Fr. 266.00

Doyle D Knight, Doyle D. Knight, Doyle D. (Rutgers University Knight, Knight Doyle D.

Energy Deposition for High-Speed Flow Control

Englisch · Fester Einband

Versand in der Regel in 1 bis 3 Wochen (kurzfristig nicht lieferbar)

Beschreibung

Describes energy deposition using direct current (DC), microwave and laser discharge for flow control at high speeds.

Inhaltsverzeichnis

1. Introduction; 2. Fundamental equations; 3. Statistical mechanics and continuum physics; 4. Dynamics and kinetics pacetoken of charged particles; 5. DC discharge; 6. Microwave discharge; 7. Laser discharge; 8. Modeling energy deposition pacetoken as an ideal gas; 9. Flow control in aerodynamics.

Über den Autor / die Autorin

Doyle D. Knight is Distinguished Professor of Aerospace and Mechanical Engineering at Rutgers University, 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, high speed 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 Methods for Compressible Flows (Cambridge, 2006).

Produktdetails

Autoren	Doyle D Knight, Doyle D. Knight, Doyle D. (Rutgers University Knight, Knight Doyle D.
Verlag	Cambridge University Press ELT

Sprache	Englisch
Produktform	Fester Einband
Erschienen	28.02.2019

EAN	9781107123052
ISBN	978-1-107-12305-2
Seiten	462
Serien	Cambridge Aerospace Cambridge Aerospace Cambridge Aerospace Series Cambridge Aerospace Series, Se
Themen	Naturwissenschaften, Medizin, Informatik, Technik > Physik, Astronomie > Mechanik, Akustik TECHNOLOGY & ENGINEERING / Engineering (General), Mechanical Engineering, Fluid mechanics, Mechanics of fluids, Aerospace & aviation technology, Plasma Physics, Aerospace and aviation technology, Physics: Fluid mechanics, Engineering: Mechanics of fluids

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