RU2710826C1 - Lining of converter bottom with bottom tuyeres - Google Patents

Abstract

FIELD: metallurgy.SUBSTANCE: invention relates to ferrous metallurgy, particularly to lining of oxygen converter with combined metal blowing. Lined converter bottom with bottom tuyer, comprising lining working layer, in masonry of which there is a bottom tuyere with a protective unit. Bottom tuyere height is 1–50 % above the installation lining bottom of the converter bottom lining liner, and protective unit is made of one and more rows of periclase-carbon articles and has height of 1–60 % higher than masonry height of working layer of lining of converter bottom.EFFECT: invention increases service life of bottom tuyere and duration of operation of converter with neutral gas blowing through bottom tuyere of increased height size.1 cl, 1 dwg

Description

The invention relates to ferrous metallurgy, in particular to the lining of an oxygen converter with combined metal blowing: the upper blowing is carried out by oxygen, which is fed through the upper lance, the lower blowing is carried out by neutral gases through the bottom lance of an increased size in height.

Known lance for bottom metal gas purging, containing a socket block, with a refractory purging lance located in it with longitudinal slotted channels for supplying inert gas, enclosed on the side of the conical base into a metal sleeve to which a metal cover with holes for a gas supply tube is welded, covering the bottom a blowing lance with the formation of a gas distribution cavity communicated with longitudinal slotted channels, an annealed ceramic core in a concrete shell made in the form of br a mustache with longitudinal slotted channels, an indicator of wear located in the lower part of the purge lance [1] (Utility Model Patent of the Russian Federation, No. 118965, IPC ⁶ С21С5 / 48, 2012).

The disadvantage of this lance is the insufficient height above the working layer of the bottom and, as a result, the lack of a technical result for increasing the purge time.

The bottom of the converter is known, containing a gas distribution manifold with curved supply pipes, placed in a layer of refractory backfill between the working and reinforcing layers of the bottom lining, tuyere channels in the upper part 1 / 3-1 / 2 of the height filled with porous refractory, vertical ends of the supply pipelines are freely inserted bottom tuyere channels [2] (USSR Author's Certificate, No. 1346681, IPC ⁶ С21С5 / 48, 1985).

The disadvantage of this design is the complexity of the design and insufficient operating time compared with the refractory products of the bottom.

Known tuyere for bottom purging of metal in a converter containing concentrically arranged pipes forming gas supply paths and a protective medium,

a heat-insulating sheath of non-metallic non-combustible material mounted on an outer metal pipe on which a reinforcing layer of tightly wound carbon wire is located. [4] (USSR Author's Certificate, No. 1423603, IPC ⁶ C21C5 / 48, 1987).

The disadvantage of this design is the complexity of the design and the need to use expensive materials, as well as the technical result of increasing the durability, is achieved as the tuyere wears out, which may affect its throughput.

The closest solution to the invention is a tuyere block for bottom blowing, containing located on the surface of the tuyere pipe with a step equal to 1.4-10 calibers of the pipe, bushings with a length of 0.4-6 calibers of exothermic material. [4] (USSR Author's Certificate, No. 1715862, IPC ⁶ C21C5 / 48, 1989).

The disadvantage of the invention is the design complexity and the need to use expensive materials, as well as the technical result of increasing durability, is achieved as the tuyere is worn out, which may affect its throughput.

The objective of the invention is to increase the service life of the bottom tuyeres of the converter and the duration of operation of the converter with neutral gases purging through the bottom.

The problem is solved due to the fact that in the lining of the bottom of the converter with bottom tuyeres containing the working lining, the bottom tuyere, the following differences are provided: an increase of 1-50% in height of the bottom tuyere in height relative to the masonry of the working lining of the bottom of the converter.

In addition, the proposed lining of the converter bottom with bottom tuyeres is characterized by the presence of additional protective blocks lined around the bottom tuyeres, of an increased size along the height of the masonry of the working lining of the bottom of the converter, and the height of the protective blocks is 1-60% of the height of the masonry of the working lining of the bottom of the converter.

Thus, this technical solution meets the criterion of "novelty."

The analysis of patents and scientific and technical information did not reveal the use of new significant features used in the proposed solution. Therefore, the present invention meets the criterion of "inventive step".

The technical solution allows to increase the service life of the bottom tuyeres of the converter, to increase the duration of operation of the converter with purging through the bottom with neutral gases.

The essence of the proposed lining of the bottom of the Converter with bottom tuyeres is illustrated in the drawing, on which:

FIG. 1 is a general diagram of a converter lining bottom with bottom tuyeres and oversize blocks.

The proposed lining of the bottom of the converter with bottom tuyeres consists of a working lining 1, bottom tuyere 2, the protective unit 3.

The structural elements listed above are made as follows.

The working lining of the bottom of the converter 1 is made of refractory material based on periclase carbon. The height of the working layer 1 is 850-950 mm and depends on the geometry of the internal space of the converter, as well as on the structural features of the metal structure of the metallurgical unit. The bottom tuyere 2 has a height of 1-50% higher than the height N of the masonry of the working layer of the lining of the bottom of the converter 1. The minimum height of the bottom tuyere 2 is due to the failure to obtain a technical result, the maximum height of the bottom tuyere 2 is due, according to the hydrodynamic model, to a decrease in mass transfer to slag a metal solution, and as a result, a decrease in the technical and economic indicators of obtaining steel and extracting vanadium from cast iron. To increase the life of the bottom tuyeres 2, it is lined with a protective block 3 1-60% higher than the height of the working lining of the masonry of the bottom of the converter 1. The protective block 3 is made of refractory material. As a refractory material for the manufacture of the protective block 3, for example, periclase-carbon products made of high-quality, large-crystalline periclase with the addition of flake graphite are used.

The lining of the bottom of the converter with bottom tuyeres works as follows.

A working lining 1 is laid on the inner surface of the converter bottom according to technical drawings of EVRAZ NTMK JSC. Then the bottom tuyere 2 is inserted, which is lined with a protective block 3 made of a material, for example, periclase carbon.

The use of periclase-carbon refractory material made of high-quality, large-crystalline periclase with the addition of scaly graphite as a protective block 3 is due to the fact that this material is corrosion and erosion resistant to slag and metal, thereby protecting bottom tuyere 2 from burnout, and also prevents intensive cooling bottom tuyeres 2, which leads to an increase in the forty service of bottom tuyeres. Refractory material of the type of periclase carbon 3 is able to withstand high temperatures and compact the space between the bottom tuyere 2 and the working lining 1 of the converter bottom, which eliminates the ingress of liquid metal into the joints and seams of the masonry.

The height of the protective block 3 is preferably higher than 1-60% of the height of the working lining of the masonry of the bottom of the converter 1. The minimum size of the height of the protective block 3 is due to the failure to obtain a technical result, and the maximum height should ensure that the height of the bottom tuyere 2 and the bottom of the converter 1 is exceeded, thereby ensuring reliable operation of the bottom tuyere 2.

The number of rows of the protective block 3 is preferably from 1 or more rows, and the number of rows depends on the size of the bottom blocks themselves and the ability to protect the bottom tuyere 2. With a minimum value of the rows of the protective block in the amount of 1 row, the technical result of increasing the resistance of the bottom tuyere 2 is minimal, when the number of 3 rows or more leads to an increase in the thickness of the working layer of the working lining of the bottom of the Converter 1 and, as a result, to the cost of the project.

The proposed lining of the bottom of the converter with bottom tuyeres allows you to:

- increase the life of the bottom tuyeres of the converter;

- increase the duration of operation of the converter with purging through the bottom with neutral gases.

Pilot tests of the proposed lining of the bottom of the converter with bottom tuyeres at EVRAZ NTMK JSC gave high results in the durability of bottom tuyeres and converters compared with those used commercially at least 1.3-2.5 times.

Sources of information

[1] Patent for a utility model of the Russian Federation, No. 118965, IPC ⁶ C21C5 / 48, 2012.

[2] Copyright certificate of the USSR, No. 1346681, IPC ⁶ C21C5 / 48, 1985.

[3] Copyright certificate of the USSR, No. 1423603, IPC ⁶ C21C5 / 48, 1987.

[4] Copyright certificate of the USSR, No. 1715862, IPC ⁶ C21C5 / 48, 1989.

Claims (1)

The lined bottom of the converter with a bottom tuyere containing a lining working layer, in the masonry of which there is a bottom tuyere with a protective block, characterized in that the bottom tuyere is 1-50% higher than the masonry height of the working layer of the converter bottom lining, and the protective block is made of one and more rows of periclase-carbon products and has a height of 1-60% higher than the masonry height of the working layer of the lining of the bottom of the converter.

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