RU2052523C1 - Schlich gold reprocessing method - Google Patents

Abstract

FIELD: production of noble metals. SUBSTANCE: method involves melting basic product to obtain melt with weight ratio of Au:Ag equal to or exceeding 4; pelleting melt and subjecting pellets to leaching by solution of hydrochloric and nitric acids. EFFECT: increased efficiency in extraction of schlich gold into solution.

Description

 The invention relates to the field of refining of precious metals and can be used to extract gold into solution from gold-bearing concentrates.

 A known method of extracting gold from gold-containing raw materials, comprising dissolving the starting product with a royal water solution at a ratio of T: G1: 3-4 when heated.

 The known method provides a high, up to 94.0% recovery of gold in solution by dissolving a gold-containing raw material containing a small amount of silver.

 However, upon dissolution of the sludge (ore and / or alluvial) gold-containing raw materials obtained by gravity enrichment of gold-containing sands or ores and which is a natural alloy of gold and silver, wt. Au 70-100, Ag to 30, the extraction of gold in the tsar-vodka solution decreases to 86.0-30% This is due to the fact that with an increase in the silver content in the alloy, the surface of the golds in the process of tsar vodka leaching is covered with a dense layer of silver chloride, which as the thickness increases prevents the dissolution of gold. The film of Fe, Al, and Si oxides on the surface of gold grains also reduces the degree of gold extraction into the solution.

 The purpose of the invention is to increase the degree of extraction of raw gold in solution.

 This goal is achieved by the fact that in the method of processing raw gold, including leaching with a solution of hydrochloric and nitric acids, the initial product is pre-melted to obtain an alloy with a mass ratio of Aw: Ag ≥ 4. Then, the melt is granulated, and the obtained granules are leached.

 The melting of the processed schlich gold with the increase, if necessary, of the gold to silver ratio in the melt composition of at least 4 allows the oxide films to be destroyed and removed to slag from the surface of the gold and helps to produce granules with a mass ratio of gold and silver in the alloy during granulation that prevents the formation of on the surface of the granules, when gold is leached with aqua regia, a layer of silver chloride, which ensures the almost complete dissolution of gold grains.

 The difference in the set of essential features of the claimed invention from the prototype determines its compliance with the requirement of novelty.

 The conformity of the claimed invention to the requirement of the inventive step is due to the fact that the combination of its distinctive features prevents the formation of silver chloride on the surface of the gold particles during the leaching process and thereby contributes to the complete extraction of gold into the solution and its separation from silver, which obviously does not follow from the prior art .

 The melting and slagging of metal impurities allows subsequent granulation to eliminate the harmful effect of films of metal impurities on the surface of gold particles on the process of gold leaching.

PRI me R 1 (prototype). A portion of schlich gold gold weighing 3 g (the first test, wt. Au 89.5; Ag 7.6, the second test, wt. Au 65.1; Ag 29.2) was dissolved in 120 ml of tsar-vodka solution with stirring for 5 h at a temperature of 80-90 ^about C. The extraction of gold in the solution was, the first test 86.4; 2nd sample 60.5. The surface of the gold after leaching is covered with a layer of AgCl up to 200 μm thick. The yield of leach cake was, the 1st test 25.9; 2nd sample 61.0. The composition of the leach cake, wt. 1st sample Au 38.70; Ag 26.8; 2nd sample Au 35.0; Ag 98.24.

PRI me R 2 (by the proposed method). The original raw gold containing wt. Ag 89.5; Ag 7,6 (ratio of Au / Ag 11,8) .Plavili in an electric furnace with flux type crucible at 1200 ° ^C. After melting, the melt was removed from the surface of the slag, and the granulated alloy in a container of flowing water. Granules with an Au / Ag ratio of> 4 were sent for gold leaching. Leaching was carried out while stirring the pellets in tsarskovodochnom solution at a ratio S: L of 1: 5 for 3 hours at 75 ° ^C. Extracting of gold in solution was 99.97% Yield 14.9% cake leaching Composition cake leaching wt. Au 0.00; Ag 100.0.

PRI me R 3. Concentrated gold containing, by weight. Au 65.1; Ag 29.2 (ratio Au / Ag 2.2), analogously to example 2, was melted in an electric furnace. The melt was alloyed with crude gold (99.0% Au) until the gold to silver ratio in the alloy increased to 4 m (Au / Ag 4). Slag was removed from the surface of the melt and then poured in a thin stream into a tank with running water. The obtained granules were sent for leaching of gold with a royal water solution. Leaching was carried out with a ratio S: L of 1: 5 at a temperature of 75 ^{° C} for 3 hours Gold recovery in solution was 98.76% Yield 29.8% cake leaching Composition cake leaching wt.. Au 4-10; Ag 50.30.

PRI me R 4. Concentrated gold containing, by weight. Au 65.1; Ag 29,2 (ratio of Au / Ag 2,2), was melted in an electric furnace at 1200 ^C. The melt was doped rough gold (99,0% Au) to the ratio of gold to silver in the alloy equal to 5.45. Slag was removed from the surface of the melt, and then the melt was granulated. The resulting granules tsarskovodochnym leached solution with a ratio S: L of 1: 5 at a temperature of 75 ^{° C} for 3 hours Gold recovery in solution was 99.97% Yield leaching cake cake 20% Composition leaching wt.. Au 0.13; Ag 99.87.

 It has been experimentally established that royal leaching of schlich gold after fusion and granulation without alloying the melt, i.e. when the ratio of gold to silver in the alloy of granules less than 4 is worse than the original. The extraction of gold into the solution in this case is 5.65%, while the leaching of the original raw gold gives a recovery of 60.5% from the average sample. An increase in the ratio of gold to silver in schlich gold grains of more than 4 increases the extraction of gold into solution to 99.0-99.97%. Leaching of a granular alloy with a mass ratio of Au / Ag ≥ 4 proceeds more intensively and ends after 2 hours instead of 5 hours for the initial raw gold and for alloys with an Au / Ag ratio <4.

 Thus, the proposed method for the leaching of raw gold provides almost complete extraction of gold into the solution and its separation from silver.

Claims (1)

 METHOD FOR PROCESSING STRAIGHT GOLD, including melting the starting material to obtain an alloy, granulating it and leaching in a solution of aqua regia, characterized in that the melting is carried out to obtain an alloy with a mass ratio of gold and silver greater than or equal to 4.