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Mining screens, classification and separation are integral to ore processing, metals and minerals extraction, and controlling the final product quality in any mining and processing operation. Adopting efficient screening and separation solutions can increase yield and productivity while reducing environmental impact and minimising ore processing costs.

Miners require rugged, durable and custom-designed screening, vibration and separation equipment that are not only high-performing, energy-efficient, cost-effective but require less maintenance.

Finding suppliers of mineral sorters, vibrating conveyors, and mining screening equipment

Mining Technology has listed the leading suppliers of a range of screening, classifying and separation equipment, parts and services.

The list includes manufacturers and suppliers of sensor-based mineral sorters, intelligent screens for mining applications, advanced vibrating conveyors, electromagnetic separators, as well as for ore, concentrates and by-product samplers.

The download document is designed for ore processing and metallurgical consultants, metallurgists, mining plant managers, mineral processing engineers, mine operations managers, quality control supervisors, procurement officers, and any other individual involved in ore preparation, processing, and minerals or metal extraction.

The download contains detailed information on the suppliers and their product lines, alongside contact details to aid your purchasing decision.

Related Buyer’s Guides which cover an extensive range of mining equipment manufacturers, solutions and suppliers, can also be found here.

Mining screens, separation and vibration solutions

The run-of-mine (ROM) ore undergoes a series of separation, screening and classification to become suitable for further processing. Choosing an appropriate combination of tailored screening, separating, and conveying solutions can reduce processing costs and boost overall energy efficiency and productivity.

Available screening, separation and vibration equipment and services for the mining industry include:

  • Linear and circular motion vibrating screens
  • Banana screens with different screening decks
  • Elliptical motion vibrating screens with individual unbalanced drive
  • Dewatering screens for solid-liquid separation
  • Grizzly screens for coarse pre-separation
  • Interstage screens used in carbon/resin in pulp/leach (CIP/CIL and RIP/RIL) processes
  • Dewatering screens for carbon leaching applications
  • Multi-sizer separator shakers
  • Vibrating conveyors, including trough conveyors, hopper discharge units, guided arm troughs and spiral conveyors
  • Sensor-based mineral sorters
  • Advanced separation solutions using X-ray fluorescence technique and high-resolution RGB camera
  • Dense-medium washing and separation plants for coal beneficiation
  • Pulse vibration analyser monitors

Physical separation techniques used in mining include screening, sorting, classification, floatation, dewatering, thickening, gravity separation, centrifugal separation, washing, filtering, drying, and flocculation. While most physical separation processes involve water, electrostatic and electrodynamic separation, dry magnetic separation, air tabling, air elutriation, dry cycloning, and mechanised sorting are some of the physical separations conducted on dry feeds.

The mining separation technologies based on hydrometallurgy and chemical processing include heap-leaching, dump-leaching, in-situ leaching, selective leaching, bioleaching, as well as high-temperature and high-pressure leaching with ultra-fine grinding to optimise leaching kinetics and metal recovery. Whereas the technologies used for solution purification and concentration include precipitation, ion exchange, solvent extraction, membrane transfer, and electrowinning.

Research and development in mining separation technologies are focused on maximising efficiency, precision and speed while reducing environmental impact. The key trends in the field have been to achieve greater conversion efficiency, limit the usage of water and toxic chemicals, automate separation using advanced sensors, modelling and simulation, and increasing adoption of pressure leaching, and magnetic and membrane separation technologies for optimal performance and environmental benefits.