CN102921541A

CN102921541A - Process for recovering flotation tailings of magnetite by adopting strong magnetic-anionic reverse flotation of hematite

Info

Publication number: CN102921541A
Application number: CN2012104617393A
Authority: CN
Inventors: 盖壮; 周健; 孙景丽
Original assignee: Angang Group Mining Co Ltd
Current assignee: Angang Group Mining Co Ltd
Priority date: 2012-11-16
Filing date: 2012-11-16
Publication date: 2013-02-13
Anticipated expiration: 2032-11-16
Also published as: CN102921541B

Abstract

The invention relates to a process for recovering flotation tailings of magnetite by adopting strong magnetic-anionic reverse flotation of hematite. The process is characterized in that the process comprises the following steps: a flow guide pipeline is obliquely arranged between a disc type magnetic separator of a cationic reverse flotation process flow of the magnetite and a strong magnetic-anionic reverse flotation flow, wherein one end of the flow guide pipeline is connected with a bottom opening in the rear end of a chute of the disc type magnetic separator in the cationic reverse flotation process flow of the magnetite, and the other end of the flow guide pipeline is communicated with a central disc of a strong magnetic front concentrator in the strong magnetic-anionic reverse flotation flow. The process has the advantages that when the flotation tailings in the magnetite flotation process flow enters the strong magnetic-anionic reverse flotation process of the hematite to be mixed with original ore pulp and then concentrated, a system is not influenced, the production is conducted steadily and smoothly, abnormal fluctuation is avoided, the grade of the separated synthetic tailings is 8 to 10 percent, the grade of strong magnetic concentrate is 45 to 50 percent, and the grade of final flotation concentrate is above 68 percent. Through the adoption of the process, the flotation tailings in the magnetite flotation process flow can be reduced from originally 15 percent to 10 percent, so as to reduce metal losses.

Description

Adopt the strong magnetic of bloodstone-anion reverse floatation to reclaim magnetic iron ore flotation tailing technique

Technical field

The present invention relates to the technique of preparing field, the strong magnetic of especially a kind of employing bloodstone-anion reverse floatation reclaims magnetic iron ore flotation tailing technique.

Background technology

At present in the flotation technology field for the treatment of iron ore, mainly more with magnetic iron ore and two kinds of mineral types of bloodstone.Wherein in processing bloodstone technique, often adopt anion reverse floatation.Process usually employing and strong magnetic process integration in the bloodstone process in flotation, can obtain higher concentrate grade, and to improving metal recovery rate good result be arranged.

But in processing the magnetic iron ore flotation process, ore pulp is after cation reverse flotation and magnetic separation sort, and flotation tailing is that the disk-type magnetic separator mine tailing is high to about 15%.In the former technological process flotation tailing is directly entered the mine tailing thickener, because the mine tailing thickener belongs to equally also that all mine tailings compile the place in the magnetic separation process, so flotation tailing is higher will directly affect comprehensive tailings grade.Especially when the flotation feed preparation unit size is thicker, cause flotation effect not good, will cause flotation tailing higher, even up to more than 20%, seriously cause amount of metal to run off.

Its magnetic iron ore cation reverse flotation technological process: magnetic separation process produces the concentrate product and deliver to the flotation operation district after 24m is concentrated, ore pulp feeds successively through roughly selecting flotation device, the concentrate of roughly selecting flotation device feeds the precision sorting flotation machine operation, the concentrate product of precision sorting flotation machine is final products, and its grade is 68-71%; Roughly select the foam that flotation device scrapes and deliver to a stages of magnetic separation, the mine tailing that one stages of magnetic separation sorts feeds to be scanned, the concentrate of one stages of magnetic separation and scavenger concentrate merging feed ball mill, scan mine tailing and throw tail, ball mill ore discharging is delivered to drench pit, the concentrate that dehydration is thrown behind the tail feeds two stages of magnetic separation, the foam that the concentrate of two stages of magnetic separation and precision sorting flotation machine scrape is delivered to and is roughly selected flotation device and select to the ore deposit again, and scan, dehydration, the mine tailing gravity flow that two stages of magnetic separation produce feeds disk-type magnetic separator, the concentrate pumping one stages of magnetic separation machine of disk-type magnetic separator, the mine tailing gravity flow feeds the mine tailing thickener, as shown in Figure 1.

Strong magnetic anion reverse floatation technological process: mainly be that bloodstone is sorted, its technological process is: the bloodstone raw ore is behind cyclone classification, sand setting enters the magnetic gravity separation technology, overflow feeds thickener and concentrates, concentrated underflow feeds weak magnetic separator, after sorting, produce concentrate and remove impurity substances in the ore pulp through slag-removing device first, feed again strong magnetic machine, weak magnetic tail together feeds the front thickener of flotation with the concentrate merging of strong magnetic machine, the impurity substances of slag-removing device is together thrown tail with the mine tailing of strong magnetic machine, and the ore pulp underflow after concentrating that feeds the front thickener of flotation enters the anion reverse floatation technological process.Flotation operation is scanned operation through roughly selecting flotation device, precision sorting flotation machine, three sections flotation, wherein flotation sweeps concentrate and returns and roughly select flotation device, flotation two is swept concentrate and is returned flotation and sweep to the ore deposit, flotation three is swept concentrate and is returned flotation two and sweep to the ore deposit, flotation three ore deposit of winding up is true tailings, and the concentrate of precision sorting flotation machine is final concentrate.

There is no at present the report that the flotation tailing in the technological process of magnetic iron ore cation reverse flotation is fed the technological process of strong magnetic anion reverse floatation.

Summary of the invention

The object of the invention provides the strong magnetic of a kind of employing bloodstone-anion reverse floatation and reclaims magnetic iron ore flotation tailing technique, the flotation tailing that this technique produces magnetic iron ore cation reverse flotation technique, adopt the mine tailing thickener to process separately by former magnetic iron ore cation reverse flotation technological process, introduce in the strong magnetic of bloodstone-anion reverse floatation technique, increase bloodstone technique concentrate output, reduce amount of metal and run off.

The objective of the invention is to realize by following technical proposals:

Reclaim magnetic iron ore flotation tailing technique according to the strong magnetic of employing bloodstone of the present invention-anion reverse floatation, comprise the strong magnetic of the technological process of magnetic iron ore cation reverse flotation and bloodstone-anion reverse floatation flow process, it is characterized in that: between the disk-type magnetic separator of magnetic iron ore cation reverse flotation technological process and the strong magnetic of bloodstone-anion reverse floatation flow process, tilt to be provided with drainage pipe, the bottom opening of the chute end of the disk-type magnetic separator in one end of its drainage pipe and the technological process of bloodstone magnetic iron ore cation reverse flotation is connected, thickener spider place is connected before the strong magnetic in the other end and strong magnetic-anion reverse floatation flow process, under the concrete step process flow process

1) be-200 orders with granularity, the mine tailing of disk-type magnetic separator feeds thickener spider place before the strong magnetic in the strong magnetic of bloodstone-anion reverse floatation flow process by drainage pipe in the magnetic iron ore cation reverse flotation technological process of grade 20-25%, the overflow of the cyclone in the strong magnetic of bloodstone-anion reverse floatation stream flow process feeds thickener and concentrates

2) underflow of its thickener feeds weak magnetic separator, the generation concentrate is removed impurity substances in the ore pulp through slag-removing device first after sorting, and feeds strong magnetic machine again, and weak magnetic tail together feeds the front thickener of flotation with the concentrate merging of strong magnetic machine, the impurity substances of slag-removing device is together thrown tail with the mine tailing of strong magnetic machine

3) the ore pulp underflow after concentrating that feeds thickener before the flotation enters the anion reverse floatation operation,

4) its flotation operation is scanned operation through roughly selecting flotation device, precision sorting flotation machine, three sections flotation,

The concentrate of roughly selecting flotation device feeds precision sorting flotation machine, and the mine tailing of roughly selecting flotation device feeds that flotation sweeps, flotation two is swept sweeps with flotation three,

Wherein the concentrate of precision sorting flotation machine is final concentrate, and the concentrate that the mine tailing of precision sorting flotation machine and flotation sweep returns together roughly selects flotation device to the ore deposit, and flotation two is swept concentrate and returned flotation and sweep to the ore deposit, and flotation three is swept concentrate and returned flotation two and sweep to the ore deposit.

The length of described drainage pipe is 50-55m, and the angle of inclination of described drainage pipe is 8 °-10 °.

Compared with prior art: advantage of the present invention is that flotation tailing in the technological process of magnetic iron ore cation reverse flotation is entered the strong magnetic of bloodstone-anion reverse floatation technique, mix rear concentrated with the strong magnetic of bloodstone-anion reverse floatation raw ore slurry, on not impact of the strong magnetic of bloodstone-anion reverse floatation technological process, produce stable smooth operation.Simultaneously by strong magnetic tail, floating tail, floating elaboration position all technical are investigated, unusual fluctuations do not appear, the comprehensive tailings grade 8-10% of weak magnetic and strong magnetic after the magnetic separation of the strong magnetic of bloodstone-anion reverse floatation technique sorts, high intensity magnetic mineral is 45-50%, final flotation concentrate reaches more than 68%, adopt the present invention the flotation tailing in the magnetic iron ore flotation process can be reduced to 10%, the minimizing metal loss from original 15%.

Description of drawings

Fig. 1 is former magnetic iron ore cation reverse flotation process chart.

Fig. 2 is the flow chart that cation reverse flotation mine tailing of the present invention feeds the strong magnetic of bloodstone-anion reverse floatation technique.

Fig. 3 is that drainage pipe of the present invention arranges structural representation.

The specific embodiment

Describe the specific embodiment of the present invention in detail below in conjunction with embodiment.

Such as Fig. 2, shown in 3, the strong magnetic of employing bloodstone of the present invention-anion reverse floatation reclaims magnetic iron ore flotation tailing technique, comprise the strong magnetic of the technological process of magnetic iron ore cation reverse flotation and bloodstone-anion reverse floatation flow process, it is characterized in that: between the disk-type magnetic separator 1 of magnetic iron ore cation reverse flotation technological process and the strong magnetic of bloodstone-anion reverse floatation flow process, tilt to be provided with drainage pipe 2 by crane span structure 3, the bottom opening of the chute end of the disk-type magnetic separator 1 in one end of its drainage pipe and the technological process of magnetic iron ore cation reverse flotation is connected, thickener spider 4 places are connected before the strong magnetic in the other end and strong magnetic-anion reverse floatation flow process

The present invention can be according to on-site actual situations, and the Design of length of described drainage pipe is become 50-55m, and the angle of inclination of described drainage pipe is designed to 8-10 °,

Under the concrete step process flow process:

1) be-200 orders with granularity, the mine tailing of disk-type magnetic separator feeds thickener spider place before the strong magnetic in the strong magnetic of bloodstone-anion reverse floatation flow process by drainage pipe in the magnetic iron ore cation reverse flotation technological process of grade 20-25%, overflow thickener before strong magnetic of the cyclone in the strong magnetic of bloodstone-anion reverse floatation stream flow process concentrates

2) underflow of thickener feeds the anion reverse floatation operation before its strong magnetic,

Through the strong magnetic of bloodstone-anion reverse floatation stream flow process operation, its comprehensive tailings grade is 8-10%, and high intensity magnetic mineral is 45-50%, and final flotation concentrate is more than 68%.

The length of drainage pipe of the present invention is 50-55m, and the angle of inclination of described drainage pipe is 8-10 °, makes the flotation tailing ore pulp can realize gravity flow in pipeline.

The present invention feeds the strong magnetic of bloodstone-anion reverse floatation technique with flotation tailing in the technological process of magnetic iron ore cation reverse flotation, mix rear concentrated with the strong magnetic of bloodstone-anion reverse floatation raw ore slurry, on not impact of the strong magnetic of bloodstone-anion reverse floatation technological process, produce stable smooth operation.Simultaneously by strong magnetic tail, floating tail, floating elaboration position all technical are investigated, unusual fluctuations do not appear, comprehensive tailings grade is 8-10% after the magnetic separation of the strong magnetic of bloodstone-anion reverse floatation technique sorts, high intensity magnetic mineral is 45-50%, final flotation concentrate reaches more than 68%, adopt the present invention the flotation tailing in the magnetic iron ore flotation process can be reduced to 10%, the minimizing metal loss from original 15%.

Claims

1. one kind is adopted strong magnetic-anion reverse floatation to reclaim magnetic iron ore flotation tailing technique, comprise the technological process of magnetic iron ore cation reverse flotation and strong magnetic-anion reverse floatation flow process, it is characterized in that: between the disk-type magnetic separator of magnetic iron ore cation reverse flotation technological process and strong magnetic-anion reverse floatation flow process, tilt to be provided with drainage pipe, the bottom opening of the chute end of the disk-type magnetic separator in one end of its drainage pipe and the technological process of magnetic iron ore cation reverse flotation is connected, thickener spider place is connected before the strong magnetic in the other end and strong magnetic-anion reverse floatation flow process, under the concrete step process flow process:

2. the strong magnetic of employing according to claim 1-anion reverse floatation reclaims magnetic iron ore flotation tailing technique, and the length that it is characterized in that described drainage pipe is 50-55m, and the angle of inclination of described drainage pipe is 8-10 °.