A hybrid method for linearized wave radiation and diffraction problem by a three dimensional floating structure in a polynya

A hybrid method is developed to solve the interaction problem of wave with a three dimensional floating structure in a polynya. The linearized velocity potential theory is used for fluid flow, and the thin elastic plate model is adopted for the infinitely extended ice sheet. Because of sudden change...

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Bibliographic Details
Main Authors: Li, ZF, Shi, YY, Wu, GX
Format: Article in Journal/Newspaper
Language:English
Published: 2020
Subjects:
hybrid method
polynya
flexural-gravity wave
free surface wave
hydrodynamic load
Ice Sheet
Online Access:https://discovery.ucl.ac.uk/id/eprint/10095102/1/Li_Shi_Wu_2020_JCP_Body_floating_in_ice_polynya.pdf
https://discovery.ucl.ac.uk/id/eprint/10095102/
id ftucl:oai:eprints.ucl.ac.uk.OAI2:10095102
record_format openpolar
spelling ftucl:oai:eprints.ucl.ac.uk.OAI2:10095102 2023-12-24T10:17:35+01:00 A hybrid method for linearized wave radiation and diffraction problem by a three dimensional floating structure in a polynya Li, ZF Shi, YY Wu, GX 2020-07-01 text https://discovery.ucl.ac.uk/id/eprint/10095102/1/Li_Shi_Wu_2020_JCP_Body_floating_in_ice_polynya.pdf https://discovery.ucl.ac.uk/id/eprint/10095102/ eng eng https://discovery.ucl.ac.uk/id/eprint/10095102/1/Li_Shi_Wu_2020_JCP_Body_floating_in_ice_polynya.pdf https://discovery.ucl.ac.uk/id/eprint/10095102/ open Journal of Computational Physics , 412 , Article 109445. (2020) hybrid method polynya flexural-gravity wave free surface wave hydrodynamic load Article 2020 ftucl 2023-11-27T13:07:32Z A hybrid method is developed to solve the interaction problem of wave with a three dimensional floating structure in a polynya. The linearized velocity potential theory is used for fluid flow, and the thin elastic plate model is adopted for the infinitely extended ice sheet. Because of sudden change of the upper boundary of the computational domain, namely from the ice sheet to the free surface, the domain is divided into two sub-domains, one below free surface and the other below the ice sheet. The solution method is divided into three components. The first component is the integral equation over the structure surface and the interface of the two sub-domains. In the second component, the velocity potential is expanded into a series of eigenfunctions in the vertical directions, which avoids the numerical difficulty in calculation of the fifth derivatives. This is coupled with a series of integral equations along the edge of the ice sheet. In the third component of the method, two orthogonal inner products are used to impose the continuity conditions of the velocity and pressure on the interface, as well as the boundary conditions on the ice edge. The developed method is verified through comparison with the analytical solution for a circular cylinder. Case study is then made for a FPSO in a polynya with different shapes and floating positions. The hydrodynamic coefficients, wave exciting force and wave elevation in polynya are provided and analyzed. Article in Journal/Newspaper Ice Sheet University College London: UCL Discovery
institution Open Polar
collection University College London: UCL Discovery
op_collection_id ftucl
language English
topic hybrid method
polynya
flexural-gravity wave
free surface wave
hydrodynamic load
spellingShingle hybrid method
polynya
flexural-gravity wave
free surface wave
hydrodynamic load
Li, ZF
Shi, YY
Wu, GX
A hybrid method for linearized wave radiation and diffraction problem by a three dimensional floating structure in a polynya
topic_facet hybrid method
polynya
flexural-gravity wave
free surface wave
hydrodynamic load
description A hybrid method is developed to solve the interaction problem of wave with a three dimensional floating structure in a polynya. The linearized velocity potential theory is used for fluid flow, and the thin elastic plate model is adopted for the infinitely extended ice sheet. Because of sudden change of the upper boundary of the computational domain, namely from the ice sheet to the free surface, the domain is divided into two sub-domains, one below free surface and the other below the ice sheet. The solution method is divided into three components. The first component is the integral equation over the structure surface and the interface of the two sub-domains. In the second component, the velocity potential is expanded into a series of eigenfunctions in the vertical directions, which avoids the numerical difficulty in calculation of the fifth derivatives. This is coupled with a series of integral equations along the edge of the ice sheet. In the third component of the method, two orthogonal inner products are used to impose the continuity conditions of the velocity and pressure on the interface, as well as the boundary conditions on the ice edge. The developed method is verified through comparison with the analytical solution for a circular cylinder. Case study is then made for a FPSO in a polynya with different shapes and floating positions. The hydrodynamic coefficients, wave exciting force and wave elevation in polynya are provided and analyzed.
format Article in Journal/Newspaper
author Li, ZF
Shi, YY
Wu, GX
author_facet Li, ZF
Shi, YY
Wu, GX
author_sort Li, ZF
title A hybrid method for linearized wave radiation and diffraction problem by a three dimensional floating structure in a polynya
title_short A hybrid method for linearized wave radiation and diffraction problem by a three dimensional floating structure in a polynya
title_full A hybrid method for linearized wave radiation and diffraction problem by a three dimensional floating structure in a polynya
title_fullStr A hybrid method for linearized wave radiation and diffraction problem by a three dimensional floating structure in a polynya
title_full_unstemmed A hybrid method for linearized wave radiation and diffraction problem by a three dimensional floating structure in a polynya
title_sort hybrid method for linearized wave radiation and diffraction problem by a three dimensional floating structure in a polynya
publishDate 2020
url https://discovery.ucl.ac.uk/id/eprint/10095102/1/Li_Shi_Wu_2020_JCP_Body_floating_in_ice_polynya.pdf
https://discovery.ucl.ac.uk/id/eprint/10095102/
genre Ice Sheet
genre_facet Ice Sheet
op_source Journal of Computational Physics , 412 , Article 109445. (2020)
op_relation https://discovery.ucl.ac.uk/id/eprint/10095102/1/Li_Shi_Wu_2020_JCP_Body_floating_in_ice_polynya.pdf
https://discovery.ucl.ac.uk/id/eprint/10095102/
op_rights open
_version_ 1786205829676924928

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