Introductory technical guidance for civil engineers and other professional engineers interested in design of hydraulic structures. Here is what is discussed: 1. INTRODUCTION, 2. RIGID STRUCTURE VS. FLEXIBLE STRUCTURE BEHAVIOR, 3. SLIDING STABILITY, 4. ROTATIONAL STABILITY, 5. DEVELOPING STANDARD RESPONSE SPECTRA AND EFFECTIVE PEAK GROUND ACCELERATIONS.

Introductory technical guidance for civil engineers and structural engineers interested in design of hydraulic structures for dams and other water resources projects. Here is what is discussed: 1. PROGRESSIVE ANALYSIS METHODOLOGY, 2. METHODS OF ANALYSIS, 3. MODELING OF STRUCTURAL SYSTEMS, 4. EFFECTIVE STIFFNESS., 5. DAMPING, 6. INTERACTION WITH BACKFILL SOIL, 7. PERMANENT SLIDING DISPLACEMENT.

Introductory technical guidance for civil engineers, structural engineers and geotechnical engineers interested in seismic analysis of concrete hydraulic structures. Here is what is discussed: 1. INTRODUCTION, 2. GENERAL CONCEPTS, 3. DESIGN CRITERIA, 4. DESIGN EARTHQUAKES, 5. EARTHQUAKE GROUND MOTIONS, 6. ESTABLISHMENT OF ANALYSIS PROCEDURES, 7. STRUCTURAL IDEALIZATION, 8. DYNAMIC ANALYSIS PROCEDURES SLIDING AND ROTATIONAL STABILITY DURING EARTHQUAKES, 9. SLIDING AND ROTATIONAL STABILITY DURING EARTHQUAKES, 10. CURRENT PRACTICE ON USE OF RESPONSE SPECTRA FOR BUILDING-TYPE STRUCTURES.

Introductory technical guidance for civil and structural engineers interested in seismic analysis of hydraulic structures. Here is what is discussed: 1. PROGRESSIVE ANALYSIS METHODOLOGY 2. METHODS OF ANALYSIS 3. MODELING OF STRUCTURAL SYSTEMS 4. EFFECTIVE STIFFNESS. 5. DAMPING 6. INTERACTION WITH BACKFILL SOIL 7. PERMANENT SLIDING DISPLACEMENT..

Introductory technical guidance for civil and geotechnical engineers interested seismic engineering of hydraulic structures such as those associated with locks and dams. Here is what is discussed: 1. PROGRESSIVE ANALYSIS METHODOLOGY 2. METHODS OF ANALYSIS 3. MODELING OF STRUCTURAL SYSTEMS 4. EFFECTIVE STIFFNESS 5. DAMPING 6. INTERACTION WITH BACKFILL SOIL 7. PERMANENT SLIDING DISPLACEMENT.

Technical guidance for civil and structural engineers interested in seismic design of hydraulic structures such as dams and locks. Here is what is discussed: 1. INTRODUCTION 2. RIGID STRUCTURE VS. FLEXIBLE STRUCTURE BEHAVIOR 3. SLIDING STABILITY 4. ROTATIONAL STABILITY 5. DEVELOPING STANDARD RESPONSE SPECTRA AND EFFECTIVE PEAK GROUND ACCELERATIONS.

Introductory technical guidance for civil engineers interested in analytical modeling of hydraulic structures. Here is what is discussed: 1. INTRODUCTION, 2. TYPES OF CONCRETE HYDRAULIC STRUCTURES, 3. CONCRETE GRAVITY DAMS, 4. CONCRETE ARCH DAMS, 5. INTAKE-OUTLET TOWERS, 6. U-FRAME AND W-FRAME NAVIGATION LOCKS, 7. MASSIVE CONCRETE LOCK WALLS, 8. MASSIVE CONCRETE GUIDE WALLS, 9. ANALYTICAL MODELING PROCEDUR, 10. SUBSTRUCTURE METHOD, 11. STANDARD FINITE ELEMENT METHOD, 12. CONCRETE GRAVITY DAMS, 13. CONCRETE ARCH DAMS, 14. INTAKE-OUTLET TOWERS, 15. U-FRAME AND W-FRAME NAVIGATION LOCKS, 16. MASSIVE CONCRETE LOCK WALLS, 17. MASSIVE CONCRETE GUIDE WALLS.

Introductory technical guidance for civil and structural engineers interested in seismic analysis of concrete hydraulic structures. Here is what is discussed: 1. INTRODUCTION 2. GENERAL CONCEPTS 3. DESIGN CRITERIA 4. DESIGN EARTHQUAKES 5. EARTHQUAKE GROUND MOTIONS 6. ESTABLISHMENT OF ANALYSIS PROCEDURES 7. STRUCTURAL IDEALIZATION 8. DYNAMIC ANALYSIS PROCEDURES SLIDING AND ROTATIONAL STABILITY DURING EARTHQUAKES 9. SLIDING AND ROTATIONAL STABILITY DURING EARTHQUAKES 10. CURRENT PRACTICE ON USE OF RESPONSE SPECTRA FOR BUILDING-TYPE STRUCTURES.

Introductory technical guidance for civil engineers, structural engineers and other professional engineers interested if earthquake analysis for dam safety Here is what is discussed: 1. DESIGN AND SAFETY EVALUATION OF EARTHQUAKES, 2. DETERMINING MAXIMUM CREDIBLE EARTHQUAKES, 3. SELECTING MAXIMUM DESIGN EARTHQUAKES OR SAFETY EVALUATION EARTHQUAKES, 4. CHARACTERIZING SITE GROUND MOTIONS, 5. SEISMIC ANALYSES.

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.