Handbook of compressible aerodynamics
著者
書誌事項
Handbook of compressible aerodynamics
ISTE , John Wiley, 2010
大学図書館所蔵 全1件
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注記
Includes bibliographical references (p. [733]-738) and index
内容説明・目次
内容説明
This book is dedicated to compressible aerodynamic flows in the context of the inviscid fluid hypothesis. Each chapter offers a simple theoretical presentation followed by an overview of practical calculation methods based on recent results, in order to make theoretical understanding easier and present current applications. Chapters 1 through 8 introduce the fundamental principles of theoretical aerodynamics and continue with vital reminders for understanding the discussions in the following chapters. Chapters 9 through 17 present the theory of steady unidimensional flows and breach surfaces such as shock waves and flow lines. This is central to gas dynamics. Chapters 18 through 24 develop the theory of characteristics applied to the study of supersonic flows as well as unsteady flows. The final chapter describes specific properties of transonic flows.
目次
1. Aerodynamics: objectives, fields of application and current challenges. 2. Aerodynamic efforts. Basic definitions. 3. Thermodynamic reminders. 4. Fundamental equations of fluid mechanics. 5. Leading conservation equation applications. 6. Dimensionless equations. Parameters of similarity. 7. Classification of flows. 8. Fundamental concepts in fluid mechanics. 9. Steady unidimensional, inviscid and adiabatic flows. 10. Application to nozzle calculation. 11. Unidimensional flows with friction and heat gain. 12. Application of unidimensional theory to the calculation of ejectors. 13. Breach surfaces: shock wave and flow line. 14. Diagonal shock wave and shock polars. 15. Shock crossings or interferences. 16. Application of the shock wave theory to supersonic air intakes. 17. 2D steady supersonic flows and the theory of characteristics. 18. The numeric characteristics method. 19. Application to supersonic nozzle calculation. 20. Flows with shock waves. Rotational characteristics method. 21. Unsteady unidimensional, inviscid and adiabatic flows. 22. Unsteady shock wave, contact surface and wave reflections. 23. Shock tube. 24. Numeric methods for the calculation of unsteady flows. 25. Some transonic flow properties.
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