Ocean Wave Mechanics
Applications in Marine Structures
Published on 19. February 2016
Book
Hardback
280 pages
978-1-119-24163-8 (ISBN)
Description
This is a textbook aimed at graduate students and offshore engineering practitioners that covers basic fluid mechanics and the deterministic and statistical descriptions of infinitesimal and finite amplitude water waves. It reviews the theory of wave loading on structures and closes with a chapter on the potential of ocean wave energy and devices for extracting it. Since the 1980s there has been tremendous progress in numerical and physical modelling of coastal and offshore structures in waves. This calls for a clear understanding of the phenomena of wave generation, propagation, deformation and its effects on marine structures. This book will help the reader to understand the many results and descriptions found in journals, reports and research papers. It is self-contained, and encompasses the fundamentals of the subject with sufficient description and illustrations.
More details
Series
Language
English
Place of publication
New York
United States
Target group
Professional and scholarly
Dimensions
Height: 244 mm
Width: 170 mm
Thickness: 21 mm
Weight
680 gr
ISBN-13
978-1-119-24163-8 (9781119241638)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Person
V. Sundar, Professor, Department of Ocean Engineering, IIT Madras, India. Dr Sundar joined IIT Madras in 2005; he has been a visiting scientist at various German universities and was awarded an honorary doctorate by the University of Wuppertal, Germany. He has also been a visiting professor in Coastal Engineering at the Norwegian University of Science and Technology (NTNU). Dr Sundar has served as chairman of The International Association of Hydro-Environment Engineering and Research for the Asia Pacific region. He has published 430 research papers and articles in conference proceedings and journals.
Content
1. Introduction 1-24
1.1 General 1
1.2 Structures in the Marine Environment 2
1.3 Environmental Parameters 10
1.4 Storm Tides, Tidal Bores, Tsunamis and Seiches 19
2. Basic Fluid Mechanics 25-40
2.1 Introduction 25
2.2 Types of Flow 25
2.3 Continuity Equation Conservation of Mass 28
2.4 Forces Acting on Fluids in Motion 30
2.5 Euler's Equation of Motion 30
2.6 Pathlines and Streamlines 33
2.7 Velocity Potential 33
2.8 Stream Function 33
2.9 Bernoulli Equation 33
3. Basics of Wave Motion 41-78
3.1 Introduction 41
3.2 Small Amplitude Wave Theory 42
3.3 Dispersion Relationship 47
3.4 Celerity in Different Water Depth Conditions 49
3.5 Local Fluid Particle Velocities and Accelerations Under Progressive Waves 52
3.6 Water Particle Displacement Under Progressive Waves 54
3.7 Pressure Distribution Under Progressive Waves 56
3.8 Group Celerity 57
3.9 Wave Energy 59
3.10 Wave Power 61
3.11 Mass Transport Velocity 64
4. Wave Deformation 79-98
4.1 Introduction 79
4.2 Different Zones Based on Behavior of Ocean Waves 79
4.3 Shoaling 80
4.4 Wave Refraction 81
4.5 Wave Diffraction 85
4.6 Combined Refraction and Diffraction 88
4.7 Breaking of Waves 89
4.8 Wave Reflection 92
4.9 Waves on Currents 93
5. Finite Amplitude Wave Theories 99-116
5.1 Introduction 99
5.2 Classification of Finite Amplitude Wave Theories 99
6. Description and Analysis of Random Waves 117-154
6.1 Generation of Ocean Waves 117
6.2 Collection of Wave Data 119
6.3 Analysis of Ocean Waves 120
6.4 Detailed Analysis 123
6.5 Presentation of Wave Characteristics 128
6.6 Ocean Wave Prediction Models 130
6.7 Standard Representation of Wave Spectra 131
6.8 Simulation of Time Series 135
6.9 Directional Waves 138
7. Wave Loads on Structures 155-200
7.1 Introduction 155
7.2 Various Force Regimes 156
7.3 Wave Forces on Slender Structures 158
7.4 Froude-Krylov Forces 168
7.5 Linear Diffraction Problem 170
7.6 Wave Slamming 176
7.7 Wave Forces on Walls and Rubble Mound Structures 176
7.8 Random Wave Forces 180
8. Ocean Wave Energy 201-214
8.1 Introduction 201
8.2 Ocean Energy 201
8.3 Wave Energy Potential 202
8.4 Wave Energy Map for India 202
8.5 Wave Energy Conversion 205
8.6 Wave Energy Devices 208
8.7 OWC Linked to Breakwaters 211
APPENDIX-A 215-220
Expressions for Stokes Fifth Order Theory 215
APPENDIX-B 221-228
Basics of Statistics and Random Process 221
Classification of Random Data 222
Cross Correlation Function Rxy(?) 226
Cross Spectrum 226
Coherence Function 227
APPENDIX-C 229-264
Wave Table 229
References 265-271
1.1 General 1
1.2 Structures in the Marine Environment 2
1.3 Environmental Parameters 10
1.4 Storm Tides, Tidal Bores, Tsunamis and Seiches 19
2. Basic Fluid Mechanics 25-40
2.1 Introduction 25
2.2 Types of Flow 25
2.3 Continuity Equation Conservation of Mass 28
2.4 Forces Acting on Fluids in Motion 30
2.5 Euler's Equation of Motion 30
2.6 Pathlines and Streamlines 33
2.7 Velocity Potential 33
2.8 Stream Function 33
2.9 Bernoulli Equation 33
3. Basics of Wave Motion 41-78
3.1 Introduction 41
3.2 Small Amplitude Wave Theory 42
3.3 Dispersion Relationship 47
3.4 Celerity in Different Water Depth Conditions 49
3.5 Local Fluid Particle Velocities and Accelerations Under Progressive Waves 52
3.6 Water Particle Displacement Under Progressive Waves 54
3.7 Pressure Distribution Under Progressive Waves 56
3.8 Group Celerity 57
3.9 Wave Energy 59
3.10 Wave Power 61
3.11 Mass Transport Velocity 64
4. Wave Deformation 79-98
4.1 Introduction 79
4.2 Different Zones Based on Behavior of Ocean Waves 79
4.3 Shoaling 80
4.4 Wave Refraction 81
4.5 Wave Diffraction 85
4.6 Combined Refraction and Diffraction 88
4.7 Breaking of Waves 89
4.8 Wave Reflection 92
4.9 Waves on Currents 93
5. Finite Amplitude Wave Theories 99-116
5.1 Introduction 99
5.2 Classification of Finite Amplitude Wave Theories 99
6. Description and Analysis of Random Waves 117-154
6.1 Generation of Ocean Waves 117
6.2 Collection of Wave Data 119
6.3 Analysis of Ocean Waves 120
6.4 Detailed Analysis 123
6.5 Presentation of Wave Characteristics 128
6.6 Ocean Wave Prediction Models 130
6.7 Standard Representation of Wave Spectra 131
6.8 Simulation of Time Series 135
6.9 Directional Waves 138
7. Wave Loads on Structures 155-200
7.1 Introduction 155
7.2 Various Force Regimes 156
7.3 Wave Forces on Slender Structures 158
7.4 Froude-Krylov Forces 168
7.5 Linear Diffraction Problem 170
7.6 Wave Slamming 176
7.7 Wave Forces on Walls and Rubble Mound Structures 176
7.8 Random Wave Forces 180
8. Ocean Wave Energy 201-214
8.1 Introduction 201
8.2 Ocean Energy 201
8.3 Wave Energy Potential 202
8.4 Wave Energy Map for India 202
8.5 Wave Energy Conversion 205
8.6 Wave Energy Devices 208
8.7 OWC Linked to Breakwaters 211
APPENDIX-A 215-220
Expressions for Stokes Fifth Order Theory 215
APPENDIX-B 221-228
Basics of Statistics and Random Process 221
Classification of Random Data 222
Cross Correlation Function Rxy(?) 226
Cross Spectrum 226
Coherence Function 227
APPENDIX-C 229-264
Wave Table 229
References 265-271