Fluid-structure interaction in two-phase flow using a discrete forcing method

W. Benguigui; J. Laviéville; N. Merigoux

doi:10.1002/fld.4753

Fluid-structure interaction in two-phase flow using a discrete forcing method

W. Benguigui, J. Laviéville, N. Merigoux

Research output: Contribution to journal › Article › peer-review

Abstract

The numerical simulation of interaction between structures and two-phase flows is a major concern for many industrial applications. Using a discrete forcing method (see the work of Benguigui et al) (implemented in a multiphase CFD code based on a two-fluid approach) to track the solid motion in two-phase flow, an iterative fluid-structure coupling is developed to allow free-motion of multiple solids (with any kind of geometry) due to two-phase fluid forces. As the fluid-structure interface is located thanks to a time and space dependent porosity on a cartesian grid, the fluid force computation is accommodated to the interface tracking method. A Newmark algorithm is used to estimate the solid motion. The iterative coupling is addressed in detail going from the algorithm to the determination of its convergence parameter. Three application cases are proposed to validate the method from motion under a single- to a two-phase flow.

Original language	English
Pages (from-to)	247-261
Number of pages	15
Journal	International Journal for Numerical Methods in Fluids
Volume	91
Issue number	5
DOIs	https://doi.org/10.1002/fld.4753
Publication status	Published - 20 Oct 2019
Externally published	Yes

Keywords

CFD
fluid-structure interaction
immersed boundary
two-phase flow

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10.1002/fld.4753

Cite this

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title = "Fluid-structure interaction in two-phase flow using a discrete forcing method",

abstract = "The numerical simulation of interaction between structures and two-phase flows is a major concern for many industrial applications. Using a discrete forcing method (see the work of Benguigui et al) (implemented in a multiphase CFD code based on a two-fluid approach) to track the solid motion in two-phase flow, an iterative fluid-structure coupling is developed to allow free-motion of multiple solids (with any kind of geometry) due to two-phase fluid forces. As the fluid-structure interface is located thanks to a time and space dependent porosity on a cartesian grid, the fluid force computation is accommodated to the interface tracking method. A Newmark algorithm is used to estimate the solid motion. The iterative coupling is addressed in detail going from the algorithm to the determination of its convergence parameter. Three application cases are proposed to validate the method from motion under a single- to a two-phase flow.",

keywords = "CFD, fluid-structure interaction, immersed boundary, two-phase flow",

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AU - Benguigui, W.

AU - Laviéville, J.

AU - Merigoux, N.

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N2 - The numerical simulation of interaction between structures and two-phase flows is a major concern for many industrial applications. Using a discrete forcing method (see the work of Benguigui et al) (implemented in a multiphase CFD code based on a two-fluid approach) to track the solid motion in two-phase flow, an iterative fluid-structure coupling is developed to allow free-motion of multiple solids (with any kind of geometry) due to two-phase fluid forces. As the fluid-structure interface is located thanks to a time and space dependent porosity on a cartesian grid, the fluid force computation is accommodated to the interface tracking method. A Newmark algorithm is used to estimate the solid motion. The iterative coupling is addressed in detail going from the algorithm to the determination of its convergence parameter. Three application cases are proposed to validate the method from motion under a single- to a two-phase flow.

AB - The numerical simulation of interaction between structures and two-phase flows is a major concern for many industrial applications. Using a discrete forcing method (see the work of Benguigui et al) (implemented in a multiphase CFD code based on a two-fluid approach) to track the solid motion in two-phase flow, an iterative fluid-structure coupling is developed to allow free-motion of multiple solids (with any kind of geometry) due to two-phase fluid forces. As the fluid-structure interface is located thanks to a time and space dependent porosity on a cartesian grid, the fluid force computation is accommodated to the interface tracking method. A Newmark algorithm is used to estimate the solid motion. The iterative coupling is addressed in detail going from the algorithm to the determination of its convergence parameter. Three application cases are proposed to validate the method from motion under a single- to a two-phase flow.

KW - CFD

KW - fluid-structure interaction

KW - immersed boundary

KW - two-phase flow

U2 - 10.1002/fld.4753

DO - 10.1002/fld.4753

M3 - Article

AN - SCOPUS:85068601336

SN - 0271-2091

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JO - International Journal for Numerical Methods in Fluids

JF - International Journal for Numerical Methods in Fluids

IS - 5

ER -

Fluid-structure interaction in two-phase flow using a discrete forcing method

Abstract

Keywords

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