Search for dissertations about: "stirred vessel"
Showing result 1 - 5 of 7 swedish dissertations containing the words stirred vessel.
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1. Fluid and Solid Particle Dynamics in Stirred Vessels
Abstract : The present thesis deals with the fluid dynamics of stirred vessels and particularly those that are to be used in conjunction with solids suspensions. Stirred vessels are very common in the process industry and large amounts of energy can be saved by optimising their operation. READ MORE
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2. Fluid Mechanics of Solid-Liquid Suspensions An Experimental and Numerical Study
Abstract : Multiphase flows are common in many applications in chemical, mineral, biochemical and several other process industries. Examples of equipment in which multiphase flows are encountered are stirred vessels and multiphase jets, in which suspensions are agitated by an impeller in the former case and distributed through a nozzle in the latter. READ MORE
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3. Hydrodynamics and Complete Suspension in Axially Stirred Vessels
Abstract : Complete suspension of solid particles in stirred vessels has been subject to numerous investigationsin order to develop appropriate design criteria for solid/liquid suspensions. Previous work on this matter has often suffered from the lack of knowledge of fluid mechanics in the system and models based on overall flow characteristics have been proposed in the literature. READ MORE
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4. Flow structures in solid-liquid suspensions in mixing and confined jets
Abstract : This thesis investigates the influence of solid particles on different liquid flow systems.Large-scale periodic fluctuations such as macro instability (MI) phenomena in a mixingvessel and jet flows in a confined jet were experimentally analyzed by means of LDV. Theinfluences of different sized (0.5mm-2mm) glass particles (0%vol - 6. READ MORE
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5. A Computational Investigation of Transport Phenomena in Stirred Reactors and Catalyst Particles
Abstract : Transport phenomena in stirred vessels and catalyst particles have been studied with computational models. The turbulent flow in a cylindrical, baffled vessel stirred with a coaxially mounted Rushton turbine was represented with a numerical solution of the transport equations. The influence of turbulence was accounted for by the .kappa. READ MORE