Abstract
The design of solvent extraction plants has been generally based on the assumption of steady operating conditions in both the settler and the mixer units. However, recent experience in both large and small plants has shown this not to be the case. Mixer transients include start up aqueous locking and partial phase separation in secondary mixers, which both lead to reduced plant capacity or overflow of upstream mixers. Analysis of the hydraulic pressure profiles has generated new design methods to eliminate the effects of the partial or complete phase separation. Changes to the method of specification and selection of primary and secondary mixers have been made to eliminate the onset of partial separation during operation. The observation of settler operation has shown that it is also a dynamic process, even under “steady-state” conditions. Four transient phenomena have been identified that lead to internal circulating flows, poor disengagement affine secondary haze and erratic and high entrainment levels in the discharges. A first approximation analysis has shown that there are significant pressure differentials within settlers, and these change along the length and with the phase separation rates. A technique to control the effects of these transients was developed that allows plant performance to be improved beyond “tstandard” expectations. The design and selection of the settler internals is described.
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References
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Miller, G. Design tools to control transients in solvent extraction plants. Mining, Metallurgy & Exploration 19, 57–64 (2002). https://doi.org/10.1007/BF03403257
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DOI: https://doi.org/10.1007/BF03403257