Overview
- Editors:
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Philipp Schlatter
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Dept. Mechanics, KTH, Stockholm, Sweden
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Dan S. Henningson
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Dept. Mechanics, KTH, Stockholm, Sweden
- IUTAM Symposia always represent the state of the art in a given field and attract top scholars
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Table of contents (110 papers)
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Poster Presentations
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- I. B. de Paula, W. Würz, E. Krämer, V. I. Borodulin, Y. S. Kachanov
Pages 549-552
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- J. Perraud, J.-P. Archambaud, G. Schrauf, R. S. Donelli, A. Hanifi, J. Quest et al.
Pages 553-556
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- Brendan Rehill, Ed J. Walsh, Kevin Nolan, Donald M. McEligot, Luca Brandt, Philipp Schlatter et al.
Pages 557-560
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- Conny Schmidt, Trevor M. Young, Emmanuel P. Benard
Pages 561-564
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- Lars-Uve Schrader, Luca Brandt, Catherine Mavriplis, Dan S. Henningson
Pages 565-568
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- Anne-Marie Schreyer, Uwe Gaisbauer, Ewald Krämer
Pages 569-572
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- Muhammad Ehtisham Siddiqui, Benoît Pier, Julian Scott, Alexandre Azouyi, Roger Michelet
Pages 573-576
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- Homero G. Silva, Ricardo A. C. Germanos, Marcello A. F. de Medeiros
Pages 577-580
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- Sharon O. Stephen, Vipin Michael
Pages 581-584
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- Gayathri Swaminathan, A Sameen, Rama Govindarajan
Pages 585-588
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- David Tempelmann, Ardeshir Hanifi, Dan S. Henningson
Pages 589-592
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- M. V. Ustinov, S. V. Zhigulev
Pages 593-596
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- Venkatesa I. Vasanta Ram, Burkhard Müller
Pages 597-600
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- Marcus Zengl, Ulrich Rist
Pages 601-604
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About this book
The origins of turbulent ?ow and the transition from laminar to turbulent ?ow are the most important unsolved problems of ?uid mechanics and aerodynamics. - sides being a fundamental question of ?uid mechanics, there are numerous app- cations relying on information regarding transition location and the details of the subsequent turbulent ?ow. For example, the control of transition to turbulence is - pecially important in (1) skin-friction reduction of energy ef?cient aircraft, (2) the performance of heat exchangers and diffusers, (3) propulsion requirements for - personic aircraft, and (4) separation control. While considerable progress has been made in the science of laminar to turbulent transition over the last 30 years, the c- tinuing increase in computer power as well as new theoretical developments are now revolutionizing the area. It is now starting to be possible to move from simple 1D eigenvalue problems in canonical ?ows to global modes in complex ?ows, all - companied by accurate large-scale direct numerical simulations (DNS). Here, novel experimental techniques such as modern particle image velocimetry (PIV) also have an important role. Theoretically the in?uence of non-normality on the stability and transition is gaining importance, in particular for complex ?ows. At the same time the enigma of transition in the oldest ?ow investigated, Reynolds pipe ?ow tran- tion experiment, is regaining attention. Ideas from dynamical systems together with DNS and experiments are here giving us new insights.