Ocean Engineering Mechanics | by Michael E. McCormick | Cheap Online Bookstore | 2010 | ISBN: 9780521859523. Linear Surface Waves. Nonlinear Surface Waves. Wave-Induced Motions of Floating Bodies. Wave-Induced Forces and Moments on Fixed Bodies.
| Ocean Engineering Mechanics by Michael E. McCormick 2010 (618 pages) ISBN:9780521859523 |
Designed to give an introduction to water waves and wave-structure interactions for fixed and floating bodies, this book discusses linear and nonlinear regular waves, and presents methods of determining the averaged properties of random waves.
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Ocean Engineering Mechanics—With Applications
Preface
Notation
General
Chapter 1
Chapter 2
Chapter 3
Chapter 4
Chapter 5
Chapter 6
Chapter 7
Chapter 8
Chapter 9
Chapter 10
Chapter 11
Chapter 12
Appendices
Chapter 1 – Introduction
Overview
1.1: Generation of a Sea
1.2: Wind Classification and Sea State
1.3: Ocean Engineering Literature
Chapter 2 – Review of Hydromechanics
2.1: Hydrostatics
2.2: Conservation of Mass
2.3: Rotational and Irrotational Flows
2.4: Conservation of Momentum and Energy
2.5: Viscous Flows
2.6: Hydrodynamics of Submerged Bodies
2.7: Scaling
2.8: Closing Remarks
Chapter 3 – Linear Surface Waves
Overview
3.1: Wind-Wave Generation
3.2: Airy’s Linear Wave Theory
3.3: Traveling or Progressive Waves
3.4: Standing Waves
3.5: Water Particle Motions
3.6: The Wave Group
3.7: Wave Energy and Power
3.8: Shoaling
3.9: Closing Remarks
Chapter 4 – Nonlinear Surface Waves
Overview
4.1: Nonlinear Wave Properties
4.2: Stokes’ Wave Theory
4.3: Second-Order Particle Motions
4.4: Water Particle Convection
4.5: Long Waves in Shallow Water
4.6: Breaking Waves
4.7: Summary
4.8: Closing Remarks
Chapter 5 – Random Seas
5.1: Introduction
5.2: Statistical Analysis of Measured Waves
5.3: Continuous Probability Distributions
5.4: Rayleigh Probability Distribution of Wave Heights
5.5: Weibull Probability Distribution of Wave Heights
5.6: The Gaussian-Rayleigh Sea
5.7: Wave Spectral Density
5.8: Wind-Wave Spectra
5.9: Long-Term Wave Statistics
5.10: Wave Spectra in Waters of Finite Depth
5.11: Closing Remarks
Chapter 6 – Wave Modification and Transformation
Overview
6.1: Wave Reflection from Vertical Barriers
6.2: Reflection from Inclined Barriers – The Long-Wave Equations
6.3: Refraction without Reflection – Snell’s Law
6.4: Diffraction
6.5: The Mild-Slope Equation
6.6: Closing Remarks
Chapter 7 – Waves in the Coastal Zone
Overview
7.1: Coastal Zone Phenomena
7.2: Empirical Analyses of Breaking Waves on Beaches
7.3: Surf Similarity
7.4: Surf Zone Hydromechanics – Radiation Stress
7.5: Closing Remarks
Chapter 8 – Coastal Engineering Considerations
8.1: Shore Protection Methods
8.2: Decision Process in Coastal Protection
8.3: Rubble-Mound Structures
8.4: Reliability of a Rubble-Mound Structure
8.5: Closing Remarks
Chapter 9 – Wave-Induced Forces and Moments on Fixed Bodies
Overview
9.1: Wave-Induced Forces and Moments on a Seawall
9.2: Wave-Induced Forces on Submerged and Surface-Piercing Bodies
9.3: Wave-Induced Forces and Moments on Bodies in Random Seas
9.4: Closing Remarks
Chapter 10 – Introduction to Wave-Structure Interaction
10.1: Basic Concepts
10.2: Power Take-Off
10.3: Random Motions
10.4: Closing Remarks
Chapter 11 – Wave-Induced Motions of Floating Bodies
Overview
11.1: Hydrostatic Considerations – Initial Stability
11.2: Floating Body Motions
11.3: Two-Dimensional Hydrodynamics – Vertical Body Motions
11.4: Coupled Heaving and Pitching Motions Based on Strip Theory
11.5: Experimental and Theoretical Hydrodynamic Coefficient Data
11.6: Singularity Method of Determining Hydrodynamic Coefficients
11.7: Two-Dimensional Haskind Force Relationships
11.8: Closing Remarks
Chapter 12 – Wave-Induced Motions of Compliant Structures
12.1: Compliant Structures
12.2: Basic Mooring Configurations
12.3: Soil-Structure Interactions
12.4: Motions of a Tension-Leg Platform (TLP)
12.5: Motions of an Articulated-Leg Platform (ALP)
12.6: Motions of Flexible Towers
12.7: Closing Remarks
Appendices
A. Bessel Functions
B. Runga-Kutta Solution of Differential Equations
C. Green’s Theorem
D. Green’s Function
E. Solutions of Laplace’s Equation
F. Fourier Transforms
G. Lewis Sharpe-Bilge Analysis
H. Infinite-Frequency Added-Mass Expressions
References
Chapter 1
Chapter 2
Chapter 3
Chapter 4
Chapter 5
Chapter 6
Chapter 7
Chapter 8
Chapter 9
Chapter 10
Chapter 11
Chapter 12
Appendices
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Machinery Vibration and Rotordynamics | by John Vance, Fouad Zeidan and Brian Murphy | BUY PDF EBOOKS ONLINE | 2010 | ISBN: 9780471462132. Torsional Vibration Analysis. Rotordynamics Analysis. Rotordynamic Testing of Pocket Damper Seals.
| Machinery Vibration and Rotordynamics by John Vance, Fouad Zeidan and Brian Murphy 2010 (416 pages) ISBN:9780471462132 |
Brimming with rich technical detail and real-world examples, this guide covers essential fundamentals, in-depth case studies, and the latest analytical tools used for predicting and preventing damage in rotating machinery.
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Machinery Vibration and Rotordynamics
Preface
Chapter 1 – Fundamentals of Machine Vibration and Classical Solutions
The Main Sources of Vibration in Machinery
The Single Degree of Freedom (SDOF) Model
Using Simple Models for Analysis and Diagnostics
Six Techniques for Solving Vibration Problems with Forced Excitation
Some Examples with Forced Excitation
Some Observations about Modeling
Unstable Vibration
References
Exercises
Chapter 2 – Torsional Vibration
Overview
Torsional Vibration Indicators
Objectives of Torsional Vibration Analysis
Simplified Models
Computer Models
Torsional Vibration Measurement
French’s Comparison Experiments
A Special Tape for Optical Transducers
Time-Interval Measurement Systems
References
Exercises
Chapter 3 – Introduction to Rotordynamics Analysis
Overview
Objectives of Rotordynamics Analysis
The Spring-Mass Model
Synchronous and Nonsynchronous Whirl
Analysis of the Jeffcott Rotor
Some Damping Definitions
The “Gravity Critical”
Critical Speed Definitions
Effect of Flexible (Soft) Supports
Rotordynamic Effects of the Force Coefficients — A Summary
Rotordynamic Instability
Effect of Cross-Coupled Stiffness on Unbalance Response
Added Complexities
Gyroscopic Effects
Effect of Support Asymmetry on Synchronous Whirl
False Instabilities
References
Exercises
Chapter 4 – Computer Simulations of Rotordynamics
Overview
Different Types of Models
Bearing and Seal Matrices
Torsional and Axial Models
Different Types of Analyses
Eigenanalysis
Linear Forced Response (LFR)
Transient Response
Shaft Modeling Recommendations
Example Simulations
References
Chapter 5 – Bearings and Their Effect on Rotordynamics
Fluid Film Bearings
Fixed-Geometry Sleeve Bearings
Variable-Geometry Tilting Pad Bearings
Fluid Film Bearing Dynamic Coefficients and Methods of Obtaining Them
Load Between Pivots versus Load on Pivot
Influence of Preload on the Dynamic Coefficients in Tilt Pad Bearings
Influence of the Bearing Length or Pad Length
Influence of the Pivot Offset
Influence of the Number of Pads
Ball and Rolling Element Bearings
Case Study: Bearing Support Design for a Rocket Engine Turbopump
Squeeze Film Dampers
Applications of Squeeze Film Dampers
Insights into the Rotor-Bearing Dynamic Interaction with Soft/Stiff Bearing Supports
Influence on Natural Frequencies with Soft/Stiff Bearing Supports
Effects of Mass Distribution on the Critical Speeds with Soft/Stiff Bearing Supports
Influence of Overhung Mass on Natural Frequencies with Soft/Stiff Supports
Influence of Gyroscopic Moments on Natural Frequencies with Soft/Stiff Bearing Supports
References
Exercises
Appendix: Shaft with no Added Weight
Chapter 6 – Fluid Seals and Their Effect on Rotordynamics
Function and Classification of Seals
Understanding and Modeling Damper Seal Force Coefficients
Alford’s Hypothesis of Labyrinth Seal Damping
Cross-Coupled Stiffness Measurements
Invention of the Pocket Damper Seal
Pocket Damper Seal Theory
Rotordynamic Testing of Pocket Damper Seals
Impedance Measurements of Pocket Damper Seal Force Coefficients (Stiffness and Damping) and Leakage at Low Pressures
The Fully Partitioned PDS Design
Effects of Negative Stiffness
Frequency Dependence of Damper Seals
Laboratory Measurements of Stiffness and Damping from Pocket Damper Seals at High Pressures
Field Experience with Pocket Damper Seals
Designing for Desired Force Coefficient Characteristics
Some Comparisons of Different Types of Annular Gas Seals
References
Chapter 7 – History of Machinery Rotordynamics
Overview
The Foundation Years, 1869–1941
Refining and Expanding the Rotordynamic Model, 1942–1963
Multistage Compressors and Turbines, Rocket Engine Turbopumps, and Damper Seals, 1964-Present
New Frontiers of Speed and Power Density with Rocket Engine Turbopumps
Shaft Differential Heating (the Morton Effect)
References
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