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Fluid dymanic characteristics of a magentically stabilized liquid-solid fluidized bedHonorez, Laure 25 January 1994 (has links)
Graduation date: 1994
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Fluidized systems : a study of reaction rates (the reduction of a lead sinter by hydrogen)Lill, John Charles January 1961 (has links)
Typewritten / 262 leaves : ill. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / This thesis deals with the reduction of a typical updraught lead sinter by hydrogen in fluidized systems, and the project forms part of a fundamental investigation of a proposed new process for the production of metallic lead. / Thesis (Ph.D.)--University of Adelaide, 1962
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Factors affecting fluidized bed quality.Romero, Jacob Benjamin, January 1959 (has links)
Thesis (Ph. D.)--University of Washington. / Vita. "Literature cited": L. [127]-129.
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Studies in large scale fluidisation.Young, Anthony David. January 1969 (has links) (PDF)
Thesis (M.E.)-- University of Adelaide, Dept. of Chemical Engineering, 1970.
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Fluidized systems : a study of reaction rates (the reduction of a lead sinter by hydrogen).Lill, John Charles. January 1961 (has links) (PDF)
Thesis (Ph.D.)--University of Adelaide, 1962. / Typewritten.
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Conditions necessary for particulate fluidizationBjøntegård, Hans Ole. January 1961 (has links)
Thesis (M.S.)--University of Wisconsin--Madison, 1961. / Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 59-62).
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On the local transient nature of bubbling fluidization /Sutton, Clay Robert, January 2005 (has links)
Thesis (Ph. D.)--Lehigh University, 2005. / Includes vita. Includes bibliographical references (leaves 253-280).
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Hydrodynamics of gas-liquid fluidization in annular fluidized bed and fluidization of cylindrical particles under high gas holdup conditions /Bavarian, Farshad, January 1987 (has links)
Thesis (M.S.)--Ohio State University, 1987. / Includes bibliographical references (leaves 83-85). Available online via OhioLINK's ETD Center
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Two component fluidization.LeClair, Brian Peter January 1964 (has links)
Studies were made of the distribution of components, when two materials are fluidized in a liquid. The hypothesis tested was that the distribution of material is a function of the bulk density difference of the component beds. The component bed having the greatest bulk density will occupy the bottom of the total bed. It is possible for the bulk density of one material to be greater than the other at low velocities, and less than the other at high velocities. At some intermediate condition the bulk density difference between the two beds must be zero. This situation, called the inversion point, produces homogeneous mixing of the two components.
Mixtures of two materials for which an inversion was predicted by the stated hypothesis were tested. In the intermediate and turbulent flow regions inversions did not occur because macroscopic mixing destroyed the bulk density gradients being established. However, in the laminar flow region, where mixing was negligible, inversions did occur.
The quality of the inversion was affected as follows. For a sharp clear inversion of the two materials at the predicted velocity, the diameter ratio of the two groups of particles must be much greater than one and the density ratio (corrected for buoyancy) of the two groups of particles must be much less than one. Also of importance is the absolute density (corrected for buoyancy) of the particles.
Particle size distribution also appeared to strongly affect the quality of the inversion. These distributions set up balk density gradients within the single component beds. This appeared to cause mixing of the two components and in some cases even formation of the two inverted beds before the predicted inversion velocity was reached.
The prediction of the bed expansion of mixtures was also studied. A correlation was developed on the assumption that each component of the mixture could be treated separately. The overall expansion thus would be the sum of the expansions of the individual components. There was very good agreement between values predicted by this method and experimental data. The method predicted expansion well for all degrees of mixing of the two components, but did not predict well when one of the components was near its minimum porosity for fluidization.
The empirical equations of Richardson and Zaki (4) for single component liquid fluidization expansions were checked. The values of the index "n" Obtained from experimental data agreed within ± 5% of those calculated using the correlations. The equation developed by Richardson and Zaki for determining the free settling velocity of a single particle from extrapolated expansion data gave results which were within ± 15% of those obtained using the standard drag coefficient-Reynolds number plot for an isolated sphere. / Applied Science, Faculty of / Chemical and Biological Engineering, Department of / Graduate
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Flow characteristics of fluid-solid mixturesJohnson, Norman Allan January 1967 (has links)
This thesis deals with pneumatic conveying in a closed duct. The closed duct consists of approximately 260 feet of 2-inch standard pipe made up of horizontal, vertical, and elbow sections. An expression is developed which provides the pressure differential between the two ends of the closed duct in terms of the variables which appear to affect two-phase flow. The development and assembly of the apparatus used in studying and evaluating the theory is described
in considerable detail, with a view to future work in this field. The data acquired from the experimental apparatus is analysed in an attempt to correlate the various flow resistance factors, due to the particulate phase, with the characteristics of the particulate material. The results and conclusions derived from the experimentation
and analysis described herein, while not definitive, shed some new light on the complexities of two-phase flow and provide a rational empirical approach to the study of two-phase flow systems. / Applied Science, Faculty of / Mechanical Engineering, Department of / Graduate
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