A separator for liquid-liquid dispersions

The present study concerns the separation of fine liquid-liquid dispersions having mean droplet diameters between 20 and 100 pm by phase inversion. A theoretical model based on gravity separation is proposed. Two modes of operation of the settling device are studied: without and with bed formation.

Plate separators are an effective and often used apparatus for the separation of droplets from liquids, e.g. in the case of oil-water purification . The separation is accomplished by coalescing the droplets on inclined plates . Our previous papers dealt with the separation performance, design and hy

Plate separators are effective and often used apparatus for tbe separation of droplets from liquids, e.g. in the case of oil/water purification. The separation is accomplished by letting/the droplets coalesce on inclined plates. Mathematical models for stratified two-phase flow between the plates of

A cryostat incorporating a dilution refrigerator and high field superconducting solenoid has been constructed which requires automatic helium transfer. A gas-liquid separator for this has been designed and is described.

A simplified and effective phase separator for use in flow systems is described. The sample, 300 l, is introduced into an aqueous stream (flow injection). The aqueous phase, containing the sample plugs, is divided into small segments by an organic phase using a commercial T-connector. Separation of