UA142273U - METHOD OF DOMAIN SLAG PROCESSING - Google Patents

Abstract

The method of processing blast furnace slag includes a technological process of operations for the separation of blast furnace slag into industrial products of large and medium fractions, electromagnetic separation of industrial products of medium and large fractions to obtain iron-containing marketable products of large and medium fractions and nonmagnetic industrial products of medium and large fractions. separation from it by electromagnetic separation of iron-containing marketable products of the middle fraction and non-magnetic industrial product of substandard fraction. In the technological process of blast furnace slag processing the obtained nonmagnetic intermediate product of the middle fraction is subjected to screening with the release of super-screen non-magnetic industrial products of medium, fine fractions and pure conditioned slag in the form of screening followed by electromagnetic separation of super-screen non-magnetic products of medium and small fine fractions, and pure slags of medium and fine conditioned fractions, and the non-magnetic industrial product of the substandard fraction is returned to the beginning of the mentioned technological process for reprocessing together with the initial blast furnace slag.

Description

A useful model belongs to ferrous metallurgy, in particular, to the processing of blast furnace slag.

The problem of blast furnace slag processing is relevant for the metallurgical industry, as it is connected with the possibility of obtaining cheaper metal and other useful components, as well as with the release of land areas occupied by blast furnace slag dumps and disrupting the ecology of the environment.

A known method of processing waste metallurgical slag according to the declaratory patent

Mo 62869А of Ukraine, IPC 7 C2287/04 dated 22.10.2003, published on 15.12.2003, which includes the operations of separating slag into industrial products of large and medium fractions, electromagnetic separation of industrial products of medium fractions to obtain iron-containing commercial products and electromagnetic separation of industrial products of large fractions fractions with obtaining iron-containing commercial products and non-magnetic industrial products of large fractions.

There is also a well-known method of processing waste metallurgical slags according to the patent of Ukraine for a utility model Mo 43975, IPC 9 C2287/04, dated 04.16.2009, published on 09.10.2009, which includes operations for separating slag into industrial products of slag of large and medium fractions, electromagnetic separation of industrial product of medium fraction with obtaining iron-containing commercial products and electromagnetic separation of industrial product of large fraction with obtaining iron-containing commercial products and non-magnetic industrial product of large fraction.

The closest technical solution to the declared useful model in terms of the set of features and the technical result that is achieved is the method of blast furnace slag processing according to the patent

of Ukraine for a utility model according to the application Mo and 200913525, IPC 9 C2287/04, dated 25.12.2010, the decision on the issuance of a declaratory patent dated 26.03.2010, which includes the technological process of operations for the separation of blast furnace slag into industrial products of large and medium fraction , electromagnetic separation of industrial products of medium and large fractions to obtain iron-containing commercial products and non-magnetic industrial products of medium and large fractions, crushing of non-magnetic industrial products of large fractions with subsequent separation of 3 by electromagnetic separation of iron-containing commercial products and non-magnetic industrial products of substandard fractions.

A general disadvantage is that in the above methods of blast furnace slag processing, the obtained non-magnetic industrial product of a large fraction is removed from the technological process

From processing. Due to its properties, the specified non-magnetic industrial product does not meet the requirements

DSTU B B.2.7-35-95 "Building materials. Crushed stone, sand and crushed stone-sand mixture from blast furnace and steelmaking slags for general construction works. General technical conditions", according to which clean slag should not contain iron particles larger than 5 mm and have the appropriate conditioning fraction. Therefore, it was not widely used in certain branches of construction, in particular in civil construction. As a result, the non-magnetic industrial product is classified as processing waste and dumped in landfills, thus polluting the environment and occupying useful land areas. As a result, complete slag processing is not ensured, which leads to loss of metal contained in the cores of the non-magnetic industrial product of blast furnace or steelmaking slag of large fraction.

The useful model is based on the task of improving the method of blast furnace slag processing by creating optimal conditions for blast furnace slag processing, which ensures the opening of cores in the large blast furnace slag fraction, which determines the effectiveness of its magnetic susceptibility and the complete extraction of metal from the blast furnace slag, and due to of this, to ensure waste-free processing technology with obtaining iron-containing commercial products effective for use in the process of metallurgical redistribution and clean conditioned slags for wide use in all branches of industry.

The problem is solved by the fact that in the method of blast furnace slag processing, which includes the technological process of the operations of separating blast furnace slag into industrial products of large and medium fractions, electromagnetic separation of industrial products of medium and large fractions to obtain iron-containing commodity products of large and medium fractions and non-magnetic industrial products of medium and large fractions , crushing of non-magnetic industrial product of large fraction with subsequent separation from it by electromagnetic separation of iron-containing commercial products of medium fraction and non-magnetic industrial product of substandard fraction, according to a useful model, in the technological process of blast furnace slag processing, the obtained non-magnetic industrial product of medium fraction is subjected to screening with separation of super-screened non-magnetic industrial products from it of medium and fine fractions and clean conditioned slag in the form of screening with subsequent electromagnetic separation of super-screened non-magnetic industrial products of medium and fine fractions and obtaining from accordingly, iron-containing commercial products of medium and fine fractions, and clean slags of medium and fine condition fractions, and non-magnetic industrial product of the non-condition fraction are returned to the beginning of the mentioned technological process for repeated processing together with the initial blast furnace slag.

According to the useful model, the super-screened non-magnetic industrial product of the medium fraction is subjected to electromagnetic separation using a pulley electromagnetic iron separator.

The ultra-screened non-magnetic industrial product of the fine fraction is subjected to electromagnetic separation using a drum electromagnetic separator.

Due to the fact that in the technological process of blast furnace slag processing, the obtained non-magnetic industrial product of the medium fraction is subjected to sieving with the selection of 3 over-screened non-magnetic industrial products of medium and fine fractions and clean conditioned slag in the form of screening with further electromagnetic separation of over-screened non-magnetic industrial products of medium and small fractions and obtaining, respectively iron-containing commercial products of medium and small fractions, and clean slags of medium and small conditioned fractions, and the non-magnetic industrial product of the non-conditioned fraction is returned to the beginning of the mentioned technological process for reprocessing together with the initial blast furnace slag, a waste-free processing technology is provided with the production of iron-containing commercial products effective for use in process of metallurgical redistribution and clean conditioned slags for wide use in all branches of industry.

Information confirming the possibility of industrial use of blast furnace slag processing method.

According to the method, the initial blast furnace slag is divided into industrial products of large and medium fractions. Next, the industrial product of the medium fraction (0-80 mm) is submitted to electromagnetic separation, which is carried out using a block of drum electromagnetic separators.

The industrial product of blast furnace slag of the coarse fraction (80-500) mm is sent to electromagnetic separation using a pulley electromagnetic iron separator to obtain an iron-containing commercial product of the coarse fraction, and non-magnetic industrial product of the coarse fraction (80-500) mm. The obtained commercial iron-containing product of a large fraction is removed from the technological process to the warehouse for use in the process of further secondary metallurgical redistribution. A non-magnetic industrial product of a large fraction (80-500) mm is directed to

From crushing using a jaw crusher. Then the industrial product obtained after crushing is subjected to electromagnetic separation with the help of a pulley electromagnetic iron separator to obtain a marketable iron-containing product of medium fraction (0-100) mm and non-magnetic industrial product of substandard fraction. The mentioned non-magnetic industrial product of substandard fraction (0-100) mm is returned to the beginning of the technological process for repeated processing together with the initial blast furnace slag. At the same time, the industrial products of the medium fraction, obtained as a result of the separation of the mixture of the initial slag and the non-magnetic industrial product of the substandard fraction, are subjected to electromagnetic separation with the help of drum electromagnetic separators to obtain the iron-containing commercial product of the medium fraction and the non-magnetic industrial product of the average fraction.

Next, the non-magnetic industrial product of the medium fraction is fed to a two-row screen, with the help of which over-screen non-magnetic industrial products of medium and fine fractions and clean conditioned slag are separated from it in the form of screening. Clean conditioned slag in the form of screening is sent to the storage hopper under clean slag in the form of screening. The over-screened non-magnetic industrial product of the medium fraction is sent to the pulley electromagnetic separator, which separates the iron-containing commercial product of the medium fraction and clean slag of the medium conditioned fraction. At the same time, the iron-containing commercial product of the medium fraction is sent to the storage hopper corresponding to the given fraction of the commercial product. Clean slag of the average condition fraction is also sent to the hopper suitable for this clean slag.

The ultra-screened non-magnetic industrial product of the fine fraction is sent to the drum electromagnetic separator, which is used to separate the iron-containing commercial product of the fine fraction and clean slag of the fine conditioned fraction. After that, the iron-containing commercial product of the fine fraction is sent in the same way to the storage hopper suitable for this fraction of the commercial product. The clean slag of the fine conditioned fraction is also sent to the hopper suitable for this clean slag.

Thus, as a result of blast furnace slag processing, iron-containing commercial products of large, medium and fine fractions and clean conditioned slag of medium and fine fractions and in the form of screening are obtained.

Collectively, these measures made it possible to raise the level of iron extraction from blast furnace slag and obtain clean, conditioned slag that meets the requirements of DSTU B V.2.7-35-95, which made it possible to use it in civil and industrial construction and thereby achieve a waste-free blast furnace slag processing technology .

Claims (2)

USEFUL MODEL FORMULA 1. The method of blast furnace slag processing, which includes the technological process of the operations of separating blast furnace slag into industrial products of large and medium fractions, electromagnetic separation of industrial products of medium and large fractions to obtain iron-containing commercial products of large and medium fractions and non-magnetic industrial products of medium and large fractions, crushing of non-magnetic industrial product large fraction with subsequent separation from it by electromagnetic separation of iron-containing commercial products of the medium fraction and non-magnetic industrial product of the substandard fraction, which is distinguished by the fact that in the technological process of blast furnace slag processing, the obtained non-magnetic industrial product of the medium fraction is subjected to screening with the separation from it of super-screened non-magnetic industrial products of medium and small fractions and clean conditioned slag in the form of screening with subsequent electromagnetic separation of super-screened non-magnetic industrial products of medium and small fractions and obtaining, accordingly, iron-containing products their products of medium and fine fractions, and clean slags of medium and fine condition fractions, and the non-magnetic industrial product of the non-condition fraction is returned to the beginning of the mentioned technological process for repeated processing together with the initial blast furnace slag. 2. The blast furnace slag processing method according to claim 1, which differs in that the super-screened non-magnetic industrial product of the medium fraction is subjected to electromagnetic separation using a pulley electromagnetic iron separator. C. The method of blast furnace slag processing according to claim 1, which differs in that the ultra-screened non-magnetic industrial product of a fine fraction is subjected to electromagnetic separation using a drum electromagnetic separator.