Combination beneficiation plant is used to beneficiate a wide variety of industrial mine ores. In this application the relatively large volumes of nonmagnetics are usually the commercial products. The amount of magnetic material removed is quite small, and dry separation is the general rule.
Combination beneficiation plant is also important in processing phosphate, titanium, chrome, manganese, tungsten, molybdenum, nickel, niobium and tantalum ores.
Combination Beneficiation Plant
The Combination Beneficiation Plant has taken an important position in aligning plant strategies. Leading professionals from the industry have decided to put in efforts to spot ways to make the process more energy efficient, aiming at zero waste management for sustainable development which is synonymous with the concern for environment along with its social and economic goals.
Combination Beneficiation Processing Flowchart
The stone is sent to the jaw crusher to be crushed for the primary crushing. The material whose size is suitable for the feed size of the ball mill is sent regularly by the vibrating feeder to the ball mill, the material was crushing and grinding by the ball mill and then enter into next stage for classifying. The spiral classifier used to clean mud and classified mixed mineral according to the different grains have different specific gravity and sedimentation rates in liquid. The classified mineral grains will be separated by the magnetic separator. The magnetic materials will be sent to tailings ponds. Excluding magnetic materials will be entered into jigger for separating, the medium size grains. The other materials classified once again. The big size grains grinding and then classified, the classified materials will be separated and dewatering, the concentrate will be separated.
Combination Beneficiation Plant is mainly used for ferrous metals, such as manganese ore, iron ore, copper ore and so on.
