Add to ORKGThe prediction of rotordynamic coefficients for gas seals is achieved with the aid of a two-volume bulk flow model based on turbulent rotationally symmetric 3D flow calculations including swirl flow. Comparison of cross-coupling and damping coefficients with measurements confirm this approach. In particular the theoretically predicted phenomenon that labyrinth damping is retained without inlet swirl is confirmed. This is important for the design of high pressure compressors, where labyrinth damping is a major contribution improving rotor stability. Discrepancies are found when comparing theory with measured direct stiffness and the cross-coupling damping coefficients. First measurements of labyrinth seals on a recently installed test rig op...
Rotor-fluid interactions can cause self-excited vibrations in high-density turbomachines. One of the...
The influence of sealing components on the rotordynamic stability of turbomachinery has become a key...
Wet-gas compression has become an important technology to focus on, requiring a concentrated effort ...
First experimental investigations performed on a new test rig are presented. For a staggered labyrin...
Rotordynamic coefficients of a gas labyrinth seal are assumed to be frequency independent. However, ...
As well known, the stability assessment of turbomachines is strongly related to internal sealing com...
Annular-labyrinth seals restrict leakage in turbomachinery but may provide unwanted destabilizing fo...
The development of a linear model for the prediction of labyrinth seal forces and on its comparison ...
A seal is a component used in a turbomachine to reduce internal leakage of the working fluid and to ...
A theoretical and experimental investigation of the aerodynamic forces generated by a single gland l...
The compressible, turbulent, time dependent and three dimensional flow in a labyrinth seal can be de...
The basic equations are derived for compressible flow in a stepped labyrinth gas seal. The flow is a...
The fluid force due to labyrinth seal sometimes makes the turbomachineries unstable under higher rot...
As well known, the stability assessment of turbomachines is strongly related to internal sealing com...
Flow induced aerodynamic spring coefficients of labyrinth seals are discussed and the restoring forc...
Rotor-fluid interactions can cause self-excited vibrations in high-density turbomachines. One of the...
The influence of sealing components on the rotordynamic stability of turbomachinery has become a key...
Wet-gas compression has become an important technology to focus on, requiring a concentrated effort ...
First experimental investigations performed on a new test rig are presented. For a staggered labyrin...
Rotordynamic coefficients of a gas labyrinth seal are assumed to be frequency independent. However, ...
As well known, the stability assessment of turbomachines is strongly related to internal sealing com...
Annular-labyrinth seals restrict leakage in turbomachinery but may provide unwanted destabilizing fo...
The development of a linear model for the prediction of labyrinth seal forces and on its comparison ...
A seal is a component used in a turbomachine to reduce internal leakage of the working fluid and to ...
A theoretical and experimental investigation of the aerodynamic forces generated by a single gland l...
The compressible, turbulent, time dependent and three dimensional flow in a labyrinth seal can be de...
The basic equations are derived for compressible flow in a stepped labyrinth gas seal. The flow is a...
The fluid force due to labyrinth seal sometimes makes the turbomachineries unstable under higher rot...
As well known, the stability assessment of turbomachines is strongly related to internal sealing com...
Flow induced aerodynamic spring coefficients of labyrinth seals are discussed and the restoring forc...
Rotor-fluid interactions can cause self-excited vibrations in high-density turbomachines. One of the...
The influence of sealing components on the rotordynamic stability of turbomachinery has become a key...
Wet-gas compression has become an important technology to focus on, requiring a concentrated effort ...