Sulfide gold ore beneficiation technology and process flow

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Sulfide gold refers to a type of gold ore in which gold exists in the form of sulfide in the ore, and is an important mineral resource for obtaining gold. Common sulfide gold minerals include pyrite, chalcopyrite, galena, etc., which are often associated with gold elements. The characteristic of sulfide gold ore is that the gold particle size is small, and it is usually closely associated with other minerals, making it difficult to extract directly. Therefore, a specific beneficiation process is required to separate gold from the ore.

Let's take a look at the sulfide gold beneficiation methods and what the process flow is?

1. Gold sulfide beneficiation method

1. Gold sulfide flotation method

Flotation is a method of mineral separation that utilizes the differences in the physical and chemical properties of the mineral surface and adds flotation agents to selectively attach the target mineral to the bubbles, thereby achieving mineral separation. For sulfide gold ore, flotation mainly utilizes the hydrophobicity of the surface of gold minerals and sulfide minerals. Under the action of flotation agents, gold minerals and sulfide minerals can be adsorbed by bubbles and float to the surface of the pulp to form a foam product, namely gold-sulfur concentrate.

Flotation is suitable for the selection of various types of gold sulfide, and has relatively low requirements for ore particle size and mineral composition. In the flotation process, in addition to gold, other valuable metals such as copper, lead, and zinc can also be recovered at the same time to improve the comprehensive utilization rate of resources.

2. Gold sulfide gravity selection method

Gravity selection of gold sulfide is based on the density difference between gold and other minerals. Under the action of gravity, gold minerals and other minerals are separated in the medium, thereby achieving gold separation. During gravity selection, the ore containing gold sulfide is placed in a specific separation medium, such as air, water, heavy liquid or suspension. Mineral particles of different specific gravities are affected by gravity and medium resistance in the medium, and gravity causes the particles to sink, thereby achieving the separation of gold sulfide. This process is simple and low-cost, and is suitable for processing coarse-grained materials with a certain specific gravity difference, but the selection efficiency is low when processing fine particles.

3. Sulfide gold cyanidation method

Cyanidation is a mineral processing method that uses the good solubility of gold in cyanide solution to dissolve gold from the ore, and then extracts gold from the solution through displacement or electrolysis. For sulfide gold ores, it is usually necessary to first perform oxidation pretreatment to oxidize and decompose the sulfide minerals to expose the gold, and then perform cyanide leaching.

Hydrogenation for gold sulfide selection can effectively dissolve gold from ore, but cyanide is a highly toxic substance. Safety risks need to be strictly controlled during use to prevent cyanide leakage from causing harm to the environment and human body.

2. Gold sulfide beneficiation process

The beneficiation process of gold sulfide usually follows the process of crushing-grinding-classification-selection-dehydration.

Crushing and grinding: Generally, the gold sulfide ore is first crushed and ground to make the minerals in the ore reach the monomer dissociation state. The degree of crushing and grinding needs to be determined according to the requirements of the subsequent beneficiation process. Generally speaking, the finer the grinding fineness, the higher the monomer dissociation degree of the mineral, and the better the beneficiation effect. However, too fine grinding fineness will also lead to the generation of ore mud, affecting the beneficiation effect. Therefore, it is necessary to control the grinding fineness as much as possible to avoid the generation of ore mud while ensuring the dissociation degree of mineral monomers.

Floatation process: For sulfide gold ores suitable for flotation, the slurry after grinding enters the flotation operation. During the flotation process, the adjusting agent is first added to adjust the physical and chemical properties of the slurry, and then the collector and frother are added so that the gold minerals and sulfide minerals can be adsorbed by bubbles and float to the surface of the slurry to form a foam product, that is, gold-sulfur concentrate. The tailings after flotation contain a small amount of gold and other impurity minerals, which can be further processed or discharged.

Gravity separation process:For sulfide gold ores containing coarse gold, gravity separation can be carried out before or after flotation. Gravity separation equipment can be selected from shaking tables, spiral chutes, etc. During the gravity separation process, gold minerals and other heavy minerals sink under the action of gravity to form heavy mineral products, while light minerals float to form light mineral products. The heavy mineral products after gravity separation can be further processed to improve the grade of gold.

Cyanide leaching process:For sulfide gold ores with a high degree of oxidation and fine gold particles, cyanidation can be used for mineral separation. First, the ore is pre-treated by oxidation to oxidize and decompose the sulfide minerals to expose the gold. Then, the oxidized ore is leached by cyanide to dissolve the gold in the cyanide solution. The slurry after cyanide leaching is separated into solid and liquid to obtain cyanide solution and tailings. The cyanide solution extracts gold by displacement or electrolysis to obtain gold mud. The gold mud is further processed to obtain high-grade gold products.

Concentrate/tailings dehydration: The product concentrate and tailings obtained after selection need to be dehydrated to reduce the water content. A variety of different dehydration equipment are often used to complete the operation.

The ore dressing process methods of sulfide gold ore include flotation, gravity separation and cyanidation. Each method has its unique advantages and characteristics. In practical applications, it is necessary to select the appropriate ore dressing process method according to the properties and requirements of the ore, and optimize the process flow to improve the recovery rate and grade of gold.