UHBR Open-Test Case Fan ECL5/CATANA: Non-Linear Analysis of Non-Synchronous Blade Vibration at Part-Speed Conditions

Author:

Fiquet Anne-Lise1,Ottavy Xavier2,Brandstetter Christoph1

Affiliation:

1. Universite Claude Bernard Lyon 1, INSA Lyon, LMFA, UMR 5509 Ecole Centrale de Lyon, CNRS, , 69130 Ecully , France

2. INSA Lyon, Universite Claude Bernard Lyon 1, LMFA, UMR 5509 CNRS, Ecole Centrale de Lyon, , 69130 Ecully , France

Abstract

Abstract The onset of non-synchronous vibrations has been predicted for a composite open-test-case UHBR fan geometry by time-linearized simulations at part-speed conditions. In the current study, time-accurate simulations with harmonic blade oscillations have been conducted to investigate the non-linear behavior. Results for different operating conditions show the evolution of aeroelastic stability. The lock-in of convected aerodynamic disturbances with structural vibration is analyzed for different vibration amplitudes and frequencies. The simulations show the development of multiple wave numbers, mode scattering, and a non-linear dependency on vibration amplitude. The results indicate the possibility of limit-cycle prediction and the necessity of strongly coupled methods for the assessment of non-synchronous vibration.

Publisher

ASME International

Reference19 articles.

1. Mechanisms and Prediction Methods for Fan Blade Stall Flutter;Vahdati;J. Propul. Power,2001

2. Physics of Vibrating Turbine Airfoils at Low Reduced Frequency;Corral;J. Propul. Power,2016

3. Investigating the Causes of Outlet Guide Vane Buffeting;Harris,2020

4. Detached-Eddy Simulation of Rotating Stall Inception for a Full-Annulus Transonic Rotor;Iim;J. Propul. Power,2012

5. Stall Inception in Low-Pressure Ratio Fans;Kim;ASME J. Turbomach.,2019

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