Shankar, P. N.
Slow Viscous Flows
Qualitative Features and Quantitative Analysis Using Complex Eigenfunction Expansions
Imperial College Press 2007.10
600 pp.(H) With CD-ROM 【在庫有り】
ISBN 1-86094-780-8
11,200円
Contents
1.Physical and Mathematical Background/ 2.Steady Planar Flows/ 3.Steady Three-Dimensional Flows/ 4.Unsteady Flows/ External Flows/ Appendices: Shperical Harmonics/ Mathieu Functions/ Aerofoil Sections/ Index/
* This unique book provides a unified and systematic account of internal, external and unsteady slow viscous flows, including the latest advances of the last decade, some of which are due to the author. The book shows how the method of eigenfunctions, in conjunction with least squares, can be used to solve problems of low Reynolds number flows, including three-dimensional internal and unsteady flows, which until recently were considered intractable. Although the methods used are quantitative, much stress is laid on understanding the qualitative nature of these intriguing flows. A secondary purpose of the book is to explain how the complex eigenfunction method can be used to solve problems in science and engineering. *
Thevenin, D. & Janiga, G. ed.
Optimisation in Computational Fluid Dynamics
Springer-Verlag 2008.1
294 pp.(H)
ISBN 3-540-72152-5
13,100円
Contents
Part I: Generalities and methods: 1. Introduction/ 2. A Few Illustrative Examples of CFD-based Optimization/ 3. Mathematical Aspects of CFD-based Optimization/ 4. Adjoint Methods for Shape Optimization/ Part II: Specific Applications of CFD-based Optimization to Engineering Problems: 5. Efficient Deterministic Approaches for Aerodynamic Shape Optimization/ 6. Numerical Optimization for Advanced Turbomachinery Design/ 7. CFD-based Optimization for Automotive Aerodynamics/ 8. Multi-objective Optimization for Problems Involving Convective Heat Transfer/ 9. CFD-based Optimization for a Complete Industrial Process: Papermaking/ References/ Index/
* The purpose of this book is to introduce the state of the art concerning this issue, referred to in the book as CFD-based Optimization (CFD-O). Many complementary applications are presented, so that interested researchers and engineers will get a clear view of the present possibilities for all problems where the numerical optimization process relies on evaluations obtained through Computational Fluid Dynamics. *
Sadhal, S. S. et al. ed.
Interdisciplinary Transport Phenomena in the Space Sciences
Blackwell Science 2006.12
552 pp. (P)
ISBN 1-57331-615-6
18,800円
Contents
Part I: Materials Technology: Containerless Processing: 1. Convection in Levitated Droplets and Its Effects on the Measurement of Thermophysical Properties/ 2. Microgravity Experiments on the Effect of Internal Flow on Solidification of Fecrni Stainless Steels/ 3. Study on Internal Flow and Surface Deformation of Large Droplet Levitated by Ultrasonic Wave/ 4. Containerless Measurements of Thermophysical Properties of Ti8Zr54Cu20Al10Ni8/ 5. Noncontact Thermophysical Property Measurement by Levitation of A Thin Liquid Disk/ 6. Transient Dynamics and Directional Solidification Processes in Spacial Platforms/ 7. A Numerical Analysis of Shear-Thinning in Heavy-Metal Fluoride Glasses/ 8. Effect of Input Diffusivity in An Axisymmetric Mass Diffusivity Model for Liquid Metals With An Applied Magnetic Field/ Part II: Crystal Growth: 9. Developing Quantitative, Multi-Scale Models for Microgravity Crystal Growth/ 10. Effect of Microgravity and Magnetic Field on Metallurgical and Crystalline Structure of Magnetstictive Smfe2 Synthesized by Unidirectional Solidification/ 11. Convection Effects on Crystallinity in the Growth of In0.3Ga0.7As Crystals by the Traveling Liquidus-Zone (TLZ) Method/ Part III: Diffusion Processes: 12. Fluctuations in Diffusion Processes in Microgravity/ 13: Effect of Gravity on the Dynamics of Fluctuations in A Free Diffusion Experiment/ 14: Pre-Flight Diffusion Experiments on Liquid Metals Under 1g-Conditions for the Foton-M2 Mission/ 15. A Numerical Study of the Influence of G-Jitter on Measurements of Liquid Diffusion Coefficients/ Part IV: Protein Crystal Growth: 16. Bio-Molecular Crystal Growth: Does Gravity Play A Key Role?/ 17. Hypergravity As A Crystallization Tool/ 18. Macromolecular Crystallization in Microgravity Generated by A Superconducting Magnet/ 19. Is the Crystal Growth Under Low Supersaturations Influenced by the Tendency To A Minimum of the Surface Free Energy?/ 20. Upside Down Protein Crystallisation: Designing Microbatch Experiments for Microgravity/ 21. Can Low Magnetic Field Improve the Quality of Macromolecular Crystals? / 22. Enhancement and Suppression of Protein Crystal Nucleation Under the Influence of Shear Flow/ Part V: Biotransport Phenomena: 23. Modeling Heat and Mass Transfer for Living on Mars/ 24. Heat and Gas Exchanges Between Plants and Atmosphere Under Microgravity Conditions/ 25. Gas Embolism and Surfactant-Based Intervention: Implications for Long Duration Space Based Activity/ 26. Digesta Propulsion: Model of Cascading Kinematics and Unsteady Peristalsis (Mock-Up) Simulation/ 27. Numerical Modeling of the Transport To An Intravascular Bubble in A Tube With A Soluble/Insoluble Surfactant/ Part VI: Fluid Dynamics in Space Systems: 28. Modeling Flow and Transport in Space Exploration Systems/ 29. Microgravity Experiment of on-Orbit Fluid Transfer Technique Using Swirl Flow/ 30. Hydrostatic Compressibility Phenomena: New Opportunities for Near Critical Research in Microgravity/ 31. Axisymmetric Surface Oscillations in A Cylindrical Container With Compensated Gravity/ Part VII: Interfacial Phenomena: 32. Surfactants on Highly Deforming Drop Interfaces/ 33. Thermocapillary Flow in Double-Layer Fluid Structures/ 34. Electrowetting Droplet Activation for Low Gravity Environment:/ 35. Dynamics of Spontaneous Capillary Penetration Into Capillaries/ 36. Flow Rate Limitation in Open Capillary Channel Flows (CCF)/ 37. Analysis of Heat and Mass Transfer During Condensation Over A Porous Substrate/ 38. Direct Computational Simulations and Experiments for Condensation Inside Tubes and Channels/ Part VIII: Drops and Bubbles: 39. Coalescence of Drops and Bubbles in Tube Flow/ Part IX: Electrostatic and Electromegnetic Phenomena: 40. Heat Transfer Enhancement by Electric Fields in Several Heat Exchange Regimes/ 41. Canceling Buoyancy of Gaseous Fuel Flames in A Gravitational Environment Using An Ion Driven Wind/ 42. Numerical Computation on Magnetothermal Air Jet in Gravitational and Non-Gravitational Fields/ Part X: Space Systems: 43. Using Large Electric Fields To Control Transport in Microgravity/ 44. Augmentation of Heat Transfer on the Downward Surface of A Heated Plate by Ion Injection/ Part XI: Boiling Phenomena: 45. Some Parameter Boundaries Governing Microgravity Pool Boiling Modes/ 46. Some Experiments on Heat Transfer Enhancement in Subcooled Boiling/ 47. Subcooled Flow Boiling With Microbubble Emission in A Narrow Channel/ Part XII: Thermal Management of Space Systems: 48. Self-Rewetting Fluids--Beneficial Aqueous Solutions/ 49. A Structure of High-Performance Evaporators for Space Application/ 50. Enhancement of Convective Heat Transfer on A Flat Plate by Artificial Roughness and Vibration/ *
* Space shuttle experiments conducted over the last two decades have provided significant new insight into various physical phenomena under low-gravity conditions, and new developments in space technology have brought about an interdisciplinary dimension to space research. *
Baskurt, O.K. ed.
Handbook of Hemorheology and Hemodynamics
Biomedical and Health Research Vol.69
IOS Press 2007.
468 pp. (H)
ISBN 1-58603-771-4
31,800円
Contents
1.History of Hemorheology / 2.Hemorheology: ・Basic Aspects of Hemorheology / ・Compositional Properties of Blood / ・Blood Rheology/ ・Cell Mechanics/ ・Pathophysiology of Blood Rheology/ ・Methods in Hemorheology / ・Comparative Hemorheology / 3.Hemodynamics: ・ Basic Principles of Hemodynamics / ・ Blood Rheology Aspects of the Microcirculation / ・ In Vivo Hemorheology / ・ Endothelium and Hemorheology / ・ Methods in Hemodynamics / 4.Clinical Aspects of Hemorheology: ・ Hyperviscosity: Clinical Disorders / ・ Clinical Significance of Hemorheological Alterations / ・ Treatment in Clinical Hemorheology: A Current Overview / *
* This publication primarily focuses on the macro- and micro- rheological behavior of blood and its formed elements, on interactions between the formed elements and blood vessel walls, and on the microvascular aspects of hemodynamics. Since many aspects of hemorheology and hemodynamics are affected by disease or clinical states, these effects are discussed as are hyperviscosity syndromes, therapy for disturbed blood rheology, and methods in hemorheology and hemodynamics. Sections of the Handbook include History of Hemorheology; Hemorheology, covering basic aspects, blood composition, blood rheology, cell mechanics, pathophysiology, methods and comparative studies; Hemodynamics, covering basic principles, microcirculation, in vivo effects, endothelium and methods; and Clinical Aspects of Hemorheology, covering hyperviscosity, clinical significance and treatment. *
Lesieur, M. ed.
Turbulence in Fluids 4th ed.
Springer-Verlag 2008.1
566 pp.(H)
ISBN 1-4020-6434-9
13,800円
Contents
1.Introduction to Turbulence in Fluid Mechanics/ 2.Basic Fluid Dynamics/ 3.Transition to Turbulence/ 4.Shear Flow Turbulence/ 5.Fourier Analysis of Homogeneous Turbulence/ 6.Isotropic Turbulence: phenomenology and simulations/ 6.Analytical Theories and Stochastic models/ 7.Two-dimensional Turbulence/ 8.Geostrophic Turbulence/ 9.Absolute Equilibrium Ensembles/ 10.The Statistical Predictability Theory/ 11.Large Eddy Simulations/ 12.Towards Real world Turbulence/ 13.Conclusion/ 14.References/ Index/
* The book is still of great actuality on a topic of the utmost importance for engineering and environmental applications, and presents a very detailed presentation of the field. The fourth edition incorporates new results coming from research work done since 1997. Many of these results come from direct and large-eddy simulations methods, which have provided significant advances in problems such as turbulent mixing or thermal exchanges (with and without gravity effects). *
Bardos, C. & Fursikov, A. ed.
Instability in Models Connected with Fluid Flows II
Springer-Verlag 2008.1
378 pp.(H)
ISBN 0-387-75218-8
11,700円
Contents
1.Justifying Asymptotics for 3D Water-Waves, David Lannes/ 2.Generalized Solutions of the Cauchy Problem for a Transport Equation with Discontinuous Coefficients, Evgenii Panov/ 3. Irreducible Chapman-Enskog Projections and Navier-Stokes Approximations, Evgenii Radkevich/ 4.Exponential Mixing for Randomly Forced Partial Differential Equations: Method of Coupling, Armen Shirikyan/ 5.On Problem of Stability of Equilibrium Figures of Uniformly Rotating Viscous Incompressible Liquid, Vsevolod Solonnikov/ 6.Weak Spatially Nondecaying Solutions of 3D Navier-Stokes Equations in Cylindrical Domains, Sergey Zelik/ 7.On Global in Time Properties of the Symmetric Compressible Barotropic Navier-Stokes-Poisson Flows in a Vacuum, Alexander Zlotnik/ Index/
* Instability in Models Connected with Fluid Flows II presents chapters from world renowned specialists. The stability of mathematical models simulating physical processes is discussed in topics on control theory, first order linear and nonlinear equations, water waves, free boundary problems, large time asymptotics of solutions, stochastic equations, Euler equations, Navier-Stokes equations, and other PDEs of fluid mechanics. *
Morrison, J. F. et al. ed.
IUTAM Symposium on Flow Control and MEMS
Springer-Verlag 2008.
456 pp.(H)
ISBN 1-4020-6857-3
21,700円
Proceedings of the IUTAM Symposium held at the Royal Geographical Society, 19-22 September 2006, hosted by Imperial College, London, England
Contents
* The Symposium brought together many of the worldユs experts in fluid mechanics, microfabrication and control theory to discover the synergy that can lead to real advances and perhaps find ways in which collaborative projects may proceed. The meeting website shows the high profile of the meeting (IUTAM sponsorship brings a very considerable cachet: keynote speakers are leaders in their fields; representatives from industry are from companies who have key requirements in flow control ム Airbus, BAE SYSTEMS, Rolls Royce, MTU, ONERA, Renault, Peugeot-Citro gathered largely from the aerospace and automotive communities.
* A key driver was the improvement in flow efficiency to reduce drag, and thereby emissions arising from transport. One session was dedicated to industrial representatives offering views on current problems and the identification of appropriate MEMS technology to provide solutions. About 65 papers were presented. Academics from North America, the UK, France, Germany, Switzerland, Spain, Italy, Israel, Australia and China attended. *
784-19 登録日 08.03.18
