Metamodel-based analysis of cross-flow-induced vibrations

Sabine Upnere; Janis Auzins; Normunds Jekabsons

doi:10.1007/978-981-13-2273-0_14

Metamodel-based analysis of cross-flow-induced vibrations

Sabine Upnere^*
, Janis Auzins
, Normunds Jekabsons

^*Corresponding author for this work

Institute of Physics

Riga Technical University
Ventspils University College

Research output: Chapter in Book/Report/Conference proceeding › Chapter › Research › peer-review

Abstract

This work presents the study of numerical modelling of the fluid flow and circular cylinder interaction to investigate the cross-flow induced vibrations in the rod bundle. It is assumed that failure due to flow-induced vibrations of the rod can be described by the reduction of the rod mass, the rod support stiffness or damping coefficient. The metamodel-based approach is applied to investigate the main trends of the system’s characteristic behaviour related to the variations of the chosen parameters. The two-dimensional Finite Volume models have been developed using open-source software to get a mapping of input and output variables for the metamodel. The impact of assumed failure parameters (the mass, the stiffness and the damping) on the vibration amplitude and frequency of the oscillating rod is analysed.

Original language	English
Title of host publication	Lecture Notes in Mechanical Engineering
Publisher	Pleiades journals
Pages	168-178
Number of pages	11
DOIs	https://doi.org/10.1007/978-981-13-2273-0_14
Publication status	Published - 2019

Publication series

Name	Lecture Notes in Mechanical Engineering
ISSN (Print)	2195-4356
ISSN (Electronic)	2195-4364

Keywords

Cross-flow
Flow-induced vibrations
Metamodel
Rod bundle
Vibration amplitude
Vibration frequency

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10.1007/978-981-13-2273-0_14

Cite this

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title = "Metamodel-based analysis of cross-flow-induced vibrations",

abstract = "This work presents the study of numerical modelling of the fluid flow and circular cylinder interaction to investigate the cross-flow induced vibrations in the rod bundle. It is assumed that failure due to flow-induced vibrations of the rod can be described by the reduction of the rod mass, the rod support stiffness or damping coefficient. The metamodel-based approach is applied to investigate the main trends of the system{\textquoteright}s characteristic behaviour related to the variations of the chosen parameters. The two-dimensional Finite Volume models have been developed using open-source software to get a mapping of input and output variables for the metamodel. The impact of assumed failure parameters (the mass, the stiffness and the damping) on the vibration amplitude and frequency of the oscillating rod is analysed.",

keywords = "Cross-flow, Flow-induced vibrations, Metamodel, Rod bundle, Vibration amplitude, Vibration frequency",

author = "Sabine Upnere and Janis Auzins and Normunds Jekabsons",

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AU - Auzins, Janis

AU - Jekabsons, Normunds

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N2 - This work presents the study of numerical modelling of the fluid flow and circular cylinder interaction to investigate the cross-flow induced vibrations in the rod bundle. It is assumed that failure due to flow-induced vibrations of the rod can be described by the reduction of the rod mass, the rod support stiffness or damping coefficient. The metamodel-based approach is applied to investigate the main trends of the system’s characteristic behaviour related to the variations of the chosen parameters. The two-dimensional Finite Volume models have been developed using open-source software to get a mapping of input and output variables for the metamodel. The impact of assumed failure parameters (the mass, the stiffness and the damping) on the vibration amplitude and frequency of the oscillating rod is analysed.

AB - This work presents the study of numerical modelling of the fluid flow and circular cylinder interaction to investigate the cross-flow induced vibrations in the rod bundle. It is assumed that failure due to flow-induced vibrations of the rod can be described by the reduction of the rod mass, the rod support stiffness or damping coefficient. The metamodel-based approach is applied to investigate the main trends of the system’s characteristic behaviour related to the variations of the chosen parameters. The two-dimensional Finite Volume models have been developed using open-source software to get a mapping of input and output variables for the metamodel. The impact of assumed failure parameters (the mass, the stiffness and the damping) on the vibration amplitude and frequency of the oscillating rod is analysed.

KW - Cross-flow

KW - Flow-induced vibrations

KW - Metamodel

KW - Rod bundle

KW - Vibration amplitude

KW - Vibration frequency

UR - https://www.scopus.com/pages/publications/85052698807

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DO - 10.1007/978-981-13-2273-0_14

M3 - Chapter

AN - SCOPUS:85052698807

T3 - Lecture Notes in Mechanical Engineering

SP - 168

EP - 178

BT - Lecture Notes in Mechanical Engineering

PB - Pleiades journals

ER -

Metamodel-based analysis of cross-flow-induced vibrations

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