Quantification of uncertainties in nonlinear vibrations of turbine blades with underplatform dampers
Quantification of uncertainties in nonlinear vibrations of turbine blades with underplatform dampers
The high cycle fatigue life of turbine blades is negatively impacted by high frequency mechanical vibrations caused during operation. One method to mitigate this risk is to use underplatform dampers to dissipate energy from the system and reduce the vibration amplitude. Unfortunately, the state of the art models for such simulations are deterministic, although literature indicates that a large amount of uncertainty exists in measured contact parameters. This uncertainty in the contact parameters leads to significant variations in vibration response. This paper quantifies these uncertainties by considering the input parameters to be stochastic and generating uncertainty bands. A nonlinear solver based on Multi-Harmonic Balance method is used to propagate these uncertainties, and a surrogate model is implemented to increase the computational efficiency. Variance based sensitivity analysis is also performed to rank the importance of each uncertain parameter.
3885 - 3895
KU Leuven - Departement Werktuigkunde
Bhatnagar, S.
be084aba-1c3c-4f11-918a-6f2032709a9c
Yuan, Jie
4bcf9ce8-3af4-4009-9cd0-067521894797
Fantetti, A.
bb13cedb-6c12-4e5b-a042-ec1780c81307
Denimal, E.
49fe7e8d-c02b-4ebe-b126-4ca1000c939d
Salles, L.
1b179daa-7bb9-4f34-8b5f-dfc05b496969
7 September 2020
Bhatnagar, S.
be084aba-1c3c-4f11-918a-6f2032709a9c
Yuan, Jie
4bcf9ce8-3af4-4009-9cd0-067521894797
Fantetti, A.
bb13cedb-6c12-4e5b-a042-ec1780c81307
Denimal, E.
49fe7e8d-c02b-4ebe-b126-4ca1000c939d
Salles, L.
1b179daa-7bb9-4f34-8b5f-dfc05b496969
Bhatnagar, S., Yuan, Jie, Fantetti, A., Denimal, E. and Salles, L.
(2020)
Quantification of uncertainties in nonlinear vibrations of turbine blades with underplatform dampers.
In Proceedings of ISMA 2020 - International Conference on Noise and Vibration Engineering and USD 2020 - International Conference on Uncertainty in Structural Dynamics.
KU Leuven - Departement Werktuigkunde.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
The high cycle fatigue life of turbine blades is negatively impacted by high frequency mechanical vibrations caused during operation. One method to mitigate this risk is to use underplatform dampers to dissipate energy from the system and reduce the vibration amplitude. Unfortunately, the state of the art models for such simulations are deterministic, although literature indicates that a large amount of uncertainty exists in measured contact parameters. This uncertainty in the contact parameters leads to significant variations in vibration response. This paper quantifies these uncertainties by considering the input parameters to be stochastic and generating uncertainty bands. A nonlinear solver based on Multi-Harmonic Balance method is used to propagate these uncertainties, and a surrogate model is implemented to increase the computational efficiency. Variance based sensitivity analysis is also performed to rank the importance of each uncertain parameter.
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Published date: 7 September 2020
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Local EPrints ID: 479723
URI: http://eprints.soton.ac.uk/id/eprint/479723
PURE UUID: 184ffa80-230d-4b35-bdd1-69289b84a91c
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Date deposited: 26 Jul 2023 16:54
Last modified: 17 Mar 2024 04:20
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Contributors
Author:
S. Bhatnagar
Author:
Jie Yuan
Author:
A. Fantetti
Author:
E. Denimal
Author:
L. Salles
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