Fluid-Structure Interactions, Volume 2 (eBook)
1040 Seiten
Elsevier Science (Verlag)
978-0-08-053176-2 (ISBN)
This book will be invaluable for researchers, professional engineers, applied scientists and students involved in the design, study or operation or systems involving fluid flow, internal or external structures, wind or ocean currents
Emphasizes real-world analysis of problems encountered in the field and presents their solutions
A practical and thorough literature review of over 1400 references, an excellent reference document
Bridges the gap between academic researchers and practitioners in industry
The text is richly illustrated, lightly written and more wide-ranging than Volume 1. A comprehensive treatment of fluid-structure interactions involving axial flow and slender structures, such as piping, human veins, aircraft, nuclear reactor fuel and submarine skins. The emphasis is on fundamentals, particularly on the physical understanding and underlying mechanisms, as well as on applications.This book will be invaluable for researchers, professional engineers, applied scientists and students involved in the design, study or operation or systems involving fluid flow, internal or external structures, wind or ocean currents- Emphasizes real-world analysis of problems encountered in the field and presents their solutions- A practical and thorough literature review of over 1400 references, an excellent reference document- Bridges the gap between academic researchers and practitioners in industry
Cover 1
FLUID–STRUCTURE INTERACTIONS: SLENDER STRUCTURES AND AXIAL FLOW 4
Copyright Page 5
Contents 6
Preface 14
Artwork Acknowledgements 18
Chapter 7. Thin Shells Containing or Immersed in Flow 20
7.1 Introductory Remarks 20
7.2 General Dynamical Behaviour 21
7.3 Refinements and Diversification 59
7.4 Wave Propagation and Acoustic Coupling 99
7.5 Viscous and Confinement Effects 117
7.6 Swirling Flow and Rotofluidelasticity 143
7.7 Turbulence-Induced Vibration 157
7.8 Nonlinear Dynamics 170
7.9 Pliable Shells 192
7.10 Applications 228
7.11 Concluding remarks 233
Chapter 8. Solitary Cylindrical Structures in Axial Flow 234
8.1 Introduction 234
8.2 Linear Equations of Motion 236
8.3 Linear Dynamics 249
8.4 Small-Amplitude Flow-Induced Vibration 305
8.5 Tapered Cylinders in Axial Flow 332
8.6 Concurrent Internal and External Flow 345
8.7 Parametric Resonances 355
8.8 Complex Support Conditions 369
8.9 Towed and Self-Propelled Cylinders 373
8.10 Nonlinear Equations of Motion 418
8.11 Nonlinear Dynamics 435
8.12 Articulated and Pendular Systems 450
8.13 Practical Applications 471
Chapter 9. Clustered Cylinders in Axial Flow 480
9.1 Introduction 480
9.2 Hydrodynamic Coupling 480
9.3 Dynamics of Clustered Cylinders in Flow 501
9.4 Flow-Induced Vibrations 544
9.5 Strings of Clusters 574
9.6 Summary and Conclusion 581
Chapter 10. Plates in Axial Flow 584
10.1 Introduction 584
10.2 General Analysis 586
10.3 Representative Studies 608
10.4 Concluding Remarks 667
Chapter 11. Annular- and Leakage-Flow-Induced Instabilities 668
11.1 Introduction 668
11.2 Major Engineering Problem Cases 672
11.3 Vibrations in Narrow Annuli 680
11.4 1-D Leakage Flows 696
11.5 Cylinders in Annular Flows 716
11.6 Rotating Cylinders in Dense Fluid 802
11.7 Coaxial Shells 818
11.8 Miscellaneous Applications 866
Epilogue 868
Appendices 870
Appendix L. Matrices in Hybrid Analytical/Finite-Element Method of Lakis et al. 870
L.1 Matrices for a cylindrical shell in vacuo 870
L.2 Matrices associated with fluid flow in a cylindrical shell 871
L.3 Matrices associated with fluid flow in a conical shell 871
Appendix M. Anisotropic Shells 875
Appendix N. Effect of Viscosity in Rotofluidelasticity 877
Appendix O. Nonlinear Motions of a Shell Conveying Fluid 880
O.1 The particular solution, Fp 880
O.2 The discretized equations of motion 881
Appendix P. Flutter of Collapsible Tubes Conveying Fluid 884
P.1 Bibliography 884
P.2 Analytical models 890
Appendix Q. Viscous Force Coefficients for Cylinders in Axial Flow 895
Q.1 The longitudinal viscous coefficient CT 895
Q.2 The normal viscous coefficient CN 896
Q.3 The zero-flow normal coefficient CD 898
Q.4 The base drag coefficient Cb 899
Appendix R. Response to Arbitrary Force Field of a Cylinder in Axial Flow 900
Appendix S. The Equations of Motion of Articulated Cylinders in Axial Flow 904
S.1 Self-propelled system 904
S.2 Towed system 905
S.3 System with a gripped nose 906
Appendix T. The Nonlinear Equations of Motion of a Cylinder in Axial Flow 907
T.1 The inviscid hydrodynamic force FA(X, T ) 907
T.2 Tapered free-end boundary conditions 912
T.3 Axially extensible cylinders 915
T.4 Correction to equations for a fluid-conveying pipe with supported ends 920
Appendix U. Added mass matrix by FEM 921
Appendix V. The Viscous Coupling Matrix 924
Appendix W. Spring Constants Used in the Calculations of Section 9.3.5 927
Appendix X. Flow-Induced Vibration of Clusters: Some Expressions in Detail 929
X.1 Curve-fitted expressions for Kij,.(.) 929
X.2 Expressions for Kln,. (.) 930
Appendix Y. Some Details for 1-D Leakage Flow Analyses 931
Y.1 Mulcahy’s (1988) 1-d.o.f. analysis 931
Y.2 Inada & Hayama’s (1990a) analysis
Appendix Z. Coaxial Shells: Some Details 935
Z.1 Generalized forces inviscid incompressible flows
Z.2 Numerical evaluation of the generalized inviscid forces 936
Z.3 The mean annular viscous pressure field 937
Z.4 Model for cantilevered shell with annular flow 938
Z.5 Velocity profile and viscosity in annular flow 940
Z.6 Solution of Navier–Stokes equations 941
Appendix O. Recent Publications Related to Volume 1 944
O.1 Fundamentals and related topics 944
O.2 Pipes with supported ends 945
O.3 Cantilevered pipes 946
O.4 Pipes with pulsating flow parametric resonances
O.5 Risers and ocean mining systems 947
O.6 Divers systems and applications 948
O.7 Corrigenda to Volume 1 948
References 950
Index 1020
| Erscheint lt. Verlag | 1.12.2004 |
|---|---|
| Sprache | englisch |
| Themenwelt | Sachbuch/Ratgeber |
| Naturwissenschaften ► Physik / Astronomie ► Mechanik | |
| Naturwissenschaften ► Physik / Astronomie ► Strömungsmechanik | |
| Technik ► Bauwesen | |
| Technik ► Luft- / Raumfahrttechnik | |
| Technik ► Maschinenbau | |
| ISBN-10 | 0-08-053176-8 / 0080531768 |
| ISBN-13 | 978-0-08-053176-2 / 9780080531762 |
| Informationen gemäß Produktsicherheitsverordnung (GPSR) | |
| Haben Sie eine Frage zum Produkt? |
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