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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.
Introductory technical guidance for civil engineers, marine engineers and other professional engineers and construction managers interested in failure modes of coastal structures. Here is what is discussed: 1. FAILURE MODES OF TYPICAL STRUCTURE TYPES, 2. SLOPING-FRONT STRUCTURES, 3. VERTICAL-FRONT STRUCTURES, 4. FLOATING STRUCTURES, 5. BEACH FILLS, 6. SCOUR POTENTIAL AND TOE FAILURE.
Accompanying CD-ROM in pocket at the back of book
Introductory technical guidance for civil engineers, environmental engineers, marine engineers and construction managers interested in coastal geology. Here is what is discussed: 1. INTRODUCTION, 2. COASTAL TERMINOLOGY AND GEOLOGIC ENVIRONMENTS.
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.
Technical dictionary for civil engineers, marine engineers and construction managers, of terminology used in coastal planning and engineering
Introductory technical guidance for civil engineers, structural engineers and construction managers interested in repair of portland cement concrete structures.
Introductory technical guidance for civil engineers and other professional engineers and construction managers interested in design and construction of beach fill improvements. Here is what is discussed: 1. PROJECT OBJECTIVES, 2. PROJECT FEATURES, 3. DEFINE REGIONAL SETTING AND SITE HISTORY, 4. REACH DELINEATION, 5. EVALUATE SEDIMENT SOURCES.
Introductory technical guidance for civil engineers, geotechnical engineers and structural engineers interested in stability of concrete structures. Here is what is discussed: 1. LOADS AND LOADING CONDITIONS 2. CONSTRUCTION 3. WATER LOADING CONDITIONS 4. UPLIFT LOADS 5. MAINTENANCE CONDITIONS 6. SURGE AND WAVE LOADS 7. EARTHQUAKE LOADING CONDITIONS 8. OTHER LOADS 9. MANDATORY REQUIREMENTS 10. SOIL FORCES AND SINGLE-WEDGE SLIDING ANALYSIS.
Effective coastal engineering is expensive, but it is not as costly as neglect or ineffective intervention. Good practice needs to be based on sound principles, but theoretical work and modelling also need to be well grounded in practice, which is continuously evolving. Conceptual and detailed design has been advanced by new industry publications since the publication of the second edition. This third edition provides a number of updates: the sections on wave overtopping have been updated to reflect changes brought in with the recently issued EurOtop II manual; a detailed worked example is given of the calculation of extreme wave conditions for design; additional examples have been included on the reliability of structures and probabilistic design; the method for tidal analysis and calculation of amplitudes and phases of harmonic constituents from water level time series has been introduced in a new appendix together with a worked example of harmonic analysis; and a real-life example is included of a design adapting to climate change. This book is especially useful as an information source for undergraduates and engineering MSc students specializing in coastal engineering and management. Readers require a good grounding in basic fluid mechanics or engineering hydraulics, and some familiarity with elementary statistical concepts.