Advances In Fluid-structure Interaction: Updated Contributions Reflecting New Findings Presented At The Ercoftac Symposium On Unsteady Separation In ... Fluid Mechanics And Multidisciplinary Design)
by Mark Thompson /
2016 / English / PDF
25.6 MB Download
This book addresses flow separation within the context of
fluid-structure interaction phenomena. Here, new findings
from two research communities focusing on fluids and structures
are brought together, emphasizing the importance of a unified
multidisciplinary approach. The book covers the theory,
experimental findings, numerical simulations, and modeling in
fluid dynamics and structural mechanics for both incompressible
and compressible separated unsteady flows. There is a focus on
the morphing of lifting structures in order to increase their
aerodynamic and/or hydrodynamic performances, to
control separation and to reduce noise, as well as to
inspire the design of novel structures. The different chapters
are based on contributions presented at the ERCOFTAC Symposium on
Unsteady Separation in Fluid-Structure Interaction held in
Mykonos, Greece, 17-21 June, 2013 and include extended
discussions and new highlights. The book is intended for
students, researchers and practitioners in the broad field of
computational fluid dynamics and computational structural
mechanics. It aims at supporting them while dealing with
practical issues, such as developing control strategies for
unsteady separation and applying smart materials and biomimetic
approaches for design and control.
This book addresses flow separation within the context of
fluid-structure interaction phenomena. Here, new findings
from two research communities focusing on fluids and structures
are brought together, emphasizing the importance of a unified
multidisciplinary approach. The book covers the theory,
experimental findings, numerical simulations, and modeling in
fluid dynamics and structural mechanics for both incompressible
and compressible separated unsteady flows. There is a focus on
the morphing of lifting structures in order to increase their
aerodynamic and/or hydrodynamic performances, to
control separation and to reduce noise, as well as to
inspire the design of novel structures. The different chapters
are based on contributions presented at the ERCOFTAC Symposium on
Unsteady Separation in Fluid-Structure Interaction held in
Mykonos, Greece, 17-21 June, 2013 and include extended
discussions and new highlights. The book is intended for
students, researchers and practitioners in the broad field of
computational fluid dynamics and computational structural
mechanics. It aims at supporting them while dealing with
practical issues, such as developing control strategies for
unsteady separation and applying smart materials and biomimetic
approaches for design and control.