the controller to cope with non-linearity, parameter variation with time and parameter uncertainty in

A dynamic model is derived for misaligned rotor-ball bearing systems driven through a flexible coupling by treating the reaction loads and deformations at the bearing and coupling elements as the misalignment effect. In order to verify the validity of the misaligned rotor system model, experiments a

Exact solutions for a distributed parameter system are of great use for the physical understanding of the system or the sensitivity analysis and design of the system. However, exact or closed-form solutions for multi-stepped rotor-bearing systems with distributed parameters have been rarely investig

A consideration is provided of the possibility of identifying changes in the residual unbalance of a multi-bearing rotor system. It is assumed that the relative motion of the rotor journals with respect to the bearings can be measured before and after the change in unbalance take place. Furthermore,

A #exible sleeve can be considered as a new feature of the proposed active journal bearing. Variation of the oil pressure in the chamber located under the sleeve causes deformation of the sleeve and consequently changes the geometry of the oil "lm as well as the pressure distribution of the oil "lm.