| Description |
1 online resource (494 p.) |
| Series |
Wiley-ASME Press Ser |
|
Wiley-ASME Press Ser
|
| Contents |
Cover -- Title Page -- Copyright Page -- Contents -- Preface -- Acknowledgments -- Contributors -- Chapter 1 Introduction and Typical Vibration Problems -- 1.1 Introduction -- 1.2 Some Typical Component Failures -- 1.3 Dynamics of Process System Components -- 1.3.1 Multi-Span Heat Exchanger Tubes -- 1.3.2 Other Nuclear and Process Components -- Notes -- References -- Chapter 2 Flow-Induced Vibration of Nuclear and Process Equipment: An Overview -- 2.1 Introduction -- 2.1.1 Flow-Induced Vibration Overview -- 2.1.2 Scope of a Vibration Analysis -- 2.2 Flow Calculations |
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2.2.1 Flow Parameter Definition -- 2.2.2 Simple Flow Path Approach -- 2.2.3 Comprehensive 3-D Approach -- 2.2.4 Two-Phase Flow Regime -- 2.3 Dynamic Parameters -- 2.3.1 Hydrodynamic Mass -- 2.3.2 Damping -- 2.4 Vibration Excitation Mechanisms -- 2.4.1 Fluidelastic Instability -- 2.4.2 Random Turbulence Excitation -- 2.4.3 Periodic Wake Shedding -- 2.4.4 Acoustic Resonance -- 2.4.5 Susceptibility to Resonance -- 2.5 Vibration Response Prediction -- 2.5.1 Fluidelastic Instability -- 2.5.2 Random Turbulence Excitation -- 2.5.3 Periodic Wake Shedding -- 2.5.4 Acoustic Resonance |
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2.5.5 Example of Vibration Analysis -- 2.6 Fretting-Wear Damage Considerations -- 2.6.1 Fretting-Wear Assessment -- 2.6.2 Fretting-Wear Coefficients -- 2.6.3 Wear Depth Calculations -- 2.7 Acceptance Criteria -- 2.7.1 Fluidelastic Instability -- 2.7.2 Random Turbulence Excitation -- 2.7.3 Periodic Wake Shedding -- 2.7.4 Tube-to-Support Clearance -- 2.7.5 Acoustic Resonance -- 2.7.6 Two-Phase Flow Regimes -- Note -- References -- Chapter 3 Flow Considerations -- 3.1 Definition of the Problem -- 3.2 Nature of the Flow -- 3.2.1 Introduction -- 3.2.2 Flow Parameter Definitions |
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3.2.3 Vertical Bubbly Flow -- 3.2.4 Flow Around Bluff Bodies -- 3.2.5 Shell-Side Flow in Tube Bundles -- 3.2.6 Air-Water versus Steam-Water Flows -- 3.2.7 Effect of Nucleate Boiling Noise -- 3.2.8 Summary -- 3.3 Simplified Flow Calculation -- 3.4 Multi-Dimensional Thermalhydraulic Analysis -- 3.4.1 Steam Generator -- 3.4.2 Other Heat Exchangers -- Acronyms -- Nomenclature -- Subscripts -- Notes -- References -- Chapter 4 Hydrodynamic Mass, Natural Frequencies and Mode Shapes -- 4.1 Introduction -- 4.2 Total Tube Mass -- 4.2.1 Single-Phase Flow -- 4.2.2 Two-Phase Flow |
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4.3 Free Vibration Analysis of Straight Tubes -- 4.3.1 Free Vibration Analysis of a Single-Span Tube -- 4.3.2 Free Vibration Analysis of a Two-Span Tube -- 4.3.3 Free Vibration Analysis of a Multi-Span Tube -- 4.4 Basic Theory for Curved Tubes -- 4.4.1 Theory of Curved Tube In-Plane Free Vibration -- 4.4.2 Theory of Curved Tube Out-of-Plane Free Vibration -- 4.5 Free Vibration Analysis of U-Tubes -- 4.5.1 Setting Boundary Conditions for the In-Plane Free Vibration Analysis of U-Tubes Possessing Geometric Symmetry -- 4.5.2 Development of the In-Plane Eigenvalue Matrix for a Symmetric U-Tube |
| Summary |
The product of more than 40 years of research and development at the Canadian Nuclear Laboratories, this authoritative reference covers all relevant aspects of flow-induced vibration technology, including vibration failures, flow velocity analysis, vibration excitation mechanisms, fluidelastic instability, periodic wake shedding, acoustic resonance, random turbulence, damping mechanisms, and fretting-wear predictions. -- Edited summary from book |
| Notes |
Description based upon print version of record |
|
4.5.3 Generation of Eigenvalue Matrices for Out-of-Plane Free Vibration Analysis of U-Tubes Possessing Geometric Symmetry |
| Subject |
Nuclear facilities -- Design and construction
|
|
Nuclear facilities -- Design and construction
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| Form |
Electronic book
|
| Author |
Taylor, Colette E
|
|
Fisher, Nigel J
|
| ISBN |
9781119810988 |
|
1119810981 |
|
