Multibody Based Tool for Simulation of the Turbocharger Rotor Dynamics

Multibody Based Tool for Simulation of the Turbocharger Rotor Dynamics

Peer-reviewed article not indexed in WoS or Scopus

The turbocharger is a unique example of the rotating machinery. Not only for its very high speed, but also because of its compact design and difficult operating conditions (i.e. high temperature, harsh vibrations, etc.). Moreover, measuring of most parameters characterizing the rotor dynamics is a very difficult task. Thus, it is advantageous to replace the real turbocharger by computational model and determine the turbocharger rotor dynamics using simulation tool. The development of such tool will be presented in this paper.

The turbocharger is a unique example of the rotating machinery. Not only for its very high speed, but also because of its compact design and difficult operating conditions (i.e. high temperature, harsh vibrations, etc.). Moreover, measuring of most parameters characterizing the rotor dynamics is a very difficult task. Thus, it is advantageous to replace the real turbocharger by computational model and determine the turbocharger rotor dynamics using simulation tool. The development of such tool will be presented in this paper.

Finite Element Method; Floating Ring Bearing; Reynolds Equation; Turbocharger

Finite Element Method; Floating Ring Bearing; Reynolds Equation; Turbocharger

KNOTEK, J.; NOVOTNÝ, P.; MARŠÁLEK, O.

2017

11.01.2016

Trans Tech Publications Inc.

Switzerland

1662-7482

Applied Mechanics and Materials

821

1

Swiss Confederation

229

235

7

http://www.ttp.net/978-3-03835-700-1.html