Publication detail
CONTRIBUTION TO THE COMPUTATIONAL MODELLING OF DYNAMIC BEHAVIOR OF FLUID FILM LAYERS BY THE INTERACTION WITH RIGID BODY AND WITH INFLUENCE OF TEMPERATURE
MALENOVSKÝ, E. POCHYLÝ, F.
Czech title
PŘÍSPĚVEK K VÝPOČTOVÉMU MODELOVÁNÍ DYNAMICKÝCH VLASTNOSTÍ TEKUTINOVÝCH VRSTEV PŘI INTERAKCI S TĚLESEM A S UVAŽOVÁNÍM TEPLOTY
English title
CONTRIBUTION TO THE COMPUTATIONAL MODELLING OF DYNAMIC BEHAVIOR OF FLUID FILM LAYERS BY THE INTERACTION WITH RIGID BODY AND WITH INFLUENCE OF TEMPERATURE
Type
conference paper
Language
cs
Original abstract
The interaction of fluid film liquid with the rigid body is the main aim of this contribution. The cavitating and non-cavitating long and short journal bearings are taken into account. The Navier Stokes, continuity equations and boundary conditions are the governing equations, which are used for this analysis. Theoretical approach to the analysis of stationary and nonstationary temperature fields is presented. It is presented approach, which allows the separation of liquid and rigid body from each other. Using this approach it is possible to create the database of additional effects from the liquid for given shafts parameter. The Bézier body is used for the analysis. Computational modelling uses the met method. The solution of velocity field is provided in perpendicular co-ordinates and curvy – linear are use by the description of geometrical configuration.
Czech abstract
The interaction of fluid film liquid with the rigid body is the main aim of this contribution. The cavitating and non-cavitating long and short journal bearings are taken into account. The Navier Stokes, continuity equations and boundary conditions are the governing equations, which are used for this analysis. Theoretical approach to the analysis of stationary and nonstationary temperature fields is presented. It is presented approach, which allows the separation of liquid and rigid body from each other. Using this approach it is possible to create the database of additional effects from the liquid for given shafts parameter. The Bézier body is used for the analysis. Computational modelling uses the met method. The solution of velocity field is provided in perpendicular co-ordinates and curvy – linear are use by the description of geometrical configuration.
English abstract
The interaction of fluid film liquid with the rigid body is the main aim of this contribution. The cavitating and non-cavitating long and short journal bearings are taken into account. The Navier Stokes, continuity equations and boundary conditions are the governing equations, which are used for this analysis. Theoretical approach to the analysis of stationary and nonstationary temperature fields is presented. It is presented approach, which allows the separation of liquid and rigid body from each other. Using this approach it is possible to create the database of additional effects from the liquid for given shafts parameter. The Bézier body is used for the analysis. Computational modelling uses the met method. The solution of velocity field is provided in perpendicular co-ordinates and curvy – linear are use by the description of geometrical configuration.
Keywords in Czech
: Navier-Stokes eq., temperature field, computational modelling, nonstationar analysis, journal bearings
Keywords in English
: Navier-Stokes eq., temperature field, computational modelling, nonstationar analysis, journal bearings
RIV year
2004
Released
01.02.2004
Location
Praha
ISBN
80-85918-85-4
Book
Výpočtové modelování
Pages count
8
BIBTEX
@inproceedings{BUT12292,
author="Eduard {Malenovský} and František {Pochylý},
title="PŘÍSPĚVEK K VÝPOČTOVÉMU MODELOVÁNÍ DYNAMICKÝCH VLASTNOSTÍ TEKUTINOVÝCH VRSTEV PŘI INTERAKCI S TĚLESEM A S UVAŽOVÁNÍM TEPLOTY",
booktitle="Výpočtové modelování",
year="2004",
month="February",
address="Praha",
isbn="80-85918-85-4"
}