United States Patent : US4004991 : Two-stage Pressure Leaching Process for Zinc and Iron Bearing Mineral Sulphides PDF Download

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Languages : en
Pages : 10

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Languages : en
Pages : 10

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A process - an improvement on that described in our patent No. 800224 - for treating zinc sulphide materials ( and recovering at least some of sulphide as elemental sulphur) wherein the sub-divided material is firstly leached, under pressure at less than 119 degrees C, with a sulphate leach solution low in sulphuric acid and having a high iron content together with zinc and impurities in a manner causing iron to precipitate and subsequently leaching the residue and redissolving the iron precipitate with spend electrolyte containing regenerated sulphuric acid resulting from the treatment of the leach liquor obtained from the first leach step and wherein the leach solution from the subsequent leach step constitutes the starting leach solution for the first leach step. The second leach step is carried out in two stages; a first leach stage conducted at elevated pressure and elevated temperature (less than 119 degrees C - ie below the melting point of sulphur) in the presence of oxygen and a second stage at atmospheric pressure and without the supply of free oxygen to the leach solution.

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Category : Extraction (Chemistry)
Languages : en
Pages : 16

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A process for the treatment of zinc sulphide containing concentrates by leaching at lower pressures and temperatures than existing processes (Sherritt Gordon) but nevertheless has acceptable kinetics for industrial applications. The following steps are involved: 1. Contacting pulverised zinc sulphide containing material with an aqueous leach solution containing zinc, 5 to 50 gpl iron and a maximum of 20 gpl sulphuric acid, and at a temperature between 70 degrees C and 119 degrees C. (Note MP of sulphur is 119 degrees C) as the zinc dissolves iron precipitates. 2. Separate the leach liquor from the solids. 3. Purify the leach liquor from 2 as necessary and electrowin most of the zinc leaving a spent electrolyte containing regenerated sulphuric acid. 4. Contact the solids from 2 with the spent electrolyte from 3 causing re-dissolution of the iron precipitate and further leaching of zinc and other metal impurities. 5. Separate the solids and liquids from 4. 6. Utilising the leach solution from 5 as a major portion of the leach solution for step 1. By controlled conditions in leach 1 the zinc mineral-sphalerite - effectively acts as a neutralising agent enabling the iron to be precipitated from the solution. Zn + Fe2 (SO4) -- ZnSO4 + 5 degrees + 2FeSO4 (Eq 1). 2FeSO4 + 1/2O2 + H2SO4 -- Fe2(SO4)3 + H2O (Eq 2). 2FeSO4 + 1/2O2 + 3H2O -- 2 FeOOH + 2H2SO4 (Eq 3). 2FeOOH + 3H2SO4 -- Fe2(SO4)3 + 4H2O (Eq 4). Precipitation of iron (Eq 3) is associated with the production of sulphuric acid and only proceeds to equilibrium if conditions are correctly selected. Equations 1, 2 and 3 can be made to occur simultaneously and the iron precipitating as a filterable Goethite, which easily re-dissolves in return electrolyte.

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Languages : en
Pages : 43

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Author: Hernando Eduardo Battilana Arauco
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Languages : en
Pages : 282

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Languages : en
Pages : 10

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Author: Martin H. Stanczyk
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Category : Blasting
Languages : en
Pages : 32

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Author: Carl C. Merrill
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Category : Aggregates (Building materials)
Languages : en
Pages : 594

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