- Shell-Side Process Conditions and Geometry.Table 3-3 Example 3-3 – Path Lengths and Flow Areas.Table 3-4 Example 3-3 - Tube Bundle and Device Form Loss Factors.Table 3-5 Example 3-3 – Results.2 Chapter 4Table 4-1 Schematic Representation of Eigenvalue Matrix Elements for Four Sp...
3 Chapter 5Table 5-1 Damping in Tube‐to‐Tubesheet Joints (Pettigrew et al, 1986a).Table 5-2 Sample Database Page on Heat Exchanger Tube Damping in Liquids (Mo...
4 Chapter 6Table 6-1 Sample Page of Two‐Phase Damping Database.Table 6-2 Experimental Conditions of Test Configurations.
5 Chapter 7Table 7-1 Typical Fluidelastic Instability Models and Suggested Design Guide...Table 7-2 Summary of References and Tube Bundle Geometries (Pettigrew and Ta...Table 7-3 Database on Fluidelastic Instability of Tube Bundles in Single‐Pha...Table 7-4 Summary of In‐Plane Instability Results (Mureithi et al, 2005)
6 Chapter 8Table 8-1 Physical Properties of Freon‐22, Freon‐134a, Air‐Water and Steam‐W...Table 8-2 Summary of Test Conditions and Results for Early Air‐Water Experim...Table 8-3 Summary of Test Conditions and Results for Damping in Rigid Bundle...Table 8-4 Summary of Test Conditions and FEI Results from Other Researchers ...Table 8-5 Summary of Freon Test Conditions and Results.Table 8-6 Summary of Air‐Water Test Conditions and Results (Violette, 2005).
7 Chapter 9Table 9-1 Modal Factor (a1) and Mode Shape (ϕ1 max)2 Constants for Mode...Table 9-2 Summary of Bundle Geometries.
8 Chapter 10Table 10-1 Tube Bundle Geometries from CENS and CRL.
9 Chapter 11Table 11-1 Liquid Periodic Force Coefficients (Pettigrew and Gorman, 1978).Table 11-2 Dynamic Lift Coefficients for Tube Bundles.Table 11-3 Single and Two‐Phase Periodic Wake Shedding: Dynamic Coefficients...Table 11-4 Two‐Phase Flow Periodic‐Wake‐Shedding Lift Forces in Tube Array T...Table 11-5 Two‐Phase Flow Periodic Wake Shedding Lift Forces in Tube Array T...
10 Chapter 13Table 13-1 Ko’s Short‐Term Relative Fretting‐Wear Data (Ko, 1984).Table 13-2 Short‐Term Fretting‐Wear Data for Incoloy 800 Tubing and Type 410...
List of Illustrations
1 Chapter 1Fig. 1-1 Tube‐to‐Tube Fretting Wear in the U‐Bend Region of an Early Nuclear...Fig. 1-2 Tube‐to‐Support Fretting Wear: Note Hole Through Tube Wall (Pettigr...Fig. 1-3 Fretting Wear in the Inlet Region of a Liquid Process Heat Exchange...Fig. 1-4 Fretting Wear Through Tube Wall at a Lacing Strip Location in a Pro...Fig. 1-5 Fretting Wear of Process Heat Exchanger: Repair (Pettigrew and Camp...Fig. 1-6 Fatigue Failure of a Titanium Tube in a Nuclear Power Plant Condens...Fig. 1-7 Tube‐to‐Tube Fretting Wear in a Power Plant Condenser.Fig. 1-8 Fretting Wear of a Gas Heat Exchanger Tube at a Baffle Edge Locatio...Fig. 1-9 Fretting‐Wear Damage on Nuclear Fuel (Hot Cell Examination) (Pettig...Fig. 1-10 Schematic Drawing of CANDU‐PHW® Reactor (Pettigrew, 1978 / wi...Fig. 1-11 a) Control Absorber Guide Tube Vibration due to Jetting, b) Modifi...Fig. 1-12 Multi‐Span Heat Exchanger Tube with N Spans and N‐1 Clearance Supp...
2 Chapter 2Fig. 2-1 Flow‐Path Approach.Fig. 2-2 Thermalhydraulic Analysis: Axial Grid Layout for a Typical Steam Ge...Fig. 2-3 Flow Velocity Vectors in the Central Plane of a Typical Steam Gener...Fig. 2-4 Gap Cross‐Flow Distribution Along a Typical Condenser Tube.Fig. 2-5 Flow Pattern Map for Two‐Phase Flow Across Cylinder Arrays Using Fl...Fig. 2-6 Hydrodynamic Mass in Two‐Phase Cross Flow: Comparison Between Theor...Fig. 2-7 Viscous Damping Data for a Cylinder in Unconfined and Confined Liqu...Fig. 2-8 Damping Data for Multi‐Span Heat Exchanger Tubes in Water.Fig. 2-9 Comparison Between Tube Support Damping Model (Squeeze‐Film and Fri...Fig. 2-10 Comparison Between Proposed Design Guideline and Available Damping...Fig. 2-11 Summary of Fluidelastic Instability Data for Single‐Phase Cross Fl...Fig. 2-12 Fluidelastic Instability Data in Two‐Phase Cross Flow.Fig. 2-13 Effect of P/D on Fluidelastic Instability Constant in Two‐Phase Cr...Fig. 2-14 Proposed Guideline for Single‐Phase Random Excitation Forces (Refe...Fig. 2-15 Proposed Guideline for Two‐Phase Random Excitation Forces In Churn...Fig. 2-16 Strouhal Numbers for Tube Bundles in Liquid Cross Flow: a) Normal ...Fig. 2-17 Fluctuating Force Coefficients for Tube Bundles in Single‐Phase Cr...Fig. 2-18 Fluctuating Force Coefficients for Tube Bundles in Two‐Phase Cross...Fig. 2-19 Proposed Damping Criteria (Resonance Parameter) for: a) In‐Line (S...Fig. 2-20 Flow Velocities, Support Locations and Tube Geometry for a Typical...Fig. 2-21 Example of Heat Exchanger Tube Vibration Analysis: Input of Vibrat...Fig. 2-22 Heat Exchanger Tube Vibration: Typical Free Vibration Analysis Res...Fig. 2-23 Vibration Mode Shapes and Vibration Analysis Results for a Typical...
3 Chapter 3Fig. 3-1 Pressurised Water Reactor Vessel and Internals (Axisa, 1993).Fig. 3-2 Light-Water Boiling Reactor Pressure Vessel and Internals (Shumway,...Fig. 3-3a CANDU Heavy Water Reactor (Enhanced CANDU 6 Technical Summary, 200...Fig. 3-3b Schematic Diagram of CANDU
