Fluid-elastic structure interaction simulation by using ordinary state-based peridynamics and peridynamic differential operator

Gao, Yan and Oterkus, Selda (2020) Fluid-elastic structure interaction simulation by using ordinary state-based peridynamics and peridynamic differential operator. Engineering Analysis with Boundary Elements, 121. pp. 126-142. ISSN 0955-7997 (https://doi.org/10.1016/j.enganabound.2020.09.012)

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Abstract

The fluid-structure interaction phenomenon is often encountered in the ocean engineering field. In the present work, a non-local numerical model is developed for the simulations of weakly compressible viscous fluid and elastic structure interactions. The peridynamic theory is adopted for both the structure and fluid modelling. The elastic structure is described by using the ordinary state-based peridynamics, while the fluid is modelled by utilizing the peridynamic differential operator. Furthermore, the updated Lagrangian description is adopted for the fluid including the relative deformation gradient expressed by the peridynamic differential operator. The fluid-structure interface and its normal direction are calculated via the gradient of a colour function, which varies with the fluid motion and structure deformation. Besides, the interaction force exerted from fluid to structure is constrained to be always perpendicular to the moving interface. Hence the fluid motion and structural deformation are predicted simultaneously. The validation of the developed model is conducted through the simulation of a water dam break with a rubber gate. The good agreement between the peridynamic and the experiment results demonstrates the capability of the current model for solving fluid-elastic structure interaction problems.

ORCID iDs

Oterkus, Selda ORCID: https://orcid.org/0000-0003-0474-0279

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• Item metadata

  Item type:	Article
  ID code:	74042
  Dates:	Date Event 31 December 2020 Published 28 September 2020 Published Online 21 September 2020 Accepted
  Subjects:	Technology > Hydraulic engineering. Ocean engineering
  Department:	Faculty of Engineering > Naval Architecture, Ocean & Marine Engineering Strategic Research Themes > Advanced Manufacturing and Materials Strategic Research Themes > Energy Strategic Research Themes > Health and Wellbeing Strategic Research Themes > Innovation Entrepreneurship Strategic Research Themes > Measurement Science and Enabling Technologies Strategic Research Themes > Ocean, Air and Space Strategic Research Themes > Society and Policy
  Depositing user:	Pure Administrator
  Date deposited:	01 Oct 2020 15:26
  Last modified:	29 Nov 2024 01:16
  URI:	https://strathprints.strath.ac.uk/id/eprint/74042