Brun, R.
Introduction to Reactive Gas Dynamics
Oxford U.P. 2009.5
360 pp.(H)
ISBN 0-19-955268-1
11,400円
Contents
* In the high energy gas flows, associating high velocities and high temperatures, physical and chemical processes such as molecular vibrational excitation, dissociation, ionisation or various reactions take palce and deeply influence the structure of the flows. The characteristic times of these processes have the same order of magnitude as aerodynamic characteristic times so that these reactive media are generally in thermodynamic and chemical non-equilibrium.
* This book presents a general introductory study of these media. In the first part their fundamental statistical aspects are described, starting from their discrete structure and taking into account the interactions between elementary particles: the transport phenomena, relaxation and kinetics as well as their coupling are thus analysed and illustrated by many examples. The second part deals with the macroscopic re-entry bodies. Finally the experimental aspects of these flows, their simulations in shock tube and shock tunnel are described as well as their application, particularly in the aero- spatial domain. *
Varaksin, A.Y.
Turbulent Particle-Laden Gas Flows
Springer-Verlag 2007.9
191 pp. (H)
ISBN 3-540-68053-5
22,800円
Contents
Part 1 Concise Information About Single-Phase and Heterogeneous Turbulent Flows : 1 Preliminary Remarks / 2 Equations of Single-Phase Turbulent Flows / 3 Main Characteristics of Single-Phase Flows / 4 Main Characteristics of Heterogeneous Flows / 5 Classification of Heterogeneous Turbulent Flows / Part 2 Mathematical Simulation of Particle-Laden Gas Flows : 1 Preliminary Remarks / 2 Special Features of Simulation of Heterogeneous Flows of Different Types / 3 Description of Motion of Solid Particles Suspended in Turbulent Flow / 4 Description of Motion of Gas Carrying Solid Particles / Part 3 Physical Simulation of Particle-Laden Gas Flows : 1 Preliminary Remarks / 2 Laser Doppler Anemometry and its Advantages / 3 Special Features and Objectives of Experimental Studies of Heterogeneous Flows / 4 Special Features of Studies of the Behavior of Solid Particles / 5 Special Features of Studies of the Effect of Solid Particles on Gas Flow / 6 Experimental Apparatuses / Part 4 Particle-Laden Channel Flows : 1 Preliminary Remarks / 2 The Behavior of Solid Particles and Their Effect on Gas Flow / 3 Simulation of the Effect of Particles on Turbulent Energy of Gas / Part 5 Particle-Laden Flows Past Bodies : 1 Preliminary Remarks / 2 A Flow with Particles in the Region of the Critical Point of a Body / 3 A Particle-Laden Flow in the Boundary Layer of a Body Subjected to Flow / 4 The Body Drag in Particle-Laden Flows / Conclusions / References / Index / *
* Results are given of experimental and theoretical studies of "gas-solid particles" turbulent two-phase flows. Special emphasis is placed on studies of the behavior of particles suspended in a turbulent gas flow and their feedback effect on the characteristics of flow of the carrier phase. The characteristics of heterogeneous flows in channels (pipes) are analyzed, as well as those in the vicinity of the critical points of bodies subjected to flow and in the boundary layer developing on their surface. Problems of physical simulation of turbulent gas flows which carry solid particles are treated in detail. *
Smirnov, B. M.
Cluster Processes in Gases and Plasmas
Wiley-VCH 2010.3
442 pp.(H)
ISBN 3-527-40943-2
20,800円
Contents
1. Fundamentals of Large Clusters/ 2. Structures of Solid Clusters with Pairwise Atomic Interaction/ 3. Elementary Processes and Processes in Gases Involving Clusters/ 4. Clusters in External Fields/ 5. Cluster Transport in Gases and Diffusion-Limited Association of Clusters/ 6. Charging of Clusters in Ionized Gas/ 7. Ionization Equilibrium of Clusters in a Gas/ 8. Kinetics of Cluster Growth/ 9. Dusty Plasma/ 10. Aerosol Plasma/ 11. Cluster Plasma/ 12. Conclusion/ Index/
* This reference on cluster physics in materials science draws upon the author's unrivalled experience in plasma science. He covers in detail electromagnetic effects, cluster motion and growth, as well as aerosols, providing the knowledge instrumental for an understanding of nanostructure formation.Around 400 case studies enable readers to directly relate the methods to their own individual tasks or projects. *
Belotserkovskii, O. M. & Khlopkov, Y. I.
Monte Carlo Methods in Mechanics of Fluid and Gas
World Scientific Publishing Co.Pte. Ltd. 2010.5
280 pp.(H)
ISBN 981-4282-35-9
11,000円
Contents
1. The Main Equations and Approaches to Solutions of the Problems in Rarefied Gas Dynamics/ 2. Development of the Numerical Methods of Solution of the Linear Kinetic Equations/ 3. Methods of Solution of the Nonlinear Problems in Rarefied Gas Dynamics/ 4. Modeling of the Flow of Continuous Media/ 5. Solution of the Navier-Stokes Equations (Petrov133-139)/ 6. Studies of the Weakly Perturbed Flows of Rarefied Gas/ 7. Study of the Flows About Different Bodies in Transitional Regime/ 8. Determination of the Aerodynamical Characteristics of the Returnable Space Systems (RSS)/ 9. The Flow About Blunted Bodies with the Addition of Heat/ 10. The General Models of Description of the Turbulent Flows/ 11. Studies of the Turbulent Flow of Fluid and Gas/ 12. The Possible Directions of Development of the Methods of Statistical Study/ Index/ *
Borgnakke, C. & Sonntag, R. E.
Fundamentals of Thermodynamics 7th ed.
John Wiley & Sons 2008.8
894 pp.(H)
ISBN 0-470-04192-7
19,600円
Contents
1.Some Introductory Comments/ 2.Some Concepts and Definitions/ 3.Properties of a Pure Substance/ 4.Work and Heat/ 5.The First Law of Thermodynamics/ 6.First-Law Analysis for a Control Volume/ 7.The Second Law of Thermodynamics/ 8.Entropy/ 9.Second-Law Analysis for a Control Volume/ 10.Irreversibility and Availability/ 11.Power and Refrigeration Systems―With Phase Change/ 12.Power and Refrigeration Systems―Gaseous Working Fluids/ 13.Gas Mixtures/ 14.Thermodynamic Relations/ 15.Chemical Reactions/ 16.Introduction to Phase and Chemical Equilibrium/ 17.Compressible Flow/ Appendix A: Si Units: Single-State Properties/ Appendix B: Si Units: Thermodynamic Tables/ Appendix C: Ideal-Gas Specific Heat/ Appendix D: Equations of State/ Appendix E: Figures/ Appendix F: English Unit Tables/ Index/
* Now in its seventh edition, Fundamentals of Thermodynamics continues to offer a comprehensive and rigorous treatment of classical thermodynamics, while retaining an engineering perspective. With concise, applications-oriented discussion of topics and self-test problems the text encourages students to monitor their own comprehension. The seventh edition is updated with additional examples, homework problems, and illustrations to increase student understanding. *
Kuhn, H. et al.
Principles of Physical Chemistry 2nd ed.
John Wiley & Sons 2009.3
1032 pp.(H)
ISBN 0-470-08964-4
15,200円
Contents
1 Wave−Particle Duality/ 2 Essential Aspects of Structure and Bonding/ 3 Schrodinger Equation/ 4 Hydrogen Atom/ 5 Atoms and the Variational Principle/ 6 A Quantitative View of Chemical Bonding/ 7 Bonding Described by Electron Pairs and Molecular Orbitals/ 8 Molecules with π-Electron Systems/ 9 Absorption of Light/ 10 Emission of Light/ 11 Nuclei: Particle and Wave Properties/ 12 Nuclear Spin/ 13 Solids and Intermolecular Forces/ 14 Thermal Motion of Molecules/ 15 Energy Distribution in Molecular Assemblies/ 16 Work w, Heat q, and Internal Energy U/ 17 Reversible Work wrev, Reversible Heat qrev, and Entropy S/ 18 General Conditions for Spontaneity and its Application to Equilibria of Ideal Gases and Dilute Solutions/ 19 Formal Thermodynamics and its Application to Phase Equilibria/ 20 Real Gases/ 21 Real Solutions/ 22 Reaction Equilibria in Aqueous Solutions and Biosystems/ 23 Chemical Reactions in Electrochemical Cells/ 24 Chemical Kinetics/ 25 Transition States and Chemical Reactions/ 26 Macromolecules/ 27 Organized Molecular Assemblies/ 28 Supramolecular Machines/ 29 Origin of Life: Matter Carrying Information/ Index/ *
402-6 登録日 10.07.06
