Experimental Research Into Aeroelastic Phenomena in Turbine Rotor Blades Inside ARIAS EU Project-Reference-Cited by-同舟云学术

Experimental Research Into Aeroelastic Phenomena in Turbine Rotor Blades Inside ARIAS EU Project

Published:2024-06-10 Issue:7 Volume:146 Page:
ISSN:0889-504X
Container-title:Journal of Turbomachinery
language:en
Short-container-title:

Author:

Gallardo Juan Manuel¹,Bermejo Oscar²,Hernández Julen³⁴,García Gadea³⁴,Gallego Jon⁵⁶,Knappett Daniel⁷⁸,Kharyton Vsevolod⁹¹⁰,Wurl Mike¹¹,Corral Roque¹²

Affiliation:

1. ITP Aero Simulation Technology Department, , 28108 Alcobendas, Madrid , Spain

2. ITP Aero (NGT) Simulation Technology Department, , 28108 Alcobendas, Madrid , Spain

3. Centro de Tecnologías Aeronauticas (Spain) , 48170 Zamudio , Spain

4. Centro de Tecnologías Aeronáuticas , 48170 Zamudio , Spain

5. Rolls-Royce (United Kingdom) Hot End CoE—Turbines Capability, , Derby DE24 8BJ , UK

6. Rolls-Royce plc Hot End CoE—Turbines Capability, , Derby DE24 8BJ , UK

7. Rolls-Royce (United Kingdom) Experimental Noise and Vibration, , Derby DE24 8BJ , UK

8. Rolls-Royce plc Experimental Noise and Vibration, , Derby DE24 8BJ , UK

9. Siemens (Sweden) , 61283 Fingspan , Sweden

10. Siemens Energy AB , 61283 Fingspan , Sweden

11. Siemens Energy AG , 10553 Berlin , Germany

12. UPM Department of Fluid Dynamics , 28040 Madrid , Spain

Abstract

Abstract This paper describes an aeroelastic experimental campaign on a low-pressure turbine-bladed rotor in a rotating wind tunnel that took place as a part of the Advanced Research Into Aeromechanical Solutions (ARIAS) EU project. The campaign can be considered a continuation of the free-flutter test that was performed as part of the FUTURE EU project, where the saturation of asynchronous vibrations due to dry friction was characterized. This new campaign studied new aspects of the physics behind saturated flutter, including the non-linear interaction between synchronous excitation and asynchronous vibration, the effectiveness of different mistuning patterns to suppress flutter, and the viability of under-platform dampers as a technology to control the amplitude of asynchronous vibrations. Furthermore, the campaign explored various operation conditions for the turbine rotor, including near-stall. In general, there was a good agreement between the theoretical predictions regarding all these different aspects of turbine flutter and the test results.

Publisher

ASME International

Link

https://asmedigitalcollection.asme.org/turbomachinery/article-pdf/146/7/071009/7347938/turbo_146_7_071009.pdf

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