SU737469A1 - Gas-oxygen tuyere - Google Patents

Description

(54) GAZSZHISLORODNAYA FURMA

I

The invention relates to the field of ferrous metallurgy, and more specifically to the production of stainless and special steels in electric furnaces.

Technical solutions for gas-oxygen tuyeres, aimed at improving the technical indicators of melting, are currently known.

Gas-oxygen tuyeres are known that are used to purge metal melts in open-hearth and electric furnaces and are aimed at improving the technical and economic characteristics of smelting l.

The disadvantage of such tuyeres is the insufficient intensification of the smelting process associated with their design features.

As a prototype, a lance consisting of three concentrically arranged pipes is taken, a cooler and oxygen are supplied, a head with nozzles deposited on the dorsal side of the head at an angle of 10-20, and

opposite -20-7o to the vertical axis of the tuyere. In addition, the nozzle’s live section with a large tilt angle is equal to 66-75% of the total SOPLS2.7 live area. .

Known lance works as follows.

Oxygen through the gap between the inlet and outlet water pipes enters the tuyere head and nozzles, which

10 were directed from one side at an angle of iO-20, and from the other side - from 20 to 7 ° to the vertical axis, with a greater amount of oxygen (66-75%) passing through nozzles with a large angle of inclination.

15

The disadvantage of the tuyere's lime is that the introduction of gas jets into the metal, directed at a large angle to the vertical, is insignificant, and therefore the mixing of the metal bath and the mass transfer

20 in the volume of the melt are not intense, well, and. assimilation of oxygen - let out.

The aim of the invention is to intensify the melting process.

The goal is achieved by the fact that the nozzles are made on two mutually perpendicular central axes of the head with one-sided directionality, and the nozzles located on the first axis have different angles of inclination Hbie, and the nozzles are located on the second axis, are cross-sectional heads at an angle of 20-44 to the first axis in different directions from it and have the same angles of inclination to the vertical.

FIG. 1 and 2 show a lance for metalAa purge.

It consists of a head 1 with a single-light arrangement of nozzles 2, 3, one of which is located in the center of the head 1, All nozzles are made on two / mutually imperative central ones. axis x heads with their one-sided orientation, and the nozzles 2, 3, located on the first axis, have, in plan.; different angles of inclination, and the nozzles 4 located on the second axis are aligned in the transverse section of the head under

angle of 20-44 ° to the first axis in the piasHbie from the south side and have the same angles of inclination to the vertical. In addition, the nozzles located on the first and second axes of the head, have an angle of S45 to the vertical.

During the operation of the tuyere, cooling water circulates between the outer and inner tubes, gas is supplied to the central nozzle 2, and oxygen is supplied to the peripheral nozzles 3, 4, all of which have the same directionality, which, in operation, creates directional melt bath movement and provides improved oil exchange processes.

To improve the hydrodynamic characteristics of the bath during the purging and intensification of the process of decarburizing the metal of the nozzle, located on the first axis of the head, have an angle of inclination from 10 to the vertical. Nozzles located on the second axis, direction 737469

at an angle of 20–44 to the first axis i are different sides from it.

If the angle of inclination is more, then the gas flow is dispersed and will not be able to provide directional movement of the melt. In addition, there will be poor mixing of oxygen with 1az. At an inclination angle of less than 20, the jets can drain, which significantly impairs the aerodynamic parameters of the tuyere and the purge results.

The proposed lance design can be used to purge the metal in arc furnaces, allows intensifying the purging process and reducing the waste of alloying elements, in particular chromium, due to a faster oxidation process and improving mass transfer in the bath.

Claims (2)

1. USSR Author's Certificate No. 51О518, cl. C 21 C 5/48, 1976. 2. USSR author's certificate number 480767, cl. C 21 C 5/48, 1976.