Add to ORKGAn analytical method to calculate the rotor excitation forces arising from labyrinth seals is presented. The objective is to model the gas flow through the seal clearance passages and cavities when the rotor is positioned eccentricly relative to the stator center. The seal flow model used in the analysis yields solutions which validate the experimentally observed influence of seal parameters on seal forces reported in the literature. The analytically predicted seal pressure distributions and forces were compared with published experimental results
This is a detailed study into the internal aerodynamics of labyrinth seals, with pmic| reference t...
A seal is a component used in a turbomachine to reduce internal leakage of the working fluid and to ...
First experimental investigations performed on a new test rig are presented. For a staggered labyrin...
The development of a linear model for the prediction of labyrinth seal forces and on its comparison ...
Rotor-fluid interactions can cause self-excited vibrations in high-density turbomachines. One of the...
Seals are basic mechanical devices commonly used in machinery to avoid undesired flow losses of work...
The basic equations are derived for compressible flow in a labyrinth seal. The flow is assumed to be...
The basic equations are derived for compressible flow in a stepped labyrinth gas seal. The flow is a...
Rotor-fluid interactions can cause self-excited vibrations in high-density turbomachines. One of the...
Labyrinth seals are commonly found in turbines and compressors. Their objective is to control gas le...
Flow induced aerodynamic spring coefficients of labyrinth seals are discussed and the restoring forc...
Rotordynamic coefficients of a gas labyrinth seal are assumed to be frequency independent. However, ...
The compressible, turbulent, time dependent and three dimensional flow in a labyrinth seal can be de...
Flow patterns of the labyrinth seal are experimentally investigated for making a mathematical model ...
The prediction of rotordynamic coefficients for gas seals is achieved with the aid of a two-volume b...
This is a detailed study into the internal aerodynamics of labyrinth seals, with pmic| reference t...
A seal is a component used in a turbomachine to reduce internal leakage of the working fluid and to ...
First experimental investigations performed on a new test rig are presented. For a staggered labyrin...
The development of a linear model for the prediction of labyrinth seal forces and on its comparison ...
Rotor-fluid interactions can cause self-excited vibrations in high-density turbomachines. One of the...
Seals are basic mechanical devices commonly used in machinery to avoid undesired flow losses of work...
The basic equations are derived for compressible flow in a labyrinth seal. The flow is assumed to be...
The basic equations are derived for compressible flow in a stepped labyrinth gas seal. The flow is a...
Rotor-fluid interactions can cause self-excited vibrations in high-density turbomachines. One of the...
Labyrinth seals are commonly found in turbines and compressors. Their objective is to control gas le...
Flow induced aerodynamic spring coefficients of labyrinth seals are discussed and the restoring forc...
Rotordynamic coefficients of a gas labyrinth seal are assumed to be frequency independent. However, ...
The compressible, turbulent, time dependent and three dimensional flow in a labyrinth seal can be de...
Flow patterns of the labyrinth seal are experimentally investigated for making a mathematical model ...
The prediction of rotordynamic coefficients for gas seals is achieved with the aid of a two-volume b...
This is a detailed study into the internal aerodynamics of labyrinth seals, with pmic| reference t...
A seal is a component used in a turbomachine to reduce internal leakage of the working fluid and to ...
First experimental investigations performed on a new test rig are presented. For a staggered labyrin...