Numerical Simulations and Experimental Validation of Squeeze Film Dampers for Aircraft Jet Engines

Markus Golek; Jakob Gleichner; Ioannis Chatzisavvas; Lukas Kohlmann; Marcus Schmidt; Peter Reinke; Adrian Rienäcker

doi:10.3390/lubricants12070253

Lubricants (Jul 2024)

Numerical Simulations and Experimental Validation of Squeeze Film Dampers for Aircraft Jet Engines

Markus Golek,
Jakob Gleichner,
Ioannis Chatzisavvas,
Lukas Kohlmann,
Marcus Schmidt,
Peter Reinke,
Adrian Rienäcker

Affiliations

Markus Golek: Institute for Powertrain and Vehicle Technology, University of Kassel, Moenchebergstr. 7, 34125 Kassel, Germany
Jakob Gleichner: Institute for Powertrain and Vehicle Technology, University of Kassel, Moenchebergstr. 7, 34125 Kassel, Germany
Ioannis Chatzisavvas: MTU Aero Engines AG, Dachauer Str. 665, 80995 Munich, Germany
Lukas Kohlmann: MTU Aero Engines AG, Dachauer Str. 665, 80995 Munich, Germany
Marcus Schmidt: Faculty of Engineering and Health, University of Applied Sciences and Arts Hildesheim/Holzminden/Goettingen, Von-Ossietzky-Straße 99, 37085 Goettingen, Germany
Peter Reinke: Faculty of Engineering and Health, University of Applied Sciences and Arts Hildesheim/Holzminden/Goettingen, Von-Ossietzky-Straße 99, 37085 Goettingen, Germany
Adrian Rienäcker: Institute for Powertrain and Vehicle Technology, University of Kassel, Moenchebergstr. 7, 34125 Kassel, Germany

DOI: https://doi.org/10.3390/lubricants12070253
Journal volume & issue: Vol. 12, no. 7
p. 253

Abstract

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Squeeze film dampers are used to reduce vibration in aircraft jet engines supported by rolling element bearings. The underlying physics of the squeeze film dampers has been studied extensively over the past 50 years. However, the research on the SFDs is still ongoing due to the complexity of modeling of several effects such as fluid inertia and the modeling of the piston rings, which are often used to seal SFDs. In this work, a special experimental setup has been designed to validate the numerical models of SFDs. This experimental setup can be used with various SFD geometries (including piston ring seals) and simulate almost all conditions that may occur in an aircraft jet engine. This work also focuses on the inertia forces of the fluid. The hydrodynamic pressure distribution of a detailed 3D-CFD model is compared with the solution of the Reynolds equation including inertia effects. Finally, the simulation results are compared with experimental data and good agreement is observed.

Published in Lubricants

ISSN: 2075-4442 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science
Website: http://www.mdpi.com/journal/lubricants

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