RU2098503C1 - Apparatus to leach noble metals from pulps - Google Patents

Abstract

FIELD: leaching of ore pulps by agitation and cyanidation of ore pulps. SUBSTANCE: apparatus to leach noble metals from pulps by agitation includes body with branch pipes for inlet and outlet of pulp and pulp agitator. Pulp agitator is manufactured in the form of centrifugal pump which inlet and discharge branch pipes are joined to lower part of body of apparatus. EFFECT: intensification of process of ore cyanidation, decreased losses of gold in rejects. 1 dwg

Description

 The invention relates to hydrometallurgy of precious metals, in particular to devices for cyanidation of ore pulps by stirring, and can be used for agitation leaching of metals from pulps.

Known apparatuses for cyanidation of pulp by stirring, including a container with nozzles for introducing and discharging pulp and a pulp mixer, in which pulp is mixed by mechanical, pneumatic or pneumomechanical mixers [1]
The disadvantages of the known apparatus include the gradual accumulation of large pulp particles in the lower part of the apparatus, which leads to a decrease in the efficiency of cyanide pulp and an increase in the duration of the leaching of precious metals into a cyanide solution.

 The objective of the invention is to remedy these disadvantages, namely the intensification of the process of cyanidation of the pulp and increase the degree of extraction of precious metals in a cyanide solution.

 The specified technical result is achieved by the fact that in the apparatus for leaching precious metals from pulps by stirring, comprising a housing with a pulp input and output pipe and a pulp mixer, according to the invention, the pulp mixer is made in the form of a centrifugal pump, the suction and discharge pipes of which are connected to the lower part of the apparatus .

 The compliance of the invention with the requirement of novelty is due to the fact that the combination of its essential features is not identical to the essential features of the prototype.

 The compliance of the invention with the requirement of an inventive step is determined by the fact that the combination of its distinctive features due to the intake of pulp by a pump from the lower part of the casing and pumping it into the lower part of the casing under pressure that overcomes the pressure of the pulp column in the casing of the apparatus, as well as due to pulp circulation outside the apparatus through closed circuit between the casing and the pump, providing intensive mixing and aeration of the pulp, prevents the deposition of a large fraction of pulp in the lower part of the casing and intensification There is a process of gold dissolution due to the autoclave effect associated with stirring and cyanidation of the pulp in the lower part of the apparatus under excess pressure exceeding the pressure of the pulp column in it, which obviously does not follow from the prior art by the stirrer cyanidation of the pulp.

 The drawing schematically shows the proposed apparatus.

 The apparatus comprises a housing 1, pulp inlet 2 and outlet 3 nozzles located in the upper part of the housing, and a pulp mixer in the form of a centrifugal pump 4 with a reverse suction, the suction 5 and discharge 6 of which are connected by piping to nozzles 7 and 8 installed in the lower part housing 1.

 The device operates as follows.

 The original pulp enters the housing 1 through the pipe 2, is sucked up by the pump 4 through the nozzle 7 of the suction pipe 5 and then through the discharge pipe 6 is pumped under pressure through the nozzle 8 under the level of the pulp into the lower part of the housing. Leaving nozzle 8, the pulp jets, overcoming the pressure of the pulp column in the casing, pass from bottom to top through the pulp layer and, preventing the deposition and accumulation of large pulp particles in the lower part of the casing, intensively mix the pulp in the "fluidized bed" mode. By circulating in this way between the casing and the pump, the pulp is saturated with oxygen and, being mixed under excessive pressure, it is cyanide in the lower part of the casing.

 At the same time, due to mixing of the pulp in the lower part of the casing at excess pressure, the leaching of precious metals from solid to liquid pulp is intensified due to the autoclave effect and, in addition, by mixing the entire volume of pulp cyanide in the apparatus, by preventing the accumulation of a large fraction of pulp in the lower part of the body increases the extraction of precious metals in a cyanide solution.

 The proposed apparatus was tested at the Nizhne-Kuranakh ZIF during cyanidation of the sand pulp fraction with a solid size of 0.3 ± 0.16 mm of a solution of 0.2 g / l NaCN. It was experimentally established that, compared to cyanide in beams, the duration of gold leaching was reduced from 8 to 4 hours, and the gold content in the solid phase of cyanide tails decreased from 0.45 to 0.30 g / t.

 Thus, the proposed apparatus allows for agitation leaching of precious metals from pulps to reduce the leaching time by 2 times while reducing the loss of gold with a solid tail phase by about 30

Claims (1)

 An apparatus for leaching precious metals from pulps containing a casing, pulp inlet and outlet pipes and a pulp mixer, characterized in that the pulp mixer is made in the form of a centrifugal pump with suction and discharge pipes connected to the lower part of the housing.