Publication detail
An Advanced Approach for the Analysis of the Rotor Dynamics of a Ball Bearing Turbocharger
NOVOTNÝ, P. VACULA, J. KOCMAN, F. KRMÍČEK, A.
English title
An Advanced Approach for the Analysis of the Rotor Dynamics of a Ball Bearing Turbocharger
Type
Scopus Article
Language
en
Original abstract
Turbochargers operate under highly transient conditions, which impose significant mechanical and thermal loads on their rotating components. When supported by ball bearings combined with squeeze film dampers, the rotor system exhibits complex nonlinear dynamics that can critically affect bearing performance and service life. This study investigates the dynamic behaviour of ball-bearing-supported turbocharger rotors, focusing on lubrication conditions that reflect transient operating conditions. A high-fidelity computational model was developed to simulate multibody rotor dynamics, incorporating finite element-based flexible bodies and elastohydrodynamic lubrication (EHL) submodels to represent the contacts within the ball bearings. Validation of the simulation results against experimental data revealed that rotor vibrations significantly influence EHL contact, potentially leading to raceway damage. Additionally, differences in bearing loading between the inner and outer raceways, as well as between the compressor and turbine side bearings, were observed due to bearing clearance effects.
Keywords in English
turbocharger; rotordynamics; ball bearings; transient loads; vibration; tribology; lubrication
Released
2025-10-30
Volume
113
Number
21
Pages from–to
1–9
Pages count
9
BIBTEX
@article{BUT199312,
author="Pavel {Novotný} and {} and Jiří {Vacula} and František {Kocman} and Antonín {Krmíček}",
title="An Advanced Approach for the Analysis of the Rotor Dynamics of a Ball Bearing Turbocharger",
journal="Engineering Proceedings",
year="2025",
volume="113",
number="21",
pages="9",
doi="10.3390/engproc2025113021",
url="https://doi.org/10.3390/engproc2025113021"
}