Energy Deposition for High-Speed Flow Control - Grand Format

Edition en anglais

Doyle D. Knight

Note moyenne 
Written by a leading expert in the field, this book presents a novel method for controlling high-speed flows past aerodynamic shapes using energy deposition... Lire la suite
166,50 €
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Livré chez vous entre le 4 avril et le 10 avril
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Résumé

Written by a leading expert in the field, this book presents a novel method for controlling high-speed flows past aerodynamic shapes using energy deposition via direct current (DC), laser, or microwave discharge, and describes selected applications in supersonic and hypersonic flows. Emphasizing a deductive approach, the fundamental physical principles provided give an understanding of the simplified mathematical models derived therefrom.
These features, along with an extensive set of 55 simulations, make the book an invaluable reference that will be of interest to researchers and graduate students working in aerospace engineering and in plasma physics.

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À propos de l'auteur

Biographie de Doyle D. Knight

Doyle D. Knight is Distinguished Professor of Aerospace and Mechanical Engineering at Rutgers, the State University of New Jersey. His research interests include gas dynamics and design optimization. His research in gas dynamics includes shock wave-boundary layer interaction, incipient separation on pitching airfoils, turbulence model development, highspeed inlet unstart, and effects of unsteady energy deposition in supersonic flows.
His research activity in design optimization focuses on the application of computational fluid dynamics to the automated optimal design of high-speed air vehicles. He is the author of Elements of Numerical Method (or Compressible Flows (Cambridge University Press, 2006).

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