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Physical models of gas discharge processes in gas flows and numerical simulation methods, which are used for numerical simulation of these phenomena are considered in the book. Significant attention is given to a solution of two-dimensional problems of physical mechanics of electric arc, radio-frequency, micro-wave, and optical discharges, as well as to investigation of electrodynamic structure of direct current glow discharges. Problems of modern computational magnetohydrodynamics (MHD) are considered also. Prospects of the different kinds of discharges use in aerospace applications are discussed. This book is intended for scientists and engineers concerned with physical gas dynamics, physics of the low-temperature plasma and gas discharges, and also for students and post-graduate students of physical and technical specialties of universities.
Auteur
Sergey T. Surzhikov, Institute for Problems in Mechanics, Russian Academy of Sciences, Moscow, Russia.
Résumé
"This is a comprehensive book on mathematical modeling and numerical procedures of physical processes in gas discharge configurations that will prove useful for both professionals and graduate level students in the field." Zentralblatt für Mathematik
Contenu
Preface PART I INTRODUCTION IN THE THEORY OF GAS DISCHARGES NUMERICAL MODELING1 Models of gas discharges physical mechanics2 About singularities of a statement of the MHD-equations for construction of spatial computing models3 The physical mechanics of glow discharge PART II APPLICATION OF NUMERICAL MODELS TO RESEARCH OF PHYSICAL MECHANICS OF GLOW DISCHARGE4 Numerical modelling of two-dimensional structure of glow discharge5 Diffusion-drift model of glow discharge in a magnetic field6 Glow discharge in cross magnetic field in view neutral gas and In the magnetic field7 Glow discharge in the cross flow of neutral gas and in the magnetic field8 Computing model of glow discharge in electronegative gas9 Numerical modelling of glow discharge between electrodes arranged on the same surface10 Quasi-neutral model of gas discharge in a strong magnetic field and in a gas flow11 Viscous interaction on flat plate with surface discharge In a magnetic field12 Self-consistent computing model of electrical thermogas-dynamics processes in subsonic flows13 Supersonic flow round of naCa-0012 Aerodynamic profile whith surface glow discharge AppendixFundamental constantsRatios between units of electricity and magnetismReferencesSubject index
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