Computational physics of electric discharges in gas flows
 Responsibility
 Sergey T. Surzhikov.
 Language
 English.
 Imprint
 Berlin : De Gruyter, c2013.
 Physical description
 xi, 428 pages : illustrations ; 25 cm.
 Series
 De Gruyter studies in mathematical physics ; 7.
Access
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Call number  Status 

QC711.8 .G5 S87 2013  Available 
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Creators/Contributors
 Author/Creator
 Surzhikov, S. T. (Sergeĭ Timofeevich)
Contents/Summary
 Bibliography
 Includes bibliographical references (pages [415]422) and index.
 Contents

 Preface PART I INTRODUCTION IN THE THEORY OF GAS DISCHARGES NUMERICAL MODELING 1 Models of gas discharges physical mechanics 2 About singularities of a statement of the MHDequations for construction of spatial computing models 3 The physical mechanics of glow discharge PART II APPLICATION OF NUMERICAL MODELS TO RESEARCH OF PHYSICAL MECHANICS OF GLOW DISCHARGE 4 Numerical modelling of twodimensional structure of glow discharge 5 Diffusiondrift model of glow discharge in a magnetic field 6 Glow discharge in cross magnetic field in view neutral gas and In the magnetic field 7 Glow discharge in the cross flow of neutral gas and in the magnetic field 8 Computing model of glow discharge in electronegative gas 9 Numerical modelling of glow discharge between electrodes arranged on the same surface 10 Quasineutral model of gas discharge in a strong magnetic field and in a gas flow 11 Viscous interaction on flat plate with surface discharge In a magnetic field 12 Selfconsistent computing model of electrical thermogasdynamics processes in subsonic flows 13 Supersonic flow round of naCa0012 Aerodynamic profile whith surface glow discharge Appendix Fundamental constants Ratios between units of electricity and magnetism References Subject index.
 (source: Nielsen Book Data)
 Publisher's Summary
 Gas discharges are of interest for many processes in mechanics, manufacturing, materials science and aerophysics. To understand the physics behind the phenomena is of key importance for the effective use and development of gas discharge devices. This worktreats methods of computational modeling of electrodischarge processes and dynamics of partially ionized gases. These methods are necessary to tackleproblems of physical mechanics, physics of gas discharges and aerophysics.Particular attention is given to a solution of twodimensional problems of physical mechanics of glow discharges.The use ofglow discharges in aerospace technology is discussed as well.
(source: Nielsen Book Data)
Subjects
Bibliographic information
 Publication date
 2013
 Series
 De Gruyter studies in mathematical physics ; 7
 ISBN
 9783110270334 (hbk.)
 3110270331 (hbk.)
 9783110270419 (ebook)
 9783110270426 (set)
 3110270420 (set)