This work describes the key results of the European research project called PROVERBS to develop and implement probability-based methods for the design of monolithic coastal structures and breakwaters subject to sea wave attacks. The issues treated include the hydrodynamic, geotechnical and structural processes involved in the wave-structure-foundation interactions and in the associated failure mechanisms.
By:
Hocine Oumeraci,
A. Kortenhaus,
W. Allsop,
M. de Groot,
R. Crouch
Imprint: A A Balkema Publishers
Dimensions:
Height: 246mm,
Width: 174mm,
Spine: 20mm
Weight: 730g
ISBN: 9789058092496
ISBN 10: 9058092496
Pages: 392
Publication Date: 01 January 2001
Audience:
College/higher education
,
Professional and scholarly
,
Further / Higher Education
,
Undergraduate
Format: Paperback
Publisher's Status: Active
PREFACE, CHAPTER 1 1.1 GENERAL BACKGROUND, OPPORTUNITY AND MOTIVATIONS 1.2 BRIEF PRESENTATION OF PROVERBS 1.3 KEY RESULTS AND THEIR PRACTICAL IMPORTANCE CHAPTER 2 2.1 INTRODUCTION 2.2 WAVESATTHESTRUCTURE 2.3 HYDRAULIC RESPONSES 2.4 PULSATING WAVE LOADS 2.5 WAVE IMPACT LOADS 2.6 BROKEN WAVE LOADS 2.7 FIELD MEASUREMENTS AND DATABASE 2.8 ALTERNATIVE LOW REFLECTION STRUCTURES CHAPTER 3 3.1 INTRODUCTION 3.2 GUIDELINES FOR MODELLING 3.3 SOIL INVESTIGATIONS AND SOIL PARAMETERS 3.4 DYNAMICS 3.5 INSTANTANEOUS PORE PRESSURES AND UPLIFT FORCES 3.6 DEGRADATION AND RESIDUAL PORE PRESSURES 3.7 LIMIT STATE EQUATIONS AND OTHER CALCULATION METHODS FOR STABILITY AND DEFORMATION 3.8 UNCERTAINTIES 3.9 INFLUENCE OF DESIGN PARAMETERS 3.10 POSSIBILITIES FOR DESIGN IMPROVEMENTS CHAPTER 4 4.1 INTRODUCTION 4.2 GENERIC TYPES OF REINFORCED CONCRETE CAISSONS 4.3 LOADS ACTING ON THE CAISSON 4.4 GEOMECHANICAL FACTORS RELEVANT TO THE STRUCUTRAL RESPONSE 4.5 HYDRAULIC DATA REQUIRED TO DESIGN A REINFORCED CONCRETE CAISSON 4.6 FAILURE MODES ASSOCIATED WITH PRE-SERVICE AND IN[1]SERVICE CONDITIONS 4.7 THE NEED FOR A NEW INTEGRATED DESIGN CODE 4.8 SIMPLIFIED LIMIT STATE EQUATIONS 4.9 UNCERTAINTIES ATTRIBUTED TO THE LS EQUATIONS: MORE REFINED STRUCTURAL MODELS 4.10 CONSTRUCTION ISSUES CHAPTER 5 5.1 INTRODUCTION 5.2 GENERAL INTRODUCTION OF PROBABILISTIC METHODS 5.3 PROBABILISTIC METHODS APPLIED TO VERTICAL BREAKWATERS IN GENERAL 5.4 CASE STUDIES 5.5 PERSPECTIVES CHAPTER 6 6.1 HYDRAULIC ASPECTS 6.2 GEOTECHNICAL ASPECTS 6.3 STRUCTURAL ASPECTS 6.4 PROBABILISTIC ASPECTS ANNEXES.
Hocine Oumeraci and Andreas Kortenhaus both Technical University of Braunschweig, Leichtwei?-Institut für Wasserbau, Braunschweig, Germany. , William Allsop, HR Wallingford, Wallingford, U.K. Maarten de Groot, Geodelft, Delft, The Netherlands. Roger Crouch, University of Sheffield, Department of Civil and Structural Engineering, Sheffield, U.K. Han Vrijling and Hessel Voortman, both Delft University of Technology, Hydraulic and Offshore Engineering Section, Delft, The Netherlands.
