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Introductory technical guidance for civil engineers interested in spillways for small dams. Here is what is discussed: 1. GENERAL 2. SERVICE SPILLWAYS.
Introductory technical guidance for civil engineers and other professional engineers and construction managers interested in spillways for small dams. Here is what is discussed: 1. GENERAL, 2. SERVICE SPILLWAYS.
Introductory technical guidance for civil engineers interested in hydraulic design of spillways at dams and other water resources facilities. Here is what is discussed: 1. INTRODUCTION 2. BASIC CONSIDERATIONS 3. GENERAL CONSIDERATIONS FOR SPILLWAY DISCHARGE 4. ABUTMENT AND PIERS 5. EFFECT OF APPROACH FLOW 6. GRADIENTS IN GENERAL 7. HYDRAULIC AND ENERGY GRADIENT LINES 8. MEAN SPILLWAY PRESSURE COMPUTATION 9. SPILLWAY ENERGY LOSS 10. ENERGY LOSS FOR FULLY DEVELOPED TURBULENT BOUNDARY LAYER FLOW 11. TURBULENT BOUNDARY LAYER DEVELOPMENT ENERGY LOSS 12. HYDRAULIC JUMP ENERGY DISSIPATORS 13. CAVITATION.
Introductory technical guidance for civil engineers and other professional engineers and construction managers interested in design and construction of small dams. Here is what is discussed: 1. SMALL DAM TYPES 2. SMALL CONCRETE GRAVITY DAMS 3. EARTHFILL EMBANKMENT DAMS 4. EMBANKMENT DESIGN 5. CONCRETE CONDUITS 6. OUTLET WORKS 7. SOIL EXPLORATION.
Recent advances in technology have permitted the construction of large dams, reservoirs and channels. This progress has necessitated the development of new design and construction techniques, particularly with the provision of adequate flood release facilities. Chutes and spillways are designed to spill large water discharges over a hydraulic struc
An unsurpassed treatise on the state-of-the-science in the research and design of spillways and energy dissipators, Hydraulics of Spillways and Energy Dissipators compiles a vast amount of information and advancements from recent conferences and congresses devoted to the subject. It highlights developments in theory and practice and emphasizing top
Stepped channel design has been in use for more than 3,500 years. Recent advances in technology have triggered a regained interest in stepped design, although much expertise has been lost in the last 80 years. The steps significantly increase the rate of energy dissipation taking place along the chute and reduce the size of the required downstream energy dissipation basin. Stepped cascades are also used in water treatment plants to enhance the air-water transfer of atmospheric gases (e.g. oxygen, nitrogen) and of volatile organic components (VOC). Results from more than forty-five laboratory studies and four prototype investigations were re-analysed and compared. The book provides a new understanding of stepped channel hydraulics, and is aimed both at researchers and professionals.