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How Does the Concentration Equipment Handle the Slurry
The precipitation process of the slurry in the Concentration Equipment is as follows: First, the concentrated slurry enters the free settling zone from the feed cylinder, and the particles in the slurry are rapidly reduced by their own weight. When the precipitate falls into the compression zone, the slurry aggregates into close contact with similar fibers. Sponge agglomerated tissue. When the precipitation continues to the concentrated slurry zone, a tapered surface is formed in the slurry zone due to the operation of the blade.
The concentrator generally consists of a concentrating tank, a truss, a transmission, a truss lifting device, a feeding device, a discharging device, and a signal safety device. The following parameters should be considered for the design of thickened tailings surface treatment: 1. Existing and new dam construction, if processed downhill, contains thick tailings. Pumping requirements for high viscosity thickened tailings from processing plants to water storage sites; Potential capacity of the water level; 2. Distribute mud over time to optimize the ability to handle the site; Site environmental requirements (climate, surface water, soil, etc.); Customer preference (ie aversive volume pump, concentrator automation requirements).
There are many mineral dehydration methods and concentration equipment, which are mainly divided into the following categories.
(1) Gravity dehydration: refers to dehydration by gravity, mainly used for dehydration of coarse minerals and removal of free water. The main equipment includes natural gravity dewatering (dewatering tanks and dewatering tanks) and gravity concentrated dewatering (concentrators and sedimentation tanks). Gravity concentrating equipment is similar in design to conventional sedimentation tanks but has a steeper slope.
(2) Mechanical force dehydration: refers to the separation of water and materials by mechanical force to remove free water. The main equipment includes sieve dewatering (vibrating screen), centrifugal dewatering (filtration centrifugal dewatering machine and hydrophobic centrifugal dewatering machine) and filtration dewatering (vacuum dewatering machine, plate and frame filter press and filter press).
(3) Thermal energy drying: refers to the use of heat to vaporize water in minerals, and to remove dehydration of capillary water, combined water and combined water in minerals. The main methods include thermal drying and sun exposure.
For more information on ore equipment, you can click Hydrometallurgy Equipment