Development and Experimental Validation of Auxiliary Rolling Bearing Models for Active Magnetic Bearings (AMBs)‎ Applications

Joint Authors

Meli, Enrico
Tangredi, Anna
Rindi, Andrea
Ridolfi, Alessandro
D’Adamio, Pierluca
Frilli, Amedeo
Fioravanti, Duccio
Defoy, Benjamin

Source

International Journal of Rotating Machinery

Issue

Vol. 2019, Issue 2019 (31 Dec. 2019), pp.1-19, 19 p.

Publisher

Hindawi Publishing Corporation

Publication Date

2019-04-01

Country of Publication

Egypt

No. of Pages

19

Main Subjects

Mechanical Engineering

Abstract EN

Nowadays, the search for increasing performances in turbomachinery applications has led to a growing utilization of active magnetic bearings (AMBs), which can bring a series of advantages thanks to their features: AMBs allow the machine components to reach higher peripheral speeds; in fact there are no wear and lubrication problems as the contact between bearing surfaces is absent.

Furthermore, AMBs characteristic parameters can be controlled via software, optimizing machine dynamics performances.

However, active magnetic bearings present some peculiarities, as they have lower load capacity than the most commonly used rolling and hydrodynamic bearings, and they need an energy source; for these reasons, in case of AMBs overload or breakdown, an auxiliary bearing system is required to support the rotor during such landing events.

During the turbomachine design process, it is fundamental to appropriately choose the auxiliary bearing type and characteristics, because such components have to resist to the rotor impact; so, a supporting design tool based on accurate and efficient models of auxiliary bearings is very useful for the design integration of the Active Magnetic Bearing System into the machine.

This paper presents an innovative model to accurately describe the mechanical behavior of a complete rotor-dynamic system composed of a rotor equipped with two auxiliary rolling bearings.

The model, developed and experimentally validated in collaboration with Baker Hughes a GE company (providing the test case and the experimental data), is able to reproduce the key physical phenomena experimentally observed; in particular, the most critical phenomenon noted during repeated experimental combined landing tests is the rotor forward whirl, which occurs in case of high friction conditions and greatly influences the whole system behavior.

In order to carefully study some special phenomena like rotor coast down on landing bearings (which requires long period of time to evolve and involves many bodies and degrees of freedom) or other particular events like impacts (which occur in a short period of time), a compromise between accuracy of the results and numerical efficiency has been pursued.

Some of the elements of the proposed model have been previously introduced in literature; however the present work proposes some new features of interest.

For example, the lateral and the axial models have been properly coupled in order to correctly reproduce the effects observed during the experimental tests and a very important system element, the landing bearing compliant suspension, has been properly modelled to more accurately describe its elastic and damping effects on the system.

Furthermore, the model is also useful to characterize the frequencies related to the rotor forward whirl motion.

American Psychological Association (APA)

Tangredi, Anna& Meli, Enrico& Rindi, Andrea& Ridolfi, Alessandro& D’Adamio, Pierluca& Frilli, Amedeo…[et al.]. 2019. Development and Experimental Validation of Auxiliary Rolling Bearing Models for Active Magnetic Bearings (AMBs) Applications. International Journal of Rotating Machinery،Vol. 2019, no. 2019, pp.1-19.
https://search.emarefa.net/detail/BIM-1168543

Modern Language Association (MLA)

Tangredi, Anna…[et al.]. Development and Experimental Validation of Auxiliary Rolling Bearing Models for Active Magnetic Bearings (AMBs) Applications. International Journal of Rotating Machinery No. 2019 (2019), pp.1-19.
https://search.emarefa.net/detail/BIM-1168543

American Medical Association (AMA)

Tangredi, Anna& Meli, Enrico& Rindi, Andrea& Ridolfi, Alessandro& D’Adamio, Pierluca& Frilli, Amedeo…[et al.]. Development and Experimental Validation of Auxiliary Rolling Bearing Models for Active Magnetic Bearings (AMBs) Applications. International Journal of Rotating Machinery. 2019. Vol. 2019, no. 2019, pp.1-19.
https://search.emarefa.net/detail/BIM-1168543

Data Type

Journal Articles

Language

English

Notes

Includes bibliographical references

Record ID

BIM-1168543