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532.5 --- Fluid dynamics --- Numerical analysis --- Mathematical analysis --- Dynamics --- Fluid mechanics --- 532.5 Liquid motion. Hydrodynamics --- Liquid motion. Hydrodynamics --- Fluid dynamics. --- Numerical analysis.
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The physical principles of water hammer are explained in this volume. The basic mathematical methods of solution of water hammer and ways of limiting its effects are covered. Detailed description is given of the method of characteristics and the corresponding programs for personal computers, which enables solution of water hammer in a wide variety of hydraulic systems encountered in practice. Examples are given of solution of water hammer of common pipe-line systems as well as calculation of the steady state of flow, the determination of discharge through a pipe-line, measurements of character
Water hammer --- Hydraulic transients --- Water-pipes --- Mathematics --- Data processing. --- Mathematical models. --- Hydrodynamics
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Cellulase --- Sugars --- Hydrolysis --- culture media --- Trichoderma --- Oxygen consumption --- Enzyme inhibitors --- Hydrodynamics --- experimentation. --- experimentation --- Bioreactors --- Interface phenomena
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Physics --- Vibration --- Waves --- Ondes --- Vibration. --- Waves. --- 534.01 --- Elementary theory of vibrations --- 534.01 Elementary theory of vibrations --- Cycles --- Hydrodynamics --- Benjamin-Feir instability --- Mechanics --- Sound
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Physique --- Problèmes et exercices --- Physics --- Hydrodynamique --- Hydrodynamics --- Solide --- Solids --- Propriété magnétique --- Magnetic properties --- Propriété électrique --- Electrical properties --- Génie électrique --- Electrical engineering --- Problèmes et exercices --- Cinetique --- Question --- Reponse
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Soil structure. --- Groundwater flow. --- Soil structure --- Groundwater flow --- #ABIB:altk --- Flow, Groundwater --- Hydraulics --- Fluids --- Subsurface drainage --- Soil aggregates --- Soil morphology --- Structural aggregate --- Soil physics --- Migration --- Hydrodynamics
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Water waves --- Hydrodynamics --- 532.537 --- 519.6 --- Inlet, outlet channels. Backwaters. Drop-down curves --- Computational mathematics. Numerical analysis. Computer programming --- 519.6 Computational mathematics. Numerical analysis. Computer programming --- 532.537 Inlet, outlet channels. Backwaters. Drop-down curves
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Groundwater --- Groundwater flow --- Hydraulics --- Flow of water --- Water --- Fluid mechanics --- Hydraulic engineering --- Jets --- Flow, Groundwater --- Fluids --- Subsurface drainage --- Ground water --- Subterranean water --- Underground water --- Water, Underground --- Hydrogeology --- Flow --- Distribution --- Migration --- Hydrodynamics
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Simulating Nearshore Environments provides computer procedures that realistically represent nearshore processes and supplement or replace trial and error methodology. The procedures simulate transport by waves and fluvial processes on beaches and deltas at various scales. They will aid coastal engineers, oceanographers and sedimentary geologists who focus on both modern and ancient nearshore deposits. How do you simulate nearshore processes using a computer?
Coast changes --- Water waves --- Sediment transport --- Fluvial sediment transport --- Stream sediment transport --- Transport, Sediment --- Erosion --- Breakers --- Surface waves (Water) --- Hydrodynamics --- Waves --- Wind waves --- Coastal erosion --- Coasts --- Shore erosion --- Littoral drift --- Physical geography --- Computer simulation.
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