Detail publikace
Experimental Analysis of Dynamic Behaviour of Testing Pump
MALENOVSKÝ, E. POCHYLÝ, F.
Český název
Experimental Analysis of Dynamic Behaviour of Testing Pump
Anglický název
Experimental Analysis of Dynamic Behaviour of Testing Pump
Typ
článek ve sborníku ve WoS nebo Scopus
Jazyk
cs
Originální abstrakt
This contribution is focused on the interaction of rigid body with thin fluid layer. Long and short, cavitating or noncavitating journal bearings can be some technical applications. Governing equations for this analysis are the Navier Stokes eq., continuity and boundary conditions. Theoretical base of a new approach to the analysis of dynamic behavior of nonstationar analysis in time and frequency domains is presented. This totally new approach is based on separation of shaft and liquid layer from each other. It is possible to determine, using this separation, the database of additional effects of fluid film, such as function only of one shaft parameter, which can be a shaft center position. The Bézier body is used for the approximation of geometrical configuration and also for approximation of solution such as velocities and pressures. Method of control volumes is used by solution. Curvilinear co-ordinates are used by description of geometrical configuration and perpendicular co-ordinates are used by solution of velocities and pressures.
Český abstrakt
This contribution is focused on the interaction of rigid body with thin fluid layer. Long and short, cavitating or noncavitating journal bearings can be some technical applications. Governing equations for this analysis are the Navier Stokes eq., continuity and boundary conditions. Theoretical base of a new approach to the analysis of dynamic behavior of nonstationar analysis in time and frequency domains is presented. This totally new approach is based on separation of shaft and liquid layer from each other. It is possible to determine, using this separation, the database of additional effects of fluid film, such as function only of one shaft parameter, which can be a shaft center position. The Bézier body is used for the approximation of geometrical configuration and also for approximation of solution such as velocities and pressures. Method of control volumes is used by solution. Curvilinear co-ordinates are used by description of geometrical configuration and perpendicular co-ordinates are used by solution of velocities and pressures.
Anglický abstrakt
This contribution is focused on the interaction of rigid body with thin fluid layer. Long and short, cavitating or noncavitating journal bearings can be some technical applications. Governing equations for this analysis are the Navier Stokes eq., continuity and boundary conditions. Theoretical base of a new approach to the analysis of dynamic behavior of nonstationar analysis in time and frequency domains is presented. This totally new approach is based on separation of shaft and liquid layer from each other. It is possible to determine, using this separation, the database of additional effects of fluid film, such as function only of one shaft parameter, which can be a shaft center position. The Bézier body is used for the approximation of geometrical configuration and also for approximation of solution such as velocities and pressures. Method of control volumes is used by solution. Curvilinear co-ordinates are used by description of geometrical configuration and perpendicular co-ordinates are used by solution of velocities and pressures.
Klíčová slova anglicky
Navier Stokes eq., Computational modeling, journal bearings
Rok RIV
2003
Vydáno
12.05.2003
Nakladatel
VUT Brno
Místo
Brno
ISBN
80-214-1296-8
Kniha
Inženýrská Mechanika 2003
Počet stran
10
BIBTEX
@inproceedings{BUT8764,
author="Eduard {Malenovský} and František {Pochylý},
title="Experimental Analysis of Dynamic Behaviour of Testing Pump",
booktitle="Inženýrská Mechanika 2003",
year="2003",
month="May",
publisher="VUT Brno",
address="Brno",
isbn="80-214-1296-8"
}