Copper-cobalt HGMS for Mineral Processing

Product Description:

In recent years, with the rapid development of the global new energy industry, the demand for cobalt is increasing, which greatly exceeds the supply of cobalt. Therefore, how to improve the production of cobalt is a huge problem in modern society. In most cases, cobalt always exists at the form of associated minerals, among which copper-cobalt ores is the main source of cobalt.

In practical applications, flotation is the common method to separate cobalt from copper-cobalt ore enrichment. However, copper-cobalt ores are characterized by complex composition, fine dissemination particle size, easy slime, high content of harmful impurities and poor floatability. It’s difficult for the recovery rate to reach more than 60%, which causes a large amount of resource waste and a high cost of beneficiation. Because cobalt contains weak magnetism, and some of them are distributed in magnetic minerals such as iron ore at the form of isomorphism or mechanical inclusions in copper-cobalt ore, it’s feasible to adapt magnetic separation to recycle valuable copper-cobalt elements.

Based on this, SLon developed a new processing technology of flotation combined with magnetic separation, to recover copper and cobalt from flotation tailings. First of all, in view of the problem that the use of a large number of agents in the front end of the flotation process will lead to the blockage of the medium box, we optimized the design of the separation area to solve it. Secondly, for the flotation reagent corrosion problem, we have also made lots of improvements in the material, design, electrochemical corrosion and other aspects of HGMS to overcome the problem of corrosion resistance in the complex agent environment.

The new floating – magnetic combined technology has the advantages of short flow, low energy consumption, high grade and high yield. Some copper and cobalt mines in Africa have demonstrated that the updated Copper-cobalt HGMS, associated with the “flotation followed by magnetic” beneficiation process, can highly increase the recovery of copper and cobalt metals by 5%-10%. The implementation of the new process not only ensures the beneficiation index, but also greatly reduces the cost of beneficiation, which improves the comprehensive utilization rate of resources, and brings huge economic and social benefits for enterprises.

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Product Features

Low voltage, high current and low current density.Internal water cooling and double circulation cooling mode stable magnetic field. Equipment operation rate is up to 98%;
Optimized magnetic system design, optimal arrangement and combination of magnetic matrix, background field intensity up to 1.8T. vertical rotation, reverse flushing achieve magnetic matrix is not easy to block;
Pulsation mechanism design could improve the separation efficiency;
Wide separation range: upper limit:6mm, lower limit :2~10μm;
17 series of products with more than 70 specifications and models, and capacity of a single unit is from 0.01 to 480t/h;
Equipped with coil pipeline cleaning system, easy for coil daily maintenance. coil designed life is up to 10 years.

Product Details

How does it work?

Slurry is introduced through slots in the upper yoke to the matrix, which is housed inside the vertical ring. The magnetic particles are attracted to the matrix and then carried outside of the magnetic field where they are subsequently flushed to the magnetic concentrate trough. The non-mags pass through the matrix to the non-mags collection hoppers.

Technical Parameters

Parameters of SLon VPHGMS	Feed density/%	Slurry throughput /(m³/h)	Ore throughput /(t/h)	Background field /T	power consumption/kW	Flushing water /(m³/h)	Cooling water consumption /(m³/h)	Max part weight /t	Dimensions (LWH) /mm
SLon-500	10～40	0.25～0.5	0.015～0.063	1/1.1	13.19	0.75～1.5	0.75～1.5	0.3	1800×1400×1350
SLon-750	10～40	0.5～1.0	0.03~0.125	1/1.1	17.55	0.75~1.5	0.75~1.5	0.6	2100×1400×1750
SLon-1000	10～40	12.5~20	2～4	1/1.2	19.1	8~14	2~2.5	1	2700×2100×2300
SLon-1250	10～40	20~50	5~18	0.6	14.5	20~36	1.5~2	2.6	1900×2300×2550
SLon-1500	10～40	50~100	15~50	0.4	16.2	40~60	2~2.5	3	1800×2600×3000
SLon-1750	10～40	75~150	15~50	0.6	28	60~100	2~3	7	2520×3150×3550
SLon-2000	10～40	100~200	25~80	0.4	18	80~120	2.5~3.5	7	2680×3000×3950
SLon-2250	10～40	160~300	40~115	0.4	23	120~160	2~3	9	2910×3200×4250
SLon-2500	10～40	200~400	50~150	0.6	46.5	160~220	3~4	8	3490×3800×5050
SLon-3000	10～40	350~650	75~250	0.7	63	240~400	4~5	15	4050×4850×6150
SLon-3500	10～40	550~1000	125~400	0.6	88	400~600	6~7	17	4500×4850×7000
SLon-4000	10～40	750~1400	175~550	0.6	102	560~800	7~8	21	5090×6220×8120
SLon-5000	10～40	1200~2300	300~480	1/1.1	124	560~800	7~8	52	6060×8000×10100

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Technical Parameters

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