Industrial Dry Tantalum Ore Electrostatic Separator

Model NO.: JXSC3212
Energy Saving: Energy Saving
Warranty: 1 Year
Color: Multi Color
Customized: Customized
Condition: New
Spec.: 320X1200
Feeding Size: <2mm
Application: Ilmenite, Rutile, Cassiterite, Tantalite Ect.
Model NO.: JXSC3212
Energy Saving: Energy Saving
Warranty: 1 Year
Color: Multi Color
Customized: Customized
Condition: New
Spec.: 320X1200
Feeding Size: <2mm
Application: Ilmenite, Rutile, Cassiterite, Tantalite Ect.
High tension electrostatic separator is designed for separation of titaniferous mineral sands, hard rock ilmenite and rutile, cassiterite, tantalite, wolframite, iron ore, plastics from metals in waste recycling system.
 
 High-tension electrostatic separators utilize the electrical conductivity difference between the various minerals within an ore feed. The high-tension roll electrostatic separator (HTR) utilizes a grounded roll to transport feed material through the high voltage ionizing field (corona) where particles are charged by ion bombardment. Conducting particles pass their charge to the grounded carrier electrode (roll) and are therefore free to be thrown from the roll by centrifugal and gravity forces. Non-conducting particles are pinned to the carrier electrode and are transported further around the roll periphery, where they drop from the electrode surface, either because their charge dissipates, or by mechanical means, e.g. brush and high voltage AC wiper.
 
Throughput capacity of a high tension electrostatic separator is closely related to the roll speed, roll width, and characteristics of the feed material. For a roll with a smaller diameter, a higher rotation speed is required in order to maintain a substantial feed rate. However, at higher RPM, coarse, non-conductive particles tend to leave the roll surface too early due to the increase in centrifugal force resulting in a large portion of misplaced non-conductive particles in the conductor stream. Vice versa, under a low RPM condition, fine conductive particles do not gain enough inertia to be thrown off the roll, resulting in misplacement of the nonconductor stream. Therefore, for the treatment of particle mixtures with a range of physical characteristics, including conductivity, particle size, and density, it is necessary to adjust the roll speed and electrode positions to optimize the process.


Model
JXSC-3212 JXSC-3215 JXSC2G-3212 JXSC2G-3215
Specification 320X1200 320X1500 320X1200/2 320X1500/2
Operating Voltage 0-55kv
Motor Power( KW)                 - Heat 12 15 15 18
                -Rotate 2.2/1.5 2.2/1.5 2.2/2.2 3.0/3.0
-Electro Discharge 0.09 0.1 0.15 0.18
Feeding Size(mm) 0.1-2
Capacity 0.6-1.4 0.8-1.6 1-2 1.2-2.5
Dia. Of stationary electrode(mm) 30
Dia. Of corona electrode(mm) 0.4
No. of electrode filament 4 4 8 8
Maximum operating electrode distance(mm) 85
Weight(t) 0.7 0.8 1.8 2.2
Overall size(mm) 1390X1980X1500 1390X2290X1650 1390X1980X2880 1390X2290X2880
High tension electrostatic separator is designed for separation of titaniferous mineral sands, hard rock ilmenite and rutile, cassiterite, tantalite, wolframite, iron ore, plastics from metals in waste recycling system.
 
 High-tension electrostatic separators utilize the electrical conductivity difference between the various minerals within an ore feed. The high-tension roll electrostatic separator (HTR) utilizes a grounded roll to transport feed material through the high voltage ionizing field (corona) where particles are charged by ion bombardment. Conducting particles pass their charge to the grounded carrier electrode (roll) and are therefore free to be thrown from the roll by centrifugal and gravity forces. Non-conducting particles are pinned to the carrier electrode and are transported further around the roll periphery, where they drop from the electrode surface, either because their charge dissipates, or by mechanical means, e.g. brush and high voltage AC wiper.
 
Throughput capacity of a high tension electrostatic separator is closely related to the roll speed, roll width, and characteristics of the feed material. For a roll with a smaller diameter, a higher rotation speed is required in order to maintain a substantial feed rate. However, at higher RPM, coarse, non-conductive particles tend to leave the roll surface too early due to the increase in centrifugal force resulting in a large portion of misplaced non-conductive particles in the conductor stream. Vice versa, under a low RPM condition, fine conductive particles do not gain enough inertia to be thrown off the roll, resulting in misplacement of the nonconductor stream. Therefore, for the treatment of particle mixtures with a range of physical characteristics, including conductivity, particle size, and density, it is necessary to adjust the roll speed and electrode positions to optimize the process.


Model
JXSC-3212 JXSC-3215 JXSC2G-3212 JXSC2G-3215
Specification 320X1200 320X1500 320X1200/2 320X1500/2
Operating Voltage 0-55kv
Motor Power( KW)                 - Heat 12 15 15 18
                -Rotate 2.2/1.5 2.2/1.5 2.2/2.2 3.0/3.0
-Electro Discharge 0.09 0.1 0.15 0.18
Feeding Size(mm) 0.1-2
Capacity 0.6-1.4 0.8-1.6 1-2 1.2-2.5
Dia. Of stationary electrode(mm) 30
Dia. Of corona electrode(mm) 0.4
No. of electrode filament 4 4 8 8
Maximum operating electrode distance(mm) 85
Weight(t) 0.7 0.8 1.8 2.2
Overall size(mm) 1390X1980X1500 1390X2290X1650 1390X1980X2880 1390X2290X2880

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