Risk and Reliability Coastal and Hydraulic Engineering
Auteur : Reeve Dominic
Risk and Reliability: Coastal and Hydraulic Engineering sets out the methods which are increasingly being required by Government Agencies for river and sea defence design and flood defence system management. And it shows how to describe uncertainty in the performance of flood and erosion defences.
It introduces the key statistical concepts required for the implementation of a reliability analysis, and the analytical and the numerical methods are each described with worked examples. Example applications of the methods are given to illustrate their advantages and limitations, together with case studies drawn from the author?s experience of academia and consultancy. It draws together scattered material and provides coastal and hydraulic engineers with an accessible entry to reliability analysis and thence to the cutting-edge literature.
This book suits advanced undergraduates and MSc students of flood and coastal defence. It also serves as a helpful source of information for consultants, practitioners and academics.
1. Introduction 2. Introduction to Probability 3. Elements of Probability and Stochastic Processes 4. Extremes 5. Uncertainty and Reliability Analysis 6. Applications 7. Reliability of Systems Epilogue References. Appendix A: Statistical tables. Appendix B: Flow Chart for Choice of Method
Dominic Reeve is a Professor at the University of Plymouth, UK, and author of Coastal Engineering: Processes, Theory and Design Practice, also published by Taylor & Francis.
Date de parution : 10-2019
15.6x23.4 cm
Date de parution : 08-2009
Ouvrage de 304 p.
15.6x23.4 cm
Thème de Risk and Reliability :
Mots-clés :
Distribution Function; Cumulative Distribution Function; GEV Distribution; Significant Wave Height; Overtopping Rate; Wave Heights; Reliability Function; Partial Safety Factors; Wave Overtopping; Probability Density Function; Water Level; Random Variable; Van Der Meer's Formula; Scour Depth; Toe Scour; Gumbel Distribution; Event M1; Fault Tree; DW Formula; Crest Level; Annual Maxima; Armour Damage; Linear Congruential Generator; Beach Levels; Basic Variables