Proceedings of the 6th International Workshop of Advanced Manufacturing and Automation

Comparative Analysis of Computational Methods in Fluid-Structure Interaction: Temporal discretization and coupling techniques

Authors
Endashaw T. Woldemariam, Hirpa G. Lemu
Corresponding Author
Endashaw T. Woldemariam
Available Online November 2016.
DOI
10.2991/iwama-16.2016.26How to use a DOI?
Keywords
Fluid-Structure interaction; temporal discretization; monolithic and partitioned method; one and two-way coupling
Abstract

Fluid-structure interaction problems occur in a wide variety of science and engineering fields. In solving such problems, two domains of different characteristics shall be modeled and analyzed through separate kinematic equations. The complexity in the computation of such kind of problems arise mainly from the modeling and analysis of the problem at the interface. Thus, the interfacing condition is also treated as an independent part. A range of computational techniques based on spatial and temporal discretization schemes have been proposed and being employed in solving diverse FSI problems. Monolithic and partitioned approaches are the two broad classes of FSI numerical analysis approaches under the temporal discretization scheme. The monolithic approach requires development of complex mathematical model to represent the whole FSI domain collectively. The partitioned approach, unlike the monolithic approach, make good use of the existing developed and advanced tools with segregate analysis. Nevertheless, the latter requires an additional external code for coupling at the interface. Based on the behavior of the coupling conditions at the interface, FSI computational methods are also categorized under either one-way or two-way coupled approaches. Moreover, the formulation scheme chosen to describe mesh motions, spatial discretization and more other approaches determine classification schemes of FSI solution techniques. In line with the broader classifications based on temporal discretization and coupling schemes, simulation results on a benchmark problem employing selected computational approaches have been analyzed and discussed. Results from a strongly coupled two-way partitioned approach, from an open source code, is compared against one-way coupled partitioned approach utilizing ANSYS code (academic research mechanical). The strongly coupled portioned approach shows a more realistic result than the one-way coupled system.

Copyright
© 2016, the Authors. Published by Atlantis Press.
Open Access
This is an open access article distributed under the CC BY-NC license (http://creativecommons.org/licenses/by-nc/4.0/).

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Volume Title
Proceedings of the 6th International Workshop of Advanced Manufacturing and Automation
Series
Advances in Economics, Business and Management Research
Publication Date
November 2016
ISBN
978-94-6252-243-5
ISSN
2352-5428
DOI
10.2991/iwama-16.2016.26How to use a DOI?
Copyright
© 2016, the Authors. Published by Atlantis Press.
Open Access
This is an open access article distributed under the CC BY-NC license (http://creativecommons.org/licenses/by-nc/4.0/).

Cite this article

TY  - CONF
AU  - Endashaw T. Woldemariam
AU  - Hirpa G. Lemu
PY  - 2016/11
DA  - 2016/11
TI  - Comparative Analysis of Computational Methods in Fluid-Structure Interaction: Temporal discretization and coupling techniques
BT  - Proceedings of the 6th International Workshop of Advanced Manufacturing and Automation
PB  - Atlantis Press
SP  - 144
EP  - 150
SN  - 2352-5428
UR  - https://doi.org/10.2991/iwama-16.2016.26
DO  - 10.2991/iwama-16.2016.26
ID  - Woldemariam2016/11
ER  -