Validation of Määttänen-Blenkarn ice model for ice-structure interaction against ice tank tests

S.1814-1821 This paper describes a validation procedure of the Mä ättänen-Blenkarn ice model for ice-structure interaction against scaled ice tank tests. The tests were performed at the Hamburg Ship Model Basin (HSVA) where a simplified scaled model of the Norströmsgrund lighthouse was built. Severa...

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Main Authors: Popko, Wojciech, Georgiadou, S.
Format: Conference Object
Language:English
Published: 2015
Subjects:
Arctic
Online Access:https://publica.fraunhofer.de/handle/publica/389437
id ftfrauneprints:oai:publica.fraunhofer.de:publica/389437
record_format openpolar
spelling ftfrauneprints:oai:publica.fraunhofer.de:publica/389437 2023-05-15T14:24:34+02:00 Validation of Määttänen-Blenkarn ice model for ice-structure interaction against ice tank tests Popko, Wojciech Georgiadou, S. 2015 https://publica.fraunhofer.de/handle/publica/389437 en eng International Society of Offshore and Polar Engineers (ISOPE Conference) 2015 International Ocean and Polar Engineering Conference 2015 Ocean Mining & Gas Hydrates Symposium (OMGH) 2015 Ocean, arctic, energy. Gas hydrates and ocean mining. CD-ROM BRICE 0325297A https://publica.fraunhofer.de/handle/publica/389437 conference paper 2015 ftfrauneprints 2022-11-01T20:22:12Z S.1814-1821 This paper describes a validation procedure of the Mä ättänen-Blenkarn ice model for ice-structure interaction against scaled ice tank tests. The tests were performed at the Hamburg Ship Model Basin (HSVA) where a simplified scaled model of the Norströmsgrund lighthouse was built. Several ice-structure interaction tests were performed with various ice thicknesses and velocities. The results of those experiments were compared against results of the numerical simulations performed at Fraunhofer IWES. A numerical model, based on the HSVA structure, was implemented in OneWind simulation tool for offshore wind turbines. The complex geometry of the physical structure was simplified to a single degree of freedom numerical model represented by a rigid beam, a spring and a damper. Its implementation was validated with a set of tests. The static behavior of the numerical structure was validated by a pullout test, whereas dynamic response was checked in terms of eigenfrequencies and a free decay test. These results fit very well to those obtained at HSVA with the physical structure. The original Mä ättänen -Blenkarn ice model could not be directly utilized for validation against the scaled ice tank tests as the relationship between stress and stress rate in the ice model was derived from the full-scale measurements. A new relationship between stress and stress rate for scaled ice was setup. After the tuning of the ice model a good match of simulated displacements, velocities and forces was achieved. Conference Object Arctic Publikationsdatenbank der Fraunhofer-Gesellschaft
institution Open Polar
collection Publikationsdatenbank der Fraunhofer-Gesellschaft
op_collection_id ftfrauneprints
language English
description S.1814-1821 This paper describes a validation procedure of the Mä ättänen-Blenkarn ice model for ice-structure interaction against scaled ice tank tests. The tests were performed at the Hamburg Ship Model Basin (HSVA) where a simplified scaled model of the Norströmsgrund lighthouse was built. Several ice-structure interaction tests were performed with various ice thicknesses and velocities. The results of those experiments were compared against results of the numerical simulations performed at Fraunhofer IWES. A numerical model, based on the HSVA structure, was implemented in OneWind simulation tool for offshore wind turbines. The complex geometry of the physical structure was simplified to a single degree of freedom numerical model represented by a rigid beam, a spring and a damper. Its implementation was validated with a set of tests. The static behavior of the numerical structure was validated by a pullout test, whereas dynamic response was checked in terms of eigenfrequencies and a free decay test. These results fit very well to those obtained at HSVA with the physical structure. The original Mä ättänen -Blenkarn ice model could not be directly utilized for validation against the scaled ice tank tests as the relationship between stress and stress rate in the ice model was derived from the full-scale measurements. A new relationship between stress and stress rate for scaled ice was setup. After the tuning of the ice model a good match of simulated displacements, velocities and forces was achieved.
format Conference Object
author Popko, Wojciech
Georgiadou, S.
spellingShingle Popko, Wojciech
Georgiadou, S.
Validation of Määttänen-Blenkarn ice model for ice-structure interaction against ice tank tests
author_facet Popko, Wojciech
Georgiadou, S.
author_sort Popko, Wojciech
title Validation of Määttänen-Blenkarn ice model for ice-structure interaction against ice tank tests
title_short Validation of Määttänen-Blenkarn ice model for ice-structure interaction against ice tank tests
title_full Validation of Määttänen-Blenkarn ice model for ice-structure interaction against ice tank tests
title_fullStr Validation of Määttänen-Blenkarn ice model for ice-structure interaction against ice tank tests
title_full_unstemmed Validation of Määttänen-Blenkarn ice model for ice-structure interaction against ice tank tests
title_sort validation of määttänen-blenkarn ice model for ice-structure interaction against ice tank tests
publishDate 2015
url https://publica.fraunhofer.de/handle/publica/389437
genre Arctic
genre_facet Arctic
op_relation International Society of Offshore and Polar Engineers (ISOPE Conference) 2015
International Ocean and Polar Engineering Conference 2015
Ocean Mining & Gas Hydrates Symposium (OMGH) 2015
Ocean, arctic, energy. Gas hydrates and ocean mining. CD-ROM
BRICE
0325297A
https://publica.fraunhofer.de/handle/publica/389437
_version_ 1766297006037270528

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