title: |
Fluid-structure interaction of composite propeller blades involving large deformations |
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contributing persons: |
Jitendra Kumar[VerfasserIn] |
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1125381523 |
Frank-Hendrik Wurm
, Prof. Dr.-Ing.[AkademischeR BetreuerIn] |
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101601788X |
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Universität Rostock, Lehrstuhl Strömungsmaschinen |
Alfred Leder
, Prof. em. Dr.-Ing. habil[AkademischeR BetreuerIn] |
|
129571776 |
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Universität Rostock, Lehrstuhl Strömungsmechanik |
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contributing corporate bodies: |
Universität Rostock, Fakultät für Maschinenbau und Schiffstechnik[Grad-verleihende Institution] |
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10085033-9 |
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abstract: |
Composite propeller blades experience significant flow-induced deformations, so coupled
simulations of fluid and structure are needed for design optimization and failure
prognostics. A comprehensive modelling of the mixer propeller and tidal-turbine blades
are discussed within this research work. An extensive CFD, FEM, failure prognostic
and bi-directional FSI simulations of layered composite blade are performed. In the
last section of the thesis, a novel application of FSI simulation technique involving
large deformations and anisotropic property of composite materials are presented briefly.
[English] |
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document type: |
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institution: |
Faculty of Mechanical Engineering and Marine Technologies |
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language: |
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subject class (DDC): |
530 Physics |
620 Engineering & allied operations |
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publication / production: |
Rostock
Rostock: Universität Rostock
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2018
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identifiers: |
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access condition: |
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license/rights statement: |
all rights reserved This work may only be used under the terms of the German Copyright Law (Urheberrechtsgesetz). |
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RosDok id: |
rosdok_disshab_0000001867 |
created / modified: |
23.03.2018 / 08.08.2023
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metadata license: |
The metadata of this document was dedicated to the public domain (CC0 1.0 Universal Public Domain Dedication). |