Multivariable control of the crystal size distribution in an MSMPR crystallizer

Johnson, Jeffrey L.

08 1900

No description available.

Crystallization

Separation (Technology)

Effects of some interfacial phenomena on mass transfer in agitated liquid-liquid dispersions

Kanel, Jeffrey Scott

05 1900

No description available.

Extraction (Chemistry)

Separation (Technology)

Multicomponent batch distillation

Barnette, Darrell Thomas

05 1900

No description available.

Distillation

Separation (Technology)

Separation of ultrafines in dispersions using electrocoagulation

Kukunoor, Nagesh Sri

12 1900

No description available.

Separation (Technology)

Electrocoagulation

Particles

Effect of impurities and agitation on properties of L-isoleucine crystals obtained from batch crystallizers

Koolman, Hannia Canossa

08 1900

No description available.

Crystallography

Separation (Technology)

Batch crystallization and crystal purity

Gambrel, Timothy Wayne

08 1900

No description available.

Crystallization

Separation (Technology)

Radon remediation using fluid-based recovery systems

Sulak, Jodi Lopez

05 1900

No description available.

Radon mitigation

Separation (Technology)

Diffusion of ethanol in organic solvents

Sommerville, Douglas R.

05 1900

No description available.

Separation (Technology)

Diffusion

Enhancement of magnetic susceptibility by leaching and application in mineral separation

Hall, Stephen Thomas.

January 1985

Enhancement of the magnetic susceptibility of pyrite particles is observed following a mild oxidative pressure leach. This increase is studied for a range of experimental conditions. The increase in susceptibility is attributed to the formation of a thin layer of ferromagnetic oxides. This layer of leach reaction products has been extensively studied using various analytical techniques. The species identified are (gamma)-Fe(,2)O(,3) and Fe(,3)O(,4), which supports a previously postulated reaction model. / This leach treatment significantly increases the magnetic susceptibility of coal-pyrite permitting improved high-gradient magnetic desulfurization of a high pyritic sulfur coal. / The leach treatment also enhances the magnetic susceptibility of other iron-containing mineral sulfides. However, application of this leach pretreatment in sulfide/sulfide separations is limited due to galvanic coupling effects which passivate the susceptibility increase reaction. In the presence of oxides, coal and probably other non-sulfides passivation does not occur and the susceptibility of the iron-bearing sulfide increases. The potential exists for the application of the leach as a pretreatment in enhancing fine iron-containing sulfide/non-sulfide magnetic separations.

Leaching.

Pyrites.

Separation (Technology)

Separation and coalescence phenomena in three phase systems

Smith, Peter Graham.

January 1984

The behavior of model three phase solid/liquid/liquid systems has been studied in the external fields of shear or gravity. Observations of the deformation and break-up of solid-liquid clusters in a simple shear field has led to an investigation of various aspects of separation and coalescence phenomena: the interaction of solid particles and drops in simple shear, film thinning processes, the thermodynamics of engulfment and solid-liquid separation by the external fields. / A microrheological approach was used to determine which parameters are important to the behavior of these systems in simple shear. Among the most important were found to be the liquid/liquid interfacial tension, the incidence of three phase contact and/or the wettability of the solid surface. / The importance of these paramters was also investigated in the formation and stability of sphere-drop systems in a gravitational field, and the detachment of the liquid drop by surface and gravitational forces. / Extensions to existing theory have been made to include gravitational effects in the thinning of a liquid film which forms around a sphere. Finally, an asymptotic solution to the Laplace equation of capillarity has been developed which may be applied to various axisymmetric liquid/fluid interfaces not too far from spherical shape. / The findings in this thesis are highly relevant to various industrial processes (such as in the production of oil, minerals, paper, etc.) where three phase systems are encountered.

Separation (Technology)

Fusion.

Liquation.