Non-contact test set-up for aeroelasticity in a rotating turbomachine combining a novel acoustic excitation system with tip-timing


Autoria(s): Freund, O.; Montgomery, M.; Mittelbach, M.; Seume, Jörg R.
Data(s)

01/03/2014

Resumo

Due to trends in aero-design, aeroelasticity becomes increasingly important in modern turbomachines. Design requirements of turbomachines lead to the development of high aspect ratio blades and blade integral disc designs (blisks), which are especially prone to complex modes of vibration. Therefore, experimental investigations yielding high quality data are required for improving the understanding of aeroelastic effects in turbomachines. One possibility to achieve high quality data is to excite and measure blade vibrations in turbomachines. The major requirement for blade excitation and blade vibration measurements is to minimize interference with the aeroelastic effects to be investigated. Thus in this paper, a non-contact-and thus low interference-experimental set-up for exciting and measuring blade vibrations is proposed and shown to work. A novel acoustic system excites rotor blade vibrations, which are measured with an optical tip-timing system. By performing measurements in an axial compressor, the potential of the acoustic excitation method for investigating aeroelastic effects is explored. The basic principle of this method is described and proven through the analysis of blade responses at different acoustic excitation frequencies and at different rotational speeds. To verify the accuracy of the tip-timing system, amplitudes measured by tip-timing are compared with strain gage measurements. They are found to agree well. Two approaches to vary the nodal diameter (ND) of the excited vibration mode by controlling the acoustic excitation are presented. By combining the different excitable acoustic modes with a phase-lag control, each ND of the investigated 30 blade rotor can be excited individually. This feature of the present acoustic excitation system is of great benefit to aeroelastic investigations and represents one of the main advantages over other excitation methods proposed in the past. In future studies, the acoustic excitation method will be used to investigate aeroelastic effects in high-speed turbomachines in detail. The results of these investigations are to be used to improve the aeroelastic design of modern turbomachines.

Identificador

http://dx.doi.org/10.15488/390

http://www.repo.uni-hannover.de/handle/123456789/413

Idioma(s)

eng

Publicador

Bristol : IOP Publishing Ltd.

Relação

http://dx.doi.org/10.1088/0957-0233/25/3/035008

ISSN:0957-0233

ESSN:1361-6501

Direitos

CC BY 3.0

https://creativecommons.org/licenses/by/3.0/de/

frei zugänglich

Fonte

Measurement Science & Technology 25 (2014), Nr. 3

Palavras-Chave #aeroelasticity #acoustic excitation #tip-timing #ddc:620
Tipo

status-type:publishedVersion

doc-type:article

doc-type:Text