Revolutionizing mineral processing with environmentally friendly technologies. Avimetal specializes in dry concentration, milling, and non-cyanide leaching processes that eliminate wastewater generation.
Environmentally Sustainable Mining
Eco-Friendly Approach
Avimetal has developed sustainable methods for cleaning and recovering rare metals and precious nonferrous industrial metals.
Contaminant Removal
Unique technique to remove cyanide and heavy metals like cadmium and mercury from contaminated effluents.
Water Conservation
Unlike traditional procedures that rely on large quantities of water and harmful chemicals, Avimetal offers sustainable alternatives.
Micronization Milling Technology
Enhanced Recovery
Increases gold recovery by capturing fine particles
Energy Efficient
Reduces power consumption compared to traditional mills
Space Saving
Smaller plant footprint than conventional systems
Ultra-Fine Particles
Produces 400-600 mesh particles in seconds
Dry Concentration Technology
Triboelectric Power
Harnesses triboelectricity to overcome limitations of costly electrostatic methods
Environmental Compliance
Enabled mining operations to continue in Peru despite bans on water-contaminating processes
Water-Free Processing
Eliminates water usage in concentration, reducing environmental impact
Integrated System
Works with additional refining methods including hot plasma, cold plasma, and Electrowinning
Electrostatic Concentration Benefits
Cost-Effective Design
Avimetal's electrostatic separators feature compact size and affordable pricing while delivering superior performance compared to competitors.
Efficiently separates micron-sized particles
Large production capacity
Minimal power consumption
Operational Advantages
The system provides significant benefits over conventional mineral processing techniques.
High efficiency with improved recovery rates
Low capital and operating costs
No additional chemicals required
Environmentally friendly alternative
Advanced Dry Concentration Process
Micronization Milling
Ore is processed to 400-600 meshes using dry technology, creating ultra-fine particles that maximize mineral recovery.
Electrostatic Separation
The four-stage graphene-oriented cathode pair with anode plates processes 5 tons per hour, effectively separating minerals at the micron level.
Mineral Concentration
The system achieves high-grade mineral concentration without using water, eliminating environmental contamination risks.
Cyclone Electrowinning Technology
One-Step Solution
Treats metal ion solutions without requiring metal reprocessing
Higher Current Density
Improves efficiency and processing speed
Graphene Enhancement
Utilizes graphene electrodes for superior performance
Continuous Circulation
Enables extraction of gold ions even at low concentrations
Gold Recovery and Refining
Graphene Carbon Adsorption
Gold-cyanide complex attaches to the activated carbon's surface through the Carbon-in-Pulp process, efficiently collecting gold from solution.
Hybrid Plasma Gasification
High-energy plasma torch generates extreme temperatures to break down carbon and release gold, offering high recovery rates and thorough breakdown of carbon structure.
High-Pressure Autoclave
Combines elevated pressures and temperatures with electrowinning to enhance gold recovery and achieve high purity levels.