RU2135297C1 - Method and apparatus for flotation of placer gold - Google Patents

Abstract

FIELD: gold mining. SUBSTANCE: invention, in particular, relates to flotation of gold- containing ores and gold-bearing dusts to recover fine and floating gold. To raw material, petroleum distillation products obtained at 170 to 195 C and xanthogenate at ratio 1:(1.2-3) are added and mixture obtained is floated with frother. Flotation apparatus has casing divided into chambers by partitions not touching top of casing. Height of chambers increases in direction of material travel, and chambers are shifted with respect to each other in horizontal plane. Chambers accommodate aerators and, in their bottom parts, water traps communicating with collector. Apparatus is also provided with froth collector constructed in the form of floating conduit inside casing, charge and discharge means. Clearance between above-mentioned partitions and top of casing constitutes 4/3 height of floating conduit. EFFECT: increased fine and floating gold recovery. 3 cl, 1 dwg

Description

 The invention relates to the field of mineral processing, in particular to the flotation of gold-bearing ores and gold-bearing sands of placer deposits and can be used to extract fine and floating gold.

 A known method of flotation of slurry gold-bearing ores, including the preliminary introduction of xanthate and conditioning with a modifier (Zelenov V.I. Methodology for the study of gold-bearing ores. M., Nedra, 1978, S. 119-120). The use of liquid glass as a modifier allows depressing waste rock minerals (sludge) and reducing their sorption ability, which increases the quality of the concentrate.

 The disadvantage of this method is the depression of gold and associated sulfides with liquid glass.

 A known apparatus for foamy flotation of ores, including gold-bearing, based on the principle of countercurrent flotation of a valuable component in a narrow vertical zone. The apparatus consists of an elongated vertical column, narrowed up and divided into three parts, with devices for supplying the upper part of the water, the middle pulp and the lower air (French Patent N 1369011, CL B 03 D, publ. 1964).

 A disadvantage of the known device is the high height of the flotation column, which requires high pressure air, which makes the process of flotation of placers very expensive.

 A known method of flotation of placer gold, including preliminary agitation of the feedstock with xanthate and blowing agent (G.P.Slavnin Flotation of placer gold. Gold-Soviet industry, ONTI-NKTP, 1936, N 2, S. 49-54).

 The disadvantage of this method is the insufficiently high extraction and gold content in the concentrate, which is due to the low selectivity of xanthates, and when using xanthates, concentrates with a high content of noble metals with high recovery are difficult or not possible at all, since moderate costs of the reagents do not ensure the complete extraction of valuable components, and an increase in costs leads to the removal of host minerals into the foam product and, consequently, to dilution vaniyu concentrates.

The closest in technical essence and the achieved result to the claimed invention are analogues:
- a method of flotation of sulfide ores, including the supply of xanthate, oil distillation products and blowing agent to the feedstock (RF Patent N 2038857, CL B 03 D 1/004, publ. 1995).

 - a device for flotation, comprising a housing divided by transverse baffles into chambers with aerators installed in them, made with a height increasing along the material, and located offset from each other in the horizontal plane; foam collector, loading and unloading devices (RF Patent N 2059443, CL B 03 D 1/24, publ. 1996).

 The disadvantage of this method is the low extraction of gold, which is due to the fineness of the grinding of processed raw materials and the insufficient consumption of xanthate during flotation of material of this class of grinding (-0.044 mm). In addition, obtaining a sulfur-nitrogen concentrate of oil requires additional costs for extraction.

 A disadvantage of the known device is the inability to maintain the pulp level with known automation means when working with more liquefied pulps, which are characteristic of placer gold flotation and can fluctuate T: W from 1: 5 to 1:18. In addition, this design of the flotation device does not capture large gold.

 The present invention eliminates the above disadvantages, increases the technological parameters of the flotation process of small and floating gold by increasing the flotation activity of the collector and the design features of the flotation machine.

The specified technical result is achieved by the fact that in the method of flotation of placer gold, including the processing of the initial pulp with xanthate and oil distillation products followed by the supply of a blowing agent, according to the proposed solution, oil distillation products obtained at a temperature of 170-195 ^o C are introduced, while the ratio of input products and xanthate is 1: 1.25 - 1: 3.

 The specified technical result is also achieved by the fact that the device for flotation of alluvial gold, comprising a housing divided by transverse baffles into chambers with aerators installed in them, made with a height increasing along the material, and located offset from each other in the horizontal plane; foam collector, loading and unloading devices, according to the proposed solution, the device is additionally equipped with a device for collecting large gold, made in the form of hydraulic traps installed in the bottom of each chamber, communicating with the collector, and the foam collector is made in the form of a floating chute, located inside the case, while the upper the edge of the inter-chamber partitions is installed below the upper edge of the sides of the housing at a distance equal to 4/3 of the height of the gutter.

 The essence of the claimed invention is as follows.

By the method: when introducing into the feedstock the products of the distillation of crude oil obtained at a temperature of 170-195 ^o C (for example, hydrochloric oil, kerosene, etc.), the apolar reagents are rubbed into the surface of the revealed gold-containing particles of sulfide minerals, carbonaceous shales, present in placers. Due to the preliminary adsorption of apolar reagents on the surface of the minerals, the consumption of xanthate fed to the flotation is reduced. Hydrophobization of oil products by the distillation of sulfide gold-bearing minerals with an oxidized surface promotes their extraction into the flotation concentrate and increases the extraction of gold. The ratio of oil distillation products obtained at a temperature of 170-200 ^o C and xanthate obtained experimentally from the point of view of obtaining the optimal technological parameters of the process (see table).

 On the device: a foam collector, made in the form of a floating type gutter, provides control of the pulp level without installing means for its automatic maintenance. The trench accelerates the transport of bubbles loaded with valuable mineral particles from the periphery to the center, thereby reducing their residence time in the foam layer. This allows you to reduce the air flow necessary to maintain a stable foam layer (and, most importantly, to avoid the loss of loaded particles from the foam layer into the chamber). The distance at which the inter-chamber partitions are separated from the top of the casing, equal to 4/3 of the height of the foam collecting trough, was obtained experimentally and provides smooth adjustment of the pulp level in the chamber. The installation of hydro traps in the chambers makes it possible to additionally trap (extract) large gold present in the source material.

 The design of the proposed device is shown in the drawing. 1. The device includes: a casing 1, divided by transverse partitions 2 not reaching the top, into chambers 3. Each subsequent chamber relative to the previous one is located stepwise, and in the upper part of the casing where the foam product is unloaded, they are on the same level. Each chamber is equipped with aerators 4 and hydraulic traps 5. Traps 5 communicate with the collector 6, which collects the captured gold, made in the form of a pipe. Material is transferred from chamber to chamber directly to the aerators by gravity through the windows 7. The device is also equipped with a loading device 8, an unloading device for the chamber product 9 and a foam collector made in the form of a floating chute 10 connected to a flexible hose 11 through which foam is released product.

 The upper edge of the interchamber partitions 2 is installed below the upper edge of the sides of the housing 1 at a distance equal to 4/3 of the height of the groove 10.

 The invention is illustrated by the following example of the method and operation of the device.

 The studies were conducted on the gold-containing sands of the placer deposit of the Polyarninsky GOK.

 According to chemical analysis, the starting material contained SiO - 75%, AlO - 8.8%, Mg - 1%, Ca - 0.2%, Ni - 0.005%, Mn - 0.03%, Au - 0.6 g / t

 The material entered a drum screen, where a large class of + 6 mm stood out and was dumped into a dump; class - 6 mm entered the classification in a spiral classifier. The discharge of the classifier with a grade of -0.3 + 0 mm was sent to flotation. The sands of the classifier with a class of -6 + 0.3 mm were fed to gravity and processed according to the traditional scheme.

 Soda was added to the classifier discharge to a pH of 8.5 - 9, oil distillation products were introduced in an amount of 50 g / t, xanthate at a flow rate of 150 g / t. The T: G ratio for flotation was 1:10.

 The pulp treated with reagents entered the chamber 3 through the loading device 8 and was distributed evenly in the chamber volume. There, after 1 min of agitation, a T-80 blowing agent was added. During the flow of pulp through the aerator 4, it was mixed and aerated, i.e. saturated with fine air bubbles with the simultaneous mineralization of the bubbles. Mineralized bubbles rose to the surface of the pulp and accumulated in the form of a layer of foam, which gravity transported into the groove 9, and then unloaded through a flexible hose 11, the stroke of which corresponds to 4/3 of the height of the groove 9. The groove was immersed in the pulp to the height of the foam layer and moved up and down along with a change in pulp level. The removal of foam occurred continuously, regardless of changes in the pulp level in the device.

 The chamber product of the first chamber through the window 7 was fed to the aerator 4 of the second chamber, etc. and unloaded through the discharge pipe 9.

 Gold with a particle size of -0.3 + 0.1 mm was captured by hydro-traps 5 and was discharged into a common collector 6 as they were filled.

 Gold recovery was 80% with a gold grade of 17.8%.

 The table shows the results of flotation experiments conducted on gold-containing sands with a gold content from 0.37 g / t to 1.6 g / t, confirming the distinctive features of the proposed method.

 As can be seen from the table, the best results were obtained with ratios of the products of distillation of oil and xanthate from 1: 1.25 to 1: 3 (experiments NN 1, 3). With ratios beyond these ranges, the extraction and quality of the concentrate is significantly lower.

 Thus, the claimed invention allows to increase the extraction of gold by 10-15%, reduce the consumption of xanthate, increase the stability of pricing, additionally recover large gold present in the feedstock going to the flotation.

Claims (2)

1. A method of flotation of placer gold, comprising treating the initial pulp with xanthate and oil distillation products followed by a blowing agent, characterized in that the oil distillation products obtained at 170-195 ^° C are introduced, and the ratio of oil distillation products and xanthate is 1: 1 25 - 1: 3.  2. A device for flotation of alluvial gold, comprising a housing divided by transverse baffles into chambers with aerators installed in them, made with a height increasing along the material, and located with offset relative to each other in the horizontal plane, a foam collector, loading and unloading devices, characterized in that it is additionally equipped with a device for collecting large gold, made in the form of hydraulic traps installed in the bottom of each chamber, communicating with collectors orom, and the foam collector is made in the form of a floating gutter placed inside the housing, while the upper edge of the interchamber partitions is installed below the upper edge of the sides of the housing at a distance of 4/3 of the height of the gutter.

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