Detail publikačního výsledku

Computational Modelling of Frequency Dependent Additional Effects During Fluid Film Interaction with Structures

MALENOVSKÝ, E.; POCHYLÝ, F.

Originální název

Computational Modelling of Frequency Dependent Additional Effects During Fluid Film Interaction with Structures

Anglický název

Computational Modelling of Frequency Dependent Additional Effects During Fluid Film Interaction with Structures

Druh

Stať ve sborníku v databázi WoS či Scopus

Originální abstrakt

This contribution is focused on the interaction of a rigid body with a thin fluid layer. Some technical applications are for example: long and short, cavitating or noncavitating journal bearings. The governing equations for this analysis are the Navier Stokes equation, and the continuity and boundary conditions. The theoretical basis of a new approach to the analysis of dynamic behavior of nonstationary motion in time and frequency domains is presented. This totally new approach is based on separating the shaft and liquid layer from each other. It is possible to establish, using this separation, a database of additional effects of fluid film for a single given shaft parameter, which can be the shaft center position. The Bézier body is used for approximating the geometrical configuration as well as the velocities and pressures. The governing equations for both the net method and method of control volumes are presented. Curvilinear co-ordinates are used for describing the geometrical configuration and perpendicular co-ordinates are used for solving velocities and pressures.

Anglický abstrakt

This contribution is focused on the interaction of a rigid body with a thin fluid layer. Some technical applications are for example: long and short, cavitating or noncavitating journal bearings. The governing equations for this analysis are the Navier Stokes equation, and the continuity and boundary conditions. The theoretical basis of a new approach to the analysis of dynamic behavior of nonstationary motion in time and frequency domains is presented. This totally new approach is based on separating the shaft and liquid layer from each other. It is possible to establish, using this separation, a database of additional effects of fluid film for a single given shaft parameter, which can be the shaft center position. The Bézier body is used for approximating the geometrical configuration as well as the velocities and pressures. The governing equations for both the net method and method of control volumes are presented. Curvilinear co-ordinates are used for describing the geometrical configuration and perpendicular co-ordinates are used for solving velocities and pressures.

Klíčová slova

Navier-Stokes equation computational modelling, nonstationar analysis, journal bearings, additional mass, damping, stiffness

Klíčová slova v angličtině

Navier-Stokes equation computational modelling, nonstationar analysis, journal bearings, additional mass, damping, stiffness

Autoři

MALENOVSKÝ, E.; POCHYLÝ, F.

Rok RIV

2011

Vydáno

01.09.2004

Místo

Mechanical Engineering, London

ISBN

1-86058-447-0

Kniha

Vibration in Rotating Machinery

Strany od

173

Strany počet

11

BibTex

@inproceedings{BUT12167,
  author="Eduard {Malenovský} and František {Pochylý}",
  title="Computational Modelling of Frequency Dependent Additional Effects During Fluid Film Interaction with Structures",
  booktitle="Vibration in Rotating Machinery",
  year="2004",
  number="1",
  pages="11",
  address="Mechanical Engineering, London",
  isbn="1-86058-447-0"
}