Description
Size fraction, mm | -6+3 | -3+1 | -1+0.5 |
Throughput, kg/h | 50 | 12.5 | 2 |
Yield per 10 ejections, grain | 30 | 45 | 45 |
Recovery rate, % | 98 | 96 | 90 |
Type of material | dry |
Material feeding and detection system
Material feed | Vibrating feeder | |
Flow | 4 | |
X-ray tube | 1 | |
Photomultiplier | 4 |
Sorter’s supply
Power consumption, kVA (single phase, 220V/50HZ) | 3 | |
Technical water consumption, not more than, I/min | – | |
Cooling water consumption, not less than, l/min | 3 | |
Consumption of compressed air | per 1 ejection, l | 0.12 |
nominal productivity, l/min | 15 |
X-ray luminescence sorter for diamond recovery
Indeed, sorting equipment plays a vital role in the mining production industry, particularly through the implementation of luminescence sorting. X-ray luminescence sorters have become a integral asset to various diamond recovery solutions. The functional principle of X-ray luminescence sorters is rooted in the physical luminescence property of diamonds under X-ray radiation, a property that is inherently different from most gangue minerals present in ore.
X-ray luminescence sorters have significantly contributed to the diamond recovery process, enabling mining operations to efficiently extract diamonds from ore while reducing waste and maximizing resource utilization.
Benefits of a X-ray luminescence sorters at a glance:
• high recovery efficiency
• effective concentration
• low operational costs
• low environmental impact
• selective luminescence extraction