Ore Beneficiation Plants
Turnkey ore processing plants from laboratory tests to commissioning — crushing, screening, grinding and separation by BAS engineering.
Ore beneficiation plants consist of ore preparation and ore beneficiation stages.
The main crusher section of the plant constitutes the majority of the ore preparation stage. In the crusher and, if applicable, the grinding section, the desired particle size reduction is achieved, and the appropriate beneficiation method is applied according to the mineralogy of the ore.
All Products
8 products
Ore Beneficiation PlantsMagnetite Ore Pre-Beneficiation
Engineering, design, civil works, manufacturing, equipment/material supply, automation, plant erection, commissioning, performance testing and training for projects aimed at preparing concentrate ready for shipment to pelletizing plants.
Ore Beneficiation PlantsMagnetite Ore Micronized Beneficiation
Micronized magnetite ore beneficiation plants cover either the full turn-key flow from run-of-mine to final micronized magnetite, or the downstream stage that takes pre-beneficiated concentrate to the final product.
Ore Beneficiation PlantsHematite Ore Beneficiation
Hematite ore in our region is mostly produced as lump-ore beneficiation, with crushing plants forming the core of the process line.
Ore Beneficiation PlantsManganese Ore Beneficiation
Lump and micronized manganese ore beneficiation forms the turn-key scope from run-of-mine ore to either lump or final micronized product.
Ore Beneficiation PlantsKaolin Ore Beneficiation
The most widespread industrial use of kaolin is as a filler and coating material in paper production. It is also used in ceramics (porcelain, refractories), the rubber industry (for strength and abrasion resistance), paints and inks (as filler/extender or in place of titanium-based pigments), as well as in cosmetics, soap, toothpaste, pharmaceuticals (adsorbent or carrier), fertilizers, detergents and catalysts.
Ore Beneficiation PlantsChromite Ore Beneficiation
Magnetic chromite beneficiation plants rely on separating magnetically susceptible chromite from impurities of differing or no magnetic susceptibility.
Ore Beneficiation PlantsQuartz – Feldspar Beneficiation
In quartz and K-feldspar / Na-feldspar beneficiation plants, the goal is to remove impurities and gangue minerals accompanying SiO₂ in order to achieve the brightest colour and the highest production capacity.
Ore Beneficiation PlantsNickel Ore Beneficiation
Nickel ore beneficiation comprises two main methods. Depending on mineralogy, pre-beneficiation may be carried out using high-intensity magnetic separation or hydrometallurgical methods. In the final stage, chemical leaching at high pressure and temperature delivers the desired nickel grade.