Instability and transition : materials of the workshop held May 15-June 9, 1989 in Hampton, Virginia

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Instability and transition : materials of the workshop held May 15-June 9, 1989 in Hampton, Virginia

M.Y. Hussaini, R.G. Voigt, editors

(ICASE/NASA LaRC series)

Springer-Verlag, c1990

  • v. 1
  • v. 1
  • v. 2
  • v. 2

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Note

Proceedings of a Workshop on Instability and Transition, held May 15-June 9, 1989, sponsored by the Institute for Computer Applications in Science and Engineering (ICASE) and the Langley Research Center (LaRC)

Includes bibliographical references

Description and Table of Contents
Volume

v. 1 ISBN 9780387973234

Description

These two volumes contain the proceedings of the workshop on the Institute for Computer Instability and Transition, sponsored by Applications in Science and Engineering (ICASE) and the Langley Research Center (LaRC), during May 15 to June 9, 1989. The work shop coincided with the initiation of a new, focused research pro gram on instability and transition at LaRC. The objectives of the workshop were to (i) expose the academic community to current technologically important issues of instability and transition in shear flows over the entire speed range, (ii) acquaint the academic com munity with the unique combination of theoretical, computational and experimental capabilities at LaRC and foster interaction with these facilities, (iii) review current state-of-the-art and propose fu ture directions for instability and transition research, (iv) accelerate progress in elucidating basic understanding of transition phenomena and in transferring this knowledge into improved design methodolo gies through improved transition modeling, and (v) establish mech anisms for continued interaction. The objectives (i) to (iii) were of course immediately met. It is still premature to assess whether ob jectives (iv) and (v) are achieved. The workshop program consisted of tutorials, research presenta tions, panel discussions, experimental and computational demonstra tions, and collaborative projects."
Volume

v. 2 ISBN 9780387973241

Description

The ability to predict and control viscous flow phenomena is becoming increasingly important in modern industrial application. The Instability and Transition Workshop at Langley was extremely important in help ing the scientists community to access the state of knowledge in the area of transition from laminar to turbulent flow, to identify promising future areas of research and to build future interactions between researchers worldwide working in the areas of theoretical, experimental and computational fluid and aero dynamics. The set of two volume contains panel discussions and research contribution with the following objectives: (1) expose the academic community to current technologically important issues of instability and transitions in shear flows over the entire speed range, (2) acquaint the academic community with the unique combination of theoretical, computational and experimental capabilities at LaRC and foster interaction with these facilities. (3) review current state-of-the-art and propose future directions for instability and transition research, (4) accelerate progress in elucidating basic understanding of transition phenomena and in transferring this knowledge into improved design methodologies through improved transition modeling, and (5) establish mechanism for continued interaction."
Volume

v. 1 ISBN 9783540973232

Description

The ability to predict and control viscous flow phenomena is becoming increasingly important in modern industrial application. The Instability and Transition Workshop at Langley, Virginia, USA was extremely important in helping the scientific community assess the state of knowledge in the area of transition from laminar to turbulent flow, to identify promising future areas of research and to build future interactions between researchers working in areas of theoretical, experimental and computational fluid and aerodynamics. The set of two volumes contains panel discussions and research contributions with the following objectives: to expose the academic community to current technologically important issues of instability and transitions in shear flows over the entire speed range; to acquaint the academic community with the unique combination of theoretical, computational and experimental capabilities at LaRC and foster interaction with these facilities; to review current state-of-the-art and propose future directions for instability and transition research; to accelerate progress in elucidating basic understanding of transition phenomena and in transferring this knowledge into improved design methodologies through improved transition modellng, and to establish mechanisms for continued interaction.
Volume

v. 2 ISBN 9783540973249

Description

The ability to predict and control viscous flow phenomena is becoming increasingly important in modern industrial application. The Instability and Transition Workshop at Langley, Virginia, USA was extremely important in helping the scientific community assess the state of knowledge in the area of transition from laminar to turbulent flow, to identify promising future areas of research and to build future interactions between researchers working in areas of theoretical, experimental and computational fluid and aerodynamics. The set of two volumes contains panel discussions and research contributions with the following objectives: to expose the academic community to current technologically important issues of instability and transitions in shear flows over the entire speed range; to acquaint the academic community with the unique combination of theoretical, computational and experimental capabilities at LaRC and foster interaction with these facilities; to review current state-of-the-art and propose future directions for instability and transition research; to accelerate progress in elucidating basic understanding of transition phenomena and in transferring this knowledge into improved design methodologies through improved transition modellng, and to establish mechanisms for continued interaction.

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