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Introductory technical guidance for civil engineers and other professional engineers and construction managers interested in spillway gates for dams. Here is what is discussed: 1. GENERAL DESCRIPTION, 2. TAINTER GATES, 3. VERTICAL LIFT GATES, 4. WICKET GATES, 5. HINGED CREST GATES, 6. ROLLER GATES, 7. DRUM GATES, 8. BEAR TRAP GATES, 9. BLADDER DAMS.
Introductory technical guidance for civil engineers, mechanical engineers and other professional engineers and construction managers interested in hydraulic operators for dams and locks. Here is what is discussed: 1. DESCRIPTION AND APPLICATION, 2. HYDRAULIC SYSTEMS, 3. COMPONENT PARAMETERS, 4. HYDRAULIC CYLINDERS, 5. HYDRAULIC MOTORS, 6. HYDRAULIC PUMPS, 7. CONTROL VALVES, 8. RESERVOIRS, 9. MANIFOLDS, 10. FILTERS, 11. ACCUMULATORS, 12. PIPING, 13. HYDRAULIC FLUID, 14. GAUGES, 15. SPECIAL DESIGN CONSIDERATIONS AND LESSONS LEARNED, 16. POSITION MEASURING SYSTEMS.
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, environmental engineers and other professional engineers and construction managers interested in industrial water treatment. Here is what is discussed: 1. CHEMICAL CLEANING OF INDUSTRIAL WATER SYSTEMS, 2. COOLING TOWER WATER TREATMENT, 3. MAKEUP WATER FOR INDUSTRIAL WATER SYSTEMS, 4. OILY WASTEWATER COLLECTION AND TREATMENT, 5. PRETREATMENT CONSIDERATIONS FOR WATER DESALINATION, 6. TREATMENT OF CLOSED INDUSTRIAL WATER SYSTEMS, 7. WATER SAMPLING AND TESTING, 8. TREATMENT OF STEAM BOILER WATER.
Introductory technical guidance for civil engineers, environmental engineers, mechanical engineers and other professional engineers and construction managers interested in oily wastewater collection and treatment. Here is what is discussed: 1. OBJECTIVES, 2. SOURCES, 3. DISCHARGE CRITERIA, 4. POINT SOURCE CONTROL, 5. DISPOSAL OF OIL, 6. EMERGENCY CONTAINMENT AND CLEANUP, 7. OILY WASTEWATER CHARACTERISTICS, 8. COLLECTION AND TRANSFER, 9. OILY WASTEWATER TREATMENT, 10. DESIGN CRITERIA FOR OIL-WATER SEPARATORS AND APPURTENANCES.
Lock Gates and Other Closures in Hydraulic Projects shares the authors practical experience in design, engineering, management and other relevant aspects with regard to hydraulic gate projects. This valuable reference on the design, construction, operation and maintenance of navigation lock gates, movable closures of weirs, flood barriers, and gates for harbor and shipyard docks provides systematic coverage on all structural types of hydraulic gates, the selection of gate types, and their advantages and disadvantages. The discussion includes the latest views in new domains, such as environmental impact of hydraulic gate projects, sustainability assessments, relation with the issues of global climate change, handling accidents and calamities, and the bases of asset management. Heavily illustrated, this reference provides a generous amount of case studies based on the author's own and their colleagues' experiences from recent projects in Europe, America and other continents. - Presents extensive coverage of the operational profiles of hydraulic closures, including gates in navigation locks, movable closures on river weirs, closures of flood barriers, spillway closures and valves, and more - Outlines the different structural types of hydraulic gates, including miter gates, vertical lift gates, flap and hinged crest gates, radial gates, rolling and barge gates, sector gates and many other - Clearly outlines the selection process for gates for navigation locks, river weirs, flood barriers, hydroelectric plants, shipyard docks and other hydraulic structures - Provides comprehensive discussion of design loads and other actions to which hydraulic gates may be subjected during their service life, followed by an overview of analysis methods and tools - Addresses the newest challenges and concerns in hydraulic gate projects, such as environmental impact of hydraulic gate projects, risk-based design, sustainability issues, handling accidents and calamities, and gate maintenance in view of asset management - Presents the experiences from many recent projects in Europe and America, including the rolling gates in large European sea locks, gates in the Panama Canal new locks, flood barriers in New Orleans and the Netherlands
Dam decommissioning or dam removal has been increasingly common since the past decade. The reason for considering dam removal may have to do with the safety of dams, high repair costs, high operating and maintenance costs, or effects on fish passage and water quality. However, the decision to remove a dam must be based on careful evaluation of the alternatives to address the specific problem at each dam. The ICOLD Committee for decommissioning dams was established in 2005 to develop information that can be used by ICOLD members to respond to questions about the dismantling of dams and to provide a forum for the exchange of information . This ICOLD Bulletin is not intended as a design guide, but as a guide to the decision making process, consultation and regulatory approvals, design and construction issues, sediment management and performance monitoring. The primary aim of these Dam decommissioning guidelines is to provide dam owners, dam engineers and other professionals with the information needed to guide decision making when considering dam dismantling as a project alternative. They are not meant to be used as a design guide, but as a guide to highlighting the points of interest. The guidelines in this ICOLD Bulletin apply only to flood defense structures and not to fall dams.