RU2393020C1 - Flow line for separation of rich components out of ash-slag wastes - Google Patents

Abstract

FIELD: mining. ^ SUBSTANCE: invention refers to benefication of mineral deposits and can be used for separation of xenospheres and for obtaining concentrates of less-common and rare-earth elements out of ash-slag of thermal power stations. Flow line for separation of rich components out of ash-slag wastes includes in-series connected silo, devices for magnetic separation in strong and weak fields, electrostatic separator, leaching vat. In addition, the line is equipped with in-series connected flotation machines installed after the receiving hopper and intended for separation of xenospheres, and with classifiers for separation of material into size grades, for its further processing in various flows. Also the line is equipped with additional magnetic and electrostatic separators, leaching vats, filters and driers, which are installed in series after the classifier. ^ EFFECT: increasing the separation level of metals and content of rich components in the concentrate. ^ 1 dwg

Description

The invention relates to the field of mineral processing and can be used to isolate xenospheres and obtain concentrates of rare and rare earth elements from ash and slag of thermal power plants.

A known production line for processing fly ash from the combustion of thermal coal with the release of gallium from them, including a series-connected receiving apparatus, a leaching apparatus, metal extraction and stripping apparatus (see Abisheva Z.S., Blyda I.A., Ponomareva E.I. Acid-extraction technology for the extraction of gallium from fly ash from the combustion of steam coal / Non-ferrous metals. - 1994, No. 3, p. 36-38).

The disadvantage of this production line is the low extraction of only one valuable component (gallium) from the fly ash of thermal power plants.

The closest technical solution is the production line for the separation of rare and rare-earth elements (Ga, Sc, Y) from the ash and slag of thermal power plants, including a series-connected receiving apparatus, magnetic separation apparatus, electric melting apparatus, crushing apparatus, metal extraction and stripping apparatus (Okhotin V. N., Medvedev V.I., Liner Yu.A., Levitskaya T.D., Chaika E.A. Integrated processing of ashes from burning coal near Moscow with the allocation of valuable components // Energy Construction. - 1994, No. 7, p. 67-69).

The disadvantage of this production line is the low recovery of valuable components and significant losses of associated metals, for example Ge, from fly ash of thermal power plants.

The technical result of the invention is to increase the level of metal extraction and the content of valuable components in the concentrate during the processing of ash and slag of thermal power plants.

The result is achieved in that the production line for the separation of valuable components from ash and slag waste, including serially connected hopper, devices for magnetic separation in strong and weak fields, an electrostatic separator, leaching apparatus, is characterized in that the line is additionally equipped with series-connected flotation machines and classifiers, installed after the receiving hopper, as well as additional magnetic and electrostatic separators, devices for leaching, filters and ushilkami installed sequentially after classifiers.

The introduction of flotation and classification devices provides the highest technological enrichment indicators.

Unlike the known one, this production line allows you to separate the xenospheres by flotation, which allows you to intensify the process of further separation and get the xenosphere as a finished product. After this, the chamber product is divided into two streams by material fineness classes, i.e. to flows with different contents of a valuable component. Each of the flows is processed in a separate cycle, thereby achieving an increase in the content of a valuable component in the final product.

The production line has several advantages compared to the prototype:

- the proposed line allows to reduce the mass of raw materials entering the leach;

- allows you to highlight valuable components in separate streams by size classes.

The drawing shows a diagram of the production line.

The production line consists of a receiving hopper 1, flotation machines 2, classifiers 3 and 4, magnetic devices 5 and 6 and electrostatic separation 7, leaching devices 8, filters 9 and dryers 10.

The production line works as follows. The initial ash entrainment of thermal power plants goes to receiving apparatus 1, after which they are sent to flotation 2, where the xenospheres go into the foam product, and the chamber product is sent to classification on screens 3 and then 4, where they are divided into classes less than 0.045 and 0.045-5 mm which are directed, in separate streams, to magnetic separation sequentially in weak 5 and strong 6 magnetic fields, and a class of more than 5 mm is discharged into the dump. After magnetic separation, the material is subjected to sequentially filtration 9 and drying 10, then fed to the electrostatic separation 7, where the conductive product is separated, and the semiconductor and non-conductive are sent to leach 8, after which it is dehydrated by filtration 9 and drying 10.

Thus, the proposed production line makes it possible to increase the complexity of extraction, isolate the xenospheres, separate non-conductive and semiconductor products and direct them directly to the leaching unit, which greatly simplifies the technology of extraction of rare and rare-earth elements by traditional production lines and allows to increase the content of valuable components in the final product.

Claims (1)

A production line for separating valuable components from ash and slag waste, including a series-connected hopper, devices for magnetic separation in strong and weak fields, an electrostatic separator, leaching apparatus, characterized in that the line is additionally equipped with series-connected flotation machines and classifiers installed after the receiving hopper, as well as additional magnetic and electrostatic separators, leaching apparatus, filters and dryers installed in accordance with It has been consistent since the classifier.