Publication detail
Comparison of Dynamic Behaviour of SQUEEZE Film Dampers Calculated Using Reynolds and Navier-Stokes Equations
MALENOVSKÝ, E. POCHYLÝ, F.
Czech title
Srovnání dynamických vlastností hydrodynamických tlumičů při použití reynoldsovy a Navier Stokesovy rovnice
English title
Comparison of Dynamic Behaviour of SQUEEZE Film Dampers Calculated Using Reynolds and Navier-Stokes Equations
Type
conference paper
Language
en
Original abstract
The case of coupled motion of rigid body with liquid is very often phenomena in technical applications. The liquid is incompressible (oil, water) or compressible (air, gas). The classical technical application of coupling rigid bodies with liquid is in rotor dynamic systems. The general solution of this is very complicated, that is why the simplify assumptions are for example the constant velocity among radial direction
Czech abstract
Srovnání dynamických vlastností hydrodynamických tlumičů při použití reynoldsovy a Navier Stokesovy rovnice
English abstract
The case of coupled motion of rigid body with liquid is very often phenomena in technical applications. The liquid is incompressible (oil, water) or compressible (air, gas). The classical technical application of coupling rigid bodies with liquid is in rotor dynamic systems. The general solution of this is very complicated, that is why the simplify assumptions are for example the constant velocity among radial direction
Keywords in English
Navier-Stokes eq. SQUEEZE film dampers, computational modelling, Reynolds eq.
RIV year
2002
Released
07.07.2002
Publisher
TU Wienna, Austria
Location
TU Wienna, Austria
ISBN
3-9501554-1-4
Book
fifth world congress on computational mechanics
Pages count
10
BIBTEX
@inproceedings{BUT9795,
author="Eduard {Malenovský} and František {Pochylý},
title="Comparison of Dynamic Behaviour of SQUEEZE Film Dampers Calculated Using Reynolds and Navier-Stokes Equations",
booktitle="fifth world congress on computational mechanics",
year="2002",
month="July",
publisher="TU Wienna, Austria",
address="TU Wienna, Austria",
isbn="3-9501554-1-4"
}