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    Forced Response Analysis of a Mistuned Compressor Blisk

    Source: Journal of Engineering for Gas Turbines and Power:;2014:;volume( 136 ):;issue: 006::page 62507
    Author:
    Beirow, Bernd
    ,
    Giersch, Thomas
    ,
    Kأ¼hhorn, Arnold
    ,
    Nipkau, Jens
    DOI: 10.1115/1.4026537
    Publisher: The American Society of Mechanical Engineers (ASME)
    Abstract: The forced response of an E3Etype high pressure compressor (HPC) blisk front rotor is analyzed with regard to varying mistuning and the consideration of the fluidstructure interaction (FSI). For that purpose, a reduced order model is used in which the disk remains unchanged and mechanical properties of the blades, namely stiffness and damping, are adjusted to measured as well as intentional blade frequency mistuning distributions. The aerodynamic influence coefficient technique is employed to model the aeroelastics. Depending on the blade mode, the exciting engine order, and aerodynamic influences, it is sought for the worst mistuning distributions with respect to the maximum blade displacement based on optimization analyses. Genetic algorithms using bladealone frequencies as design variables are applied. The validity of the Whitehead limit is assessed in this context. In particular, the question is addressed if and how far aeroelastic effects, mainly caused by aerodynamic damping, combined with mistuning can even cause a reduction of the forced response compared to the ideally tuned blisk. It is shown that the strong dependence of the aerodynamic damping on the interblade phase angle is the main driver for a possible response attenuation considering the fundamental as well as a higher blade mode. Furthermore, the differences to the blisk vibration response without a consideration of the flow and an increase of the disk's stiffness are discussed. Closing, the influence of pure damping mistuning is analyzed again using optimization.
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      Forced Response Analysis of a Mistuned Compressor Blisk

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    contributor authorBeirow, Bernd
    contributor authorGiersch, Thomas
    contributor authorKأ¼hhorn, Arnold
    contributor authorNipkau, Jens
    date accessioned2017-05-09T01:07:42Z
    date available2017-05-09T01:07:42Z
    date issued2014
    identifier issn1528-8919
    identifier othergtp_136_06_062507.pdf
    identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/154732
    description abstractThe forced response of an E3Etype high pressure compressor (HPC) blisk front rotor is analyzed with regard to varying mistuning and the consideration of the fluidstructure interaction (FSI). For that purpose, a reduced order model is used in which the disk remains unchanged and mechanical properties of the blades, namely stiffness and damping, are adjusted to measured as well as intentional blade frequency mistuning distributions. The aerodynamic influence coefficient technique is employed to model the aeroelastics. Depending on the blade mode, the exciting engine order, and aerodynamic influences, it is sought for the worst mistuning distributions with respect to the maximum blade displacement based on optimization analyses. Genetic algorithms using bladealone frequencies as design variables are applied. The validity of the Whitehead limit is assessed in this context. In particular, the question is addressed if and how far aeroelastic effects, mainly caused by aerodynamic damping, combined with mistuning can even cause a reduction of the forced response compared to the ideally tuned blisk. It is shown that the strong dependence of the aerodynamic damping on the interblade phase angle is the main driver for a possible response attenuation considering the fundamental as well as a higher blade mode. Furthermore, the differences to the blisk vibration response without a consideration of the flow and an increase of the disk's stiffness are discussed. Closing, the influence of pure damping mistuning is analyzed again using optimization.
    publisherThe American Society of Mechanical Engineers (ASME)
    titleForced Response Analysis of a Mistuned Compressor Blisk
    typeJournal Paper
    journal volume136
    journal issue6
    journal titleJournal of Engineering for Gas Turbines and Power
    identifier doi10.1115/1.4026537
    journal fristpage62507
    journal lastpage62507
    identifier eissn0742-4795
    treeJournal of Engineering for Gas Turbines and Power:;2014:;volume( 136 ):;issue: 006
    contenttypeFulltext
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