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This collection contains 110 papers presented at Coastal Structures 2003, held in Portland, Oregon, August 26-30, 2003.
Accompanying CD-ROM in pocket at the back of book
Coastal structures are an important component in any coastal protection scheme. They directly control wave and storm surge action or to stabilize a beach which provides protection to the coast.This book provides the most up-to-date technical advances on the design and construction of coastal structures and sea defenses.Written by renowned practicing coastal engineers, this edited volume focuses on the latest technology applied in planning, design and construction, effective engineering methodology, unique projects and problems, design and construction challenges, and other lessons learned.Many books have been written about the theoretical treatment of coastal and ocean structures. Much less has been written about the practical practice aspect of ocean structures and sea defenses. This comprehensive book fills the gap. It is an essential source of reference for professionals and researchers in the areas of coastal, ocean, civil, and geotechnical engineering.
Introductory technical guidance for civil and marine engineers interested in design and construction of coastal structures. Here is what is discussed: 1. TYPES AND FUNCTIONS OF COASTAL STRUCTURES 2. TYPICAL CROSS SECTIONS AND LAYOUTS.
Introductory technical guidance for civil engineers, marine engineers and other professional engineers and construction managers interested in coastal marine structures. Here is what is discussed: 1. SHORELINE USE, 2. SHORELINE FORM AND COMPOSITION, 3. SEASONAL VARIATIONS OF SHORELINE PROFILES, 4. DESIGN CONDITIONS FOR PROTECTIVE MEASURES, 5. DESIGN WATER LEVELS, 6. DESIGN WAVE ESTIMATION, 7. WAVE HEIGHT AND PERIOD VARIABILITY AND SIGNIFICANT WAVES, 8. WAVE GAUGES AND VISUAL OBSERVATIONS, 9. WAVE HINDCASTS, 10. WAVE FORECASTS, 11. BREAKING WAVES, 12. HEIGHT OF PROTECTION, 13. WAVE RUNUP, 14. WAVE OVERTOPPING, 15. STABILITY AND FLEXIBILITY, 16. ARMOR UNIT STABILITY, 17. LAYER THICKNESS, 18. RESERVE STABILITY, 19. TOE PROTECTION, 20. FILTERS, 21. FLANK PROTECTION, 22. CORROSION, 23. FREEZE-THAW CYCLES, 24. MARINE BORER ACTIVITY, 25. ULTRAVIOLET LIGHT, 26. ABRASION, 27. VANDALISM AND THEFT, 28. GEOTECHNICAL CONSIDERATIONS, 29. WAVE FORCES, 30. IMPACT FORCES, 31. ICE FORCES, 32. HYDRAULIC MODEL TESTS, 33. TWO-DIMENSIONAL MODELS, 34. THREE-DIMENSIONAL MODELS.
Text on coastal engineering and oceanography covering theory and applications intended to mitigate shoreline erosion.
Successful coastal and ocean engineering projects rely on practical experience with technical tools and knowledge available to the engineer. Often, problems arise from projects that are too complex for theoretical description, which require that engineers exercise sound judgment in addition to reliance on past practical experience. This book focuses on the latest technology applied in design and construction, effective engineering methodology, unique projects and problems, design and construction challenges, and other lessons learned. In addition, unique practices in planning, design, construction, maintenance, and performance of coastal and ocean projects will be explored.
Random waves are the most important constituent of the sea environment. They make the design of maritime structures quite different from that of structures on land. In this book, the concept of randomness in waves for the design of breakwaters, seawalls, and harbor structures is fully explored for easy comprehension by practicing engineers. Theoretical aspects are also discussed in detail for further studies by graduate students and researchers. Several additions have been made to this second edition, including a new chapter on extreme wave statistics.
Laboratory physical models are a valuable tool for coastal engineers. Physical models help us to understand the complex hydrodynamic processes occurring in the nearshore zone and they provide reliable and economic engineering design solutions.This book is about the art and science of physical modeling as applied in coastal engineering. The aim of the book is to consolidate and synthesize into a single text much of the knowledge about physical modeling that has been developed worldwide.This book was written to serve as a graduate-level text for a course in physical modeling or as a reference text for engineers and researchers engaged in physical modeling and laboratory experimentation. The first three chapters serve as an introduction to similitude and physical models, covering topics such as advantages and disadvantages of physical models, systems of units, dimensional analysis, types of similitude and various hydraulic similitude criteria applicable to coastal engineering models.Practical application of similitude principles to coastal engineering studies is covered in Chapter 4 (Hydrodynamic Models), Chapter 5 (Coastal Structure Models) and Chapter 6 (Sediment Transport Models). These chapters develop the appropriate similitude criteria, discuss inherent laboratory and scale effects and overview the technical literature pertaining to these types of models. The final two chapters focus on the related subjects of laboratory wave generation (Chapter 7) and measurement and analysis techniques (Chapter 8).