last modified:
Course name:
Introduction
to Fluid-Structure Interaction |
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This concerns a Course |
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ECTS credit points: 2 |
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Faculty of Mechanical Engineering and Marine
Technology |
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Section of Engineering Mechanics |
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Lecturer(s):
Daniel J. Rixen |
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Catalog data:
structural
mechanics, fluid mechanics, biomechanical flows, vibro-acoustics, coupling,
finite elements, aeroelasticity, numerical methods, flutter, buffeting,
wind-induced vibrations. |
Course year: |
MSc 1st year |
Course language: |
English |
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In case of Dutch: Please contact the lecturer about an English
alternative, whenever needed. |
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Semester: |
2B |
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Hours per week: |
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Other hours: |
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Assessment: |
Written report |
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Assessment period: |
2B / August |
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(see academic
calendar) |
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Prerequisites (course
codes):
dynamics (e.g.
wb1311, wb1418), fluid dynamics (e.g.
wb1321) |
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Follow up (course
codes): |
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Detailed description
of topics:
Fluid-Structure
interaction is a topic that covers many important and complex problems in
engineering where the interaction between the mechanical behaviour of a solid
structure is significantly influenced by surrounding fluids (water, air, etc
) and where, in turn, the aero/hydro-dynamic forces are modified by the
deformation of the structure. Although it was pioneered by aeronautics engineers
to study the static and dynamic deformation of wings under aerodynamic forces
(aeroelasticity), fluid-structure interaction analysis involves also the
description of interaction phenomenon in constructions (e.g. wind induced
vibrations), vibro-acoutics, blood flow in elastic arteries or ink flow in an
actuated printer head.
In the past, many semi-analytical
approaches were developed to describe fluid-structure interaction. Today,
complex problems interaction problems are investigated using engineering codes
that couple structural models to fluid models.
In this course, we will discuss
some basic static and dynamic phenomenon induced by fluid-structure
interaction such as divergence, flutter and buffeting. An introduction to
vibro-acoustics analysis will be presented. In the last part, some specific
issues on coupling fluid and structural models in Finite Element/Volume will
be discussed (e.g. moving meshes in fluids, pressure/displacement
compatibility, time-integration).
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Course material: |
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References from
literature:
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Remarks assessment,
entry requirements, etc.:
The lecture are
partly organized as seminars prepared by the students. The evaluation will be
based on the seminar and on a computer project |
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Learning goals:
The aim of the
lecture is to make the students understand what effect surrounding fluids can
have on a structure. In particular, students should become aware of possible
unstable phenomena. Also, getting an overview of the difficulties involved in
coupling fluid and structure models is one of the objectives of the course. |
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Computer use: |
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Laboratory project(s): |
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Design content: |
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