An immersed structural potential method for incompressible flexible/rigid/multi-phase flow interaction

L Yang; A Arranz Carreño; A J Gil; J Bonet

An immersed structural potential method for incompressible flexible/rigid/multi-phase flow interaction

L Yang, A Arranz Carreño, A J Gil, J Bonet

Department of Mechanical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference Contribution (Conference Proceeding)

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Abstract

In this paper, a general framework for the computational simulation of Fluid-Structure Interaction (FSI) problems involving rigid/flexible solids and multiphase flows is presented. The proposed methodology builds upon the Immersed Structural Potential Method (ISPM) developed by the authors [1, 2] for the simulation of single-phase FSI problems. Several numerical examples are presented to showcase and benchmark the proposed methodology in the solution of complex multi-body multi-phase problems.

Original language	English
Title of host publication	22nd ACME Conference on Computational Mechanics, Exeter, UK, 2014.
Publisher	University of Exeter
Pages	226-229
Number of pages	4
ISBN (Electronic)	978-0-902746-30-5
Publication status	Published - Apr 2014

Keywords

Immersed Structural Potential Method (ISPM)
rigid body constrains
level set method
augmented Lagrangian method

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title = "An immersed structural potential method for incompressible flexible/rigid/multi-phase flow interaction",

abstract = "In this paper, a general framework for the computational simulation of Fluid-Structure Interaction (FSI) problems involving rigid/flexible solids and multiphase flows is presented. The proposed methodology builds upon the Immersed Structural Potential Method (ISPM) developed by the authors [1, 2] for the simulation of single-phase FSI problems. Several numerical examples are presented to showcase and benchmark the proposed methodology in the solution of complex multi-body multi-phase problems.",

keywords = "Immersed Structural Potential Method (ISPM), rigid body constrains, level set method, augmented Lagrangian method",

author = "L Yang and Carre{\~n}o, {A Arranz} and Gil, {A J} and J Bonet",

year = "2014",

month = apr,

language = "English",

pages = "226--229",

booktitle = "22nd ACME Conference on Computational Mechanics, Exeter, UK, 2014.",

publisher = "University of Exeter",

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An immersed structural potential method for incompressible flexible/rigid/multi-phase flow interaction. / Yang, L; Carreño, A Arranz; Gil, A J; Bonet, J.

22nd ACME Conference on Computational Mechanics, Exeter, UK, 2014.. University of Exeter, 2014. p. 226-229.

Research output: Chapter in Book/Report/Conference proceeding › Conference Contribution (Conference Proceeding)

TY - GEN

T1 - An immersed structural potential method for incompressible flexible/rigid/multi-phase flow interaction

AU - Yang, L

AU - Carreño, A Arranz

AU - Gil, A J

AU - Bonet, J

PY - 2014/4

Y1 - 2014/4

N2 - In this paper, a general framework for the computational simulation of Fluid-Structure Interaction (FSI) problems involving rigid/flexible solids and multiphase flows is presented. The proposed methodology builds upon the Immersed Structural Potential Method (ISPM) developed by the authors [1, 2] for the simulation of single-phase FSI problems. Several numerical examples are presented to showcase and benchmark the proposed methodology in the solution of complex multi-body multi-phase problems.

AB - In this paper, a general framework for the computational simulation of Fluid-Structure Interaction (FSI) problems involving rigid/flexible solids and multiphase flows is presented. The proposed methodology builds upon the Immersed Structural Potential Method (ISPM) developed by the authors [1, 2] for the simulation of single-phase FSI problems. Several numerical examples are presented to showcase and benchmark the proposed methodology in the solution of complex multi-body multi-phase problems.

KW - Immersed Structural Potential Method (ISPM)

KW - rigid body constrains

KW - level set method

KW - augmented Lagrangian method

M3 - Conference Contribution (Conference Proceeding)

SP - 226

EP - 229

BT - 22nd ACME Conference on Computational Mechanics, Exeter, UK, 2014.

PB - University of Exeter

ER -

An immersed structural potential method for incompressible flexible/rigid/multi-phase flow interaction

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Keywords

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