دانلود کتاب Hydraulics of Levee Overtopping

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Cover Half Title Series Page Title Page Copyright Page Table of Contents Preface Variables 1 Introduction 1.1 Background 1.2 Contents of this Book 2 Surge Overflow, Wave Overtopping, and Combination 2.1 Surge Overflow 2.1.1 Surge Overflow Discharge 2.1.2 Critical Water Depth and Velocity 2.1.3 Shear Stress of Surge Overflow 2.2 Wave Overtopping 2.2.1 Processes of Overtopping 2.2.2 Average Overtopping Discharge 2.2.3 Distribution of Individual Overtopping Volumes 2.2.4 Probability of Overtopping 2.3 Combined Wave and Surge Overtopping 2.3.1 Combined Wave and Surge Overtopping Discharge 2.3.2 Distribution of Individual Overtopping Volumes under Negative Freeboard 2.3.3 Hydraulic Parameters on the Landward-Side Slope of Levees 2.4 Turbulent Overtopping 2.4.1 Turbulence Measurement 2.4.2 Turbulent Shear Stress 3 Three Strengthening Systems 3.1 Background 3.2 Three Innovative Levee-Overtopping Protection Methods 3.2.1 High-Performance Turf Reinforcement Mats (HPTRM) 3.2.2 Articulated Concrete Block (ACB) System 3.2.3 Roller Compaction Concrete (RCC) 3.2.4 Environmental Impact of Three Levee-Strengthening Systems 3.3 Material Properties of the Three Strengthening Systems 3.3.1 Testing Methods and Properties Results of HPTRM 3.3.2 Testing Methods and Properties Results of ACB 3.3.3 Testing Methods and Properties Results of RCC 4 Full-Scale Physical Models Testing of Levee Overtopping 4.1 Full-Scale Test Model Setup 4.1.1 Test Facility 4.1.2 Levee Embankment Setup 4.1.3 Wave Generator 4.1.4 Pump System 4.2 Installation of Levee-Strengthening Layers 4.2.1 Installation of HPTRM Test Section and Maintenance 4.2.2 Installation of ACB Test Section 4.2.3 Installation of RCC Test Section 4.3 Instrumentation and Data Collection 4.3.1 Hydraulic Instrumentation 4.3.2 Data Processing 4.4 Testing Procedures 4.4.1 HPTRM Test Section 4.4.2 ACB Test Section 4.4.3 RCC Test Section 4.5 Erosion Check Method 4.5.1 HPTRM Test Section 4.5.2 ACB Test Section 4.5.3 RCC Test Section 4.6 Scale, Model, and Measurement Effects 5 Testing of Erosion Function Apparatus 5.1 Erosion Function Apparatus (EFA) 5.2 EFA Tests 5.3 Test Results 6 Hydraulic Parameters of Combined Wave and Surge Overtopping 6.1 Distribution of Incident Wave 6.2 Wave Overtopping Patterns 6.3 Hydraulic Parameters of Surge-Only Overflow 6.3.1 Surge-Only Overflow Discharge 6.3.2 Flow Thickness on Landward-Side Slope 6.3.3 Average Flow Velocity on Landward-Side Slope 6.4 Combined Wave and Surge Overtopping Discharge 6.4.1 Combined Wave and Surge Overtopping Discharge 6.4.2 Distribution of Individual Overtopping Volumes 6.4.3 Distribution of Instantaneous Overtopping Discharge 6.5 Hydraulic Parameters of Landward-Side Slope 6.5.1 Average Flow Thickness and Flow Velocity on Landward-Side Slope 6.5.2 Characteristic Wave Heights on Landward-Side Slope 6.5.3 Estimation of H[sub(rms)] on Landward-Side Slope 6.5.4 Estimation of Wave Front Velocity on the Landward-Side Slope 6.6 Standardized Analysis of Hydraulic Parameters of Combined and Surge Overtopping 6.6.1 Surge-Only Overflow and Combined Wave and Surge Overtopping Discharge 6.6.2 Average Flow Thickness on Landward-Side Slope 6.6.3 Average Flow Velocity on Landward-Side Slope 6.7 Shear Stress 6.7.1 Shear Stress Calculation 6.7.2 Shear Stress Analysis 6.7.3 Estimation of Shear Stresses on Landward-Side Slope 7 Turbulent Analysis 7.1 Measurement Setup 7.1.1 Model Setup and Instrumentation 7.1.2 Data Collection and Initial Analyses 7.2 Overtopping Discharge 7.3 Turbulent Intensity of Overtopping Flow 7.3.1 Turbulence Velocity Fluctuations 7.3.2 New Formula for Turbulent Intensity on the Crest and the Land-Side Slope 7.4 Turbulent Shear Stress 7.4.1 Log Profile Method 7.4.2 Reynolds Stress and Turbulent Kinetic Energy Methods 7.4.3 Nadal and Hughes’ Method 7.4.4 New Formulas for Shear Stress Estimation on the Crest and On the Land-Side Slope 8 Hydraulic Erosion on Landward-Side Slope of Levees and Conceptual Model of Soil Loss from Levee Surface 8.1 Hydraulic Erosion on Landward-Side Slope of Levees 8.1.1 Hydraulic Erosion on the RCC Test Section 8.1.2 Hydraulic Erosion on the ACB Test Section 8.1.3 Hydraulic Erosion on the HPTRM Test Section 8.2 Conceptual Model of Soil Loss from Levee Surface 8.2.1 Definition 8.2.2 Soil Erodibility of HPTRM 8.2.3 Conceptual Model of Soil Loss from Levee Surface 8.2.4 Failure Modes of HPTRM-Strengthened Levee 9 Numerical Study of Combined Wave Overtopping and Storm Surge Overflow of Strengthened Levee 9.1 Princeton Ocean Model (POM) Method 9.1.1 Numerical Methodology 9.1.2 Sensitivity Analyses 9.1.3 Model Calibration 9.1.4 Storm Surge Overflow Discharge 9.1.5 Combined Wave and Storm Surge Overtopping Discharge 9.1.6 Flow Parameters on the HPTRM-Strengthened Levee Slope 9.1.7 Average Flow Thickness at the Landward-Side Slope Toe 9.1.8 Time Series Upcrossing Analysis 9.1.9 Estimation of Wavefront Velocity on the Landward-Side Slope 9.2 Smoothed Particle Hydrodynamic (SPH) Method 9.2.1 Numerical Methodology 9.2.2 Numerical Wave Generator 9.2.3 Sensitivity Analysis 9.2.4 Average Overtopping Discharge for Combined Wave and Surge Overtopping 9.2.5 Flow Parameters on the Landward Levee Slope 10 Numerical Study of Turbulence Overtopping and Erosion 10.1 Numerical Methodology 10.1.1 Governing Equations 10.1.2 Boundary Condition 10.1.3 Model Setup 10.1.4 Numerical Scheme 10.1.5 Random Wave Generation 10.2 Model Calibration 10.3 Storm Surge Overflow Erosion 10.4 Combined Wave/Surge Overtopping Shear Stress, Turbulence, and Erosion 10.4.1 Turbulent Shear Stress 10.4.2 Turbulent Kinetic Energy 10.4.3 Prediction of Erosion Rate at the Toe of Landward-Side Slope 10.5 Erodibility and Failure of HPTRM-Strengthened Levee under Different Overtopping Conditions 10.5.1 Turf-Element Model and HPTRM-Element Model 10.5.2 Characterization of HPTRM-Element Model 10.5.3 Failure Process of HPTRM-Strengthened Levee against Steady Overtopping 10.5.4 Failure Process of HPTRM-Strengthened Levee against Combined Overtopping 10.5.5 Discussion on Validation of the Proposed Analytic Equation 10.5.6 Discussion on Linear Relationship for HPTRM-Strengthened Clay References Index