Process for recovery of technical grade molybdenum from diluted leaching acid solutions (PLS), with highly concentrated arsenic, from metallurgical residues

摘要

A method for recovering technical-grade molybdenum from diluted acid leaching solutions (PLS) that have a high arsenic concentration is disclosed. The method includes: (a) contacting a pre-filtered PLS with an anionic ion-exchange resin; (b) washing the loaded resin with water; (c) extracting molybdenum from the resin with an alkaline ammonium regenerant solution to form ammonium molybdenum in solution; (d) washing the unloaded resin with water; (e) adding iron and/or magnesium salts to the recovered ammonia solution to obtain a precipitate which is transferred to the arsenic abatement step and a solution containing ammonium molybdate; (f) adding sulphuric acid to the arsenic-free ammonia solution to precipitate ammonium molybdate; (g) separating the precipitate by filtering the molybdate and re-circulating the solution obtained with the initial PLS; (h) calcining the separated precipitate to obtain ammonia and molybdenum trioxide; and (i) recovering the released ammonia for subsequent use as a recirculated regenerant solution.

主权项

1. A process for recovery of technical grade molybdenum from diluted leaching acid solutions (PLS) containing highly concentrated arsenic, from metallurgical residues, wherein the process comprises the steps of:
(a) contacting a pre-filtered acid leaching solution (PLS), from leaching of casting powders, with an anionic ion exchange resin to produce a charged ion exchange resin; (b) washing the charged ion exchange resin of step (a) with water; (c) extracting molybdenum from the washed ion exchange resin using an alkaline regenerating ammonium solution having a pH value between 8 and 12, to form ammonium molybdate in solution, which is recycled for adjusting molybdenum concentration; (d) washing the resin of step (c) with water; (e) adding magnesium and/or iron salts to the ammonium molybdate solution recovered in step (c) to form a precipitate of Mg3(AsO4)2 and/or FeAsO4 which is carried to an arsenic abatement step, and a solution containing ammonium molybdate in solution; (f) adding sulfuric acid to the ammonium molybdate solution obtained in step (e) for precipitating molybdenum in the form of ammonium molybdate ((NH4)4Mo8O26) in an acid medium having a pH value between 1.5 and 4; (g) separating the precipitate formed in step (f) by filtrating ammonium molybdate and recycling the obtained solution to the PLS solution of step (a); (h) calcining the precipitate separated in step (g) to obtain molybdenum trioxide (MoO3), and ammonia; and (i) recovering ammonia produced in step (h) for returning to the process as recycled regenerating solution.