Which minerals hinder gold cyanide leaching and how to overcome them?

2025-09-28

Gold cyanide leaching is a widely used hydrometallurgical process for extracting gold from ores. However, certain minerals present in the ore can hinder the effectiveness of cyanide leaching by consuming cyanide, competing with gold for reaction with cyanide, or passivating the gold surface. Below is a list of common minerals that interfere with gold cyanide leaching, the mechanisms by which they cause interference, and strategies for mitigating their effects:

Minerals that Hinder Gold Cyanide Leaching:

1. Sulfides (e.g., Pyrite, Chalcopyrite, Arsenopyrite)

   • กลไก: Sulfide minerals can react with cyanide, consuming it and reducing its availability for gold dissolution. Additionally, their oxidation may form passivating layers on the gold surface.
   • Mitigation:
     • Pre-treat the ore with การเผาหรือpressure oxidation to remove sulfides before cyanide leaching.
     • Perform flotation to separate sulfide minerals prior to leaching.
     • ใช้lead nitrate as an additive to minimize sulfide interference and enhance gold leaching efficiency.

2. Copper-Bearing Minerals (e.g., Chalcopyrite, Bornite, Malachite, Azurite)

   • กลไก: Copper minerals form complexes with cyanide, consuming cyanide and potentially causing high cyanide consumption. Copper may also precipitate gold as copper-gold alloys.
   • Mitigation:
     • Apply an ammonia pre-treatment to selectively dissolve copper minerals before cyanide leaching.
     • Adjust pH and cyanide concentration carefully to reduce copper interference.
     • ใช้cyanide recovery technologies (e.g., AVR or SART process) to recover copper and precipitate cyanide for reuse.

3. Carbonaceous Materials (e.g., Graphite, Organic Carbon)

   • กลไก: Carbonaceous materials in the ore can adsorb dissolved gold from solution (a phenomenon known as "preg-robbing"), reducing gold recovery.
   • Mitigation:
     • ดำเนินการการเผาหรือbio-oxidation to oxidize carbonaceous materials and deactivate their preg-robbing properties.
     • Use pre-treatment with CIL/CIP (Carbon-in-Leach/Carbon-in-Pulp) processes, which add activated carbon to preferentially adsorb gold rather than carbonaceous material.

4. Cyanide-Soluble Base Metals (e.g., Zinc, Lead, Nickel)

   • กลไก: These metals dissolve in cyanide solution, increasing cyanide consumption and reducing its availability for gold leaching. Their reaction products may also precipitate gold or interfere with gold recovery.
   • Mitigation:
     • Pre-treat ore to remove base metals through flotation or selective leaching.
     • Optimize cyanide addition and pH.

5. Clay Minerals

   • กลไก: Clay minerals can increase viscosity of the slurry, reduce permeability, and hinder effective mixing, which decreases gold leaching efficiency.
   • Mitigation:
     • Use dispersants or add lime to reduce the viscosity and improve slurry handling.
     • Implement proper ore crushing and grinding to mitigate the formation of fine particles.

6. Silicates (e.g., Mica, Quartz)

   • กลไก: Silicates can cause physical encapsulation of gold particles, preventing contact with cyanide solution.
   • Mitigation:
     • Increase grinding efficiency to liberate locked gold particles.
     • Perform gravity concentration or flotation to separate gold from silicate materials.

7. Iron Oxides (e.g., Magnetite, Hematite)

   • กลไก: These minerals may passivate the gold surface or cause physical interference.
   • Mitigation:
     • Conduct a thorough ore characterization to assess gold liberation and optimize physical separation methods like gravity and flotation.

General Strategies for Overcoming Interferences:

1. การวิเคราะห์แร่: Perform mineralogical studies to identify problematic minerals and concentrations.
2. Pre-treatment: Use oxidative pre-treatment (e.g., roasting, autoclave, or bio-oxidation) to remove sulfides or deactivate carbonaceous materials.
3. Optimize Leaching Conditions: Adjust cyanide concentration, pH, oxygen levels, and leaching temperature to minimize interference.
4. Additives: Use additives such as lead nitrate or lime to mitigate sulfide interference and improve leaching efficiency.
5. Alternative Methods: If cyanide leaching is not viable, consider alternative processes, such as gravity separation, flotation, or thiosulfate leaching.

Careful analysis of the mineralogical composition of the ore can determine the most effective approach to maximize gold recovery while minimizing cyanide consumption and costs.

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