Niklas Wikström scite author profile

This concerns Flow Induced Vibrations (FIV) in nuclear reactors and numerical analysis of such. Special attention is paid to structural excitation by sound generated remotely and turbulent flow around the structure. One hypothesis was that these phenomena can interact, so that the structure accumulates more energy from the flow if it also excited by sound from another source. In the studies, Fluid-Structure Interaction (FSI) is simulated with Large Eddy Simulations (LES).It is shown possible to simulate excitation due to both acoustic and turbulence loads using the reported methods, at least qualitatively. The excitation levels are even of the right order of magnitude in some parts. However, there are some shortcomings in the modeling. The most important is perhaps the lack of non-reflecting boundary conditions. Another problem is the strong numerical damping in combination with demanding numerics for the selected solid solution methodology.Three cases are simulated, two for validation and one applied about steam dryers. For the applied case, it is concluded unlikely that excitation by the acoustic and turbulence loads can interact. The main reason is that the flow is controlled more by static geometrical factors, such as solid rotation sharp edges, than small deformations due to vibrations.

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Niklas Wikström

Large Eddy Simulation of High-Reynolds-Number Wall Bounded Flows

Large eddy simulation of the flow around an inclined prolate spheroid

Modeling of Cavitating Flow Around a Stationary/Moving Wing Profile

Large Eddy Simulation of the Flow Past an Inclined Prolate Spheroid

LES with acoustics and FSI for deforming plates in gas flow

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