Innovative Model of Radial Fluid Bearing for Simulations of Turbocharger Rotordynamics

Innovative Model of Radial Fluid Bearing for Simulations of Turbocharger Rotordynamics

Paper in proceedings (conference paper)

The paper describes the principles of an innovative computational model of slide bearing for effective and fast simulations of turbocharger rotordynamics. Theoretical background based on a numerical solution of the Reynolds equation is introduced. The developed simulation tool uses multibody software extended by user-written subroutines and specialized programs developed by authors. The capabilities of the innovative computational models and sample results are demonstrated on a middle size turbocharger rotor supported by fully floating ring bearings.

The paper describes the principles of an innovative computational model of slide bearing for effective and fast simulations of turbocharger rotordynamics. Theoretical background based on a numerical solution of the Reynolds equation is introduced. The developed simulation tool uses multibody software extended by user-written subroutines and specialized programs developed by authors. The capabilities of the innovative computational models and sample results are demonstrated on a middle size turbocharger rotor supported by fully floating ring bearings.

Turbocharger; rotordynamics; fluid bearing; stability; applied tribology

Turbocharger; rotordynamics; fluid bearing; stability; applied tribology

NOVOTNÝ, P.; DLUGOŠ, J.

2018

06.09.2017

Springer International Publishing AG

Cham

978-3-319-65959-6

Mechatronics 2017 Recent Technological and Scientific Advances

2194-5357

Advances in Intelligent Systems and Computing

Swiss Confederation

356

364

8

http://hdl.handle.net/